catalog 31

I

I n t ro d u c t i o n

© 2015 L.H. Dottie Company All Rights Reserved

I I

T e c h n o lo g y

I I I

G T S & Wa rr a n t y

I V

C o n t e n t s

FAST

ENER

S &

HARD

WAR

E

Fasteners & Hardware SECTION A

Fasteners & Hardware SECTION

A

A 1F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fast

ener

s &

Har

dwar

e

F l at H ea d Sl ott ed P C 4 0 0 0

CAT. NO. UP C S IZ E S TD S LV MS TR W T/ S TD

6 - 3 2

F la t he a d ma chi n e sc re ws pr o v id e a f l u sh sur fa ce . Le n g t h is d e te r m in e d f r om th e to p of th e fa s t e ne r he a d .

Fe at u re s:

TM8 - 3 2

1 0- 2 4

1 0- 3 2

1 /4 - 2 0

3 /8 - 1 6

6 - 3 2 Tu ff Pa c k

6 5 0 00 6 -3 2 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .1 9 # 6 5 0 02 6 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 4 # 6 5 0 04 6 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .3 0 #

6 5 0 06 6 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 8 # 6 5 0 08 6 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 4 # 6 5 0 10 6 -3 2 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .5 2 #

6 5 0 12 6 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 5 # 6 5 0 14 6 -3 2 x 2- 1 /2 1 0 0 1 0 0 0 0 .7 9 #

6 5 0 16 6 -3 2 x 3 1 0 0 1 0 0 0 0 .9 7 #

6 5 0 50 8 -3 2 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .2 9 # 6 5 0 52 8 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .3 4 # 6 5 0 54 8 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 2 #

6 5 0 56 8 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .5 2 # 6 5 0 58 8 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .6 4 # 6 5 0 60 8 -3 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .7 7 #

6 5 0 62 8 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 0 .9 4 # 6 5 0 64 8 -3 2 x 2- 1 /2 1 0 0 1 0 0 0 1 .2 5 #

6 5 0 66 8 -3 2 x 3 1 0 0 1 0 0 0 1 .3 6 #

6 5 1 00 1 0 -2 4 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .3 6 # 6 5 1 02 1 0 -2 4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 5 # 6 5 1 04 1 0 -2 4 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .5 7 #

6 5 1 06 1 0 -2 4 x 1 1 0 0 5 0 0 4 0 0 0 0 .7 3 # 6 5 1 08 1 0 -2 4 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .8 6 # 6 5 11 0 1 0 -2 4 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .9 4 #

6 5 11 2 1 0 -2 4 x 2 5 0 2 5 0 1 5 0 0 0 .6 5 #

6 5 1 50 1 0 -3 2 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .3 7 # 6 5 1 52 1 0 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 2 # 6 5 1 54 1 0 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .5 7 #

6 5 1 56 1 0 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .7 5 # 6 5 1 58 1 0 -3 2 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .8 7 # 6 5 1 60 1 0 -3 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .9 9 #

6 5 1 62 1 0 -3 2 x 2 5 0 2 5 0 1 5 0 0 0 .6 8 # 6 5 1 51 1 0 -3 2 x 3 1 0 0 1 0 0 0 2 .0 3 #

6 5 2 00 1 /4 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .6 9 # 6 5 2 02 1 /4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .7 8 # 6 5 2 04 1 /4 x 3 / 4 1 0 0 5 0 0 3 0 0 0 1 .1 2 #

6 5 2 06 1 /4 x 1 1 0 0 5 0 0 3 0 0 0 1 .4 8 # 6 5 2 08 1 /4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 1 .5 1 # 6 5 2 10 1 /4 x 1- 1 /2 5 0 2 5 0 1 5 0 0 0 .9 3 #

6 5 2 12 1 /4 x 2 5 0 2 5 0 1 5 0 0 1 .1 3 # 6 5 2 14 1 /4 x 2- 1 /2 1 0 0 1 0 0 0 2 .7 3 #

6 5 2 16 1 /4 x 3 1 0 0 1 0 0 0 3 .4 4 # 6 5 2 18 1 /4 x 4 1 0 0 1 0 0 0 3 .9 9 #

6 5 2 50 3 /8 x 3 / 4 1 0 0 1 0 0 0 3 .0 0 # 6 5 2 52 3 /8 x 1 1 0 0 1 0 0 0 3 .3 7 #

6 5 2 54 3 /8 x 1- 1 /4 1 0 0 1 0 0 0 4 .8 2 # 6 5 2 56 3 /8 x 1- 1 /2 1 0 0 1 0 0 0 5 .2 2 #

6 5 2 58 3 /8 x 2 1 0 0 1 0 0 0 6 .1 6 # 6 5 2 60 3 /8 x 2- 1 /2 1 0 0 4 0 0 6 .8 9 #

6 5 2 62 3 /8 x 3 1 0 0 4 0 0 8 .5 2 # 6 5 2 64 3 /8 x 4 1 0 0 4 0 0 1 0 .9 4 #

6 5 0 20 6 -3 2 x 1 5 0 0 3 0 0 0 2 .0 5 # 6 5 0 21 6 -3 2 x 1- 1 /4 5 0 0 3 0 0 0 2 .3 5 #

6 5 0 22 6 -3 2 x 1- 1 /2 5 0 0 3 0 0 0 2 .7 5 # 6 5 0 23 6 -3 2 x 2 3 0 0 1 8 0 0 3 .4 0 #

P a ck ag i ng :

S TD S LV

MS TR

M a c h i n e S c re w s

PAC K

A 2 CE L EB R AT I N G 5 0 YE A R S

Fasteners &

Hardware


P a ck ag i ng :

R ou nd H ea d Sl ott ed / P h il l ip s P C 4 0 0 0

Ro u n d he a d ma chi n e sc re ws pr o je c t ab o ve th e ma te r i a l sur fa ce . T h is h e a d s ty l e is use d wh e n c le a ra n ce is no t an imp o r ta n t fa c t o r. Le n g t h is d e te r m in e d f r om th e ba se of th e fa s t e ne r he a d .

Fe at u re s:

TM


6 - 3 2

5 5 8 20 6 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 0 # 5 5 8 22 6 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .2 6 #

5 5 8 24 6 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 7 # 5 5 8 25 6 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 0 # 5 5 8 26 6 -3 2 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .4 9 #

5 5 8 27 6 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 2 # 5 5 8 21 6 -3 2 x 2- 1 /2 1 0 0 1 0 0 0 0 .7 5 #

5 5 8 23 6 -3 2 x 3 1 0 0 1 0 0 0 0 .9 2 #

8 - 3 2

5 5 8 40 8 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 9 # 5 5 8 42 8 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 0 #

5 5 8 44 8 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .5 0 # 5 5 8 45 8 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .7 2 # 5 5 8 46 8 -3 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .8 2 #

5 5 8 47 8 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 1 .0 3 # 5 5 8 80 8 -3 2 x 2- 1 /2 1 0 0 1 0 0 0 1 .2 5 #

5 5 8 84 8 -3 2 x 3 1 0 0 1 0 0 0 1 .5 2 #

1 0- 2 4

5 5 8 60 1 0 -2 4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .6 5 # 5 5 8 62 1 0 -2 4 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .6 6 #

5 5 8 64 1 0 -2 4 x 1 1 0 0 5 0 0 4 0 0 0 0 .8 0 # 5 5 8 65 1 0 -2 4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .8 3 # 5 5 8 66 1 0 -2 4 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 1 .0 4 #

5 5 8 67 1 0 -2 4 x 2 5 0 2 5 0 1 5 0 0 1 .3 8 # 5 5 8 69 1 0 -2 4 x 3 1 0 0 5 0 0 3 0 0 0 1 .9 8 #

1 0- 3 2

5 5 8 70 1 0 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 0 # 5 5 8 72 1 0 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .6 9 #

5 5 8 74 1 0 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .8 2 # 5 5 8 75 1 0 -3 2 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .9 9 # 5 5 8 76 1 0 -3 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 1 .1 5 #

5 5 8 77 1 0 -3 2 x 2 5 0 2 5 0 1 5 0 0 0 .7 2 #

1 /4 - 2 0

3 /8 - 1 6



1 /4 - 2 0 Tu ff Pa c k

5 5 8 01 1 /4 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .8 8 # 5 5 8 00 1 /4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 1 .0 4 # 5 5 8 02 1 /4 x 3 / 4 1 0 0 5 0 0 3 0 0 0 1 .2 1 #

5 5 8 04 1 /4 x 1 1 0 0 5 0 0 3 0 0 0 1 .5 1 # 5 5 8 05 1 /4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 1 .7 6 # 5 5 8 06 1 /4 x 1- 1 /2 5 0 2 5 0 1 5 0 0 1 .0 2 #

5 5 8 07 1 /4 x 2 5 0 2 5 0 1 5 0 0 1 .2 7 # 5 5 8 12 1 /4 x 2- 1 /2 1 0 0 1 0 0 0 2 .9 2 #

5 5 8 13 1 /4 x 3 1 0 0 1 0 0 0 3 .4 3 # 5 5 8 14 1 /4 x 4 1 0 0 1 0 0 0 4 .5 9 #

5 5 8 32 3 /8 x 3 / 4 1 0 0 1 0 0 0 4 .2 5 # 5 5 8 33 3 /8 x 1 1 0 0 1 0 0 0 4 .2 8 #

5 5 8 34 3 /8 x 1- 1 /4 1 0 0 1 0 0 0 4 .7 7 # 5 5 8 35 3 /8 x 1- 1 /2 1 0 0 1 0 0 0 5 .2 2 #

5 5 8 36 3 /8 x 2 1 0 0 1 0 0 0 6 .4 1 # 5 5 8 37 3 /8 x 2- 1 /2 1 0 0 4 0 0 7 .5 7 #

5 5 8 38 3 /8 x 3 5 0 2 0 0 4 .2 2 # 5 5 8 39 3 /8 x 4 5 0 2 0 0 5 .0 1 #

5 5 8 28 6 -3 2 x 1 5 0 0 3 0 0 0 2 .0 4 # 5 5 8 29 6 -3 2 x 1- 1 /4 5 0 0 3 0 0 0 2 .4 6 # 5 5 8 30 6 -3 2 x 1- 1 /2 5 0 0 3 0 0 0 2 .7 2 #

5 5 8 31 6 -3 2 x 2 3 0 0 1 8 0 0 2 .11 #

5 5 8 48 8 -3 2 x 1 5 0 0 3 0 0 0 3 .0 5 # 5 5 8 49 8 -3 2 x 1- 1 /4 5 0 0 3 0 0 0 3 .6 5 # 5 5 8 50 8 -3 2 x 1- 1 /2 5 0 0 3 0 0 0 4 .0 9 #

5 5 8 51 8 -3 2 x 2 3 0 0 1 8 0 0 3 .2 0 #

5 5 8 08 1 /4 x 1 3 0 0 1 8 0 0 7 .6 9 # 5 5 8 09 1 /4 x 1- 1 /4 3 0 0 1 8 0 0 5 .1 5 # 5 5 8 10 1 /4 x 1- 1 /2 2 5 0 1 5 0 0 5 .1 5 #

5 5 8 11 1 /4 x 2 1 5 0 9 0 0 3 .7 3 #

S TD S LV

MS TRPAC K

A 3

Fast

ener

s &

Har

dwar

e

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M


R ou nd H ea d Sq u a re / Sl ot te d P C 4 0 2 0


6 - 3 2

Ro u n d he a d ma chi n e sc re ws pr o je c t ab o ve th e ma te r i a l sur fa ce . T h is h e a d s ty l e is use d wh e n c le a ra n ce is no t an imp o r ta n t fa c t o r. Le n g t h is d e te r m in e d f r om th e ba se of th e fa s t e ne r he a d .

Fe at u re s:

TM

P a ck ag i ng :

8 - 3 2

1 0- 2 4

1 0- 3 2

1 /4 - 2 0

6 5 4 80 6 -3 2 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .1 9 # 6 5 4 84 6 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 6 # 6 5 4 88 6 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .2 6 #

6 5 4 92 6 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 3 # 6 5 4 96 6 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 0 # 6 5 5 01 6 -3 2 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .4 9 #

6 5 5 05 6 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 2 #

6 5 5 12 8 -3 2 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .2 3 # 6 5 5 11 8 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 9 # 6 5 5 15 8 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 0 #

6 5 5 19 8 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .5 0 # 6 5 5 23 8 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .7 2 # 6 5 4 30 8 -3 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .8 2 #

6 5 5 20 8 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 0 .9 3 #

6 5 4 34 1 0 -2 4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 9 # 6 5 4 38 1 0 -2 4 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .6 2 #

6 5 4 42 1 0 -2 4 x 1 1 0 0 5 0 0 4 0 0 0 0 .7 5 # 6 5 4 46 1 0 -2 4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .9 5 # 6 5 4 50 1 0 -2 4 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 1 .0 3 #

6 5 4 54 1 0 -2 4 x 2 5 0 2 5 0 1 5 0 0 0 .6 6 #

6 5 4 58 1 0 -3 2 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .3 2 # 6 5 4 57 1 0 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 9 # 6 5 4 64 1 0 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .6 2 #

6 5 4 68 1 0 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .7 5 # 6 5 4 69 1 0 -3 2 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .8 5 # 6 5 4 71 1 0 -3 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .9 4 #

6 5 4 67 1 0 -3 2 x 2 5 0 2 5 0 1 5 0 0 0 .6 6 #

6 5 4 00 1 /4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .9 7 # 6 5 4 04 1 /4 x 3 / 4 1 0 0 5 0 0 3 0 0 0 1 .1 9 #

6 5 4 08 1 /4 x 1 1 0 0 5 0 0 3 0 0 0 1 .4 5 # 6 5 4 12 1 /4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 1 .6 9 # 6 5 4 16 1 /4 x 1- 1 /2 5 0 2 5 0 1 5 0 0 0 .9 9 #

6 5 4 20 1 /4 x 2 5 0 2 5 0 1 5 0 0 1 .2 1 # 6 5 4 24 1 /4 x 2- 1 /2 1 0 0 1 0 0 0 2 .7 3 #

Tr u ss H ea d Sl ott ed / P h il l ip s ( C om b o ) P C 4 0 0 5


6 - 3 2

Tr u ss He a d Ma chi n e Sc r ew s ar e ne e d e d wh e n in s t a l l i n g w i r i n g de v i ce s b e h in d wa l l p l a t e s . T h e pe r fe c t sc re w wh e n a lo w pr o f i l e fa s t e ne r is n e e de d .

Fe at u re s:

TM

11 6 4 6 6 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 0 # 11 6 4 7 6 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .2 6 #

11 6 4 8 6 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 7 # 11 6 4 9 6 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 0 # 11 6 5 0 6 -3 2 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .4 9 #

11 6 5 1 6 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 8 # 8 1 4 79 6 -3 2 x 3 1 0 0 1 0 0 0 0 .9 6 # 8 1 4 80 6 -3 2 x 4 1 0 0 1 0 0 0 1 .2 3 #

S TD S LV

MS TRPAC K

A 4 “ B U I L D I N G A B ET T E R B R A N D ”

Fasteners &

Hardware

M a c h i n e S c re w s & S t o v e B o lt s

F l at H ea d Sq u a re / P h il l i p s P C 4 0 2 0

F la t he a d ma chi n e sc re ws pr o v id e a f l u sh sur fa ce . Le n g t h is d e te r m in e d f r om th e to p of th e fa s t e ne r he a d .

Fe at u re s:

TM

P a ck ag i ng :


6 - 3 2

8 - 3 2

1 0- 2 4

1 0- 3 2

1 /4 - 2 0

6 5 4 82 6 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 0 # 6 5 4 86 6 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .2 6 #

6 5 4 90 6 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 3 # 6 5 4 94 6 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 0 # 6 5 4 98 6 -3 2 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .4 9 #

6 5 5 03 6 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 2 #

6 5 5 09 8 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 9 # 6 5 5 13 8 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 0 #

6 5 5 17 8 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .5 0 # 6 5 5 21 8 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .6 1 # 6 5 5 25 8 -3 2 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .7 2 #

6 5 4 35 1 0 -2 4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 9 # 6 5 4 36 1 0 -2 4 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .6 2 #

6 5 4 40 1 0 -2 4 x 1 1 0 0 5 0 0 4 0 0 0 0 .7 5 # 6 5 4 44 1 0 -2 4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .9 5 # 6 5 4 48 1 0 -2 4 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 1 .0 3 #

6 5 4 52 1 0 -2 4 x 2 5 0 2 5 0 1 5 0 0 0 .6 6 #

6 5 4 60 1 0 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 9 # 6 5 4 66 1 0 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .7 5 #

6 5 4 76 1 /4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .7 6 # 6 5 4 02 1 /4 x 3 / 4 1 0 0 5 0 0 3 0 0 0 1 .1 9 #

6 5 4 06 1 /4 x 1 1 0 0 5 0 0 3 0 0 0 1 .4 5 # 6 5 4 10 1 /4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 1 .6 9 # 6 5 4 14 1 /4 x 1- 1 /2 5 0 2 5 0 1 5 0 0 0 .9 9 #

6 5 4 18 1 /4 x 2 5 0 2 5 0 1 5 0 0 1 .2 1 # 6 5 4 22 1 /4 x 2- 1 /2 1 0 0 1 0 0 0 2 .7 3 #

Tr u ss H ea d Sl ott ed St ov e B olts w i th N u ts P C 4 0 2 2

S to ve bo l t s ha ve a t r uss he a d an d ar e fu rn i sh e d w i th he x nu t s . T h e h e a d pr o je c t s ab o ve th e ma te r i a l sur fa ce . T h is he a d s ty l e is use d wh e n c l e ar a n ce is an imp o r ta n t fa c t o r. Le n g t h is d e te r m in e d f r om th e ba se of th e fa s t e ne r he a d .

Fe at u re s:

TM


3 /1 6 ( 1 0- 2 4 )

1 /4 - 2 0

5 7 9 00 3 /1 6 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .8 9 # 5 7 9 02 3 /1 6 x 3 / 4 1 0 0 5 0 0 4 0 0 0 1 .0 4 #

5 7 9 04 3 /1 6 x 1 1 0 0 5 0 0 3 0 0 0 1 .1 8 # 5 7 9 06 3 /1 6 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 1 .3 3 # 5 7 9 08 3 /1 6 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 1 .4 7 #

5 7 9 10 3 /1 6 x 2 1 0 0 5 0 0 3 0 0 0 1 .7 6 #

5 7 9 50 1 /4 x 1 / 2 1 0 0 5 0 0 3 0 0 0 1 .7 4 # 5 7 9 52 1 /4 x 3 / 4 1 0 0 5 0 0 3 0 0 0 2 .11 #

5 7 9 54 1 /4 x 1 1 0 0 5 0 0 3 0 0 0 2 .2 6 # 5 7 9 56 1 /4 x 1- 1 /4 1 0 0 5 0 0 1 0 0 0 2 .5 2 # 5 7 9 58 1 /4 x 1- 1 /2 1 0 0 1 0 0 0 2 .7 8 #

5 7 9 60 1 /4 x 2 1 0 0 1 0 0 0 3 .3 0 #

S TD S LV

MS TRPAC K

A 5F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fast

ener

s &

Har

dwar

e

Wa ll P l at e & G ro u n d S c re w s

Wa l l P l ate Sl ott ed Ov a l H ea d P C 4 0 4 0


Ova l He a d Wa l l P l a te sc re ws ar e ava i l a b le in a var i e t y o f pa i n t ed f i n i she s such as I vor y, Wh i t e , Br ow n an d A l mo n d . T h ey ar e a l so ava i l a b le in ta mp e rp r oo f s ta i n le ss s te e l o r s lo t te d s ta i n le ss s te e l , ny l o n an d br a ss p l a t e d. Se l e c te d i t e ms in le n g t hs of 5 / 1 6 ” , 1 /2 ” , 3 / 4 ” an d 1 ” .

Fe at u re s:

Gro u nd Sc re w s P C 5 62 0

Gr o un d sc re ws ar e p l a t e d gr e e n fo r id e n t i f i cat i o n pu r p ose s an d ar e use d fo r g ro u n d in g p i g t a i l s or w i re . T h ey ha ve e i t h e r a 1/ 4 ” or 5 / 1 6 ” he a d w i th He x /S l o t t e d /P hi l l ip s / Sq u a re dr i ve. T h e 1/ 4 ” (1 0 3 2G & 10 3 2 GT P ) ha s a le a d e r po i n t ; th e 5/ 1 6 ” (1 0 3 2 T C & 10 3 2 T CT P) ha s a th re a d cut t in g po i n t .

Fe at u re s:

TM

CO LO R

1 5 8 92 6 -3 2 x 5 / 1 6 B ro wn 1 0 0 5 0 0 4 0 0 0 0 .1 8 # 1 5 8 94 6 -3 2 x 5 / 1 6 I vor y 1 0 0 5 0 0 4 0 0 0 0 .1 8 #

1 5 8 96 6 -3 2 x 5 / 1 6 W h i t e 1 0 0 5 0 0 4 0 0 0 0 .1 8 # 1 5 8 98 6 -3 2 x 5 / 1 6 A lmo n d 1 0 0 5 0 0 4 0 0 0 0 .1 8 # 1 5 9 00 6 -3 2 x 1 / 2 B ra ss 1 0 0 5 0 0 4 0 0 0 0 .2 4 # 1 5 9 05 6 -3 2 x 1 / 2 B ro wn 1 0 0 5 0 0 4 0 0 0 0 .2 4 #

1 5 9 10 6 -3 2 x 1 / 2 I vor y 1 0 0 5 0 0 4 0 0 0 0 .2 4 # 1 5 9 13 6 -3 2 x 1 / 2 Ny l o n 1 0 0 5 0 0 4 0 0 0 0 .2 4 # 1 5 9 15 6 -3 2 x 1 / 2 S ta i n le ss 1 0 0 5 0 0 4 0 0 0 0 .2 4 # 1 5 9 17 6 -3 2 x 1 / 2 Ta mp e r Pr oo f 1 0 0 5 0 0 4 0 0 0 0 .2 4 #

1 5 9 20 6 -3 2 x 1 / 2 W h i t e 1 0 0 5 0 0 4 0 0 0 0 .2 4 # 1 5 9 22 6 -3 2 x 1 / 2 A lmo n d 1 0 0 5 0 0 4 0 0 0 0 .2 4 #

1 5 9 25 6 -3 2 x 3 / 4 I vor y 5 0 2 5 0 2 0 0 0 0 .1 6 # 1 5 9 30 6 -3 2 x 3 / 4 B ro wn 5 0 2 5 0 2 0 0 0 0 .1 6 # 1 5 9 35 6 -3 2 x 3 / 4 W h i t e 5 0 2 5 0 2 0 0 0 0 .1 6 # 1 5 9 37 6 -3 2 x 3 / 4 A lmo n d 5 0 2 5 0 2 0 0 0 0 .1 6 #

1 5 9 40 6 -3 2 x 1 I vor y 5 0 2 5 0 2 0 0 0 0 .2 0 # 1 5 9 45 6 -3 2 x 1 B ro wn 5 0 2 5 0 2 0 0 0 0 .2 0 # 1 5 9 50 6 -3 2 x 1 W h i t e 5 0 2 5 0 2 0 0 0 0 .2 0 # 1 5 9 55 6 -3 2 x 1 A lmo n d 5 0 2 5 0 2 0 0 0 0 .2 0 #

CAT. NO. UP C DE S CRI P TI ONS CRE W

S IZ ES LV MS TR W T/ S TD

S IZ E

1 4 1 07 L e a de r Po i n t 1 /4 ” 1 0 -3 2 x 3 / 8 ” 1 0 0 1 0 0 0 0 .4 4 # He x / S l o t te d / P hi l l ip s / Sq u a re

1 4 1 08 Tu f f Pa ck 1 /4 ” 1 0 -3 2 x 3 / 8 ” 5 0 0 3 0 0 0 2 .2 0 #

1 4 1 09 T h re a d Cu t t i n g P t . 5 /1 6 ” 1 0 -3 2 x 3 / 8 ” 1 0 0 1 0 0 0 0 .5 0 # He x / S l o t te d P hi l l ip s / Sq u a re

1 4 111 Tu f f Pa ck 5 /1 6 ” 1 0 -3 2 x 3 / 8 ” 5 0 0 3 0 0 0 2 .5 5 #

APS1 12 Compar tmen t cons is t ing o f 450 asso r ted sc rews: Whi te , I vo ry, A lmond, S ta in less, Br ass & Ny lon

APS2 6 Compar tmen t cons is t ing o f 450 asso r ted sc rews: Whi te , A lmond & I vo ry

A 6 CE L EB R AT I N G 5 0 YE A R S

Fasteners &

Hardware

To g g l e B o lt s

M u sh roo m H ea d w i th Sp r i n g W i ng P C 4 0 5 0

L i gh t to me di u m du t y an ch o rs fo r use in ho l l o w wa l ls . Mu shr o o m he a d pr o v id e s a la r ge b e a r i n g sur fa ce .

Fe at u re s:

T e c h

Z inc Chromate p la t ing i s t he mos t w ide ly used p la t ing , and i s desi gna ted in ou r ca ta log as Z inc p la ted . I t has good t o exce l len t co r ros ion r es is tance and i s r e l at i ve ly non- tox i c.

S ta in less S tee l i s p rov ided in 18 -8 un less o the r g rades a re r equested . 18- 8 is du rab le, non- magne t ic and h igh ly co r ros ion r es is tan t . I t i s t he mos t popu la r and r ead i l y avai lable .

Ta lk

1 /8 ( 6 - 3 2)

CAT. NO. UP C S IZ E DR IL L S TD MS TR W T/ S TDDE S CRI P TI ON

1 6 8 48 1 /8 x 2 S lo t te d / Ph i l l i p s (C o mb o ) 5 0 5 0 0 0 .7 5 # 1 5 3 92 1 /8 x 2 S qu a r e/ S lo t te d (C o mb o ) 5 0 5 0 0 0 .7 5 #



3 /1 6 ( 1 0- 2 4 )

1 /4 - 2 0

3 /8 - 1 6

1 /2 - 1 3

1 6 8 49 3 /1 6 x 2 S lo t te d / Ph i l l i p s (C o mb o ) 5 0 5 0 0 1 .6 3 # 1 6 7 92 3 /1 6 x 2 S qu a r e/ S lo t te d (C o mb o ) 5 0 5 0 0 1 .6 3 #



1 6 8 10 3 /1 6 x 6 S lo t te d 5 0 5 0 0 3 .2 8 #

1 6 8 59 1 /4 x 2 S lo t te d / Ph i l l i p s (C o mb o ) 5 0 5 0 0 2 .6 5 # 1 6 8 60 1 /4 x 3 S lo t te d / Ph i l l i p s (C o mb o ) 5 0 5 0 0 3 .2 2 #

1 5 1 97 1 /4 x 3 S qu a r e/ S lo t te d (C o mb o ) 5 0 5 0 0 3 .2 5 # 1 6 8 65 1 /4 x 4 S lo t te d / Ph i l l i p s (C o mb o ) 5 0 5 0 0 3 .8 0 #

1 5 2 02 1 /4 x 4 S qu a r e/ S lo t te d (C o mb o ) 5 0 5 0 0 3 .5 0 # 1 5 2 05 1 /4 x 5 S lo t te d 5 0 5 0 0 3 .9 8 # 1 5 2 10 1 /4 x 6 S lo t te d 5 0 5 0 0 4 .5 0 #

1 6 8 15 3 /8 x 3 S lo t te d 5 0 5 0 0 6 .6 8 # 1 6 8 20 3 /8 x 4 S lo t te d 5 0 2 0 0 8 .5 5 # 1 6 8 25 3 /8 x 5 S lo t te d 2 5 1 0 0 5 .1 0 # 1 6 8 30 3 /8 x 6 S lo t te d 2 5 1 0 0 8 .8 9 #

1 6 8 35 1 /2 x 4 S lo t te d 2 5 1 0 0 11 . 1 2 # 1 6 8 40 1 /2 x 5 S lo t te d 2 5 1 0 0 11 . 0 9 # 1 6 8 45 1 /2 x 6 S lo t te d 2 5 1 0 0 11 . 0 6 #

Al l o wa b l e L o ad C ap ac it i e s F o r To g g l e B o lt s In Wa l l b o a r d

D IA ME TE R TE N S IO N TE N S IO N TE N S IO N TE N S IO N

1 /8 ” 3 0 3 0 4 0 3 5 5 0 4 5 5 5 5 53 /1 6 ” 3 5 3 0 4 5 5 0 6 0 6 0 7 5 7 01 /4 ” 5 5 5 5 6 0 6 0 6 5 6 5 8 0 7 53 /8 ” 6 0 6 5 6 5 7 5 7 5 8 0 8 5 9 01 /2 ” 6 5 7 0 8 0 8 0 1 0 0 9 5 1 0 5 1 0 0

Al l owab le l oad c apac i t i es l i s ted a r e c a l c u l a ted us i ng an app l i ed s a fes t fa ct o r o f 4 . 0 .

Fe at u re s:

A 7

Fast

ener

s &

Har

dwar

e

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Ta m p e r P ro o f

On e Way M a c h in e Sc re w s- S ta i nl e ss P C 6 68 0

On e wa y ro u n d he a d sc re ws can be in s t a l l e d w i th a con ve n t io n a l s l o t t e d sc re wd r ive r, bu t can on l y be re mo ve d w i th a on e - wa y ta mp e r p ro o f re mo va l to o l . No te : T h is to o l ha s tw o pr o t r u d in g car b id e t i p s wh i ch d i g in an d gr i p th e sc re w fo r re mo va l . Wh i l e s im i l a r in a p p ea r a nce , i t is no t a spa n n e r dr i ver.

On e Way H a nd D r iv e r ( Re m ov a l Tool ) P C 6 67 0

T h is to o l ha s tw o pr o t r u d in g car b id e t i p s wh i ch d i g in an d gr i p th e sc re w fo r re mo va l . Wh i l e s im i l a r in ap p e a ra n ce , i t is no t a spa n n e r d r i ve r.

Fe at u re s:

TM

CAT. NO. UP C S IZ E S TDDR IV E R W T/ S TD

6 - 3 2

0 9 9 68 6 -3 2 x 1 / 2 OW 6 8 1 0 0 0 .2 4 # 0 9 9 78 6 -3 2 x 3 / 4 OW 6 8 1 0 0 0 .3 2 #

0 9 9 72 6 -3 2 x 1 OW 6 8 1 0 0 0 .3 9 # 0 9 9 62 6 -3 2 x 1- 1 /2 OW 6 8 1 0 0 0 .5 3 #

0 9 9 75 6 -3 2 x 2 OW 6 8 1 0 0 0 .6 8 #

8 - 3 2

0 9 9 90 8 -3 2 x 1 / 2 OW 8 1 0 1 0 0 0 .3 9 # 1 0 0 01 8 -3 2 x 3 / 4 OW 8 1 0 1 0 0 0 .5 0 #

0 9 9 94 8 -3 2 x 1 OW 8 1 0 1 0 0 0 .6 2 # 0 9 9 82 8 -3 2 x 1- 1 /2 OW 8 1 0 1 0 0 0 .8 3 #

0 9 9 98 8 -3 2 x 2 OW 8 1 0 1 0 0 1 .0 6 #

1 0- 2 4

0 9 9 05 1 0 -2 4 x 1 / 2 OW 8 1 0 1 0 0 0 .5 4 # 0 9 9 15 1 0 -2 4 x 3 / 4 OW 8 1 0 1 0 0 0 .6 9 #

0 9 9 09 1 0 -2 4 x 1 OW 8 1 0 1 0 0 0 .8 3 # 0 9 8 97 1 0 -2 4 x 1- 1 /2 OW 8 1 0 1 0 0 1 .11 #

0 9 9 12 1 0 -2 4 x 2 OW 8 1 0 5 0 0 .6 9 #

1 0- 3 2

0 9 9 25 1 0 -3 2 x 1 / 2 OW 8 1 0 1 0 0 0 .5 4 # 0 9 9 36 1 0 -3 2 x 3 / 4 OW 8 1 0 1 0 0 0 .6 9 #

0 9 9 30 1 0 -3 2 x 1 OW 8 1 0 1 0 0 0 .8 3 # 0 9 9 19 1 0 -3 2 x 1- 1 /2 OW 8 1 0 1 0 0 1 .11 #

0 9 9 33 1 0 -3 2 x 2 OW 8 1 0 5 0 0 .6 9 #

1 /4 - 2 0

0 9 9 48 1 /4 x 1 / 2 OW 1 2 1 4 1 0 0 1 .11 # 0 9 9 58 1 /4 x 3 / 4 OW 1 2 1 4 1 0 0 1 .3 6 #

0 9 9 52 1 /4 x 1 OW 1 2 1 4 1 0 0 1 .6 1 # 0 9 9 40 1 /4 x 1- 1 /2 OW 1 2 1 4 5 0 1 .0 6 #

Fe at u re s:

CAT. NO. UP C S IZ E S TDDE S CRI P TI ON W T/ S TD

2 3 0 00 # 6 -# 8 Re mo va l To o l 1 1 0 0 .2 5 # 2 3 0 05 # 8 -# 1 0 Re mo va l To o l 1 1 0 0 .3 1 #

2 3 0 10 # 1 2 -# 1 4 Re mo va l To o l 1 1 0 0 .3 5 #

MS TR

T e c h

They a re : One Way, Spanner, Hex P in , and S ta r P in (To rx®) . Tamperp roof sc rews a re avai lab le in s ta in less s teel and b lack o r a l loy s tee l , s ta in less be ing t he mos t p re fe r r ed . We wi l l p rov ide s ta in less sc rews un less o ther w ise r equested – subj ec t t o avai labi l i t y.

Ta lk

P a ck ag i ng :

S TD S LV

MS TR

A 8 “ B U I L D I N G A B ET T E R B R A N D ”

Fasteners &

Hardware

Sp a n n er M a c h in e Sc re w s- S ta i nl e ss P C 6 68 0

Ta mp e r re s i s ta n t sc re ws ar e de s i g n e d to pr e ve nt van d a l i sm an d th e f t . Use pr o p er b i t or dr i ver to re mo ve (o n e wa y, he x p i n , s ta r p i n or sp a n ne r ) . Ch o o se f r om th e he a d s ty l e ava i l a b le : Pa n or F l a t .

Fe at u re s:

TM

CAT. NO. UP C S IZ E S TDDR IV E RI NS ER T

W T /S TD

6 - 3 2

11 7 3 0 6 -3 2 x 1 / 2 11 5 - 6 S PN 6 1 0 0 0 .2 4 # 11 7 3 1 6 -3 2 x 3 / 4 11 5 - 6 S PN 6 1 0 0 0 .3 2 #

11 7 3 2 6 -3 2 x 1 11 5 - 6 S PN 6 1 0 0 0 .3 9 # 11 7 3 3 6 -3 2 x 1- 1 /4 11 5 - 6 S PN 6 1 0 0 0 .4 6 # 11 7 3 4 6 -3 2 x 1- 1 /2 11 5 - 6 S PN 6 1 0 0 0 .5 3 #

11 7 3 5 6 -3 2 x 2 11 5 - 6 S PN 6 1 0 0 0 .6 8 #

8 - 3 2

11 7 3 6 8 -3 2 x 1 / 2 11 5 - 8 S PN 8 1 0 0 0 .3 9 # 11 7 3 7 8 -3 2 x 3 / 4 11 5 - 8 S PN 8 1 0 0 0 .5 0 #

11 7 3 8 8 -3 2 x 1 11 5 - 8 S PN 8 1 0 0 0 .6 2 # 11 7 3 9 8 -3 2 x 1- 1 /4 11 5 - 8 S PN 8 1 0 0 0 .7 3 # 11 7 4 0 8 -3 2 x 1- 1 /2 11 5 - 8 S PN 8 1 0 0 0 .8 3 #

11 7 4 1 8 -3 2 x 2 11 5 - 8 S PN 8 1 0 0 1 .0 6 #

1 0- 2 4

11 7 4 2 1 0 -2 4 x 1 / 2 11 5 - 10 S PN 10 1 0 0 0 .5 4 # 11 7 4 3 1 0 -2 4 x 3 / 4 11 5 - 10 S PN 10 1 0 0 0 .6 9 #

11 7 4 4 1 0 -2 4 x 1 11 5 - 10 S PN 10 1 0 0 0 .8 3 # 11 7 4 5 1 0 -2 4 x 1- 1 /4 11 5 - 10 S PN 10 1 0 0 0 .9 7 # 11 7 4 6 1 0 -2 4 x 1- 1 /2 11 5 - 10 S PN 10 1 0 0 1 .11 #

11 7 4 7 1 0 -2 4 x 2 11 5 - 10 S PN 10 5 0 0 .6 9 #

1 0- 3 2

11 7 4 8 1 0 -3 2 x 1 / 2 11 5 - 10 S PN 10 1 0 0 0 .5 4 # 11 7 4 9 1 0 -3 2 x 3 / 4 11 5 - 10 S PN 10 1 0 0 0 .6 9 #

11 7 5 0 1 0 -3 2 x 1 11 5 - 10 S PN 10 1 0 0 0 .8 3 # 11 7 5 1 1 0 -3 2 x 1- 1 /4 11 5 - 10 S PN 10 1 0 0 0 .9 7 # 11 7 5 2 1 0 -3 2 x 1- 1 /2 11 5 - 10 S PN 10 1 0 0 1 .11 #

11 7 5 3 1 0 -3 2 x 2 11 5 - 10 S PN 10 5 0 0 .6 9 #

1 /4 - 2 0

11 7 5 4 1 /4 x 1 / 2 11 5 - 14 S PN 14 1 0 0 1 .11 # 11 7 5 5 1 /4 x 3 / 4 11 5 - 14 S PN 14 1 0 0 1 .3 6 #

11 7 5 6 1 /4 x 1 11 5 - 14 S PN 14 1 0 0 1 .6 1 # 11 7 5 7 1 /4 x 1- 1 /4 11 5 - 14 S PN 14 1 0 0 1 .8 7 # 11 7 5 8 1 /4 x 1- 1 /2 11 5 - 14 S PN 14 5 0 1 .0 6 #

11 7 5 9 1 /4 x 2 11 5 - 14 S PN 14 5 0 1 .3 1 #

* F la t hea d ava i l ab l e on s pec ia l o r der, w hen o r der i ng r ep lac e s u f f i x ‘P ’ w i t h ‘F ’ .

Sp a n n er I ns ert B it s & H a nd D r iv e rs P C 6 72 0 , 6 71 0 , 6 67 0

S pa n n e r Sc r ew s mu s t be in s t a l l e d or re mo ve d us i n g a ma tch i n g dr i ve wh i ch re d u ces th e cha n ce s of un a u t h or i zed re mo va l . Ava i l a b l e in Ha n d Dr i ver s an d In se r t B i t s .

Fe at u re s:

In s e r t B i t s - PC 67 2 0

CAT. NO. UP CS CRE W

S IZ ES TDDE S CRI P TI ON W T/ S TDMS TR

3 11 5 6 # 6 S pa n n e r B i t 1 5 0 .0 1 # 3 11 5 8 # 8 S pa n n e r B i t 1 5 0 .0 1 #

3 11 5 0 # 1 0 S pa n n e r B i t 1 5 0 .0 2 # 3 11 5 2 # 1 2 S pa n n e r B i t 1 5 0 .0 2 # 3 11 5 4 # 1 4 S pa n n e r B i t 1 5 0 .0 2 #

H an d Dr i ve r s - PC 66 7 0

2 3 0 15 # 6 S pa n n e r Ha n d Dr i ve r 1 1 0 0 .2 2 # 2 3 0 20 # 8 S pa n n e r Ha n d Dr i ve r 1 1 0 0 .2 2 #

2 3 0 25 # 1 0 S pa n n e r Ha n d Dr i ve r 1 1 0 0 .2 2 #

M ag n e t ic B i t Ho l de r - PC 67 1 0

1 6 9 48 1 /4 x 3 ” Ma gn e t ic 1 1 0 0 .11 # B i t Ho l de r

M ag n e t ic Ha n d Dr i ve r - PC 67 2 0

1 6 9 49 8 ” Ma gn e t ic Ha n d Dr i ve r 1 1 0 .2 0 #

P a ck ag i ng :

Ta m p e r P ro o f

S TD S LV

MS TR

A 9F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fast

ener

s &

Har

dwar

e

H ex P i n M a c h in e Sc re w s- S ta i nl e ss P C 6 68 0

Ta mp e r re s i s ta n t sc re ws ar e de s i g n e d to pr e ve nt van d a l i sm an d th e f t . Use pr o p er b i t or dr i ver to re mo ve (o n e wa y, he x p i n , s ta r p i n or sp a n ne r ) . Ch o o se f r om th e he a d s ty l e ava i l a b le : Bu t to n or F l a t .

H ex P i n I ns ert b it s & H a nd D r iv e rs P C 6 72 0 , 6 71 0 , 6 67 0

He x P i n Sc r ew s mu s t be in s t a l l e d or re mo ve d us i n g a ma tch i n g dr i ve wh i ch re d u ce s th e cha n ce s of un a u t h or i zed re mo va l . Ava i l a b l e in Ha n d Dr i ve rs a n d In se r t B i t s .

Fe at u re s:

TM

Fe at u re s:

CAT. NO. UP C S IZ E S TDDR IV E RI NS ER T

W T/ S TD

6 - 3 2

8 - 3 2

1 0- 2 4

1 0- 3 2

1 /4 - 2 0

* F l a t he ad ava i l ab l e on s pec ia l o r der, w hen o r der i ng r ep lac e s u f f i x ‘B ’ w i th ‘F ’ .

11 7 8 7 6 -3 2 x 1 / 2 7 3 TR 4 HP D1 8 1 0 0 0 .2 4 # 11 7 8 8 6 -3 2 x 3 / 4 7 3 TR 5 HP D1 8 1 0 0 0 .3 2 #

11 7 8 9 6 -3 2 x 1 7 3 TR 5 HP D1 8 1 0 0 0 .3 9 # 11 7 9 0 6 -3 2 x 1- 1 /4 7 3 TR 5 HP D1 8 1 0 0 0 .4 6 # 11 7 9 1 6 -3 2 x 1- 1 /2 7 3 TR 5 HP D1 8 1 0 0 0 .5 3 #

11 7 9 2 8 -3 2 x 1 / 2 7 3 TR 7 HP D5 3 2 1 0 0 0 .3 9 # 11 7 9 3 8 -3 2 x 3 / 4 7 3 TR 7 HP D5 3 2 1 0 0 0 .5 0 #

11 7 9 4 8 -3 2 x 1 7 3 TR 7 HP D5 3 2 1 0 0 0 .6 2 # 11 7 9 5 8 -3 2 x 1- 1 /4 7 3 TR 7 HP D5 3 2 1 0 0 0 .7 3 # 11 7 9 6 8 -3 2 x 1- 1 /2 7 3 TR 7 HP D5 3 2 1 0 0 0 .8 3 #

11 7 9 7 8 -3 2 x 2 7 3 TR 7 HP D5 3 2 1 0 0 1 .0 6 #

11 7 9 8 1 0 -2 4 x 1 / 2 7 3 TR 7 HP D5 3 2 1 0 0 0 .5 4 # 11 7 9 9 1 0 -2 4 x 3 / 4 7 3 TR 7 HP D5 3 2 1 0 0 0 .6 9 #

11 8 0 0 1 0 -2 4 x 1 7 3 TR 7 HP D5 3 2 1 0 0 0 .8 3 # 11 8 0 1 1 0 -2 4 x 1- 1 /4 7 3 TR 7 HP D5 3 2 1 0 0 0 .9 7 # 11 8 0 2 1 0 -2 4 x 1- 1 /2 7 3 TR 7 HP D5 3 2 1 0 0 1 .11 #

11 8 0 3 1 0 -3 2 x 1 / 2 7 3 TR 7 HP D5 3 2 1 0 0 0 .5 4 # 11 8 0 4 1 0 -3 2 x 3 / 4 7 3 TR 7 HP D5 3 2 1 0 0 0 .6 9 #

11 8 0 5 1 0 -3 2 x 1 7 3 TR 7 HP D5 3 2 1 0 0 0 .8 3 # 11 8 0 6 1 0 -3 2 x 1- 1 /4 7 3 TR 7 HP D5 3 2 1 0 0 0 .9 7 # 11 8 0 7 1 0 -3 2 x 1- 1 /2 7 3 TR 7 HP D5 3 2 1 0 0 1 .11 #

11 8 0 8 1 /4 x 1 / 2 7 3 TR 7 HP D5 3 2 1 0 0 1 .11 # 11 8 0 9 1 /4 x 3 / 4 7 3 TR 7 HP D5 3 2 1 0 0 1 .3 6 #

11 8 1 0 1 /4 x 1 7 3 TR 7 HP D5 3 2 1 0 0 1 .6 1 # 11 8 11 1 /4 x 1- 1 /4 7 3 TR 7 HP D5 3 2 1 0 0 1 .8 7 # 11 8 1 2 1 /4 x 1- 1 /2 7 3 TR 7 HP D5 3 2 5 0 1 .0 6 #

11 8 1 3 1 /4 x 2 7 3 TR 7 HP D5 3 2 5 0 1 .3 1 #

I n s e r t B i t s - PC 67 2 0

CAT. NO. UP CS CRE W

S IZ ES TDDE S CRI P TI ON W T/ S TDMS TR

2 2 7 33 # 4 -5 3 /3 2 ” He x P i n B i t 1 5 0 .0 1 # 2 2 7 35 # 6 1 /8 ” He x P i n B i t 1 5 0 .0 1 # 2 2 7 37 # 8 ,1 0 , 1 2, 1 4 5 /3 2 ” He x P i n B i t 1 5 0 .0 1 # 2 2 7 38 5 /1 6 ” 3 /1 6 ” He x P i n B i t 1 5 0 .0 1 # 2 2 7 39 3 /8 ” 7 /3 2 ” He x P i n B i t 1 5 0 .0 1 #

DR IV E R

H an d Dr i ve r s - PC 66 7 0 8 1 4 87 # 6 1 /8 ” He x P i n Dr i ve r 1 1 0 0 .2 0 #

8 1 4 88 # 8 -1 4 5 /3 2 ” He x P i n Dr i ve r 1 1 0 0 .2 0 #

M ag n e t ic B i t Ho l de r - PC 67 1 0 1 6 9 48 1 /4 x 3 ” 1 1 0 0 .11 #

Ma g n e t i c B i t Ho l d e r


1 6 9 49 8 ” Ma gn e t ic 1 1 0 .2 0 # Ha n d Dr i ve r

P a ck ag i ng :

Ta m p e r P ro o f

S TD S LV

MS TR

A 1 0 CE L EB R AT I N G 5 0 YE A R S

Fasteners &

Hardware

Ta m p e r P ro o f S c re w s , B i t s & D r iv e r s

St a r P i n M a c h in e Sc re w s - St a in l es s P C 6 68 0

Ta mp e r re s i s ta n t sc re ws ar e de s i g n e d to pr e ve nt van d a l i sm an d th e f t . Use pr o p er b i t o r dr i ver to re mo ve (o n e wa y, he x p i n , s ta r p i n or spa n n e r ) . Ch o o se f r om th e typ e he a d s t y le ava i l a b le : Bu t to n or F l a t .

Fe at u re s:

TM Up

CAT. NO. UP C S IZ E S TD W T /S TD

6 - 3 2

11 8 3 8 6 -3 2 x 1 / 2 60TR10 60TR15 STR10 STR15 1 0 0 0 .2 4 # 11 8 3 9 6 -3 2 x 3 / 4 60TR10 60TR15 STR10 STR15 1 0 0 0 .3 2 #

11 8 4 0 6 -3 2 x 1 60TR10 60TR15 STR10 STR15 1 0 0 0 .3 9 # 11 8 4 1 6 -3 2 x 1- 1 /2 60TR10 60TR15 STR10 STR15 1 0 0 0 .5 3 #

* F la t hea d ava i l ab l e on s pec ia l o r der, w hen o r der i ng r ep lac e s u f f i x ‘B ’ w i th ‘F ’ .

St a r P i n I ns ert b it s & H a nd D r iv e rs P C 6 72 0 , 6 71 0 , 6 67 0

S ta r P i n Sc r ew s mu s t be in s t a l l e d or re mo ve d us i n g a ma tch i n g dr i ve wh i ch re d u ces t he cha n ce s of un a u t h or i zed re mo va l . Ava i l a b l e in Ha n d Dr i ve rs an d In se r t B i t s .

Fe at u re s:

In s e r t B i t s - PC 67 2 0

CAT. NO. UP C S CRE W SI ZE S TDDE S CRI P TI ON W T/ S TDMS TR

H an d Dr i ve r s - PC 66 7 0

M ag n e t ic B i t Ho l de r - PC 67 1 0


8 - 3 2

11 8 4 2 8 -3 2 x 1 / 2 6 0 TR 1 5 6 0 TR 2 0 S TR 1 5 S TR 2 0 1 0 0 0 .3 9 # 11 8 4 3 8 -3 2 x 3 / 4 6 0 TR 1 5 6 0 TR 2 0 S TR 1 5 S TR 2 0 1 0 0 0 .5 0 #

11 8 4 4 8 -3 2 x 1 6 0 TR 1 5 6 0 TR 2 0 S TR 1 5 S TR 2 0 1 0 0 0 .6 2 # 11 8 4 5 8 -3 2 x 1- 1 /4 6 0 TR 1 5 6 0 TR 2 0 S TR 1 5 S TR 2 0 1 0 0 0 .7 3 # 11 8 4 6 8 -3 2 x 1- 1 /2 6 0 TR 1 5 6 0 TR 2 0 S TR 1 5 S TR 2 0 1 0 0 0 .8 3 #

1 0- 2 4

11 8 4 7 1 0 -2 4 x 1 / 2 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 0 .5 4 # 11 8 4 8 1 0 -2 4 x 3 / 4 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 0 .6 9 #

11 8 4 9 1 0 -2 4 x 1 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 0 .8 3 # 11 8 5 0 1 0 -2 4 x 1- 1 /4 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 0 .9 7 # 11 8 5 1 1 0 -2 4 x 1- 1 /2 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 1 .11 #

1 0- 3 2

11 8 5 2 1 0 -3 2 x 1 / 2 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 0 .5 4 # 11 8 5 3 1 0 -3 2 x 3 / 4 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 0 .6 9 #

11 8 5 4 1 0 -3 2 x 1 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 0 .8 3 # 11 8 5 5 1 0 -3 2 x 1- 1 /4 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 0 .9 7 # 11 8 5 6 1 0 -3 2 x 1- 1 /2 6 0 TR 2 5 6 0 TR 2 5 S TR 2 5 S TR 2 5 1 0 0 1 .11 #

1 /4 - 2 0

11 8 5 7 1 /4 x 1 / 2 6 0 TR 2 7 6 0 TR 2 7 S TR 2 7 S TR 2 7 1 0 0 1 .11 # 11 8 5 8 1 /4 x 3 / 4 6 0 TR 2 7 6 0 TR 3 0 S TR 2 7 S TR 3 0 1 0 0 1 .3 6 #

11 8 5 9 1 /4 x 1 6 0 TR 2 7 6 0 TR 3 0 S TR 2 7 S TR 3 0 1 0 0 1 .6 1 # 11 8 6 0 1 /4 x 1- 1 /4 6 0 TR 2 7 6 0 TR 3 0 S TR 2 7 S TR 3 0 1 0 0 1 .8 7 # 11 8 6 1 1 /4 x 1- 1 /2 6 0 TR 2 7 6 0 TR 3 0 S TR 2 7 S TR 3 0 5 0 1 .0 6 #

2 2 6 10 # 6 BH T 1 0 St a r P i n B i t 1 5 0 .0 1 # 2 2 6 15 # 6 FH , #8 B H T 1 5 St a r P i n B i t 1 5 0 .0 1 # 2 2 6 20 # 8 FH T 2 0 St a r P i n B i t 1 5 0 .0 1 # 2 2 6 25 # 1 0 FH , #1 0 B H T 2 5 St a r P i n B i t 1 5 0 .0 1 # 2 2 6 27 1 /4 F H, 1/ 4 B H T 2 7 St a r P i n B i t 1 5 0 .0 1 # 2 2 6 30 1 /4 F H T 3 0 St a r P i n B i t 1 5 0 .0 1 #

2 3 0 30 # 6 BH T 1 0 St a r P i n Dr i ve r 1 1 0 0 .1 8 # 2 3 0 35 # 6 FH , #8 B H T 1 5 St a r P i n Dr i ve r 1 1 0 0 .1 8 # 2 3 0 40 # 8 FH T 2 0 St a r P i n Dr i ve r 1 1 0 0 .1 8 # 2 3 0 45 # 1 0 FH , #1 0 B H T 2 5 St a r P i n Dr i ve r 1 1 0 0 .1 9 # 2 3 0 50 1 /4 F H, 1/ 4 B H T 2 7 St a r P i n Dr i ve r 1 1 0 0 .2 1 # 2 3 0 52 1 /4 F H T 3 0 St a r P i n Dr i ve r 1 1 0 0 .2 2 #

1 6 9 48 1 /4 x 3 ” Ma gn e t ic 1 1 0 0 .11 # B i t Ho l de r

1 6 9 49 8 ” Ma gn e t ic 1 1 0 0 .2 0 # Ha n d Dr i ve r

P a ck ag i ng :

S TD S LV

MS TR

A 1 1

Fast

ener

s &

Har

dwar

e

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

P a n H ea d P h i l l ip s - St a in l es s P C 4 0 1 0S ta i n le ss s te e l pa n he a d ma chi n e sc re ws pr o je c t ab o ve th e ma te r i a l su r f a ce . T h is he a d s ty l e is use d wh e n c le a ra n ce is no t an imp o r ta n t f ac t o r. Le n g t h is de t e rm i n e d f r om th e ba se of th e fa s t e ne r he a d . S ta i n le ss s te e l re s i s ts cor ro s i o n an d is id e a l fo r ap p l i ca t i o n s wh e re ch e m i cal re s i s ta n ce is re q u i r e d .

R ou nd H ea d Sl ott ed - So l id B ra s s P C 4 27 0B ra ss ro u n d he a d ma chi n e sc re ws pr o je c t ab o ve th e ma te r i a l sur fa ce . T h is he a d s ty l e is use d wh e n c le a ra n ce is no t an imp o r ta n t fa c t o r. L e n gt h is de t e rm i n e d f r om th e ba se of th e fa s t e ne r he a d . Br ass ha s g o o d cor ro s i o n an d ru s t re s i s ta n ce , esp e c i a l ly in sa l t wa te r an d sa l t a i r. I t is no n ma gn e t ic .

Fe at u re s:

TM


6 - 3 2

8 - 3 2

1 0- 2 4

1 0- 3 2

1 /4 - 2 0

7 0 1 04 6 -3 2 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .1 9 # 7 0 1 06 6 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 2 # 7 0 1 08 6 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .3 0 #

7 0 11 0 6 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 7 # 7 0 11 2 6 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 3 # 7 0 11 4 6 -3 2 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .5 1 #

7 0 11 6 6 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 7 #

7 0 1 20 8 -3 2 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .3 0 # 7 0 1 22 8 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .3 5 # 7 0 1 24 8 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 6 #

7 0 1 26 8 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .5 6 # 7 0 1 28 8 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .6 7 #

7 0 1 30 8 -3 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .7 7 # 7 0 1 32 8 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 1 .0 1 #

7 0 1 40 1 0 -2 4 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .4 1 # 7 0 1 42 1 0 -2 4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 9 # 7 0 1 44 1 0 -2 4 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .6 2 #

7 0 1 46 1 0 -2 4 x 1 1 0 0 5 0 0 4 0 0 0 0 .7 5 #

7 0 1 60 1 0 -3 2 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .4 1 # 7 0 1 62 1 0 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 9 # 7 0 1 64 1 0 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .6 2 #

7 0 1 68 1 0 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .7 5 #

7 0 1 80 1 /4 x 3 / 8 1 0 0 5 0 0 4 0 0 0 0 .8 4 # 7 0 1 82 1 /4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .9 7 # 7 0 1 84 1 /4 x 3 / 4 1 0 0 5 0 0 3 0 0 0 1 .1 9 #

7 0 1 86 1 /4 x 1 1 0 0 5 0 0 3 0 0 0 1 .4 5 # 7 0 1 88 1 /4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 1 .6 9 # 7 0 1 90 1 /4 x 1- 1 /2 5 0 2 5 0 1 5 0 0 0 .9 9 #

7 0 1 92 1 /4 x 2 5 0 2 5 0 1 5 0 0 1 .2 1 #


6 - 3 2

8 - 3 2

5 5 5 00 6 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 2 # 5 5 5 02 6 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .3 0 #

5 5 5 04 6 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 7 # 5 5 5 06 6 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 3 # 5 5 5 08 6 -3 2 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .5 1 #

5 5 5 10 6 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 7 #

5 5 5 50 8 -3 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .3 5 # 5 5 5 52 8 -3 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 6 #

5 5 5 54 8 -3 2 x 1 1 0 0 5 0 0 4 0 0 0 0 .5 6 # 5 5 5 56 8 -3 2 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .6 7 # 5 5 5 58 8 -3 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .7 7 #

5 5 5 60 8 -3 2 x 2 1 0 0 5 0 0 3 0 0 0 1 .0 1 #

1 /4 - 2 0 5 5 7 00 1 /4 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .9 7 # 5 5 7 02 1 /4 x 3 / 4 1 0 0 5 0 0 3 0 0 0 1 .1 9 #

5 5 7 04 1 /4 x 1 1 0 0 5 0 0 3 0 0 0 1 .4 5 # 5 5 7 06 1 /4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 1 .6 9 # 5 5 7 08 1 /4 x 1- 1 /2 5 0 2 5 0 1 5 0 0 0 .9 9 #

5 5 7 10 1 /4 x 2 5 0 2 5 0 1 5 0 0 1 .2 1 #* R MB10-2 4 an d 10 -32 ava i l ab l e up on r eques t .

P a ck ag i ng :


S TD S LV

MS TR

Fe at u re s:

TM

A 1 2 “ B U I L D I N G A B ET T E R B R A N D ”

Fasteners &

Hardware

W o o d S c re w s

F l at H ea d P h i l l ip s - So l id B ra s s P C 4 29 0

B ra ss f l a t he a d wo o d sc re ws pr o v id e a f l u sh sur fa ce . Le n g t h is d e te r m in e d f r om th e to p of th e fa s t e ne r he a d . Br ass is no n - ma gn e t i c a n d ru s t re s i s ta n t .

F l at H ea d Sq u a re D r iv e W oo d Sc re w s P C 4 0 2 5

Z in c p l a t e d f l a t he a d wo o d sc re ws pr o v id e a f l u sh sur fa ce . Le n g t h is d e te r m in e d f r om th e to p of th e fa s t e ne r he a d .

Fe at u re s:

TM

# 6

# 8

# 1 0

# 1 2

3 8 1 04 6 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .2 4 # 3 8 1 06 6 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 3 #

3 8 2 04 8 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .3 4 # 3 8 2 06 8 x 1 1 0 0 5 0 0 4 0 0 0 0 .4 6 #

3 8 2 08 8 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .5 8 # 3 8 2 10 8 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .6 7 #

3 8 2 12 8 x 2 1 0 0 5 0 0 3 0 0 0 0 .9 1 #

3 8 3 02 1 0 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 7 # 3 8 3 04 1 0 x 1 1 0 0 5 0 0 4 0 0 0 0 .6 1 #

3 8 3 06 1 0 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .7 8 # 3 8 3 08 1 0 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .9 2 #

3 8 3 10 1 0 x 2 5 0 2 5 0 1 5 0 0 0 .6 0 # 3 8 3 12 1 0 x 2- 1 /2 1 0 0 1 0 0 0 1 .5 6 #

3 8 3 54 1 2 x 1 1 0 0 5 0 0 3 0 0 0 0 .8 1 # 3 8 3 56 1 2 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .9 9 # 3 8 3 58 1 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 1 .1 8 #

3 8 3 60 1 2 x 2 5 0 2 5 0 1 5 0 0 0 .8 0 # 3 8 3 62 1 2 x 2- 1 /2 1 0 0 1 0 0 0 1 .9 4 #

3 8 3 64 1 2 x 3 1 0 0 1 0 0 0 2 .3 1 #

Fe at u re s:

TM

# 6

# 8

# 1 0

# 1 2

8 2 0 85 8 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .3 1 # 8 2 0 86 8 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .3 4 #

8 2 0 87 8 x 1 1 0 0 5 0 0 4 0 0 0 0 .4 6 # 8 2 0 88 8 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .5 8 # 8 2 0 89 8 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .6 7 #

8 2 0 90 8 x 2 1 0 0 5 0 0 3 0 0 0 0 .9 1 # 8 2 0 91 8 x 2- 1 /2 1 0 0 1 0 0 0 1 .11 #

8 2 0 92 8 x 3 1 0 0 1 0 0 0 1 .3 3 #

8 2 0 93 1 0 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 7 # 8 2 0 94 1 0 x 1 1 0 0 5 0 0 4 0 0 0 0 .6 1 #

8 2 0 95 1 0 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .7 8 # 8 2 0 96 1 0 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .9 2 #

8 2 0 97 1 0 x 2 50 2 5 0 1 5 0 0 1 .1 9 # 8 2 0 98 1 0 x 2- 1 /2 1 0 0 1 0 0 0 1 .5 6 #

8 2 0 99 1 0 x 3 1 0 0 1 0 0 0 1 .8 1 #

8 3 4 94 1 2 x 2- 1 /2 1 0 0 1 0 0 0 1 .9 4 # 8 3 4 93 1 2 x 3 1 0 0 1 0 0 0 2 .3 1 #

8 2 0 80 6 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .2 4 # 8 2 0 81 6 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 3 #

8 2 0 82 6 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 2 # 8 2 0 83 6 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .4 9 #

8 2 0 84 6 x 2 1 0 0 5 0 0 4 0 0 0 0 .6 9 #

P a ck ag i ng :

Also ava i l ab l e as z i nc p l a t ed Ph i l l ip s d r i ve - C hec k y our p r i ce mas te r

A 1 3F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fast

ener

s &

Har

dwar

e

D ry w a l l S c re w s

P h il l ip s B u gl e H ea d F in e T hrea d P C 4 26 0F in e th re a d Bu g l e he a d dr ywa l l s c re ws ar e se l f p i e rc i n g an d ar e use d f or wo o d , dr ywa l l an d a l u m i n u m. Le n g t h is de t e rm i n e d f r om th e to p of t he fa s t e ne r he a d .

Fe at u re s:

TM


# 6

# 8

# 6 Tu ff Pa c k

# 6 B ul k Pa c k

# 8 B ul k Pa c k

5 8 1 00 6 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 5 # 5 8 1 02 6 x 1- 1 /8 1 0 0 5 0 0 4 0 0 0 0 .3 6 # 5 8 1 04 6 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 0 # 5 8 1 06 6 x 1- 5 /8 1 0 0 5 0 0 4 0 0 0 0 .6 4 #

5 8 1 08 6 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 4 # 5 8 11 0 6 x 2- 1 /4 1 0 0 1 0 0 0 0 .6 9 #

5 8 11 2 8 x 2- 1 /2 1 0 0 1 0 0 0 1 .0 4 # 5 8 11 4 8 x 3 1 0 0 1 0 0 0 1 .3 0 #

5 8 1 20 6 x 1 5 0 0 3 0 0 0 1 .6 4 # 5 8 1 22 6 x 1- 1 /8 5 0 0 3 0 0 0 1 .8 2 # 5 8 1 24 6 x 1- 1 /4 5 0 0 3 0 0 0 1 .9 3 # 5 8 1 26 6 x 1- 5 /8 5 0 0 3 0 0 0 2 .3 9 #

5 8 1 28 6 x 2 3 0 0 1 8 0 0 1 .6 8 #

5 8 0 50 6 x 1 1 0 0 00 1 0 0 00 3 5 .0 0 # 5 8 0 52 6 x 1- 1 /8 1 0 0 00 1 0 0 00 3 6 .0 0 # 5 8 0 54 6 x 1- 1 /4 8 0 0 0 8 0 0 0 2 8 .8 0 # 5 8 0 56 6 x 1- 5 /8 5 0 0 0 5 0 0 0 2 0 .0 0 #

5 8 0 58 6 x 2 3 5 0 0 3 5 0 0 2 2 .4 0 # 5 8 0 60 6 x 2- 1 /4 3 0 0 0 3 0 0 0 2 0 .4 0 #

5 8 0 62 8 x 2- 1 /2 2 5 0 0 2 5 0 0 2 6 .0 0 # 5 8 0 64 8 x 3 2 0 0 0 2 0 0 0 2 6 .0 0 #

P h il l ip s B u gl e H ea d W oo d R oc k e tsC oa r se T hrea d P C 4 26 0Co a r se th re a d Bu g l e he a d dr ywa l l s c re ws (Wo o d Ro cke ts ) ar e se l f p i er c i ng an d ar e use d fo r dr ywa l l , pa r t i c l e bo a r d an d wo o d . T h e cou r se t hr e a ds pr o v id e fo r a qu i cke r in s t a l l a t io n .

Fe at u re s:

TM


# 6

# 8

# 6 Tu ff Pa c k

# 6 B ul k Pa c k

# 8 B ul k Pa c k

1 6 2 09 8 x 2- 1 /2 1 0 0 1 0 0 0 1 .0 4 # 1 6 2 11 8 x 3 1 0 0 1 0 0 0 1 .3 0 #

1 6 2 12 6 x 1 5 0 0 3 0 0 0 1 .5 8 # 1 6 2 14 6 x 1- 1 /8 5 0 0 3 0 0 0 1 .7 9 # 1 6 2 16 6 x 1- 1 /4 5 0 0 3 0 0 0 2 .0 0 # 1 6 2 15 6 x 1- 5 /8 5 0 0 3 0 0 0 2 .4 6 #

1 6 2 17 6 x 2 3 0 0 1 8 0 0 1 .8 1 #

1 6 2 18 6 x 1 1 0 0 00 1 0 0 00 3 5 .0 0 # 1 6 2 20 6 x 1- 1 /8 1 0 0 00 1 0 0 00 3 8 .0 0 # 1 6 2 22 6 x 1- 1 /4 8 0 0 0 8 0 0 0 4 3 .2 0 # 1 6 2 24 6 x 1- 5 /8 5 0 0 0 5 0 0 0 2 0 .0 0 #

1 6 2 26 6 x 2 3 5 0 0 3 5 0 0 2 2 .4 0 # 1 6 2 28 6 x 2- 1 /4 3 0 0 0 3 0 0 0 2 0 .4 0 #

1 6 2 30 8 x 2- 1 /2 2 5 0 0 2 5 0 0 2 6 .0 0 # 1 6 2 32 8 x 3 2 0 0 0 2 0 0 0 2 6 .0 0 #

1 6 2 00 6 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 5 # 1 6 2 02 6 x 1- 1 /8 1 0 0 5 0 0 4 0 0 0 0 .3 8 # 1 6 2 04 6 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 0 # 1 6 2 06 6 x 1- 5 /8 1 0 0 5 0 0 4 0 0 0 0 .5 4 #

1 6 2 08 6 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 4 # 1 6 2 10 6 x 2- 1 /4 1 0 0 1 0 0 0 0 .6 8 #

P a ck ag i ng :

S TD S LV

MS TRPAC K


Fasteners &

Hardware

S h e e t M e t a l S c re w s

P a n H ea d Sl ott ed / P h il l ip s ( 2 Way ) P C 4 0 0 0P an he a d com bo (s l o t t e d /p h i l l i p s ) she e t me ta l s c re ws w i l l ta p th e i r ow n ma t in g th re a d s wh e n dr i ven in t o pr e fo r me d ho l e s in me ta l . Le n g t h is d e te r m in e d f r om th e ba se of th e fa s t e ne r he a d .

P a n H ea d P h i l l ip s - St a in l es s P C 4 0 1 0S ta i n le ss s te e l pa n he a d ph i l l ip s she e t me ta l s c re ws w i l l ta p th e i r ow n ma t in g th re a d s wh e n dr i ven in t o pr e fo r me d ho l e s in me ta l . Le n g t h is d e te r m in e d f r om th e ba se of th e fa s t e ne r he a d . S t a in l e ss s te e l re s i s ts co r r o s io n an d is id e a l fo r ap p l i ca t i o n s wh e re che m i ca l re s i s ta n ce is re q u i re d .

Fe at u re s:

TM


# 6

# 8

# 1 0

# 1 2

Fe at u re s:

TM


# 6

# 8

# 1 0

P a ck ag i ng :

5 8 1 62 6 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 0 # 5 8 1 64 6 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .2 7 #

5 8 1 66 6 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 4 # 5 8 1 68 6 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 2 #

5 8 1 70 6 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .4 9 # 5 8 1 72 6 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 4 #

5 8 1 50 8 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .3 1 # 5 8 1 52 8 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 1 #

5 8 1 54 8 x 1 1 0 0 5 0 0 4 0 0 0 0 .5 1 # 5 8 1 56 8 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .6 1 #

5 8 1 58 8 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .6 9 # 5 8 1 60 8 x 2 1 0 0 5 0 0 3 0 0 0 0 .8 9 #

5 8 2 00 1 0 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 3 # 5 8 2 02 1 0 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .5 4 #

5 8 2 04 1 0 x 1 1 0 0 5 0 0 4 0 0 0 0 .6 9 # 5 8 2 06 1 0 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .8 0 # 5 8 2 08 1 0 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .9 1 #

5 8 2 10 1 0 x 2 5 0 2 5 0 1 5 0 0 0 .6 3 #

5 8 1 74 1 2 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .6 1 # 5 8 1 76 1 2 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .8 1 #

5 8 1 78 1 2 x 1 1 0 0 5 0 0 3 0 0 0 0 .9 6 # 5 8 1 80 1 2 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 1 .1 5 # 5 8 1 82 1 2 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 1 .3 0 #

5 8 1 84 1 2 x 2 5 0 2 5 0 1 5 0 0 0 .8 1 #

# 1 4 5 8 1 86 1 4 x 1 / 2 1 0 0 5 0 0 3 0 0 0 0 .8 6 # 5 8 1 88 1 4 x 3 / 4 1 0 0 5 0 0 3 0 0 0 1 .0 9 #

5 8 1 90 1 4 x 1 1 0 0 5 0 0 3 0 0 0 1 .2 8 # 5 8 1 92 1 4 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 1 .5 7 # 5 8 1 94 1 4 x 1- 1 /2 5 0 2 5 0 1 5 0 0 0 .8 9 #

5 8 1 96 1 4 x 2 5 0 2 5 0 1 5 0 0 1 .11 #

# 8 Tu ff Pa c k 5 8 1 61 8 x 3 / 4 5 0 0 3 0 0 0 2 .2 4 #

5 8 1 63 8 x 1 5 0 0 3 0 0 0 3 .2 9 #

# 1 0 Tu ff Pa c k 5 8 1 65 1 0 x 3 / 4 5 0 0 3 0 0 0 3 .7 0 #

5 8 1 67 1 0 x 1 5 0 0 3 0 0 0 3 .6 0 #

7 0 2 04 6 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .2 0 # 7 0 2 06 6 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .2 7 #

7 0 2 08 6 x 1 1 0 0 5 0 0 4 0 0 0 0 .3 4 # 7 0 2 10 6 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .4 2 # 7 0 2 12 6 x 1- 1 /2 1 0 0 5 0 0 4 0 0 0 0 .4 9 #

7 0 2 14 6 x 2 1 0 0 5 0 0 3 0 0 0 0 .6 4 #

7 0 2 20 8 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .3 1 # 7 0 2 22 8 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .4 1 #

7 0 2 24 8 x 1 1 0 0 5 0 0 4 0 0 0 0 .5 1 # 7 0 2 26 8 x 1- 1 /4 1 0 0 5 0 0 4 0 0 0 0 .6 1 # 7 0 2 28 8 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .6 9 #

7 0 2 30 8 x 2 1 0 0 5 0 0 3 0 0 0 0 .8 9 #

7 0 2 40 1 0 x 1 / 2 1 0 0 5 0 0 4 0 0 0 0 .4 3 # 7 0 2 42 1 0 x 3 / 4 1 0 0 5 0 0 4 0 0 0 0 .5 4 #

7 0 2 44 1 0 x 1 1 0 0 5 0 0 4 0 0 0 0 .6 9 # 7 0 2 46 1 0 x 1- 1 /4 1 0 0 5 0 0 3 0 0 0 0 .8 0 # 7 0 2 48 1 0 x 1- 1 /2 1 0 0 5 0 0 3 0 0 0 0 .9 1 #

7 0 2 50 1 0 x 2 5 0 2 5 0 1 5 0 0 0 .8 5 #

S TD S LV

MS TRPAC K

A 1 5

Fast

ener

s &

Har

dwar

e

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

S h e e t M e t a l S c re w s

P a ck ag i ng :

CAT. NO. UP C S IZ E S TD S LVS IZ E

W T/ S TD

# 6

# 8

P a n H ea d Sq u a re D r iv e P C 4 0 0 0

S qu a r e dr i ve pa n he a d she e t me ta l s c re ws w i l l ta p th e i r ow n ma t i n g t hr e a ds wh e n dr i ven in t o pr e fo r me d ho l e s in me ta l . Sq u a re dr i ve sc re ws p ro v i d e a po s i t ive gr i p an d re s i s t cam ou t . Le n g t h is de t e rm i n e d f r om th e b a se of th e fa s t e ne r he a d .

Fe at u re s:

TM

MS TR

1 6 9 60 6 x 1 / 2 # 1 1 0 0 5 0 0 4 0 0 0 0 .2 0 # 1 6 9 61 6 x 3 / 4 # 1 1 0 0 5 0 0 4 0 0 0 0 .2 7 #

1 6 9 62 6 x 1 # 1 1 0 0 5 0 0 4 0 0 0 0 .3 4 # 1 6 9 63 6 x 1- 1 /4 # 1 1 0 0 5 0 0 4 0 0 0 0 .4 2 # 1 6 9 64 6 x 1- 1 /2 # 1 1 0 0 5 0 0 4 0 0 0 0 .4 9 #

1 6 9 65 8 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .3 1 # 1 6 9 70 8 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .4 6 #

1 6 9 71 8 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 1 # 1 6 9 72 8 x 1- 1 /4 # 2 1 0 0 5 0 0 4 0 0 0 0 .6 1 # 1 6 9 73 8 x 1- 1 /2 # 2 1 0 0 5 0 0 3 0 0 0 0 .6 9 #

1 6 9 74 8 x 2 # 2 1 0 0 5 0 0 3 0 0 0 0 .8 9 # 1 6 9 90 8 x 2- 1 /2 # 2 1 0 0 1 0 0 0 1 .3 3 #

1 6 9 91 8 x 3 # 2 1 0 0 1 0 0 0 1 .3 4 #

# 1 0

1 6 9 75 1 0 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .4 3 # 1 6 9 81 1 0 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 4 #

1 6 9 82 1 0 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .6 9 # 1 6 9 83 1 0 x 1- 1 /4 # 2 1 0 0 5 0 0 3 0 0 0 0 .8 0 # 1 6 9 84 1 0 x 1- 1 /2 # 2 1 0 0 5 0 0 3 0 0 0 0 .9 1 #

1 6 9 85 1 0 x 2 # 2 5 0 2 5 0 1 5 0 0 0 .8 5 # 1 6 9 86 1 0 x 2- 1 /2 # 2 1 0 0 1 0 0 0 1 .4 4 #

1 6 9 87 1 0 x 3 # 2 1 0 0 1 0 0 0 1 .8 1 #

# 1 2

6 0 1 00 1 2 x 3 / 4 # 3 1 0 0 5 0 0 4 0 0 0 0 .8 1 # 6 0 1 02 1 2 x 1 # 3 1 0 0 5 0 0 3 0 0 0 0 .9 6 #

6 0 1 04 1 2 x 1- 1 /4 # 3 1 0 0 5 0 0 3 0 0 0 1 .1 5 # 6 0 1 06 1 2 x 1- 1 /2 # 3 1 0 0 5 0 0 3 0 0 0 1 .3 0 #

6 0 1 08 1 2 x 2 # 3 5 0 2 5 0 1 5 0 0 0 .8 1 # 1 6 9 88 1 2 x 2- 1 /2 # 3 1 0 0 1 0 0 0 1 .9 8 #

1 6 9 89 1 2 x 3 # 3 1 0 0 1 0 0 0 2 .3 3 #

# 8 Tu ff Pa c k

1 6 9 76 8 x 3 / 4 # 2 5 0 0 3 0 0 0 2 .3 0 # 1 6 9 77 8 x 1 # 2 5 0 0 3 0 0 0 2 .6 9 #

# 1 0 Tu ff Pa c k

1 6 9 78 1 0 x 3 / 4 # 2 5 0 0 3 0 0 0 3 .0 3 # 1 6 9 79 1 0 x 1 # 2 5 0 0 3 0 0 0 3 .6 8 #

T e c h

Square Dr ive sc rews r es is t cam ou t and s t r ipping f ar be t te r than ph i l l i ps o r s lo t ted sc rews and a re popu la r w i t h manuf ac tu re rs who va lue t he i r speed and e f f i c iency. Due t o i ts snug f i t , i t can be d r i ven easi l y w i t h no need t o ac tual l y hol d t he sc rew. Devel oped and used i n Canada , i t has ga ined inc reased popu la r i ty w i t h t he U. S. cont ract ing t rade .

Ta lk

S TD S LV

MS TRPAC K


Fasteners &

Hardware

S h e e t M e t a l & Fr a m e r S c re w s

Sl o tte d / P h il l i p s H ex Wa she r H ea d P C 4 0 0 0

He x wa sh e r he a d she e t me ta l s c re ws w i l l ta p th e i r ow n ma t i n g th re a d s wh e n dr i ven in t o pr e fo r me d ho l e s in me ta l . Le n g t h is de t e rm i n e d f r om th e b a se of th e fa s t e ne r he a d .

Fe at u re s:

TM

P a ck ag i ng :


W T/ S TD

# 6

# 8

MS TR

5 6 5 00 6 x 1 / 2 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .2 5 # 5 6 5 02 6 x 3 / 4 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .3 0 #

5 6 5 04 6 x 1 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .3 8 # 5 6 5 06 6 x 1- 1 /4 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .4 5 # 5 6 5 08 6 x 1- 1 /2 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .6 2 #

5 6 5 50 8 x 1 / 2 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .3 3 # 5 6 5 52 8 x 3 / 4 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .4 3 #

5 6 5 54 8 x 1 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .5 3 # 5 6 5 56 8 x 1- 1 /4 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .6 9 # 5 6 5 58 8 x 1- 1 /2 1 /4 ” 1 0 0 5 0 0 3 0 0 0 0 .7 3 #

5 6 5 60 8 x 2 1 /4 ” 1 0 0 5 0 0 3 0 0 0 0 .9 2 # 5 6 5 62 8 x 2- 1 /2 1 /4 ” 1 0 0 1 0 0 0 1 .3 0 #

5 6 5 64 8 x 3 1 /4 ” 1 0 0 1 0 0 0 1 .3 4 #

# 1 0

5 6 6 00 1 0 x 1 / 2 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .4 6 # 5 6 6 02 1 0 x 3 / 4 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .5 7 #

5 6 6 04 1 0 x 1 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .7 3 # 5 6 6 06 1 0 x 1- 1 /4 5 /1 6 ” 1 0 0 5 0 0 3 0 0 0 0 .8 4 # 5 6 6 08 1 0 x 1- 1 /2 5 /1 6 ” 1 0 0 5 0 0 3 0 0 0 0 .9 6 #

5 6 6 10 1 0 x 2 5 /1 6 ” 5 0 2 5 0 1 5 0 0 0 .6 1 # 5 6 6 12 1 0 x 2- 1 /2 5 /1 6 ” 1 0 0 1 0 0 0 1 .4 4 #

5 6 6 14 1 0 x 3 5 /1 6 ” 1 0 0 1 0 0 0 1 .8 1 #

# 1 2

5 6 6 50 1 2 x 3 / 4 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .8 5 # 5 6 6 52 1 2 x 1 5 /1 6 ” 1 0 0 5 0 0 3 0 0 0 0 .9 8 #

5 6 6 54 1 2 x 1- 1 /4 5 /1 6 ” 5 0 2 5 0 1 5 0 0 1 .1 4 # 5 6 6 56 1 2 x 1- 1 /2 5 /1 6 ” 5 0 2 5 0 1 5 0 0 1 .3 1 #

5 6 6 58 1 2 x 2 5 /1 6 ” 5 0 2 5 0 1 5 0 0 0 .8 1 # 5 6 6 60 1 2 x 2- 1 /2 5 /1 6 ” 1 0 0 1 0 0 0 1 .9 8 #

5 6 6 62 1 2 x 3 5 /1 6 ” 1 0 0 1 0 0 0 2 .3 3 #

# 8 Tu ff Pa c k

1 7 2 67 8 x 3 / 4 1 /4 ” 5 0 0 3 0 0 0 2 .2 1 # 1 7 2 68 8 x 1 1 /4 ” 5 0 0 3 0 0 0 2 .7 1 #

# 1 0 Tu ff Pa c k

1 7 2 69 1 0 x 3 / 4 5 /1 6 ” 5 0 0 3 0 0 0 3 .1 0 # 1 7 2 70 1 0 x 1 5 /1 6 ” 5 0 0 3 0 0 0 3 .5 9 #

P a n H ea d P h i l l ip s F r am er Sc re w s P C 4 26 0

P hi l l ip s pa n he a d f r am er sc re ws ar e id e a l fo r l i g h t du t y a l u m i n u m an d s t ee l me ta l to me ta l ap p l i ca t i o n s . Wi l l pe n e t ra t e th ro u g h 20 ga u g e s te e l s t ud s . Le n g t h is de t e rm i n e d f r om ba se of th e fa s t e ne r he a d . B l a ck ox i d e f in i sh .

Fe at u re s:

TM

CAT. NO. UP C S IZ E S TD S LV W T/ S TD

# 6

MS TR

6 7 1 60 6 x 7 / 1 6 1 0 0 5 0 0 4 0 0 0 0 .2 2 # 1 6 3 90 6 x 7 / 1 6 5 0 0 3 0 0 0 1 .1 0 #

S TD S LV

MS TRPAC K

A 1 7F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fast

ener

s &

Har

dwar

e

K - L at h S c re w s

P a ck ag i ng :


W T/ S TD

# 8

# 8 Tu ff Pa c k

Wa f er H ea d P h i l l ip s M e ta l P i erc i n g Sc re w s P C 4 2 0 0

K -L a th sc re ws ar e me ta l p i e rc i n g an d w i l l ta p up to 20 ga u g e s te e l s tu d s . P hi l l ip s wa fe r he a d pr o v id e s la r ge be a r in g sur fa ce . Le n g t h is de t e rm i n e d f ro m th e ba se of th e fa s t e ne r he a d . Use d fo r f r am in g , e l e c t r i ca l , p l u mb -i n g an d she e t me ta l ap p l i ca t i o n s .

Fe at u re s:

TM

MS TR

# 8 B ul k Pa c k

1 5 6 04 8 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .3 8 # 1 5 6 05 8 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .4 5 #

1 5 6 06 8 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 6 # 1 5 6 07 8 x 1- 1 /4 # 2 1 0 0 5 0 0 4 0 0 0 0 .6 7 # 1 5 6 09 8 x 1- 5 /8 # 2 1 0 0 5 0 0 3 0 0 0 0 .7 5 #

1 5 7 04 8 x 1 / 2 # 2 5 0 0 3 0 0 0 3 .8 8 # 1 5 7 05 8 x 3 / 4 # 2 5 0 0 3 0 0 0 4 .8 8 #

1 5 7 06 8 x 1 # 2 5 0 0 3 0 0 0 3 .1 2 # 1 5 7 07 8 x 1- 1 /4 # 2 5 0 0 3 0 0 0 3 .6 8 #

1 5 7 09 8 x 1- 5 /8 # 2 3 0 0 1 8 0 0 1 .5 8 #

1 5 8 04 8 x 1 / 2 # 2 1 0 0 00 1 0 0 00 3 8 .0 0 # 1 5 8 05 8 x 3 / 4 # 2 1 0 0 00 1 0 0 00 4 5 .0 0 #

1 5 8 06 8 x 1 # 2 8 0 0 0 8 0 0 0 4 4 .8 0 # 1 5 8 07 8 x 1- 1 /4 # 2 5 0 0 0 5 0 0 0 3 4 .6 0 # 1 5 8 09 8 x 1- 5 /8 # 2 5 0 0 0 5 0 0 0 4 2 .2 8 #


W T/ S TD

# 8

# 1 0

Wa f er H ea d Sq u a re D r iv e M e ta l P i erc i n g Sc re w s P C 4 2 0 0

K -L a th sc re ws ar e me ta l p i e rc i n g an d w i l l ta p up to 20 ga u g e s te e l s tu d s . S qu a r e Dr i ve wa fe r he a d pr o v id e s la r ge be a r in g sur fa ce . Le n g t h is d e te r m in e d f r om th e ba se of th e fa s t e ne r he a d . Use d fo r f r am in g , e l ec t r i ca l , p l u mb i n g an d she e t me ta l ap p l i ca t i o n s .

Fe at u re s:

TM

MS TR

# 8 Tu ff Pa c k

# 1 0 Tu ff Pa c k

1 5 6 20 8 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .4 4 # 1 5 6 21 8 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 2 #

1 5 6 22 8 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .6 0 # 1 5 6 36 8 x 1- 1 /4 # 2 1 0 0 5 0 0 4 0 0 0 0 .6 7 # 1 5 6 37 8 x 1- 1 /2 # 2 1 0 0 5 0 0 3 0 0 0 0 .7 5 #

1 5 6 38 8 x 2 # 2 1 0 0 5 0 0 3 0 0 0 0 .8 9 #

1 5 6 23 1 0 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 6 # 1 5 6 24 1 0 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .6 7 #

1 5 6 25 1 0 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .7 8 # 1 5 6 26 1 0 x 1- 1 /4 # 2 1 0 0 5 0 0 3 0 0 0 0 .9 3 # 1 5 6 27 1 0 x 1- 1 /2 # 2 1 0 0 5 0 0 3 0 0 0 1 .1 9 #

1 5 6 28 1 0 x 2 # 2 5 0 2 5 0 1 5 0 0 0 .7 5 #

1 5 6 29 8 x 1 / 2 # 2 5 0 0 3 0 0 0 2 .3 5 # 1 5 6 30 8 x 3 / 4 # 2 5 0 0 3 0 0 0 2 .8 1 #

1 5 6 31 8 x 1 # 2 5 0 0 3 0 0 0 3 .0 1 #

1 5 6 32 1 0 x 1 / 2 # 2 5 0 0 3 0 0 0 2 .9 5 # 1 5 6 33 1 0 x 3 / 4 # 2 5 0 0 3 0 0 0 3 .7 5 #

1 5 6 34 1 0 x 1 # 2 5 0 0 3 0 0 0 4 .3 1 # 1 5 6 35 1 0 x 1- 1 /4 # 2 4 0 0 2 4 0 0 5 .0 4 #

S TD S LV

MS TRPAC K


Fasteners &

Hardware

S e lf D r il l i ng S c re w s

P a n H ea d P h i l l ip s P C 4 22 0S el f dr i l l i n g ph i l l ip s pa n he a d sc re ws dr i l l a ho l e an d ta p th re a d s in on e o p e ra t i o n . T h e dr i l l i n g op e r at i o n re mo ve s me ta l an d can be use d w i th h e a v ie r ga u g e me ta l s . Le n g t h is de t e rm i n e d f r om th e ba se of th e f as t e n e r he a d .

Fe at u re s:

TM

P a ck ag i ng :


W T/ S TD

# 6

# 8

MS TR

# 1 0

1 7 3 70 6 x 1 / 2 # 1 1 0 0 5 0 0 4 0 0 0 0 .2 6 # 1 7 3 75 6 x 3 / 4 # 1 1 0 0 5 0 0 4 0 0 0 0 .3 0 #

1 7 3 80 6 x 1 # 1 1 0 0 5 0 0 4 0 0 0 0 .3 4 #

1 7 4 10 8 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .3 6 # 1 7 4 15 8 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .4 3 #

1 7 4 20 8 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 8 # 1 7 3 85 8 x 1- 1 /4 # 2 1 0 0 5 0 0 4 0 0 0 0 .6 1 # 1 7 3 90 8 x 1- 1 /2 # 2 1 0 0 5 0 0 3 0 0 0 0 .7 2 #

1 7 3 95 8 x 2 # 2 1 0 0 5 0 0 3 0 0 0 0 .9 2 #

1 7 4 25 1 0 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .4 7 # 1 7 4 30 1 0 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 9 #

1 7 4 35 1 0 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .7 6 # 1 7 4 40 1 0 x 1- 1 /4 # 2 1 0 0 5 0 0 3 0 0 0 0 .8 2 # 1 7 4 45 1 0 x 1- 1 /2 # 2 1 0 0 5 0 0 3 0 0 0 0 .9 3 #

1 7 4 50 1 0 x 2 # 2 5 0 2 5 0 1 5 0 0 0 .6 1 #

P a n H ea d Sq u a re D r iv e P C 4 22 0S el f dr i l l i n g squ a r e dr i ve pa n he a d sc re ws dr i l l a ho l e an d ta p th re a d s i n on e op e r at i o n . T h e dr i l l i n g op e r at i o n re mo ve s me ta l an d can be use d w i t h he a v i e r ga u g e me ta l s . Le n g t h is de t e rm i n e d f r om th e ba se of th e f as t e n e r he a d .

Fe at u re s:

TM


W T/ S TD

# 8

# 1 0

MS TR

5 9 5 00 8 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .3 6 # 5 9 5 02 8 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .4 3 #

5 9 5 04 8 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 8 # 5 9 5 17 8 x 1- 1 /4 # 2 1 0 0 5 0 0 4 0 0 0 0 .8 2 # 5 9 5 18 8 x 1- 1 /2 # 2 1 0 0 5 0 0 3 0 0 0 0 .9 3 #

5 9 5 19 8 x 2 # 2 1 0 0 5 0 0 3 0 0 0 1 .2 2 #

5 9 5 06 1 0 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .4 7 # 5 9 5 08 1 0 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 9 #

5 9 5 10 1 0 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .7 6 # 5 9 5 20 1 0 x 1- 1 /4 # 2 1 0 0 5 0 0 3 0 0 0 0 .8 2 #

5 9 5 21 1 0 x 1- 1 /2 # 2 1 0 0 5 0 0 3 0 0 0 0 .9 3 # 5 9 5 22 1 0 x 2 # 2 5 0 2 5 0 1 5 0 0 0 .6 1 #

# 8 Tu ff Pa c k

5 9 5 11 8 x 1 / 2 # 2 5 0 0 3 0 0 0 1 .7 6 # 5 9 5 12 8 x 3 / 4 # 2 5 0 0 3 0 0 0 2 .2 8 #

5 9 5 13 8 x 1 # 2 5 0 0 3 0 0 0 2 .7 6 #

# 1 0 Tu ff Pa c k

5 9 5 14 1 0 x 1 / 2 # 2 5 0 0 3 0 0 0 2 .4 8 # 5 9 5 15 1 0 x 3 / 4 # 2 5 0 0 3 0 0 0 3 .1 0 #

5 9 5 16 1 0 x 1 # 2 5 0 0 3 0 0 0 3 .6 0 #

T e c h

heat t reat ed under cont ro l led cond i t ions y ie ld ing op t imum d r i l l pe r fo rm ance.

achi eved by us ing a p roduct wh ich se l f - dr i l l s i t s own ho le s ize.

mee t spec ia l appl i cat ion and i ns ta l la t i on demands .

Ta lk

S TD S LV

MS TRPAC K

A 1 9

Fast

ener

s &

Har

dwar

e

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

S e lf D r i l l i n g S c re w s

P a ck ag i ng :

H ex Wa she r H ea d P C 4 22 0

He x wa sh e r he a d se l f dr i l l i n g sc re ws dr i l l a ho l e an d ta p th re a d s in on e o p e ra t i o n . T h e dr i l l i n g op e r at i o n re mo ve s me ta l an d can be use d in h e a v ie r ga u g e me ta l s . Le n g t h is de t e rm i n e d f r om th e ba se of th e f as t e n e r he a d .

Fe at u re s:

TM


W T/ S TD

# 8

# 8 Tu ff Pa c k

Wa f er H ea d P h i l l ip s P C 4 2 0 0

S el f dr i l l i n g ph i l l ip s wa fe r he a d sc re ws dr i l l a ho l e an d ta p th re a d s in on e o p e ra t i o n . T h e dr i l l i n g op e r at i o n re mo ve s me ta l an d can be use d w i th h e a v ie r ga u g e me ta l s . Le n g t h is de t e rm i n e d f r om th e ba se of th e f as t e n e r he a d .

Fe at u re s:

TM

MS TR


W T/ S TD

# 6

# 8

MS TR

# 1 0

# 1 2

# 8 Tu ff Pa c k

1 7 4 55 6 x 1 / 2 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .2 6 # 1 7 4 60 6 x 3 / 4 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .3 1 #

1 7 4 65 6 x 1 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .3 7 #

1 7 5 00 8 x 1 / 2 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .3 6 # 1 7 5 05 8 x 3 / 4 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .4 6 #

1 7 5 10 8 x 1 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .5 6 # 1 7 5 15 8 x 1- 1 /4 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .6 8 # 1 7 5 20 8 x 1- 1 /2 1 /4 ” 1 0 0 5 0 0 3 0 0 0 0 .7 4 #

1 7 5 23 8 x 2 1 /4 ” 1 0 0 5 0 0 3 0 0 0 0 .9 1 #

1 7 5 25 1 0 x 1 / 2 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .5 1 # 1 7 5 30 1 0 x 3 / 4 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .6 2 #

1 7 5 35 1 0 x 1 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .7 9 # 1 7 5 40 1 0 x 1- 1 /4 5 /1 6 ” 1 0 0 5 0 0 3 0 0 0 0 .9 2 # 1 7 5 45 1 0 x 1- 1 /2 5 /1 6 ” 1 0 0 5 0 0 3 0 0 0 1 .0 6 #

1 7 5 47 1 0 x 2 5 /1 6 ” 5 0 2 5 0 1 5 0 0 0 .6 6 #

1 7 5 50 1 2 x 3 / 4 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .8 9 # 1 7 5 55 1 2 x 1 5 /1 6 ” 1 0 0 5 0 0 3 0 0 0 1 .0 8 #

1 7 5 60 1 2 x 1- 1 /2 5 /1 6 ” 1 0 0 5 0 0 3 0 0 0 1 .4 4 # 1 7 5 62 1 2 x 2 5 /1 6 ” 5 0 2 5 0 1 5 0 0 0 .8 9 #

# 1 4

1 7 5 65 1 4 x 3 / 4 3 /8 ” 1 0 0 5 0 0 3 0 0 0 1 .3 5 # 1 7 5 70 1 4 x 1 3 /8 ” 1 0 0 5 0 0 3 0 0 0 1 .3 9 #

1 7 5 75 1 4 x 1- 1 /4 3 /8 ” 5 0 2 5 0 1 5 0 0 1 .8 6 # 1 7 5 80 1 4 x 1- 1 /2 3 /8 ” 5 0 2 5 0 1 5 0 0 1 .0 4 #

1 7 5 85 1 4 x 2 3 /8 ” 5 0 2 5 0 1 5 0 0 1 .1 6 #

1 7 8 00 8 x 1 / 2 1 /4 ” 5 0 0 3 0 0 0 2 .0 4 # 1 7 8 02 8 x 3 / 4 1 /4 ” 5 0 0 3 0 0 0 2 .2 2 #

1 7 8 04 8 x 1 1 /4 ” 5 0 0 3 0 0 0 2 .7 6 #

# 1 0 Tu ff Pa c k

1 7 8 06 1 0 x 1 / 2 5 /1 6 ” 5 0 0 3 0 0 0 2 .4 8 # 1 7 8 08 1 0 x 3 / 4 5 /1 6 ” 5 0 0 3 0 0 0 3 .1 0 #

1 7 8 10 1 0 x 1 5 /1 6 ” 5 0 0 3 0 0 0 3 .7 4 #

1 7 7 75 8 x 1 / 2 # 2 1 0 0 5 0 0 4 0 0 0 0 .3 4 # 1 7 7 80 8 x 3 / 4 # 2 1 0 0 5 0 0 4 0 0 0 0 .4 5 #

8 1 4 81 8 x 1 # 2 1 0 0 5 0 0 4 0 0 0 0 .5 6 # 1 7 7 85 8 x 1- 1 /4 # 2 1 0 0 5 0 0 4 0 0 0 0 .6 7 #

1 7 7 90 8 x 1 / 2 # 2 5 0 0 3 0 0 0 2 .0 4 # 1 7 7 95 8 x 3 / 4 # 2 5 0 0 3 0 0 0 2 .6 8 #

8 1 4 82 8 x 1 # 2 5 0 0 3 0 0 0 2 .8 0 #

# 8 B ul k Pa c k

8 1 4 83 8 X 1/ 2 # 2 1 0 0 00 1 0 0 00 3 4 .0 0 # 8 1 4 84 8 X 3/ 4 # 2 1 0 0 00 1 0 0 00 4 5 .0 0 #

8 1 4 85 8 X 1 # 2 6 5 0 0 6 5 0 0 2 9 .2 5 # 8 1 4 86 8 X 1- 1 /4 # 2 6 5 0 0 6 5 0 0 3 0 .5 5 #

S TD S LV

MS TRPAC K


Fasteners &

Hardware

T e c h

Electr ical Plumbing Framing Sheet Metal

Shar peez ( Hex -S lo t t ed ) and K- La th ( Mod i f ied Truss Ph i l l i ps & Squar e Dr ive ) . Used f or f raming,e lect r i cal , p lumb ing and shee t me ta l app l i ca t ions .

Heat t reat ed po in t . Pierces meta l . Used f or moun t ing boxes t o meta l s tuds o ra t tachi ng s tud to t rack and s tud f raming.

Ta lk

M e t a l P i e r c i ng & S e lf D r il l i ng S c re w s

Sh a rp eez Sl ott ed H ex Wa she r H ea d P C 4 19 0

S ha r p ee z sc re ws ar e me ta l p i e rc i n g an d w i l l ta p th e i r ow n ma t i n g t hr e a ds . He x wa sh e r s lo t te d he a d . Le n g t h is de - te r m in e d f r om th e ba se o f th e fa s t e ne r he a d . Use d fo r f r am in g , e l e c t r i ca l , p l u mb i n g, an d she e t me t a l ap p l i ca t i o n s .

Fe at u re s:

TM


W T/ S TD

# 8

# 8 Tu ff Pa c k

MS TR

# 8 B ul k Pa c k

1 6 2 50 8 x 1 / 2 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .3 2 # 1 6 2 52 8 x 3 / 4 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .4 2 #

1 6 2 54 8 x 1 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .5 2 # 1 6 2 56 8 x 1- 1 /4 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .6 0 # 1 6 2 58 8 x 1- 1 /2 1 /4 ” 1 0 0 5 0 0 3 0 0 0 0 .7 0 #

1 6 2 60 8 x 2 1 /4 ” 1 0 0 5 0 0 3 0 0 0 0 .9 4 #

1 6 2 62 8 x 1/ 2 1 /4 ” 5 0 0 3 0 0 0 3 .0 5 # 1 6 2 64 8 x 3 / 4 1 /4 ” 5 0 0 3 0 0 0 3 .9 9 #

1 6 2 66 8 x 1 1 /4 ” 5 0 0 3 0 0 0 5 .0 6 # 1 6 2 68 8 x 1- 1 /4 1 /4 ” 5 0 0 3 0 0 0 2 .9 7 # 1 6 2 70 8 x 1- 1 /2 1 /4 ” 5 0 0 3 0 0 0 3 .7 1 #

1 6 2 72 8 x 2 1 /4 ” 3 0 0 1 8 0 0 2 .8 0 #

1 6 2 74 8 x 1 / 2 1 /4 ” 1 0 0 00 1 0 0 00 3 1 .3 2 # 1 6 2 76 8 x 3 / 4 1 /4 ” 1 0 0 00 1 0 0 00 3 9 .4 4 #

1 6 2 78 8 x 1 1 /4 ” 7 0 0 0 7 0 0 0 3 4 .3 8 # 1 6 2 80 8 x 1- 1 /4 1 /4 ” 5 0 0 0 5 0 0 0 2 9 .2 0 # 1 6 2 82 8 x 1- 1 /2 1 /4 ” 3 0 0 0 3 0 0 0 2 3 .1 4 #

1 6 2 84 8 x 2 1 /4 ” 3 0 0 0 3 0 0 0 3 6 .4 4 #

P h il l ip s P a n H ea d F r am er Sc re w s P C 4 22 0

P hi l l ip s pa n he a d f r am er sc re ws ar e id e a l fo r l i g h t du t y a l u m i n u m an d s t ee l me ta l to me ta l ap p l i ca t i o n s . Wi l l pe n e t ra t e th ro u g h 20 ga u g e s te e l s t ud s . Le n g t h is de t e rm i n e d f r om ba se of th e fa s t e ne r he a d . B l a ck ox i d e f in i sh .

Fe at u re s:

TM

P a ck ag i ng :


W T/ S TD

# 7

MS TR

5 9 5 23 7 x 7 / 1 6 # 2 1 0 0 5 0 0 4 0 0 0 0 .2 7 # 5 9 5 24 7 x 7 / 1 6 # 2 5 0 0 3 0 0 0 1 .3 5 #

S TD S LV

MS TRPAC K

A 2 1F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fast

ener

s &

Har

dwar

e

H ex H ea d P C 4 0 9 0

F u l l y th re a d e d he x he a d ta p bo l t s . Ma de f r om gr a d e 2 lo w car b o n s te e l . L e n gt h is de t e rm i n e d f r om th e ba se of th e fa s t e ne r he a d . Co n t i n u o u s t hr e a d a l l o ws fo r ta ke up ad j u s t men t . (MA CHI NE BOLT S)

Fe at u re s:

CAT. NO. UP C S IZ E S TD W T/ S TD

1 /4 - 2 0

MS TR

Ta p B o lt s

5 8 7 00 1 /4 x 1 / 2 7 /1 6 ” 1 0 0 4 0 0 0 1 .1 8 # 5 8 7 02 1 /4 x 3 / 4 7 /1 6 ” 1 0 0 3 0 0 0 1 .4 4 #

5 8 7 04 1 /4 x 1 7 /1 6 ” 1 0 0 3 0 0 0 1 .6 7 #5 8 7 06 1 /4 x 1- 1 /4 7 /1 6 ” 1 0 0 1 0 0 0 2 .0 1 #

5 8 7 08 1 /4 x 1- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 2 .3 6 # 5 8 7 10 1 /4 x 2 7 /1 6 ” 1 0 0 1 0 0 0 3 .0 7 #

5 8 7 12 1 /4 x 2- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 3 .7 5 # 5 8 7 14 1 /4 x 3 7 /1 6 ” 1 0 0 1 0 0 0 4 .3 5 #

5 8 7 16 1 /4 x 3- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 5 .1 0 # 5 8 7 18 1 /4 x 4 7 /1 6 ” 1 0 0 1 0 0 0 5 .7 5 #

5 8 7 20 1 /4 x 4- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 6 .3 6 # 5 8 7 22 1 /4 x 5 7 /1 6 ” 1 0 0 4 0 0 6 .9 2 #

5 8 7 24 1 /4 x 5- 1 /2 7 /1 6 ” 1 0 0 4 0 0 7 .7 4 # 5 8 7 26 1 /4 x 6 7 /1 6 ” 1 0 0 4 0 0 8 .3 9 #

5 /1 6 - 1 8

5 8 7 50 5 /1 6 x 1 / 2 1 /2 ” 1 0 0 1 0 0 0 1 .9 5 # 5 8 7 52 5 /1 6 x 3 / 4 1 /2 ” 1 0 0 1 0 0 0 2 .3 3 #

5 8 7 54 5 /1 6 x 1 1 /2 ” 1 0 0 1 0 0 0 2 .7 4 # 5 8 7 56 5 /1 6 x 1- 1 /4 1 /2 ” 1 0 0 1 0 0 0 3 .2 3 # 5 8 7 58 5 /1 6 x 1- 1 /2 1 /2 ” 1 0 0 1 0 0 0 3 .8 2 #

5 8 7 60 5 /1 6 x 2 1 /2 ” 1 0 0 1 0 0 0 4 .8 2 # 5 8 7 62 5 /1 6 x 2- 1 /2 1 /2 ” 1 0 0 1 0 0 0 5 .9 5 #

5 8 7 64 5 /1 6 x 3 1 /2 ” 1 0 0 1 0 0 0 6 .9 1 # 5 8 7 66 5 /1 6 x 3- 1 /2 1 /2 ” 5 0 5 0 0 3 .6 0 #

5 8 7 68 5 /1 6 x 4 1 /2 ” 5 0 5 0 0 4 .1 2 # 5 8 7 70 5 /1 6 x 4- 1 /2 1 /2 ” 5 0 5 0 0 4 .4 1 #

5 8 7 72 5 /1 6 x 5 1 /2 ” 5 0 2 0 0 5 .5 4 # 5 8 7 74 5 /1 6 x 5- 1 /2 1 /2 ” 5 0 2 0 0 6 .1 5 #

5 8 7 76 5 /1 6 x 6 1 /2 ” 5 0 2 0 0 6 .6 3 #

3 /8 - 1 6

5 8 8 00 3 /8 x 1 / 2 9 /1 6 ” 1 0 0 1 0 0 0 2 .9 3 # 5 8 8 02 3 /8 x 3 / 4 9 /1 6 ” 1 0 0 1 0 0 0 3 .5 5 #

5 8 8 04 3 /8 x 1 9 /1 6 ” 1 0 0 1 0 0 0 4 .0 3 # 5 8 8 06 3 /8 x 1- 1 /4 9 /1 6 ” 1 0 0 1 0 0 0 4 .4 8 # 5 8 8 08 3 /8 x 1- 1 /2 9 /1 6 ” 1 0 0 1 0 0 0 5 .5 4 #

5 8 8 10 3 /8 x 2 9 /1 6 ” 1 0 0 1 0 0 0 6 .9 4 # 5 8 8 12 3 /8 x 2- 1 /2 9 /1 6 ” 1 0 0 5 0 0 7 .8 0 #

5 8 8 14 3 /8 x 3 9 /1 6 ” 1 0 0 5 0 0 9 .0 3 # 5 8 8 16 3 /8 x 3- 1 /2 9 /1 6 ” 5 0 5 0 0 5 .1 0 #

5 8 8 18 3 /8 x 4 9 /1 6 ” 5 0 5 0 0 6 .5 3 # 5 8 8 20 3 /8 x 4- 1 /2 9 /1 6 ” 5 0 5 0 0 7 .2 1 #

5 8 8 22 3 /8 x 5 9 /1 6 ” 5 0 2 0 0 7 .9 8 # 5 8 8 24 3 /8 x 5- 1 /2 9 /1 6 ” 5 0 2 0 0 8 .3 0 #

5 8 8 26 3 /8 x 6 9 /1 6 ” 5 0 2 0 0 8 .7 4 #

1 /2 - 1 3

5 8 8 50 1 /2 x 3 / 4 3 /4 ” 5 0 5 0 0 4 .0 5 # 5 8 8 52 1 /2 x 1 3 /4 ” 5 0 5 0 0 4 .3 6 #

5 8 8 54 1 /2 x 1- 1 /4 3 /4 ” 5 0 5 0 0 4 .6 9 # 5 8 8 56 1 /2 x 1- 1 /2 3 /4 ” 5 0 5 0 0 6 .5 0 #

5 8 8 58 1 /2 x 2 3 /4 ” 5 0 5 0 0 6 .7 3 # 5 8 8 60 1 /2 x 2- 1 /2 3 /4 ” 5 0 2 0 0 8 .0 2 #

5 8 8 62 1 /2 x 3 3 /4 ” 5 0 2 0 0 9 .3 7 # 5 8 8 64 1 /2 x 3- 1 /2 3 /4 ” 5 0 2 0 0 1 0 .7 5 #

5 8 8 66 1 /2 x 4 3 /4 ” 2 5 2 5 0 6 .0 2 # 5 8 8 68 1 /2 x 4- 1 /2 3 /4 ” 2 5 2 5 0 6 .6 5 #

5 8 8 70 1 /2 x 5 3 /4 ” 2 5 2 5 0 7 .4 0 # 5 8 8 72 1 /2 x 5- 1 /2 3 /4 ” 2 5 1 0 0 8 .1 0 #

5 8 8 74 1 /2 x 6 3 /4 ” 2 5 1 0 0 8 .7 8 #

* 5 / 8 ” & 3 / 4 ” ava i l ab l e up on r eques t .


Fasteners &

Hardware

H ex H ea d - Gr a d e 5 P C 4 0 1 8

Gr a de 5 he x he a d cap sc re ws ar e me di u m s t r en g t h (1 2 0 ,0 0 0 PS I te n s i le ) a n d ar e ma de f r om car b o n s te e l . Le n g t h is de t e rm i n e d f r om th e ba se of t he fa s t e ne r he a d .

Fe at u re s:

C a p S c re w s

1 /4 - 2 0

5 /1 6 - 1 8

3 /8 - 1 6

1 /2 - 1 3

1 8 0 00 1 /4 x 1 / 2 7 /1 6 ” 1 0 0 4 0 0 0 1 .1 8 # 1 8 0 01 1 /4 x 3 / 4 7 /1 6 ” 1 0 0 1 0 0 0 1 .4 4 #

1 8 0 02 1 /4 x 1 7 /1 6 ” 1 0 0 1 0 0 0 1 .6 7 # 1 8 0 03 1 /4 x 1- 1 /4 7 /1 6 ” 1 0 0 1 0 0 0 2 .0 1 # 1 8 0 04 1 /4 x 1- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 2 .3 6 #

1 8 0 05 1 /4 x 2 7 /1 6 ” 1 0 0 1 0 0 0 3 .0 7 # 1 8 0 06 1 /4 x 2- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 3 .7 5 #

1 8 0 07 1 /4 x 3 7 /1 6 ” 1 0 0 1 0 0 0 4 .3 5 # 1 8 0 08 1 /4 x 3- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 5 .1 0 #

1 8 0 09 1 /4 x 4 7 /1 6 ” 1 0 0 1 0 0 0 5 .7 5 #

1 8 0 14 5 /1 6 x 1 / 2 1 / 2 ” 1 0 0 1 0 0 0 1 .9 5 # 1 8 0 15 5 /1 6 x 3 / 4 1 / 2 ” 1 0 0 1 0 0 0 2 .3 3 #

1 8 0 16 5 /1 6 x 1 1 / 2 ” 1 0 0 1 0 0 0 2 .7 4 # 1 8 0 17 5 /1 6 x 1- 1 /4 1 / 2 ” 1 0 0 1 0 0 0 3 .2 3 # 1 8 0 18 5 /1 6 x 1- 1 /2 1 / 2 ” 1 0 0 1 0 0 0 3 .8 2 #

1 8 0 19 5 /1 6 x 2 1 / 2 ” 1 0 0 1 0 0 0 4 .8 2 # 1 8 0 20 5 /1 6 x 2- 1 /2 1 / 2 ” 1 0 0 1 0 0 0 5 .9 5 #

1 8 0 21 5 /1 6 x 3 1 / 2 ” 1 0 0 1 0 0 0 6 .9 1 # 1 8 0 22 5 /1 6 x 3- 1 /2 1 / 2 ” 5 0 5 0 0 3 .6 2 #

1 8 0 23 5 /1 6 x 4 1 / 2 ” 5 0 5 0 0 3 .8 2 #

1 8 0 28 3 /8 x 1 / 2 9 /1 6 ” 1 0 0 1 0 0 0 2 .9 3 # 1 8 0 29 3 /8 x 3 / 4 9 /1 6 ” 1 0 0 1 0 0 0 3 .5 5 #

1 8 0 30 3 /8 x 1 9 /1 6 ” 1 0 0 1 0 0 0 4 .0 3 # 1 8 0 31 3 /8 x 1- 1 /4 9 /1 6 ” 1 0 0 1 0 0 0 4 .4 8 # 1 8 0 32 3 /8 x 1- 1 /2 9 /1 6 ” 1 0 0 1 0 0 0 5 .5 4 #

1 8 0 33 3 /8 x 2 9 /1 6 ” 1 0 0 1 0 0 0 6 .9 4 # 1 8 0 34 3 /8 x 2- 1 /2 9 /1 6 ” 1 0 0 5 0 0 8 .6 8 #

1 8 0 35 3 /8 x 3 9 /1 6 ” 1 0 0 5 0 0 9 .4 9 # 1 8 0 36 3 /8 x 3- 1 /2 9 /1 6 ” 5 0 5 0 0 5 .6 5 #

1 8 0 37 3 /8 x 4 9 /1 6 ” 5 0 5 0 0 6 .9 4 #

1 8 0 42 1 /2 x 3 / 4 3 / 4 ” 5 0 5 0 0 4 .0 5 # 1 8 0 43 1 /2 x 1 3 / 4 ” 5 0 5 0 0 4 .1 5 #

1 8 0 44 1 /2 x 1- 1 /4 3 / 4 ” 5 0 5 0 0 4 .6 9 # 1 8 0 45 1 /2 x 1- 1 /2 3 / 4 ” 5 0 5 0 0 5 .2 1 #

1 8 0 46 1 /2 x 2 3 / 4 ” 5 0 5 0 0 6 .7 3 # 1 8 0 47 1 /2 x 2- 1 /2 3 / 4 ” 5 0 2 0 0 8 .0 2 #

1 8 0 48 1 /2 x 3 3 / 4 ” 5 0 2 0 0 9 .3 7 # 1 8 0 49 1 /2 x 3- 1 /2 3 / 4 ” 5 0 2 0 0 1 0 .7 5 #

1 8 0 50 1 /2 x 4 3 / 4 ” 2 5 1 0 0 6 .0 2 #

Gr ade 2 Bo l t A21 Low Gr ade C arbon S tee l( Fu l l T h re ad ) Gr ade 5 Bo l t A22 Med ium C arbon S tee l ( Pa r t ia l T h re ad ) Quenc hed & Tempered

Gr ade 8 Bo l t Ava i l ab le Med ium C arbon A l loy S tee l( Pa r t ia l T h re ad ) Spec ia l Or de r Quenc hed & Tempered

Gr ade 2 Was he r A28 - A29 Low Gr ade C arbon S tee l

H a rd A l loy Was he r A28 U se w i t h Gr ade 5 & 8 Bo l t s

Gr ade 5 A26 Med ium C arbon S tee lH ex N u ts Quenc hed & Tempered

Gr ade 8 Ava i l ab le Med ium C arbon A l loy S tee lH ex N u ts Spec ia l Or de r Qu e nch e d & Te mp e re d

T e c h Ta lk

A 2 3

Fast

ener

s &

Har

dwar

e

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

C a p S c re w s & Ta p B o lt s

H ex H ea d C a p Sc re w s - St a in l es s P C 4 0 1 0S ta i n le ss s te e l he x he a d cap sc re ws ar e use d in no n - c r i t i ca l ap p l i ca -t io n s w i th nu t s an d wa sh e rs . Le n g t h is de t e rm i n e d f r om th e ba se of th e f as t e n e r he a d . 18 - 8 S t a in l e ss S t e e l is use d wh e re cor ro s i o n re s i s ta n ce is re q u i re d . 18 % chr o m i um , 8% ni cke l .


1 /4 - 2 0

MS TR

5 /1 6 - 1 8

3 /8 - 1 6

1 /2 - 1 3

Fe at u re s: 6 9 7 04 1 /4 x 1 / 2 7 /1 6 ” 1 0 0 1 0 0 0 1 .1 8 # 6 9 7 06 1 /4 x 3 / 4 7 /1 6 ” 1 0 0 1 0 0 0 1 .4 4 #

6 9 7 08 1 /4 x 1 7 /1 6 ” 1 0 0 1 0 0 0 1 .6 7 # 6 9 7 10 1 /4 x 1- 1 /4 7 /1 6 ” 1 0 0 1 0 0 0 2 .0 1 # 6 9 7 12 1 /4 x 1- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 2 .3 6 #

6 9 7 14 1 /4 x 2 7 /1 6 ” 1 0 0 1 0 0 0 3 .0 7 #

6 9 7 44 5 /1 6 x 1 / 2 1 / 2 ” 1 0 0 1 0 0 0 1 .9 5 # 6 9 7 46 5 /1 6 x 3 / 4 1 / 2 ” 1 0 0 1 0 0 0 2 .3 3 #

6 9 7 48 5 /1 6 x 1 1 / 2 ” 1 0 0 1 0 0 0 2 .7 4 # 6 9 7 50 5 /1 6 x 1- 1 /4 1 / 2 ” 1 0 0 1 0 0 0 3 .2 3 #

6 9 7 52 5 /1 6 x 1- 1 /2 1 / 2 ” 1 0 0 1 0 0 0 3 .8 2 # 6 9 7 54 5 /1 6 x 2 1 / 2 ” 1 0 0 1 0 0 0 4 .8 2 #

6 9 8 04 3 /8 x 1 / 2 9 /1 6 ” 1 0 0 1 0 0 0 2 .9 3 # 6 9 8 06 3 /8 x 3 / 4 9 /1 6 ” 1 0 0 1 0 0 0 3 .5 5 # 6 9 8 08 3 /8 x 1 9 /1 6 ” 1 0 0 1 0 0 0 4 .0 3 #

6 9 8 10 3 /8 x 1- 1 /4 9 /1 6 ” 1 0 0 1 0 0 0 4 .4 8 # 6 9 8 12 3 /8 x 1- 1 /2 9 /1 6 ” 1 0 0 1 0 0 0 5 .5 4 #

6 9 8 14 3 /8 x 2 9 /1 6 ” 1 0 0 1 0 0 0 6 .9 4 #

6 9 8 44 1 /2 x 3 / 4 3 / 4 ” 5 0 5 0 0 3 .6 3 # 6 9 8 46 1 /2 x 1 3 / 4 ” 5 0 5 0 0 4 .1 5 #

6 9 8 48 1 /2 x 1- 1 /4 3 / 4 ” 5 0 5 0 0 4 .6 9 # 6 9 8 50 1 /2 x 1- 1 /2 3 / 4 ” 5 0 5 0 0 5 .2 1 #

6 9 8 52 1 /2 x 2 3 / 4 ” 5 0 5 0 0 6 .7 3 #

H ex H ea d Tap B olts - S i l i c on B ron ze P C 4 0 1 5S i l i co n br o n ze he x he a d ta p bo l t s ar e use d in no n - c r i t i ca l ap p l i ca t i o n s w i t h nu t s an d wa sh e rs . Le n g t h is de t e rm i n e d f r om th e ba se of th e f as t e n e r he a d . S i l ico n br o n ze is sup e r io r fo r ma r i n e ap p l i ca t i o n s . I t w i l l n o t cor ro d e , is ha r d er th a n br a ss an d ha s a h i g h re s i s ta n ce to ex t re me t em pe r a tu re s .


1 /4 - 2 0

MS TR

5 /1 6 - 1 8

3 /8 - 1 6

1 /2 - 1 3

Fe at u re s: 5 8 3 00 1 /4 x 1 / 2 7 /1 6 ” 1 0 0 4 0 0 0 1 .1 8 # 5 8 3 01 1 /4 x 3 / 4 7 /1 6 ” 1 0 0 1 0 0 0 1 .4 4 #

5 8 3 02 1 /4 x 1 7 /1 6 ” 1 0 0 1 0 0 0 1 .6 7 # 5 8 3 03 1 /4 x 1- 1 /4 7 /1 6 ” 1 0 0 1 0 0 0 2 .0 1 # 5 8 3 04 1 /4 x 1- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 2 .3 6 #

5 8 3 05 1 /4 x 2 7 /1 6 ” 1 0 0 1 0 0 0 3 .0 7 #

5 8 3 08 5 /1 6 x 1 / 2 1 / 2 ” 1 0 0 1 0 0 0 1 .9 5 # 5 8 3 09 5 /1 6 x 3 / 4 1 / 2 ” 1 0 0 1 0 0 0 2 .3 3 #

5 8 3 10 5 /1 6 x 1 1 / 2 ” 1 0 0 1 0 0 0 2 .7 4 # 5 8 3 11 5 /1 6 x 1- 1 /4 1 / 2 ” 1 0 0 1 0 0 0 3 .2 3 # 5 8 3 12 5 /1 6 x 1- 1 /2 1 / 2 ” 1 0 0 1 0 0 0 3 .8 2 #

5 8 3 13 5 /1 6 x 2 1 / 2 ” 1 0 0 1 0 0 0 4 .8 2 #

5 8 3 16 3 /8 x 1 / 2 9 /1 6 ” 1 0 0 1 0 0 0 2 .9 3 # 5 8 3 17 3 /8 x 3 / 4 9 /1 6 ” 1 0 0 1 0 0 0 3 .5 5 #

5 8 3 18 3 /8 x 1 9 /1 6 ” 1 0 0 1 0 0 0 4 .0 3 # 5 8 3 19 3 /8 x 1- 1 /4 9 /1 6 ” 1 0 0 1 0 0 0 4 .4 8 # 5 8 3 20 3 /8 x 1- 1 /2 9 /1 6 ” 1 0 0 1 0 0 0 5 .5 4 #

5 8 3 21 3 /8 x 2 9 /1 6 ” 1 0 0 1 0 0 0 6 .9 4 #

5 8 3 26 1 /2 x 3 / 4 3 / 4 ” 50 50 0 3 .6 3 # 5 8 3 27 1 /2 x 1 3 / 4 ” 50 50 0 4 .1 5 #

5 8 3 28 1 /2 x 1- 1 /4 3 / 4 ” 50 50 0 4 .6 9 # 5 8 3 29 1 /2 x 1- 1 /2 3 / 4 ” 50 50 0 5 .2 1 #

5 8 3 30 1 /2 x 2 3 / 4 ” 50 50 0 6 .7 3 #


Fasteners &

Hardware

H ex H ea d P C 4 0 8 0

L a g sc re ws ar e use d in wo o d wo rk i n g wh e n s ta n d a rd wo o d sc re ws ar e t oo sho r t or to o sma l l . A l so use d in con c r e te , br i c k or in mo r t ar wh e n u se d w i th la g sh i e l d s . Le n g t h is de t e rm i n e d f r om th e ba se of th e fa s t e ne r h e a d.

Fe at u re s:

L a g S c re w s


1 /4

MS TR

5 /1 6

3 /8

1 /2

5 8 5 00 1 /4 x 1 7 /1 6 ” 1 0 0 1 0 0 0 1 .4 8 # 5 8 5 02 1 /4 x 1- 1 /4 7 /1 6 ” 1 0 0 1 0 0 0 1 .6 7 # 5 8 5 03 1 /4 x 1- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 1 .8 3 #

5 8 5 04 1 /4 x 2 7 /1 6 ” 1 0 0 1 0 0 0 2 .5 8 # 5 8 5 06 1 /4 x 2- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 3 .0 0 #

5 8 5 08 1 /4 x 3 7 /1 6 ” 1 0 0 1 0 0 0 3 .5 7 # 5 8 5 10 1 /4 x 3- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 4 .0 3 #

5 8 5 12 1 /4 x 4 7 /1 6 ” 1 0 0 1 0 0 0 4 .4 4 # 5 8 5 14 1 /4 x 4- 1 /2 7 /1 6 ” 1 0 0 1 0 0 0 4 .9 0 #

5 8 5 16 1 /4 x 5 7 /1 6 ” 1 0 0 4 0 0 5 .4 6 # 5 8 5 18 1 /4 x 5- 1 /2 7 /1 6 ” 1 0 0 4 0 0 6 .2 1 #

5 8 5 20 1 /4 x 6 7 /1 6 ” 1 0 0 4 0 0 6 .5 9 #

5 8 5 50 5 /1 6 x 1 1 /2 ” 1 0 0 1 0 0 0 2 .9 3 # 5 8 5 52 5 /1 6 x 1- 1 /4 1 /2 ” 1 0 0 1 0 0 0 3 .2 1 # 5 8 5 53 5 /1 6 x 1- 1 /2 1 /2 ” 1 0 0 1 0 0 0 3 .4 9 #

5 8 5 54 5 /1 6 x 2 1 /2 ” 1 0 0 1 0 0 0 4 .0 5 # 5 8 5 56 5 /1 6 x 2- 1 /2 1 /2 ” 1 0 0 1 0 0 0 4 .6 2 #

5 8 5 58 5 /1 6 x 3 1 /2 ” 1 0 0 5 0 0 5 .3 8 # 5 8 5 60 5 /1 6 x 3- 1 /2 1 /2 ” 1 0 0 4 0 0 5 .9 4 #

5 8 5 62 5 /1 6 x 4 1 /2 ” 1 0 0 4 0 0 6 .8 8 # 5 8 5 64 5 /1 6 x 4- 1 /2 1 /2 ” 1 0 0 4 0 0 7 .7 6 #

5 8 5 66 5 /1 6 x 5 1 /2 ” 1 0 0 4 0 0 8 .6 2 # 5 8 5 68 5 /1 6 x 5- 1 /2 1 /2 ” 1 0 0 4 0 0 9 .9 4 #

5 8 6 70 5 /1 6 x 6 1 /2 ” 1 0 0 4 0 0 1 0 .1 5 #

5 8 5 98 3 /8 x 1 9 /1 6 ” 1 0 0 1 0 0 0 3 .1 8 # 5 8 6 00 3 /8 x 1- 1 /4 9 /1 6 ” 1 0 0 1 0 0 0 3 .6 6 # 5 8 6 01 3 /8 x 1- 1 /2 9 /1 6 ” 1 0 0 1 0 0 0 4 .1 9 #

5 8 6 02 3 /8 x 2 9 /1 6 ” 1 0 0 1 0 0 0 5 .4 0 # 5 8 6 04 3 /8 x 2- 1 /2 9 /1 6 ” 1 0 0 1 0 0 0 6 .5 1 #

5 8 6 06 3 /8 x 3 9 /1 6 ” 1 0 0 4 0 0 8 .7 8 # 5 8 6 08 3 /8 x 3- 1 /2 9 /1 6 ” 5 0 5 0 0 4 .3 9 #

5 8 6 10 3 /8 x 4 9 /1 6 ” 5 0 5 0 0 5 .0 4 # 5 8 6 12 3 /8 x 4- 1 /2 9 /1 6 ” 5 0 5 0 0 6 .0 7 #

5 8 6 14 3 /8 x 5 9 /1 6 ” 5 0 2 0 0 6 .2 6 # 5 8 6 16 3 /8 x 5- 1 /2 9 /1 6 ” 5 0 2 0 0 6 .9 6 #

5 8 6 18 3 /8 x 6 9 /1 6 ” 5 0 2 0 0 7 .5 0 #

5 8 6 50 1 /2 x 1- 1 /4 3 /4 ” 5 0 5 0 0 3 .5 9 # 5 8 6 51 1 /2 x 1- 1 /2 3 /4 ” 5 0 5 0 0 4 .4 0 #

5 8 6 52 1 /2 x 2 3 /4 ” 5 0 5 0 0 6 .1 2 # 5 8 6 54 1 /2 x 2- 1 /2 3 /4 ” 5 0 5 0 0 7 .0 0 #

5 8 6 56 1 /2 x 3 3 /4 ” 5 0 5 0 0 7 .3 8 # 5 8 6 58 1 /2 x 3- 1 /2 3 /4 ” 2 5 2 5 0 4 .3 8 #

5 8 6 60 1 /2 x 4 3 /4 ” 2 5 2 5 0 4 .8 7 # 5 8 6 62 1 /2 x 4- 1 /2 3 /4 ” 2 5 2 5 0 5 .4 5 #

5 8 6 64 1 /2 x 5 3 /4 ” 2 5 1 0 0 6 .0 5 # 5 8 6 66 1 /2 x 5- 1 /2 3 /4 ” 2 5 1 0 0 6 .6 5 #

5 8 6 68 1 /2 x 6 3 /4 ” 2 5 1 0 0 7 .2 0 #

T e c h

Lag sh ie lds a l low t he use o f l ag bo l ts i n conc re te , b lock and mor t a r and a re avai lab le in t wo s ty les; l ong and shor t . The shor t l ag i s used i n ha rd masonr y wh i le t he l ong i s used i n sof t masonr y. Fo r i ns ta l la t i on and t echni ca l in fo rmat i on p lease r ef er t o page B5 .

Ta lk

A 2 5F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fast

ener

s &

Har

dwar

e

T h re a d e d R o d & C o u p l i ng s

th rea d ed ro d P C 4 85 0 , 4 85 5


6 F o o t - PC 48 5 5

T h re a d ed ro d is use d in a var i e t y o f ap p l i ca t i o n s such as susp e n d i n g f ix t u re s , s t r u t or con d u i t . Use r can cut to le n g t h as ne e d re q u i r e s .

Fe at u re s:

1 7 3 16 1 /4 - 2 0 x 6 ’ 3 0 0 Ft 3 0 0 Ft 3 5 .0 0 # 1 7 3 17 3 /8 - 1 6 x 6 ’ 1 5 0 Ft 1 5 0 Ft 4 0 .0 0 # 1 7 3 18 1 /2 - 1 3 x 6 ’ 7 5 F t 7 5 Ft 3 8 .0 0 #

1 0 F o o t - PC 48 5 0

1 7 3 20 1 /4 - 2 0 x 10 ’ 5 0 0 Ft 5 0 0 Ft 6 0 .0 0 # 1 7 3 25 5 /1 6 - 18 x 10 ’ 3 5 0 Ft 3 5 0 Ft 6 8 .0 0 #

1 7 3 30 3 /8 - 1 6 x 10 ’ 2 5 0 Ft 2 5 0 Ft 7 3 .0 0 # 1 7 3 35 1 /2 - 1 3 x 10 ’ 1 0 0 Ft 1 0 0 Ft 5 3 .0 0 # 1 7 3 40 5 /8 - 11 x 10 ’ 5 0 F t 5 0 Ft 4 2 .0 0 # 1 7 3 45 3 /4 - 1 0 x 10 ’ 5 0 F t 5 0 Ft 6 7 .0 0 #

th rea d ed ro d 6 F oot L e ng th s - St a in l es s P C 4 0 1 0


T h re a d ed ro d is use d in a var i e t y o f ap p l i ca t i o n s such as susp e n d i n g f ix t u re s , s t r u t or con d u i t . Use r can cut to le n g t h as ne e d re q u i r e s .

Fe at u re s: 6 9 9 52 1 /4 - 2 0 x 6 ’ 6 F t 6 0 Ft 0 .7 2 # 6 9 9 54 3 /8 - 1 6 x 6 ’ 6 F t 6 0 Ft 1 .7 5 # 6 9 9 56 1 /2 - 1 3 x 6 ’ 6 F t 6 0 Ft 3 .1 8 # 6 9 9 58 5 /8 - 11 x 6 ’ 6 F t 6 0 Ft 5 .0 8 # 6 9 9 60 3 /4 - 1 0 x 6 ’ 6 F t 6 0 Ft 8 .0 4 #

R od C ou p l in gs P C 4 8 6 0

Ro d cou p l i n gs ar e use d to cou p l e th re a d e d ro d fo r ex t e n d e d le n g t hs . Re d u c i n g ro d cou p l i n gs ar e use d wh e n wo rk i n g w i th tw o d i f f e re n t th re a d d i am et e rs .

Fe at u re s:

CAT. NO. UP C S IZ E S TD W T/ S TDMS TR

3 0 4 05 1 /4 ” 7 /8 ” 1 0 0 1 0 0 0 1 .9 0 # 3 0 4 10 3 /8 ” 1 -1 / 8 ” 5 0 5 0 0 1 .8 0 # 3 0 4 15 1 /2 ” 1 -1 / 4 ” 5 0 5 0 0 2 .9 0 # 1 7 3 00 5 /1 6 ” 7 /8 ” 5 0 5 0 0 2 .9 8 # 1 7 3 05 5 /8 ” 2 -1 / 8 ” 2 5 2 5 0 4 .4 1 # 1 7 3 07 3 /4 ” 2 -1 / 4 ” 2 5 2 5 0 9 .1 0 #

1 7 3 10 3 /8 - 1 /4 ” 1 ” 5 0 5 0 0 2 .0 6 # 1 7 3 15 1 /2 - 3 /8 ” 1 -1 / 4 ” 5 0 5 0 0 6 .9 0 #

R od C ou p l in gs - St a in l es s P C 4 0 1 0

Ro d cou p l i n gs ar e use d to cou p l e th re a d e d ro d fo r ex t e n d e d le n g t hs .

Fe at u re s:

CAT. NO. UP C S IZ E S TD W T/ S TDMS TR

6 9 9 44 1 /4 ” 7 /8 ” 1 0 0 1 0 0 0 1 .9 0 # 6 9 9 46 3 /8 ” 1 -1 / 8 ” 5 0 5 0 0 1 .8 0 # 6 9 9 48 1 /2 ” 1 -1 / 4 ” 5 0 5 0 0 2 .9 0 #

*Red ucing C oup l i ng


Fasteners &

Hardware

H ex N u tsP C 4 10 0 , 4 0 1 0 ,

4 0 1 5, 4 0 1 8 & 4 30 0

He x ma chi n e sc re w nu t s ar e fo r sc re ws sma l l e r th a n 1/ 4 ” d i a me t er. F i n i she d h e x nu t s ar e he a v i e r ( t h i cke r ) an d ar e fu rn i sh e d in s ize s 1/ 4 ” an d up .

Fe at u re s:

TM Up

H e x N u t s

P a ck ag i ng :

CAT. NO. UP C S IZ E S LVS TD W T/ S TD

Z in c Pl at e d S t e el - PC 41 0 0

MS TR

1 7 0 10 6 -3 2 1 0 0 5 0 0 4 0 0 0 0 .2 1 # 1 7 0 15 8 -3 2 1 0 0 5 0 0 4 0 0 0 0 .2 8 #

1 7 0 20 1 0 -2 4 1 0 0 5 0 0 4 0 0 0 0 .3 3 # 1 7 0 25 1 0 -3 2 1 0 0 5 0 0 4 0 0 0 0 .3 3 # 1 7 0 30 1 2 -2 4 1 0 0 5 0 0 4 0 0 0 0 .5 6 #

1 7 0 35 1 /4 - 2 0 1 0 0 5 0 0 4 0 0 0 0 .6 8 # 1 7 0 40 5 /1 6 - 18 5 0 2 5 0 2 0 0 0 0 .5 1 # 1 7 0 45 3 /8 - 1 6 5 0 2 5 0 2 0 0 0 0 .7 4 #

1 7 0 50 1 /2 - 1 3 2 5 1 2 5 1 0 0 0 0 .9 0 # 1 7 0 55 5 /8 - 11 2 5 1 2 5 7 5 0 1 .7 7 # 1 7 0 60 3 /4 - 1 0 2 5 2 5 0 2 .9 5 #

1 7 0 51 1 /4 - 2 0 5 0 0 3 0 0 0 3 .7 0 # 1 7 0 52 3 /8 - 1 6 2 5 0 1 5 0 0 3 .8 6 # 1 7 0 53 1 /2 - 1 3 1 5 0 9 0 0 4 .6 2 #

S t a in l e s s S t e el - PC 40 1 0

6 9 7 76 6 -3 2 1 0 0 5 0 0 4 0 0 0 0 .2 2 # 6 9 8 78 8 -3 2 1 0 0 5 0 0 4 0 0 0 0 .3 0 #

6 9 7 80 1 0 -2 4 1 0 0 5 0 0 4 0 0 0 0 .3 3 # 6 9 8 72 1 0 -3 2 1 0 0 5 0 0 4 0 0 0 0 .3 2 # 6 9 7 84 1 2 -2 4 1 0 0 5 0 0 4 0 0 0 0 .5 8 #

6 9 7 86 1 /4 - 2 0 1 0 0 5 0 0 4 0 0 0 0 .7 2 # 6 9 7 88 5 /1 6 - 18 5 0 2 5 0 2 0 0 0 0 .5 5 #

6 9 7 90 3 /8 - 1 6 5 0 2 5 0 2 0 0 0 0 .7 9 # 6 9 7 92 1 /2 - 1 3 2 5 1 2 5 1 0 0 0 1 .2 2 #

6 9 7 94 5 /8 - 11 2 5 1 2 5 7 5 0 1 .8 4 # 6 9 7 96 3 /4 - 1 0 2 5 2 5 0 2 .9 5 #

S o l i d B r a s s - PC 43 0 0

1 7 11 0 6 -3 2 1 0 0 5 0 0 4 0 0 0 0 .2 1 # 1 7 11 5 8 -3 2 1 0 0 5 0 0 4 0 0 0 0 .2 8 #

1 7 1 20 1 0 -2 4 1 0 0 5 0 0 4 0 0 0 0 .3 3 # 1 7 1 25 1 0 -3 2 1 0 0 5 0 0 4 0 0 0 0 .3 3 # 1 7 1 50 1 2 -2 4 1 0 0 5 0 0 4 0 0 0 0 .5 6 #

1 7 1 35 1 /4 - 2 0 1 0 0 5 0 0 4 0 0 0 0 .6 8 # 1 7 1 05 5 /1 6 - 18 5 0 2 5 0 2 0 0 0 0 .5 1 #

1 7 1 40 3 /8 - 1 6 5 0 2 5 0 2 0 0 0 0 .7 4 # 1 7 1 45 1 /2 - 1 3 2 5 1 2 5 1 0 0 0 0 .9 0 #

S il i c o n B ro nz e - PC 40 1 5

1 7 1 60 6 -3 2 1 0 0 5 0 0 4 0 0 0 0 .2 1 # 1 7 1 61 8 -3 2 1 0 0 5 0 0 4 0 0 0 0 .2 8 #

1 7 1 62 1 0 -2 4 1 0 0 5 0 0 4 0 0 0 0 .3 3 # 1 7 1 63 1 0 -3 2 1 0 0 5 0 0 4 0 0 0 0 .3 3 #

1 7 1 64 1 /4 - 2 0 1 0 0 5 0 0 4 0 0 0 0 .6 8 # 1 7 1 65 5 /1 6 - 18 5 0 2 5 0 2 0 0 0 1 .0 2 #

1 7 1 66 3 /8 - 1 6 5 0 2 5 0 2 0 0 0 0 .7 5 # 1 7 1 67 1 /2 - 1 3 2 5 1 2 5 1 0 0 0 1 .0 2 #

G r a de 5 - Z i nc Pl at e d - PC 40 1 8

1 3 0 00 1 /4 - 2 0 1 0 0 5 0 0 4 0 0 0 0 .6 8 # 1 3 0 01 3 /8 - 1 6 5 0 2 5 0 2 0 0 0 0 .7 5 # 1 3 0 02 1 /2 - 1 3 2 5 1 2 5 1 0 0 0 0 .9 0 # 1 3 0 03 5 /8 - 11 2 5 1 2 5 7 5 0 1 .8 5 # 1 3 0 04 3 /4 - 1 0 2 5 2 5 0 2 .9 7 #

Ma ch i neS c re wNu t s

F in i sh e dHe xNu t s

Tu f f Pa ck








S TD S LV

MS TRPAC K

A 2 7

Fast

ener

s &

Har

dwar

e

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

L o c k Wa s h e r s

L oc k Wa she rs P C 4 11 0 , 4 0 1 0 , 4 0 1 5

L o ck wa sh e rs pr o v id e t i g h t lo ck i n g of sc re ws an d bo l t s . Z i n c P l a te d S te e l - ge n e ra l use ; S t a in l e ss S t e e l - cor ro s i o n an d che m i ca l re s i s t an t ; S i l ico n Br on ze - h i g h re s i s ta n ce to ex t re me te mp e ra t u re s .



Fe at u re s:

TM



P a ck ag i ng :

3 1 0 10 # 6 1 0 0 5 0 0 4 0 0 0 0 .0 3 # 3 1 0 15 # 8 1 0 0 5 0 0 4 0 0 0 0 .0 5 #

3 1 0 25 # 1 0 (3 /1 6 ” ) 1 0 0 5 0 0 4 0 0 0 0 .0 7 # 3 1 0 30 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .2 2 #

3 1 0 35 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .4 2 # 3 1 0 40 3 /8 ” 1 0 0 5 0 0 4 0 0 0 0 .6 0 # 3 1 0 45 1 /2 ” 1 0 0 5 0 0 3 0 0 0 1 .3 0 # 3 1 0 50 5 /8 ” 1 0 0 1 0 0 0 2 .4 3 # 3 1 0 55 3 /4 ” 1 0 0 1 0 0 0 4 .0 0 #

6 9 9 66 # 6 1 0 0 5 0 0 4 0 0 0 0 .0 3 # 6 9 9 68 # 8 1 0 0 5 0 0 4 0 0 0 0 .0 5 #

6 9 9 70 # 1 0 (3 /1 6 ” ) 1 0 0 5 0 0 4 0 0 0 0 .1 0 # 6 9 9 72 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .2 7 #

6 9 9 74 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .4 2 # 6 9 9 76 3 /8 ” 1 0 0 5 0 0 4 0 0 0 0 .6 4 # 6 9 9 78 1 /2 ” 1 0 0 5 0 0 3 0 0 0 1 .9 8 # 6 9 9 80 5 /8 ” 1 0 0 1 0 0 0 2 .2 2 # 6 9 9 82 3 /4 ” 1 0 0 1 0 0 0 4 .2 3 #

3 11 6 0 # 6 1 0 0 5 0 0 4 0 0 0 0 .0 9 # 3 11 6 1 # 8 1 0 0 5 0 0 4 0 0 0 0 .1 0 #

3 11 6 2 # 1 0 (3 /1 6 ” ) 1 0 0 5 0 0 4 0 0 0 0 .11 # 3 11 6 3 1 /4 ” 1 0 0 5 0 0 4 0 0 0 0 .4 0 #

3 11 6 4 5 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .4 4 # 3 11 6 5 3 /8 ” 1 0 0 5 0 0 4 0 0 0 0 .6 6 # 3 11 6 6 1 /2 ” 1 0 0 5 0 0 3 0 0 0 1 .4 4 # 3 11 6 7 5 /8 ” 1 0 0 1 0 0 0 2 .5 0 # 3 11 6 8 3 /4 ” 1 0 0 1 0 0 0 3 .8 0 #

T e c h P la t i ng is t he mos t w ide ly used p la t ing . Z inc i s popu la r as a f as tener

coa t i ng because i t i s t he l eas t expensi ve and can be appl ied t o a b road r ange o f th icknesses . I t has good t o exce l len t co r ros ion r es is tance and i s r e l at i ve ly non t ox ic .

STAINLESS STEEL I s a f ami ly o f f er rous a l loys, each w i t h a mi ni mum chromium con ten t o f 12 pe rcen t . Chromium i s a non- co r rodi ble e lement ; consequen t ly, a l l s ta in less s tee ls have a h igh degr ee o f co r ros ion r es is tance . Genera l l y, t he h igher t he chr om ium cont en t , t he be t te r t he co r ros ion r es is tance .

Composed nomina l l y o f Copper & Z inc , i s t he mos t common Copper -base a l loy. I t s uses a re myr i ad s ince i t i s r e l at i ve ly i nexpensi ve . I t i s easi l y worked i nt o any shape o r f or m, and possesses s t r eng th , t oughness and good co r ros ion r es is tance . Co ld d rawn b rass has an even g rea te r t ens i le s t r eng th t han mi ld ca rbon s tee l .

Has a h igh pe rcen tage o f copper and sma l l amount s o f s i l i con , manganese o r a luminum added f or s t r eng th . S i l i con Br onze possesses a h igh t ens i le s t rengt h super i or t o mi ld s tee l . I t has a h igh r es is tance t o co r ros ive i nf luences such as ext reme t empera tu res , a tmospher i c cond i t ions , na tu ra l and sea wa te r, gases and sew-age . I t i s nonm agnet ic and has exce l len t machi ni ng and work ing char ac te r i s t i cs .

Prec is i on mo lded o r machi ned o f Ny lon 6 /6 a h igh ly c rys ta l l ine , l igh twe igh t , h igh me l t ing, t he rm op las t ic r es in . I t has ou ts tand ing t oughness; good t he rm al p roper t ies; ab rasi on , f r i c t ion and chemi ca l r es is tance .

Ta lk

S TD S LV

MS TR


Fasteners &

Hardware

F l at Wa she rs P C 4 11 0 , 4 0 1 0 , 4 30 0 , 4 0 1 5

F la t Wa sh e rs S t e e l - ge n e ra l use ; S t a in l e ss s te e l - cor ro s i o n an d che m i ca l re s i s ta n t ; S ol i d br a ss - go o d in wa te r an d sa l t a i r ; S i l ico n br o n ze - ha r d er th a n br a ss , ma r i n e u se an d h i g h re s i s ta n ce to ex t re me te mp e ra t u re s ; Ha rd a l l o y - use d w i th gr a d e 5 an d 8 b o l t s .

Fe at u re s:

TM Up

Fl at Wa s h e r s

P a ck ag i ng :

CAT. NO. UP C S LVS TD W T /S TD


MS TRINSIDE/OUTSIDE

DI AME T ER

3 1 0 60 # 6 5 /3 2 ” x 3 / 8 ” 3 /6 4 ” 1 0 0 5 0 0 4 0 0 0 0 .1 2 # 3 1 0 65 # 8 3 /1 6 ” x 7 / 1 6 ” 3 /6 4 ” 1 0 0 5 0 0 4 0 0 0 0 .1 7 #

3 1 0 75 # 1 0 (3 /1 6 ) 7 /3 2 ” x 1 / 2 ” 3 /6 4 ” 1 0 0 5 0 0 4 0 0 0 0 .2 3 # 3 1 0 80 1 /4 ” 5 /1 6 ” x 3 / 4 ” 1 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .6 7 #

3 1 0 85 5 /1 6 ” 3 /8 ” x 7 / 8 ” 1 /1 6 ” 1 0 0 5 0 0 3 0 0 0 0 .8 6 # 3 1 0 90 3 /8 ” 7 /1 6 ” x 1 ” 1 /1 6 ” 1 0 0 5 0 0 2 0 0 0 1 .4 9 # 3 1 0 95 1 /2 ” 9 /1 6 ” x 1- 3 /8 ” 3 /3 2 ” 5 0 2 5 0 1 0 0 0 1 .9 3 # 3 11 0 0 5 /8 ” 11 / 1 6 ” x 1- 3 /4 ” 3 /3 2 ” 2 5 1 2 5 7 5 0 1 .9 9 # 3 11 0 5 3 /4 ” 1 3 /1 6 ”x 2 ” 9 /6 4 ” 2 5 2 5 0 2 .7 5 #

3 1 0 96 1 /4 ” 5 /1 6 ” x 3 / 4 ” 1 /1 6 ” 5 0 0 3 0 0 0 7 .5 3 # 3 1 0 97 3 /8 ” 7 /1 6 ” x 1 ” 1 /1 6 ” 2 5 0 1 5 0 0 4 .2 3 # 3 1 0 98 1 /2 ” 9 /1 6 ” x 1- 3 /8 ” 3 /3 2 ” 1 5 0 9 0 0 5 .1 5 #


6 9 8 80 # 6 5 /3 2 ” x 3 / 8 ” 3 /6 4 ” 1 0 0 5 0 0 4 0 0 0 0 .1 0 # 6 9 8 82 # 8 3 /1 6 ” x 7 / 1 6 ” 3 /6 4 ” 1 0 0 5 0 0 4 0 0 0 0 .1 2 #

6 9 8 84 # 1 0 (3 /1 6 ) 7 /3 2 ” x 1 / 2 ” 3 /6 4 ” 1 0 0 5 0 0 4 0 0 0 0 .1 7 # 6 9 8 86 1 /4 ” 5 /1 6 ” x 5 / 8 ” 1 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .3 2 #

6 9 8 88 5 /1 6 ” 3 /8 ” x 3 / 4 ” 1 /1 6 ” 1 0 0 5 0 0 3 0 0 0 0 .4 3 # 6 9 8 90 3 /8 ” 7 /1 6 ” x 7 / 8 ” 1 /1 6 ” 1 0 0 5 0 0 2 0 0 0 0 .6 2 # 6 9 8 92 1 /2 ” 9 /1 6 ” x 1- 1 /4 ” 3 /3 2 ” 5 0 2 5 0 1 0 0 0 0 .8 2 # 6 9 8 94 5 /8 ” 11 / 1 6 ” x 1- 1 /2 ” 3 /3 2 ” 2 5 1 2 5 7 5 0 0 .7 7 # 6 9 8 96 3 /4 ” 1 3 /1 6 ” x 1- 7 /8 ” 9 /6 4 ” 2 5 2 5 0 1 .6 2 #

S o l i d B r a s s - PC 43 0 0

3 111 0 # 6 5 /3 2 ” x 5 / 1 6 ” 1 /3 2 ” 1 0 0 5 0 0 4 0 0 0 0 .1 0 # 3 111 5 # 8 3 /1 6 ” x 3 / 8 ” 1 /3 2 ” 1 0 0 5 0 0 4 0 0 0 0 .1 2 #

3 11 2 0 # 1 0 (3 /1 6 ) 7 /3 2 ” x 7 / 1 6 ” 1 /3 2 ” 1 0 0 5 0 0 4 0 0 0 0 .1 5 # 3 11 2 5 1 /4 ” 5 /1 6 ” x 9 / 1 6 ” 3 /6 4 ” 1 0 0 5 0 0 4 0 0 0 0 .5 8 #

3 11 3 0 5 /1 6 ” 3 /8 ” x 3 / 4 ” 1 /1 6 ” 1 0 0 5 0 0 3 0 0 0 0 .9 1 # 3 11 3 5 3 /8 ” 7 /1 6 ” x 7 / 8 ” 1 /1 6 ” 1 0 0 5 0 0 2 0 0 0 1 .5 2 # 3 11 4 0 1 /2 ” 9 /1 6 ” x 1- 1 /4 ” 3 /3 2 ” 5 0 2 5 0 1 0 0 0 1 .7 9 # 3 11 4 5 5 /8 ” 11 / 1 6 ” x 1- 1 /2 ” 7 /6 4 ” 2 5 1 2 5 7 5 0 1 .8 8 # 3 11 2 7 3 /4 ” 1 3 /1 6 ” x 1- 7 /8 ” 7 /6 4 ” 2 5 2 5 0 1 .9 2 #


3 0 9 79 # 6 5 /3 2 ” x 5 / 1 6 ” 1 /3 2 ” 1 0 0 5 0 0 4 0 0 0 0 .1 0 # 3 0 9 80 # 8 3 /1 6 ” x 3 / 8 ” 1 /3 2 ” 1 0 0 5 0 0 4 0 0 0 0 .1 2 #

3 0 9 81 # 1 0 (3 /1 6 ) 7 /3 2 ” x 7 / 1 6 ” 1 /3 2 ” 1 0 0 5 0 0 4 0 0 0 0 .1 4 # 3 0 9 82 1 /4 ” 5 /1 6 ” x 9 / 1 6 ” 3 /6 4 ” 1 0 0 5 0 0 4 0 0 0 0 .4 2 #

3 0 9 83 5 /1 6 ” 3 /8 ” x 3 / 4 ” 1 /1 6 ” 1 0 0 5 0 0 3 0 0 0 0 .7 2 # 3 0 9 84 3 /8 ” 7 /1 6 ” x 7 / 8 ” 1 /1 6 ” 1 0 0 5 0 0 2 0 0 0 0 .9 9 # 3 0 9 85 1 /2 ” 9 /1 6 ” x 1- 1 /4 ” 3 /3 2 ” 5 0 2 5 0 1 0 0 0 1 .1 8 # 3 0 9 86 5 /8 ” 11 / 1 6 ” x 1- 1 /2 ” 7 /6 4 ” 2 5 1 2 5 7 5 0 1 .4 9 # 3 0 9 87 3 /4 ” 1 3 /1 6 ” x 7 / 8 ” 7 /6 4 ” 2 5 2 5 0 2 .7 5 #

H ar d Al l o y - Z i nc Pl at e d ( F o r G r ad e 5 & 8 ) - PC 40 1 5

3 0 9 89 1 /4 ” 5 /1 6 ” x 3 / 4 ” 1 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .6 7 # 3 0 9 90 5 /1 6 ” 3 /8 ” x 7 / 8 ” 1 /1 6 ” 1 0 0 5 0 0 4 0 0 0 0 .8 6 #

3 0 9 91 3 /8 ” 7 /1 6 ” x 1 ” 1 /1 6 ” 1 0 0 5 0 0 2 0 0 0 1 .4 9 # 3 0 9 92 1 /2 ” 9 /1 6 ” x 1- 3 /8 ” 3 /3 2 ” 5 0 2 5 0 1 0 0 0 1 .9 3 # 3 0 9 93 5 /8 ” 11 / 1 6 ” x 1- 3 /4 ” 3 /3 2 ” 2 5 2 5 0 1 .9 3 # 3 0 9 94 3 /4 ” 1 3 /1 6 ” x 2 ” 9 /6 4 ” 2 5 2 5 0 2 .7 5 #

S TD S LV

MS TRPAC K

A 2 9F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fast

ener

s &

Har

dwar

e

Fe nd e r Wa s h e r s & “ S ” H o o k s

F en d er Wa she rs P C 4 11 0

F e nd e r Wa sh e rs ar e fo r ge n e ra l pu r p ose ap p l i ca t i o n s . Pr ov i d e s a la r ge l o ad be a r in g sur fa ce .


Fe at u re s:

1 5 5 05 3 /1 6 x 1- 1 /4 ” 1 0 0 5 0 0 3 0 0 0 1 .6 5 #

1 5 5 10 1 /4 x 1 ” 1 0 0 5 0 0 3 0 0 0 1 .0 0 # 1 5 5 15 1 /4 x 1- 1 /4 ” 1 0 0 5 0 0 3 0 0 0 1 .6 2 # 1 5 5 20 1 /4 x 1- 1 /2 ” 1 0 0 5 0 0 3 0 0 0 2 .3 7 #

1 5 5 21 1 /4 x 2 ” 1 0 0 3 0 0 0 5 .6 5 #

1 5 5 25 5 /1 6 x 1- 1 /4 ” 1 0 0 5 0 0 3 0 0 0 2 .0 5 #

1 5 5 27 3 /8 x 1- 1 /4 ” 1 0 0 5 0 0 3 0 0 0 2 .2 0 # 1 5 5 30 3 /8 x 1- 1 /2 ” 1 0 0 1 0 0 0 3 .0 8 #

1 5 5 31 3 /8 x 2 ” 1 0 0 1 0 0 0 5 .5 0 #

1 5 5 35 1 /2 x 1- 1 /2 ” 1 0 0 1 0 0 0 2 .7 5 # 1 5 5 40 1 /2 x 2 ” 1 0 0 1 0 0 0 5 .2 5 #

1 5 5 36 1 /4 x 1- 1 /4 ” 2 5 0 1 5 0 0 5 .2 3 # 1 5 5 37 3 /8 x 1- 1 /4 ” 2 5 0 1 5 0 0 4 .5 8 # 1 5 5 38 1 /2 x 1- 1 /2 ” 1 5 0 9 0 0 4 .0 1 #

F en d er Wa she rs - St a in l es s P C 4 0 1 0

F e nd e r Wa sh e rs ar e fo r ge n e ra l pu r p ose ap p l i ca t i o n s . Pr ov i d e s a la r ge l o ad be a r in g sur fa ce . S t a in l e ss s te e l re s i s ts cor ro s i o n .


Fe at u re s:

6 9 9 06 3 /1 6 x 1 ” 1 0 0 5 0 0 3 0 0 0 1 .1 9 #

6 9 9 08 1 /4 x 1 ” 1 0 0 5 0 0 3 0 0 0 1 .2 5 # 6 9 9 10 1 /4 x 1- 1 /4 ” 1 0 0 5 0 0 3 0 0 0 2 .0 9 # 6 9 9 12 1 /4 x 1- 1 /2 ” 1 0 0 1 0 0 0 2 .8 5 #

6 9 9 14 5 /1 6 x 1- 1 /2 ” 1 0 0 1 0 0 0 2 .3 0 #

6 9 9 16 3 /8 x 1- 1 /2 ” 1 0 0 1 0 0 0 3 .2 6 # 6 9 9 18 1 /2 x 2 ” 1 0 0 1 0 0 0 5 .1 2 #

“ S” H ook s P C 4 87 0

“S ” Ho o ks ar e ma nu f a c tu r e d f r om lo w car b o n co l d dr a wn s te e l w i re sup p l i e d w i t h b l u n t en d s an d z in c p l a t e d. Ho o ks ar e use d to ha n g f i x t ur e s susp e n d e d f ro m cha i n .

Fe at u re s:

CAT. NO .

UP COV ER AL L

S TDW IR E

W T/ S TDMS TRDI AME T ER

3 0 8 05 1 ” 1 /4 ” 3 /1 6 ” 11 Ga . 1 0 0 3 0 0 0 0 .7 4 # 3 0 8 10 1 -1 / 2 ” 7 /1 6 ” 1 /4 ” 7 Ga . 1 0 0 1 0 0 0 2 .4 7 # 3 0 8 15 2 ” 9 /1 6 ” 3 /8 ” 1 /4 ” 5 0 5 0 0 3 .0 1 #

3 0 8 20 2 -1 / 2 ” 3 /4 ” 7 /1 6 ” 5 /1 6 ” 5 0 2 0 0 6 .0 4 # 3 0 8 25 3 ” 7 /8 ” 1 /2 ” 5 /1 6 ” 5 0 2 0 0 7 .11 #

L

EC

D


Fasteners &

Hardware

Ey e B olts P C 4 87 0

E ye Bo l ts ar e ma nu f a c tu r e d f r om lo w car b o n co l d dr a wn s te e l w i re an d ar e sup p l i e d w i th NC ro l l e d ma chi n e th re a d s an d on e he x nu t .

Fe at u re s:

F i x t u re A c c e s s o r i e s

CAT. NO .

UP C S IZ E S TD W T/ S TDMS TROVERALL I NS ID E

S IZ E

2 8 2 30 3 /1 6 x 2 ” 2 ” 1 -1 / 4 ” 1 -3 / 8 ” 3 /1 6 ” 5 /1 6 ” 5 0 5 0 0 0 .9 6 # 2 8 2 35 3 /1 6 x 3 ” 3 -11 /1 6 ” 1 -1 / 2 ” 3 ” 3 /1 6 ” 3 /8 ” 5 0 5 0 0 1 .3 9 # 2 8 2 40 1 /4 x 2 ” 2 ” 7 /8 ” 1 ” 1 /4 ” 1 /2 ” 5 0 5 0 0 2 .0 2 # 2 8 2 45 1 /4 x 3 ” 3 ” 1 -1 / 4 ” 2 ” 1 /4 ” 1 /2 ” 5 0 5 0 0 2 .6 6 # 2 8 2 50 1 /4 x 4 ” 4 ” 1 -1 / 2 ” 3 ” 1 /4 ” 1 /2 ” 5 0 5 0 0 3 .2 5 # 2 8 2 55 1 /4 x 5 ” 5 ” 2 -1 / 2 ” 4 ” 1 /4 ” 1 /2 ” 5 0 5 0 0 3 .6 6 # 2 8 2 60 1 /4 x 6 ” 6 ” 3 ” 5 ” 1 /4 ” 1 /2 ” 5 0 5 0 0 4 .2 5 # 2 8 2 65 3 /8 x 2- 1 /2 ” 2 -1 / 2 ” 7 /8 ” 1 ” 3 /8 ” 3 /4 ” 5 0 2 0 0 6 .8 7 #

2 8 2 70 3 /8 x 4 ” 4 ” 1 -1 / 2 ” 2 -1 / 2 ” 3 /8 ” 3 /4 ” 5 0 2 0 0 7 .6 7 # 2 8 2 75 3 /8 x 5 ” 5 ” 2 ” 3 -1 / 2 ” 3 /8 ” 3 /4 ” 5 0 2 0 0 9 .8 4 # 2 8 2 80 3 /8 x 6 ” 6 -1 / 2 ” 3 ” 5 ” 3 /8 ” 3 /4 ” 5 0 2 0 0 11 . 3 0 #

Sc re w H ook s P C 4 87 0

S cre w Ho o ks can be use d fo r ha n g i n g cha i n wh e n in s t a l l i n g l i g h t f i x t ur e s . S ha r p po i n t b i t e s in t o wo o d qu i ck l y an d ea s i l y.

Fe at u re s:

CAT. NO .

UP COV ER AL L

S TDW IR E DI A W T/ S TDMS TR

3 0 9 05 4 -1 5 / 16 ” 1 -3 / 4 ” 1 ” . 30 7 5 0 2 0 0 3 .6 8 # 3 0 9 10 3 -7 / 8 ” 1 -1 / 2 ” 1 3 /1 6 ” . 27 5 5 0 5 0 0 1 .5 1 # 3 0 9 15 3 -3 / 8 ” 7 /8 ” 3 /4 ” . 19 2 1 0 0 1 0 0 0 3 .6 5 # 3 0 9 20 2 -9 / 1 6 ” 7 /8 ” 9 /1 6 ” . 16 0 1 0 0 1 0 0 0 2 .0 5 #

3 0 9 25 2 -1 / 1 6 ” 11 / 1 6 ” 3 /8 ” . 13 5 1 0 0 1 0 0 0 1 .2 2 # 3 0 9 30 1 -5 / 1 6 ” 1 /2 ” 1 /4 ” . 08 0 1 0 0 1 0 0 0 1 .0 5 #

Sc re w E yes P C 4 87 0

S cre w Eye s ar e ma nu f a c tu r e d f r om lo w car b o n co l d dr a wn s te e l w i re . T h e la g sc re w t hr e a ds ar e ro l le d to f i t s ta n d a rd an ch o rs an d sh i e l d s . Sh a rp po i n t b i t e s in t o wo o d qu i ck l y a n d ea s i l y.

Fe at u re s: CAT. NO .

UP COV ER AL L

S TDW IR E DI A W T/ S TDMS TR

I NS ID E

3 0 8 55 2 -5 / 8 ” 1 -1 / 4 ” 1 -1 / 8 ” 3 /4 ” . 26 4 5 0 5 0 0 3 .9 9 # 3 0 8 60 2 -3 / 1 6 ” 1 -1 / 8 ” 1 ” 5 /8 ” . 22 5 5 0 5 0 0 2 .4 7 # 3 0 8 65 1 -1 3 / 16 ” 1 5 /1 6 ” 3 /4 ” 7 /1 6 ” . 19 2 1 0 0 1 0 0 0 2 .5 9 # 3 0 8 70 1 -5 / 8 ” 3 /4 ” 5 /8 ” 1 /2 ” . 16 0 1 0 0 1 0 0 0 1 .5 4 # 3 0 8 75 1 -3 / 8 ” 11 / 1 6 ” 5 /8 ” 7 /1 6 ” . 13 5 1 0 0 1 0 0 0 0 .9 0 # 3 0 8 80 1 -3 / 1 6 ” 9 /1 6 ” 1 /2 ” 3 /8 ” . 10 5 1 0 0 1 0 0 0 0 .4 6 #

TS

L

C W

L

T

DE

C

D

TS

L

(A) 000 00 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

(B) 9/32 1/4 7/32 3/16 5/32 1/8 3/32 1/16

(C) .363 .328 .307 .283 .281 .262 .250 .244 .225 .219 .207 .192 .187 .177 .162 .156 .148 .135 .125 .120 .105 .094 .091 .080 .072 .062 .054 .047 .041 .034

( A) S tee l W i re G auge N o. ( B) C ommon F rac t i ons ( C) D ecima l

A 3 1

Fast

ener

s &

Har

dwar

e

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

F i x t u re A c c e s s o r i e s

F l at H a ng ar Sc re w s P C 4 92 0

CAT. NO. UP C DE S CRI P TI ON S TD MS TR W T/ S TD

Fe at u re s:

1 8 1 35 1 /4 x 3 ” 1 0 0 1 0 0 0 2 .3 8 # 1 8 1 36 1 /4 x 2 ” 1 0 0 1 0 0 0 2 .3 8 #

2 8 9 50 I ns t a l la t i on To o l 1 6 0 .11 #

H an ge r B olts P C 4 94 0


Fe at u re s:

1 8 1 00 1 /4 x 3 ” 1 0 0 1 0 0 0 2 .7 8 # 1 8 1 05 3 /8 x 3 ” 1 0 0 1 0 0 0 6 .8 2 #

2 8 9 53 I ns t a l la t i on To o l 1 /4 ” Fo r HB 14 1 6 0 .11 # 2 8 9 56 I ns t a l la t i on To o l 3 /8 ” Fo r HB 38 1 6 1 .1 7 #

D r iv e Sc re w s P C 4 96 0


Fe at u re s:

Mu l t i -p u r po se con c r e te dr i ve- i n fa s t e ne r.

1 8 1 20 2 ” x 16 1 0 0 1 0 0 0 2 .6 6 #

U B olt P C 4 87 0

U Bo l ts ar e ge n e ra l l y use d to sup p o r t con d u i t f r om s t r u t . Pr ov i d e d w i th he x nu t s a n d p l a t e . P i p e s ize s ar e in s i d e d i a me t er s .

Fe at u re s:

CAT. NO .

UP C DI AME T S TDP IP E

W T/ S TDI NS ID E I NS ID E

DI AME T

1 7 9 10 1 /2 ” 1 /4 ” 1 ” 1 -3 / 4 ” 1 ” 2 5 2 .2 2 # 1 7 9 15 3 /4 ” 1 /4 ” 1 -1 / 8 ” 2 ” 1 ” 2 5 2 .4 2 #

1 7 9 20 1 ” 1 /4 ” 1 -1 / 2 ” 2 -3 / 4 ” 1 -3 / 8 ” 2 5 2 .9 1 #

1 7 9 25 1 -1 / 4 ” 5 /1 6 ” 1 -3 / 4 ” 2 -11 /1 6 ” 1 -1 / 8 ” 2 5 4 .5 9 # 1 7 9 30 1 1/ 2 ” 5 /1 6 ” 2 ” 2 -11 /1 6 ” 1 -1 / 8 ” 2 5 4 .8 4 # 1 7 9 35 2 ” 5 /1 6 ” 2 -1 / 2 ” 3 -3 / 1 6 ” 1 -1 / 8 ” 2 5 5 .5 4 #

1 7 9 40 2 -1 / 2 ” 3 /8 ” 3 ” 3 -5 / 8 ” 1 -1 / 4 ” 1 0 3 .7 1 # 1 7 9 45 3 ” 3 /8 ” 3 -1 / 2 ” 4 -1 / 2 ” 1 -5 / 8 ” 1 0 4 .1 7 # 1 7 9 50 3 -1 / 2 ” 1 /2 ” 4 ” 5 -1 / 2 ” 1 -1 / 2 ” 1 0 9 .6 1 # 1 7 9 55 4 ” 1 /2 ” 4 -1 / 2 ” 6 -1 / 2 ” 2 -1 / 4 ” 1 0 1 0 .1 6 #

C

A

TMS TR


Fasteners &

Hardware

Ja c k C h a in P C 5 0 0 0

Ja ck cha i n is use d fo r susp e n d i n g f i x t ur e s .

C h a i n & F i x t u re H a n g e r s

Fe at u re s:

CAT. NO. UP C S TDS IZ E W T/ S TDMS TRW ORK L OAD L OAD

DI A

2 7 4 75 # 1 0 . 13 5 4 3 lb s 1 7 0 lb s #1 0 1 0 0 ’ 5 0 0 ’ 1 4 .9 5 #(P a i l ) 2 7 4 05 # 1 0 . 13 5 4 3 lb s 1 7 0 lb s #1 0 3 0 0 ’ 3 0 0 ’ 4 3 .9 0 #

2 7 4 85 # 1 2 . 10 5 2 9 lb s 11 5 lb s #1 2 1 0 0 ’ 1 0 0 0 ’ 8 .7 8 #(P a i l ) 2 7 4 15 # 1 2 . 10 5 2 9 lb s 11 5 lb s #1 2 3 0 0 ’ 3 0 0 ’ 2 7 .0 0 #

8 3 2 46 # 1 2 . 10 5 2 9 lb s 11 5 lb s #1 2 1 0 0 ’ 1 0 0 0 ’ 8 .9 0 #

2 7 4 95 # 1 4 . 08 0 1 6 lb s 6 5 lb s #1 4 1 0 0 ’ 1 0 0 0 ’ 5 .1 8 #

2 7 4 90 # 1 6 . 08 0 1 0 lb s 4 0 lb s #1 6 1 0 0 ’ 1 0 0 0 ’ 3 .0 0 #

D ou b l e L o op J ac k C h a in P C 5 0 1 0

Do u b l e lo o p is a lo cke d l i n k cha i n w i th h i g h e r lo a d ra t i n g s th a n ja ck cha i n . Be ca u se t he l i n ks can n o t be op e n e d i t re q u i r e s th e use of th e S ho o k .

Fe at u re s:CAT. NO. UP C S TDS IZ E W T /S TDMS TR

W ORK L OAD L OAD

DI A

2 8 0 55 # 1 0 . 13 5 2 5 5 lb s 1 0 2 0 lb s # 2 /0 1 0 0 ’ 5 0 0 ’ 1 7 .4 3 # 2 8 0 50 # 11 . 12 0 2 0 0 lb s 8 0 0 lb s # 1 /0 1 0 0 ’ 5 0 0 ’ 1 3 .3 2 #

2 8 0 60 # 1 2 . 10 5 1 5 5 lb s 6 2 0 lb s # 1 1 0 0 ’ 5 0 0 ’ 1 0 .2 2 # 2 8 0 65 # 1 3 . 09 1 11 5 lb s 4 6 0 lb s # 2 1 0 0 ’ 5 0 0 ’ 8 .2 5 # 2 8 0 70 # 1 4 . 08 0 9 0 lb s 3 6 0 lb s # 3 1 0 0 ’ 5 0 0 ’ 6 .4 0 #

S t a in l e s s S t e el - PC 40 1 0 8 4 2 23 # 1 0 . 13 5 4 3 lb s 1 7 0 lb s #1 0 1 0 0 ’ 5 0 0 ’ 1 8 .3 6 # 8 3 2 46 # 1 2 . 10 5 2 9 lb s 11 5 lb s #1 2 1 0 0 ’ 5 0 0 ’ 8 .9 0 #

T e c hdes i gna tes t he max i mum s t r ess in pounds w h ich shou l d eve r be app l ied t o cha i n . T h is

r e fe r s a ls o t o cha i n in t he bes t cond i t i on , w hen new and w hen t he load i s app l ied un i f o r m ly t o a s t r a igh t , un tw is ted leng th o f cha i n .

i s t he max i mum load in pounds a t w h ich new cha i n has been f ound by expe r ience t o b r eak , unde r t es t s in w h ich t he load i s app l ied in d i r ec t t ens ion t o a s t r a igh t leng th o f cha i n w i t h a un i f o r m ra te o f speed on a s tanda r d cha i n t es t ing mach i ne .

Ou r cha i n i s made f rom qua l i t y, s i l ve r b r i gh t , ga lv an ized s tee l w i r e . Tes t s have show n cha i n made f rom ga lv an ized w i r e t o be supe r io r in rus t res is tanc e t o cha i n w h ich i s z i nc p la ted a f t e r f o rm i ng .

Ta lk

629 (s ide )

630 ( t op )

F ix t u re H a ng er s P C 4 97 0


Fe at u re s:

F ix t u re Ha n g er s ar e ma nu f a c tu r e d f r om 10 ga u g e Ga lva n i ze d St e e l a n d ar e typ i ca l l y use d w i th S ho o ks an d ja ck cha i n .

1 8 1 25 S id e -M ou n t 10 GA 1 0 0 5 0 0 6 .1 8 # 1 8 1 30 To p -Mo u n t 10 GA 1 0 0 5 0 0 6 .1 8 #

ANCH

ORS

& KI

TS

Anchors & Kits SECTION B

Anchors & K

its

“ B U I L D IN G A B E TT ER BR A N D ”2

Anchors & Kits SECTION

B

B 1

Anch

ors

& K

its

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Ta p e red w i th W i ng s P C 4 37 0P la s t i c an ch o rs : Ta p e re d w i th Wi n g s . Dr i l l a ho l e in t o dr ywa l l , con c r e te , br i c k or b l ock an d in se r t an ch o r. T h e sc re w is th e n in s t a l l e d th ro u g h th e f i x t ur e in t o th e a n ch or. Use d fo r l i g h t du t y wo rk .

Fe at u re s:

A n c h o r s

1 2 1 3 1 4 30 4 -6 - 8 3 /1 6 ” 1 ” W h i t e 1 0 0 5 0 0 4 0 0 0 0 .11 #1 2 2 3 1 4 32 8 -1 0 -1 2 1 /4 ” 1 -1 / 4 ” Ye l l o w 1 0 0 5 0 0 3 0 0 0 0 .2 0 #1 2 3 3 1 4 34 1 2 -1 4 -1 6 5 /1 6 ” 1 -1 / 2 ” G r e en 5 0 2 5 0 1 5 0 0 0 .1 5 #

Ta p e red w i th C ol l ar P C 4 37 0P la s t i c an ch o rs : Ta p e re d w / Co l la r. Dr i l l a ho l e in t o dr ywa l l , con c r e te , br i c k or b l ock an d in se r t an ch o r. T h e sc re w is th e n in s t a l l e d th ro u g h th e f i x t ur e in t o th e a n ch or. Use d fo r l i g h t du t y wo rk .

Fe at u re s:2 0 1 5 0 80 4 -6 - 8 3 /1 6 ” 3 /4 ” Re d 1 0 0 5 0 0 4 0 0 0 0 .0 8 #2 1 1 5 0 85 6 -8 - 10 3 /1 6 ” 7 /8 ” Re d 1 0 0 5 0 0 4 0 0 0 0 .0 8 #2 2 1 5 0 90 8 - 1 0 -1 2 1 /4 ” 1 ” Re d 1 0 0 5 0 0 3 0 0 0 0 .1 5 #2 3 1 5 0 95 1 2 -1 4 -1 6 5 /1 6 ” 1 -1 / 2 ” Re d 5 0 2 5 0 1 5 0 0 0 .1 4 #

St ra i gh t P C 4 37 0P la s t i c an ch o rs : S t ra i g h t . Dr i l l a ho l e in t o dr ywa l l , con c r e te , br i c k or b l o ck an d i n ser t an ch o r. T h e sc re w is th e n in s t a l l e d th ro u g h th e f i x t ur e in t o th e an ch o r. Use d fo r l i g h t du t y wo rk .

Fe at u re s:2 2 1 1 6 0 85 6 -8 3 /1 6 ” 1 ” W h i t e 1 0 0 5 0 0 4 0 0 0 0 .1 5 #2 2 2 1 6 0 90 1 0 -1 2 1 /4 ” 1 ” G r e en 1 0 0 5 0 0 3 0 0 0 0 .2 2 #2 2 3 1 6 0 95 1 2 -1 4 5 /1 6 ” 1 -1 / 2 ” B lu e 5 0 2 5 0 1 5 0 0 0 .2 3 #

N yl on B u tt on H ea d w i th P i n s P C 4 37 0Ny l o n bu t t on he a d an ch o rs w i th p i n s . Fa s t an d ea sy to in s t a l l . Po s i t i o n th e f ix t u re , dr i l l a ho l e in t o con c r e te , br i c k or b l o ck an d in se r t an ch o r th ro u g h th e f ix t u re in t o th e ho l e . Ha mme r th e na i l to spr e a d an d secu r e an ch o r. Use d fo r l i g h t d u ty wo rk .

Fe at u re s:

1 7 11 1 0 0 70 3 /1 6 ” 1 ” W h i t e 1 0 0 1 0 0 0 0 .5 5 #1 7 1 4 1 0 0 75 1 /4 ” 1 ” W h i t e 1 0 0 1 0 0 0 0 .5 7 #

M u lt i - Gr i p P C 4 37 0

Fe at u re s:

6 8 1 6 43 # 6 1 /4 ” 1 -1 / 4 ” B e i g e 1 0 0 5 0 0 3 0 0 0 0 .9 1 #8 8 1 6 44 # 8 1 /4 ” 1 -1 / 4 ” G r a y 1 0 0 5 0 0 3 0 0 0 0 .9 7 #1 0 8 1 6 45 # 1 0 5 /1 6 ” 1 -1 / 2 ” B lu e 5 0 2 5 0 1 5 0 0 0 .6 0 #1 2 8 1 6 46 # 1 2 3 /8 ” 1 -1 / 2 ” G r e en 5 0 2 5 0 1 5 0 0 1 .2 3 #

B 2 CE L EB R AT I N G 5 0 YE A R S

Anchors &

Kits

A n c h o r s

Wa l l B oa rd A n c ho rs P C 4 46 5

Wal l Board Anchors: Used only in drywal l , th is anchor has bet ter pu l lo ut and she ar va l ue s th a n p l a s t ic an ch o rs . In s t a l l e d by in se r t i n g Ph i l l i p s or Sq u a re dr i ve b i t i n to th e an ch o r an d dr i v in g i t in t o th e dr ywa l l un t i l f l u sh . Use th e sam e b i t to i n ser t th e pr o p er she e t me ta l s c re w to mo un t th e f i x t ur e . T h e an ch o r is ea sy to sp o t an d w i l l no t br e a k ou t th e ba ck i n g of th e dr ywa l l . No dr i l l b i t ne e d e d .

Fe at u re s: 2 9 7 70 # 6 Z in c 3 /8 ” , 1 / 2 ” 1 0 0 3 0 0 0 0 .8 3 # 2 9 7 71 # 6 Ny l o n 3 /8 ” , 1 / 2 ” 1 0 0 3 0 0 0 0 .2 3 #

2 9 7 76 # 8 Z in c 3 /8 ” , 1 / 2 ” , 5 / 8 ” 1 0 0 1 0 0 0 1 .7 2 # 2 9 7 77 # 8 Ny l o n 3 /8 ” , 1 / 2 ” , 5 / 8 ” 1 0 0 1 0 0 0 0 .4 8 #

An c h o r S pe c if ic at io n s

Sc rew s & B i t no t p r ov i ded . U se 6 x 1 SMS w it h WD6 , U se 8 x 1 - 1 /4 SMS w it h WD8, U se #2 b i t fo r bo th .See Page B14 fo r Wa l l D r i l le r K i ts .

# 6 Ny l o n 5 5 11 0 6 0 1 2 0 N / A N/ A # 6 Z in c 5 5 11 0 6 0 1 2 0 N / A N/ A

# 8 Ny l o n 6 0 1 2 0 6 8 1 3 2 9 0 2 0 0 # 8 Z in c 6 0 1 2 0 6 8 1 3 2 9 0 2 0 0

Al l va l ues a r e u l t imat e l oads an d s hou ld be us ed as a gu ide on ly. Act ua l r es u l ts may var y. I t i s r ec ommende d to app l y a m in imum s a fe t y fa cto r o f 4 to 1 to th ese l oads . #6 s hee t met a l s c rew s w ere us ed i n te st s w i th #6 Wal l Dr i l l e r . #8 s hee t met a l s c rew s w ere us ed i n te st s w it h #8 Wal l D r i l le r.

See Page B14 fo r Wa l l Boar d K i t .

B 3F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Anch

ors

& Ki

ts

Za m a c A n c ho rs - R em o v ab l e Sc rew s P C 4 49 5

Z a ma c a n ch o rs ha ve b e t t e r sh ea r r e s is t a n ce t h an p l as t i c p i n a n ch or s . F a s t a n d e a sy t o i n s t a l l . P o s i t i o n t he f ix t u re , d r i l l a h o le t hr o u gh th e f i x t u re or t h ro u g h a n e x is t i n g h o le i n f ix t u re i n t o co n c re t e, b r i c k o r b l o ck a n d i n s t e r t a n ch o r th r ou g h th e f i x t ur e i n to t he h o le u n t i l f l ush . Ha mme r th e n a i l to sp re a d a n d se cu r e a n ch or. Use d fo r l i g ht du t y wo rk .

Fe at u re s:

A n c h o r s

5 9 3 60 1 /4 x 3 / 4 ” 1 /4 ” 1 0 0 5 0 0 1 .5 0 # 5 9 3 61 1 /4 x 1 ” 1 /4 ” 1 0 0 5 0 0 1 .7 5 # 5 9 3 62 1 /4 x 1- 1 /4 ” 1 /4 ” 1 0 0 5 0 0 2 .2 5 # 5 9 3 63 1 /4 x 1- 1 /2 ” 1 /4 ” 1 0 0 5 0 0 2 .5 0 # 5 9 3 64 1 /4 x 2 ” 1 /4 ” 1 0 0 5 0 0 3 .0 0 #

Za m a c A n c ho rs P C 4 4 90

T h e Z a ma c A n ch or w i th re mo va b le sc re w i s a u n iq u e , o n e -s t e p d r i ve a n ch o r f ea t u r i n g a Ph i l l i p s he a d a nd a sc r e w th r ea d . De s i g n e d t o p ro v i d e a re mo va b l e a n ch or w i th 4 0% h i gh e r t e n s io n l o ad ca p a c i t i es wh e n in s t a l l e d in co nc r e te .

Fe at u re s:

5 9 3 50 3 /1 6 x 7 / 8 ” 3 /1 6 ” 1 0 0 5 0 0 0 .7 5 # 5 9 3 48 1 /4 x 3 / 4 ” 1 /4 ” 1 0 0 5 0 0 1 .5 0 #

5 9 3 52 1 /4 x 1 ” 1 /4 ” 1 0 0 5 0 0 1 .7 5 # 5 9 3 54 1 /4 x 1- 1 /4 ” 1 /4 ” 1 0 0 5 0 0 2 .2 5 # 5 9 3 56 1 /4 x 1- 1 /2 ” 1 /4 ” 1 0 0 5 0 0 2 .5 0 # 5 9 3 58 1 /4 x 2 ” 1 /4 ” 1 0 0 5 0 0 3 .0 0 #

D r iv e P i ns P C 4 4 80

Dr i ve p i ns a re i ns t a l le d w i th a s t u d d r ive r. T h e p i n is i nse r te d in t o t he d r i ve r wh i ch i s p la ce d o n t o t h e i t em t o b e f a s t en e d . U s in g a s l e dg e o r d r i l l i n g h a mme r, d r i ve t h e p i n h o me . W i l l d r i ve t h ro u g h me t a l in t o co n c r et e .

Fe at u re s: 2 9 0 05 3 /4 ” 1 0 0 4 0 0 0 0 .5 1 # 2 9 0 10 1 ” 1 0 0 4 0 0 0 0 .6 6 # 2 9 0 15 1 -1 / 4 ” 1 0 0 3 0 0 0 0 .7 7 # 2 9 0 20 1 -1 / 2 ” 1 0 0 3 0 0 0 0 .8 8 # 2 9 0 25 2 ” 1 0 0 3 0 0 0 0 .9 9 #

St u d D r i v er P C 4 4 82

Dr i ve p i ns a re i ns t a l le d w i th a s t u d d r ive r. T h e p i n is i nse r te d in t o t he d r i ve r wh i ch i s p la ce d o n t o t h e i t em t o b e f a s t en e d . U s in g a s l e dg e o r d r i l l i n g h a mme r, d r i ve t h e p i n h o me .

Fe at u re s: 1 5 7 55 1 6 0 .6 6 #

Anchors &

Kits

“ B U I L D I N G A B ET T E R B R A N D ”B 4

A n c h o r s

M a c h in e Sc re w A n c ho rs P C 4 52 0

Ma ch i ne sc re w ( l e ad ) an ch o rs : Pe r f o rms we l l in a var i e t y o f con c r e te s t r en g t h s , ca n be use d in br i c k . An y he a d s ty l e sc re w can be use d . T h e sc re w can be ea s i l y re mo ve d or lo o se n e d an d re t i g h t en e d . V ib r at i o n do e s no t a f f e c t th e le a d in se r t ’s h o ld on th e con c r e te . Ad a p t s we l l to ho l e s ize var i a t i o n s . Dr i l l ho l e in con c r e te a n d dr o p an ch o r ex p a n d e r s id e do w n in t o ho l e . P l a ce set t in g to o l ove r an ch o r an d h a mme r un t i l set .

Fe at u re s:

ST To o l mus t be us ed fo r p r oper i ns ta l l a t i on ( s o ld s epar a te l y ) .

2 9 9 10 8 -3 2 5 /1 6 ” S T2 1 0 0 1 0 0 0 1 .0 0 # 2 9 9 15 1 0 -2 4 3 /8 ” S T3 1 0 0 1 0 0 0 1 .7 5 # 2 9 9 25 1 /4 - 2 0 1 /2 ” S T5 1 0 0 6 0 0 4 .5 0 # 2 9 9 30 5 /1 6 ” 5 /8 ” S T6 5 0 3 0 0 3 .9 0 # 2 9 9 35 3 /8 ” 3 /4 ” S T7 5 0 3 0 0 7 .0 0 # 2 9 9 40 1 /2 ” 7 /8 ” S T8 5 0 3 0 0 9 .5 0 #

“ ST” Tool s f or M A A n c ho rs P C 4 53 0

“S T ” to o l mu s t be use d fo r pr o p er in s t a l l a t io n of MA (Ma ch i ne Sc r ew s ) An ch o rs . S ol d sep a r at e l y f r om MA an ch o rs

1 7 6 00 8 -3 2 MA 2 1 1 0 0 .0 7 # 1 7 6 05 1 0 -2 4 MA 3 1 1 0 0 .0 9 # 1 7 6 10 1 /4 - 2 0 MA 5 1 1 0 0 .1 7 # 1 7 6 15 5 /1 6 ” MA 6 1 1 0 0 .2 7 # 1 7 6 20 3 /8 ” MA 7 1 1 0 0 .4 2 # 1 7 6 25 1 /2 ” MA 8 1 1 0 0 .5 3 #

Toggl e A n c ho rs - N yl on P C 4 32 0

Ny l o n To g g le An ch o rs : A f t er pr o p er s ize ho l e is dr i l l e d , fo l d an d in se r t an ch o r in t o h o le . In so l i d con c r e te i t w i l l ac t as a con ve n t io n a l an ch o r, in ho l l o w wa l l i n s ta l l a t i o ns th e an ch o r op e n s l i ke a to g g l e bo l t .

Fe at u re s:

See B15 F or K i ts ( N TK14L & N TK38L )

6 6 7 90 8 x 1- 1 /2 ” 1 /4 ” 1 /2 ” D ryw a l l 1 0 0 1 0 0 0 0 .2 6 # 6 6 7 95 1 0 x 1- 1 /2 ” 3 /8 ” 5 /8 ” D ryw a l l 1 0 0 1 0 0 0 0 .5 1 #

H ar n ess Togg l e P C 4 3 7 5

T h e Ha rn e ss To g g le is a he a vy du t y ho l l o w wa l l an ch o r de s i g n e d fo r use in ba se ma t er i a l s such as p l a s t e r, wa l lb o a rd , or ho l l o w t i l e . T h e Ha rn e ss To g g le is a p re - asse mb l e d an ch o r con s i s t in g of a car b o n s te e l w i n g an d a lo ck i n g cap /ra t ch e t le g asse mb l y mo ld e d f r om en g i n e e re d p l a s t ic . I t is ava i l a b le in bo t h 3/ 1 6 ” a n d 1/ 4 ” s ize . Wh e n com pa r e d to t r ad i t io n a l to g g l es , th i s un i q u e an ch o r can be i n s ta l l ed in a sma l l e r ho l e an d do e s no t re q u i r e a f i x t ur e or sc re w to set i t . T h e a n ch or can be ea s i l y ad j u s t ed to acco mm od a t e a wa l l th i ckn e ss of up to 2- 1 /2 ” . T h e to g g l e re ma i ns cap t i ve .

Fe at u re s:

See B15 F or K i ts

1 0 5 36 3 /1 6 x 4 ” 1 /2 ” 2 -1 / 2 ” 5 0 2 5 0 1 .6 4 # 1 0 5 25 1 /4 x 4 ” 1 /2 ” 2 -1 / 2 ” 5 0 2 5 0 1 .6 6 #

B 5

Anch

ors

& Ki

ts

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Wa l l Gr ip / Wa l l D r iv e A nc h or s P C 4 43 5

Wal l G r i p An ch o rs : A l so kn o wn a s “ Mo l l i e s ” o r Mo l l y Bo l t s . Ma d e f or ho l l o w wa l l i n s ta l l a t i o ns . Wh e n t i g h te n e d , t he b o d y p u l ls u p t o e n a b l e t he a n ch or t o se cu r e i tse l f t o ve ry t h in wa l ls su ch a s p a ne l i n g .

Fe at u re s:

A n c h o r s

Wal l G r i p

3 1 4 00 1 /8 ” 1 /8 ” -1 / 2 ” 5 /1 6 ” 1 0 0 1 0 0 0 1 .2 0 # 3 1 4 02 1 /8 ” 5 /8 ” -7 / 8 ” 5 /1 6 ” 1 0 0 1 0 0 0 1 .7 0 #

3 1 4 04 3 /1 6 ” 1 /8 ” -5 / 8 ” 3 /8 ” 5 0 5 0 0 1 .7 0 # 3 1 4 06 3 /1 6 ” 5 /8 ” -1 -3 / 1 6 ” 3 /8 ” 5 0 5 0 0 2 .0 4 #

3 1 4 08 1 /4 ” 1 /8 ” -5 / 8 ” 1 /2 ” 5 0 5 0 0 2 .4 5 # 3 1 4 10 1 /4 ” 5 /8 ” -1 -3 / 1 6 ” 1 /2 ” 5 0 5 0 0 2 .9 4 #

Wal l Dr ive An c h o r s

3 1 4 12 1 /8 ” 1 /8 ” -1 / 2 ” 1 0 0 1 0 0 0 1 .4 0 # 3 1 4 14 1 /8 ” 1 /8 ” -1 3 / 16 ” 1 0 0 1 0 0 0 1 .7 5 #

L a g S h i el d s P C 4 4 50

L a g sh i e ld s : A l l o ws fo r u s i ng l a g sc re w s i n mat e r i a l s su ch a s mo r ta r j o in t s , p o u re d co n c r et e , b r i c k a nd co n c re t e b l ocks .

Fe at u re s:

H L S ( S h o rt ) f o r H a r d Ma s o n ry

3 1 2 00 1 /4 ” 1 /2 ” 1 ” 1 4 5 0# 1 0 0 1 0 0 0 1 .9 8 # 3 1 2 05 5 /1 6 ” 1 /2 ” 1 -1 / 4 ” 1 5 0 0# 1 0 0 1 0 0 0 2 .6 8 #

3 1 2 10 3 /8 ” 5 /8 ” 1 -3 / 4 ” 1 6 0 0# 5 0 5 0 0 2 .3 0 # 3 1 2 15 1 /2 ” 3 /4 ” 2 ” 2 0 0 0# 2 5 2 5 0 2 .0 7 #

S L S ( L o n g ) f o r S o f t M as o nry

3 1 2 30 1 /4 ” 1 /2 ” 1 -1 / 2 ” 1 6 0 0# 5 0 5 0 0 3 .9 0 # 3 1 2 35 5 /1 6 ” 1 /2 ” 1 -1 3 / 16 ” 1 7 0 0# 5 0 5 0 0 5 .4 0 #

3 1 2 40 3 /8 ” 5 /8 ” 2 -1 / 2 ” 1 8 0 0# 5 0 5 0 0 2 .3 0 # 3 1 2 45 1 /2 ” 3 /4 ” 3 ” 2 7 5 0# 2 5 2 5 0 2 .0 7 #

Th rea d ed Ro d Sp i k e P C 4 3 80

T h e T h re a d e d R o d S p ike is d e s i gn e d pr i ma r i ly f o r use wh e n ha n g i n g t h re a d ed ro d . U s in g a sp e c i a l ma n u fa c t u r i n g p ro ce ss th e a nch o r i s f o rme d w i t h a “ S ” sh a p ed co n f i g u ra t io n a t th e wo rk i n g e n d o f th e a nch o r t o c r e at e a n e x p an s i o n me ch a n ism. As t he a n cho r i s d r i ve n i n to th e h o l e , t h e e x p a n s io n me cha n i sm is co mp re sse d a n d f l e x e s t o t h e s i ze of th e ho l e .

Fe at u re s:

8 1 4 92 1 /4 ” Ro d Sp i ke f o r 1 /4 ” R od Ha n g i n g 1 0 0 6 0 0 4 .0 0 # 8 1 4 93 3 /8 ” Ro d Sp i ke f o r 3 /8 ” R od Ha n g i n g 5 0 3 0 0 4 .0 0 #

B 6 CE L EB R AT I N G 5 0 YE A R S

Anchors &

Kits

D rop I n A n c ho rs P C 4 50 0 , 4 31 0

Dr o p In An ch o rs : T h is s te e l an ch o r pe r fo r ms we l l in a var i e t y o f con c r e te s t re n g th s . Ca n be use d in br i c k . An y he a d s ty l e sc re w can be use d . T h e sc re w ca n ea s i l y be re mo ve d or lo o se n e d an d re t i g h t en e d . Dr i l l ho l e in con c r e te an d d ro p an ch o r in t o ho l e . P l a ce set t in g to o l ove r an ch o r an d ha mm er un t i l set .

Fe at u re s:

( “AT ” To o l - SO LD SEPARAT ELY - Mus t Be U sed F or P r oper In sta l l a t io n )

“ AT” Tool F or D A A n c ho rs P C 4 51 0

“AT ” to o l mu s t be use d fo r pr o p er in s t a l l a t io n of dr o p in an ch o rs . So l d sep a r at e l y f ro m DA /D AS an ch o rs .

Sl e ev e A n c ho rs P C 4 55 0

S le e ve An ch o rs : S i m i la r to th e we d g e an ch o r. I t can be use d in th e sam e ma te r i a l s a s th e we d g e an ch o r, bu t can a l so be use d in sof t con c r e te s be ca u se th e com pr e s -s i o n lo a d can be d i s t r i b u te d ove r a lo n g e r le n g t h. Ca n be in s t a l l e d th ro u g h th e f i x t ur e . A ssem bl e nu t an d wa sh e r on s tu d an d in se r t in t o pr e d r i l le d ho l e . An ch o r is ha mm er e d i n to ho l e un t i l th e nu t is sea t e d .

Fe at u re s:

S t e e l Z i nc Pl at e d - PC 45 0 0

2 7 6 00 1 /4 - 2 0 3 /8 ” AT 2 5 1 0 0 1 0 0 0 2 .0 0 # 2 7 6 05 3 /8 - 1 6 1 /2 ” AT 3 8 5 0 5 0 0 3 .0 0 # 2 7 6 10 1 /2 - 1 3 5 /8 ” AT 5 0 5 0 2 5 0 6 .0 0 # 2 7 6 15 5 /8 - 11 7 /8 ” AT 5 8 2 5 1 2 5 6 .0 0 # 2 7 6 20 3 /4 - 1 0 1 ” AT 7 5 1 0 5 0 4 .8 0 #


7 0 2 60 1 /4 - 2 0 3 /8 ” AT 2 5 1 0 0 1 0 0 0 2 .0 0 # 7 0 2 62 3 /8 - 1 6 1 /2 ” AT 3 8 5 0 5 0 0 3 .0 0 # 7 0 2 64 1 /2 - 1 3 5 /8 ” AT 5 0 5 0 2 5 0 6 .0 0 # 7 0 2 66 5 /8 - 11 7 /8 ” AT 5 8 2 5 1 2 5 6 .0 0 # 7 0 2 68 3 /4 - 1 0 1 ” AT 7 5 1 0 5 0 4 .8 0 #

2 7 6 30 1 /4 ” DA 2 5 /D AS 2 5 1 1 0 0 .1 4 # 2 7 6 35 3 /8 ” DA 3 8 /D AS 3 8 1 1 0 0 .2 5 # 2 7 5 70 1 /2 ” DA 5 0 /D AS 5 0 1 1 0 0 .4 1 # 2 7 5 75 5 /8 ” DA 5 8 /D AS 5 8 1 1 0 0 .5 5 # 2 7 5 80 3 /4 ” DA 7 5 /D AS 7 5 1 1 0 0 .7 7 #

5 9 3 30 1 /4 x 1- 3 /8 ” 1 -2 1 / 32 ” 1 /4 ” 1 -1 / 8 ” 1 0 0 6 0 0 2 .7 5 # 5 9 3 32 1 /4 x 2- 1 /4 ” 2 -9 / 1 6 ” 1 /4 ” 1 -1 / 8 ” 1 0 0 6 0 0 3 .2 5 #

Ac o r n Nu t

H e x Nu t 5 9 3 34 5 /1 6 x 1- 1 /2 ” 1 -1 3 / 16 ” 5 /1 6 ” 1 -3 / 8 ” 1 0 0 6 0 0 4 .2 5 # 5 9 3 36 5 /1 6 x 2- 1 /2 ” 2 -11 /1 6 ” 5 /1 6 ” 1 -1 / 2 ” 1 0 0 5 0 0 5 .7 5 #

5 9 3 38 3 /8 x 1- 7 /8 ” 2 -3 / 1 6 ” 3 /8 ” 1 -5 / 8 ” 5 0 3 0 0 3 .5 0 # 5 9 3 40 3 /8 x 3 ” 3 -5 / 1 6 ” 3 /8 ” 1 -5 / 8 ” 5 0 2 5 0 5 .0 0 #

5 9 3 42 1 /2 x 2- 1 /4 ” 2 -7 / 8 ” 1 /2 ” 2 -1 / 8 ” 2 5 1 5 0 3 .5 0 # 5 9 3 44 1 /2 x 3 ” 3 -3 / 8 ” 1 /2 ” 2 -1 / 4 ” 2 5 1 5 0 4 .3 0 # 5 9 3 46 1 /2 x 4 ” 4 -3 / 8 ” 1 /2 ” 2 -1 / 4 ” 2 5 1 5 0 5 .5 0 #

A n c h o r s

B 7F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Anch

ors

& Ki

ts

Wed g e A n c ho rs Fu l l Th rea d P C 4 5 40

We d g e a n ch o rs ca n b e i n s t a l l e d t h ro u g h t h e f i x tu re . Asse mb l e n u t a n d w a sh er u n t i l t h e n u t i s f l u sh w i t h t h e t o p o f t h e a n ch o r, in se r t in t o p r e dr i l l e d h o l e . Ha mme r a n ch o r i n t o ho l e u n t i l th e wa sh e r i s f lu sh w i t h su r f a ce o f t h e f i x tu re . E x pa n d th e an ch o r b y t i g h te n i n g n u t . Go o d sh e a r va l u e s .

Fe at u re s:

We d g e A n c h o r s

Wed g e A n c ho rs Fu l l Th rea d - St a in l es s St eel P C 4 3 10

S ta i n le ss S t e e l We d g e A n ch o rs re s i s t co r r o s io n an d a re id e a l f o r a pp l i ca t i o n s wh e r e ch e m i cal re s i s ta n ce is re q u i re d . S ta i n le ss ca n b e m i l d l y ma g n e t ic .

Fe at u re s:

5 9 3 00 1 /4 - 2 0 1 -3 / 4 ” 3 /4 ” 1 0 0 6 0 0 3 .0 0 # 5 9 3 02 1 /4 - 2 0 2 -1 / 4 ” 1 -1 / 4 ” 1 0 0 6 0 0 3 .5 0 # 5 9 3 04 1 /4 - 2 0 3 -1 / 4 ” 2 -1 / 4 ” 1 0 0 6 0 0 4 .7 5 #

5 9 3 06 3 /8 - 1 6 2 -1 / 4 ” 1 -1 / 4 ” 5 0 3 0 0 4 .3 7 # 5 9 3 07 3 /8 - 1 6 2 -3 / 4 ” 1 -5 / 8 ” 5 0 3 0 0 4 .7 5 # 5 9 3 08 3 /8 - 1 6 3 ” 1 -7 / 8 ” 5 0 3 0 0 5 .3 7 # 5 9 3 10 3 /8 - 1 6 3 -3 / 4 ” 2 -5 / 8 ” 5 0 3 0 0 6 .3 7 # 5 9 3 11 3 /8 - 1 6 5 ” 3 -7 / 8 ” 5 0 3 0 0 7 .7 5 #

5 9 3 12 1 /2 - 1 3 2 -3 / 4 ” 1 -3 / 8 ” 5 0 2 0 0 9 .0 0 # 5 9 3 13 1 /2 - 1 3 3 -3 / 4 ” 2 -3 / 8 ” 5 0 2 0 0 11 . 5 0 # 5 9 3 14 1 /2 - 1 3 4 -1 / 2 ” 3 -1 / 8 ” 5 0 2 0 0 1 4 .0 0 # 5 9 3 16 1 /2 - 1 3 5 -1 / 2 ” 4 -1 / 8 ” 5 0 1 5 0 1 6 .0 0 #

T he pub l i s hed l en g th i s the overa l l l eng th o f the an ch or.

T he pub l i s hed l en g th i s the overa l l l eng th o f the an ch or.

7 0 3 10 1 /4 - 2 0 1 -3 / 4 ” 3 /4 ” 1 0 0 6 0 0 3 .0 0 # 7 0 3 12 1 /4 - 2 0 2 -1 / 4 ” 1 -1 / 4 ” 1 0 0 6 0 0 3 .5 0 # 7 0 3 14 1 /4 - 2 0 3 -1 / 4 ” 2 -1 / 4 ” 1 0 0 6 0 0 4 .7 5 #

7 0 3 20 3 /8 - 1 6 2 -1 / 4 ” 1 -1 / 4 ” 5 0 3 0 0 4 .3 7 # 7 0 3 22 3 /8 - 1 6 2 -3 / 4 ” 1 -5 / 8 ” 5 0 3 0 0 4 .7 5 # 7 0 3 24 3 /8 - 1 6 3 ” 1 -7 / 8 ” 5 0 3 0 0 5 .3 7 # 7 0 3 26 3 /8 - 1 6 3 -3 / 4 ” 2 -5 / 8 ” 5 0 3 0 0 6 .3 7 # 7 0 3 28 3 /8 - 1 6 5 ” 3 -7 / 8 ” 5 0 3 0 0 7 .7 5 #

7 0 3 40 1 /2 - 1 3 2 -3 / 4 ” 1 -3 / 8 ” 5 0 2 0 0 9 .0 0 # 7 0 3 42 1 /2 - 1 3 3 -3 / 4 ” 2 -3 / 8 ” 5 0 2 0 0 11 . 5 0 # 7 0 3 44 1 /2 - 1 3 4 -1 / 2 ” 3 -1 / 8 ” 5 0 2 0 0 1 4 .0 0 # 7 0 3 46 1 /2 - 1 3 5 -1 / 2 ” 4 -1 / 8 ” 5 0 1 5 0 1 6 .0 0 #

T e c h Ta lk

A 3 t u rn s o f nu t ( appr ox. 1 /2 bo l t d i a . ) + B Nu t & was her th i c k nes s (ap prox . 1 b o l t d i a . ) + C F i x tu r e th ic k nes s + D M in imum embe dment ( m in . 411 2 bo l t d ia . ) =

I f m in imu m anc hor l eng th fa l l s be twe en 2 s i z es , us e l onger s i ze . The max imu m re com mend-ed a nc hor embedme nt s hou ld b e 80% o f the ba se mater i a l th i c kn ess . I f a c onc re te s l ab i s 10 ” th i c k , an 8 ” d ep th wou ld be th e max imum r ec ommende d anc hor embe dment .

A

B

C

D

1 . Us e a c ar b i de b i t (ANSI ) B94 1 2) t he s ame si z e as the bo l t d i a . Dr i l l ho le deep er than b o l t embed . ( m in . 4 .5 d i a . ) Do n o t us e c ore b i t s . Ma in ta in ac cur a te ho le s i ze .2 . C lean ho le debr i s3 . Add was her + th r ead nu t f l us h w i th top o f bo l t . Dr i ve bo l t i n to ho le tho roug h i tem to be f as-ten ed .

4 . To s e t , t i gh ten nu t 3 -4 f u l l tu r ns o r c ons u l t c har t fo r gu ide i ns ta l la t i on to r que .

NO T E: Us ing i n c onc r e te c ur ed l es s tha n 28 da ys w i l l g r ea t l y r educ e an ch or s t r eng th .WARNI NG : WEAR SAF ETY GO G G LES

Anchors &

Kits

“ B U I L D I N G A B ET T E R B R A N D ”B 8

St eel B ott om M o u nt P C 4 60 0

1 7 5 91 1 /4 ” 1 /4 ” -2 0 x 1 ” # 3 0 .0 3 6 ” – 0 . 1 8 8 ” 1 0 0 6 0 0 7 .5 0 # 1 7 5 92 3 /8 ” 1 /4 ” -2 0 x 1- 1 /2 ” # 3 0 .0 3 6 ” – 0 . 1 8 8 ” 1 0 0 5 0 0 8 .0 1 #

= Bo t t om Mou nt = Bo t t om Mou nt W i th Nu t

St eel S i d e M o u nt P C 4 60 0

1 7 5 93 1 /4 ” 1 /4 ” -2 0 x 1 ” # 3 0 .0 3 6 ” – 0 . 1 8 8 ” 1 0 0 6 0 0 7 .3 0 # 1 7 5 54 3 /8 ” 1 /4 ” -2 0 x 1- 1 /2 ” # 3 0 .1 8 8 ” – 0 . 5 2 0 ” 1 0 0 5 0 0 7 .0 0 #

1 7 5 97 1 /2 ” 1 2 -2 4 x 1- 1 /2 ” # 5 0 .1 8 8 ” – 0 . 5 0 0 ” 1 0 0 5 0 0 8 .0 1 #

ULT IM AT E L O AD C APA C IT I ES( P UR L IN S AN D B E AM S )

20 18 16 14 12

1 /4 ” 1 /4 ” -2 0 x 1 ” 1 ,5 5 0 1 ,5 5 0 1 ,7 7 5 1 ,7 7 5 2 ,0 5 0 3 ,8 5 0 5 ,0 4 01 /4 ” 1 /4 ” -2 0 x 1 ” 1 ,5 5 0 1 ,5 5 0 1 ,7 7 5 1 ,7 7 5 2 ,0 5 0 3 ,8 5 0 2 ,0 5 03 /8 ” 1 /4 ” -2 0 x 1- 1 /2 ” 1 ,5 5 0 1 ,5 5 0 1 ,7 7 5 1 ,7 7 5 2 ,0 5 0 3 ,8 5 0 5 ,0 4 03 /8 ” 1 /4 ” -2 0 x 1- 1 /2 ” 1 ,5 5 0 1 ,5 5 0 1 ,7 7 5 1 ,7 7 5 2 ,0 5 0 3 ,8 5 0 2 ,0 5 01 /2 ” 1 2 -2 4 x 1- 1 /2 ” - - 9 2 0 1 ,5 6 0 2 ,0 5 0 3 ,2 8 0 5 ,0 4 0

= Bo t t om Mou nt = Bo t t om Mou nt W i th Nu t = S ide Mou nt = S ide Mou nt W i th Nu t

= Bo t t om Mou nt = Bo t t om Mou nt W i th N utN

N

N

N

N

N N

N

N

N

(se l f -d r i l l in g ) (se l f -d r i l l in g ) (se l f - t a pp i n g )

R o d H a n g i ng S y s t e m

# 3 F o r Pu r l in s

# 5 F o r B e am s

# 3 F o r Pu r l in s

B 9

Anch

ors

& K

its

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

T e c h

Con t rac to rs

Ta lk

= Bo t t om Mou nt

W ood B ott om M o u nt R od H a ng er s P C 4 60 0

= S ide Mou nt

W ood S i d e M o u nt R od H a ng er s P C 4 60 0

ULT IM AT E L O AD C APA C IT I ESIN S T AL L E D IN WO O D B AS E MAT E R I AL S ( S T R U C T U R AL WO O D & T IM B E R )

= Bo t t om Mou nt = S ide Mou nt

1 7 5 86 1 /4 ” 1 /4 ” x 2 ” Typ e 17 1 /8 ” 1 0 0 5 0 0 8 .0 4 # 1 7 5 87 3 /8 ” 1 /4 ” x 2 ” Typ e 17 1 /8 ” 1 0 0 5 0 0 7 .1 0 #

1 7 5 82 3 /8 ” 3 /8 ” x 2- 1 /2 ” Typ e 17 1 /8 ” 1 0 0 3 0 0 9 .0 0 # 1 7 5 81 1 /2 ” 3 /8 ” x 2- 1 /2 ” Typ e 17 1 /8 ” 1 0 0 3 0 0 9 .0 0 #

1 7 5 89 3 /8 ” 1 /4 ” x 2 ” Typ e 17 1 /8 ” 1 0 0 5 0 0 7 .4 0 # 1 7 5 90 3 /8 ” 3 /8 ” x 2- 1 /2 ” Typ e 17 1 /8 ” 1 0 0 3 0 0 8 .6 0 #

1 /4 ” 1 /4 ” x 2 ” 2 ” 6 8 5 6 5 0 6 5 01 /4 ” 1 /4 ” x 2 ” 2 ” 1 ,5 1 0 1 ,5 1 0 1 ,5 1 03 /8 ” 1 /4 ” x 2 ” 2 ” 1 ,5 1 0 1 ,5 1 0 1 ,5 1 03 /8 ” 1 /4 ” x 2 ” 2 ” 1 ,8 0 0 1 ,8 0 0 1 ,8 0 03 /8 ” 3 /8 ” x 2- 1 /2 ” 2 -1 / 2 ” 2 ,6 7 0 3 ,11 0 3 ,11 03 /8 ” 3 /8 ” x 2- 1 /2 ” 2 -1 / 2 ” 1 ,4 5 0 1 ,5 3 0 1 ,3 8 01 /2 ” 3 /8 ” x 2- 1 /2 ” 2 -1 / 2 ” 2 ,6 7 0 3 ,11 0 3 ,11 0


(self-drilling)

(self-drilling)

(self-tapping)

B 1 0 CE L EB R AT I N G 5 0 YE A R S

Anchors &

Kits

Moun t D ir ec t i on : = Bo t t om Mou nt

CAT. NO. UP CRO D S IZ E

S TD W T/ S TDMS TRS CRE W SH ANK S IZ E/ L EN GT H

P RE -DR IL L DI AME T ER

T HRE AD S TY L E

C on c rete B ott om M o u nt R od H a ng er s P C 4 60 0

CAT. NO. UP C S TD W T/ S TDMS TRS OCK ET

DE S CRI P TI ONS UGG ES TE D GU ID EL I NE S

R od H a ng in g Sy ste m A c c es sor i es P C 4 60 5

S SC 14 B 8 1 2 15 1 /4 ” 1 /4 ” x 1- 1 /4 ” A NS I We d ge - 1 /4 ” AN SI 1 0 0 6 0 0 2 .9 2 # B ol t T h re a dS SC 38 B 1 8 5 50 3 /8 ” 1 /4 ” x 1- 1 /2 ” A NS I We d ge - 1 /4 ” AN SI 1 0 0 6 0 0 4 .7 0 # B ol t T h re a dS SC 12 B 8 1 2 16 1 /2 ” 3 /8 ” x 2- 3 /4 ” A NS I We d ge - 3 /8 ” AN SI 5 0 2 5 0 8 .0 0 # B ol t T h re a d

N ut Dr i ve r s

UN IB 1 7 5 95 Un i ve rsa l S i d e & Bo t to m Fo r 5 0 0 – 15 0 0 1 5 0 .2 5 # I ns t a l la t i on To o l RP M dr i l l spe e d S te e l & Wo o dS CP 14 8 1 2 17 1 /4 ” Co n c re t e 1 5 0 .2 5 # I ns t a l la t i on To o lS CP 38 8 1 2 18 3 /8 ” Co n c re t e 1 5 0 .2 5 # I ns t a l la t i on To o lS CP 50 8 1 2 48 1 /2 ” Co n c re t e 1 5 0 .2 5 # I ns t a l la t i on To o lS S3 0 0 9 11 2 0 9 I ns t a l la t i on To o l K i t 1 1 0 2 .9 2 # f or Co n c re t e An ch o rs

B

B

B

B

Pre-Tie d Cei l ing Wires are ins ta l led w i th low ve l oc i ty powder actu ated too ls in pou re d co ncrete deck.

P re- T i ed C e il i n g W i re W i th C l i p St ra i gh t C e il i n g W i re P C 4 38 5

Fe at u re s:1 2 Ga ug e Wi re

CAT. NO. UP C DE S CRI P TI ON S TD W T/ S TDMS TR

CW C 6 8 1 9 36 6 ’ P r e- Ti e d Ce i l i n g Wi r e w i th 1- 1 /4 ” P i n & C l ip 1 0 0 1 0 0 0 2 2 .0 0 #CW C 8 8 2 0 73 8 ’ P r e- Ti e d Ce i l i n g Wi r e w i th 1- 1 /4 ” P i n & C l ip 1 0 0 1 0 0 0 2 9 .4 3 #CW C 10 8 2 0 76 1 0 ’ P r e- Ti e d Ce i l i n g Wi r e w i th 1- 1 /4 ” P i n & C l ip 1 0 0 1 0 0 0 3 6 .8 8 #CW C 12 8 3 2 44 1 2 ’ P r e- Ti e d Ce i l i n g Wi r e w i th 1- 1 /4 ” P i n & C l ip 1 0 0 1 0 0 0 4 4 .2 9 #

CW S 6 8 2 0 74 6 ’ S t ra i g h t Ce i l i n g Wi r e 1 0 0 1 0 0 0 2 1 .1 0 #CW S 8 8 2 0 75 8 ’ S t ra i g h t Ce i l i n g Wi r e 1 0 0 1 0 0 0 2 8 .1 3 #CW S 1 0 8 2 0 72 1 0 ’ S t ra i g h t Ce i l i n g Wi r e 1 0 0 1 0 0 0 3 6 .1 6 #CW S 1 2 8 2 4 03 1 2 ’ S t ra i g h t Ce i l i n g Wi r e 1 0 0 1 0 0 0 4 3 .1 9 #

*U N IB


B 1 1F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Anch

ors

& K

its

T el e sc op i ng P o l e Tool s P C 4 60 7P ro v i de s a saf e wa y to re a ch ar e a s th a t pr e v io u s l y we re da n g e ro u s or in a cce ss i b le to la d d e rs , sca f fo l d i n g, an d sc isso r l i f t s - in c l u d in g vau l t e d ce i l i n gs , ove r s ta i rw el l s , an d th ro u g h ce i l i n g gr i d . T h e Do t t i e E l e c t r i ca l Te l esco p i n g Po l e To o l is th e e l e c t r i c i an ’s po l e to o l . T h e in t e rch a n g ab l e he a d s ma ke i t th e mo s t e f f i c i en t to o l o f i t s k in d . Use i t to in s t a l l ce i l i n g w i re (P ag e B1 0 w i th Ha n g er S c re ws Pa g e A3 1 ) , ja ck cha i n Pa g e A3 2 ) , th re a d e d ro d (P ag e A2 5 w i th Ro d Ha n g er s Pa g e s B8 -1 0 ) , a n d ove r h ea d sc re w or nu t in s t a l l a t io n s . Po we r th e po l e w i th an y 3/ 8 ” or 1 / 2 ” dr i l l . Do t t i e ’s Po l e t oo l com es w i th a l l th re e in t e rch a n g ab l e he a d - Wi r e, Do u b le S i d e d So cke t an d 1/ 4 ” He x Dr i ve . T h e Do u b l e S i d e d So cke t w i l l acco mm od a t e bo t h Do t t i e ’s Ro d Ha n g in g Sys t e m An ch o rs (P ag e s B8 -1 0 ) a n d com pe t i t i ve ro d ha n g i n g an ch o rs .

CAT. NO. UP C S TD MS TR W T/ ST DDE S CRI P TI ON

DL M1 2 8 2 2 80 Tr i p l e 4 f t . Te l esco p i n g Po l e To o l 1 5 .9 0 #DL M1 8 8 2 2 81 Tr i p l e 6 f t . Te l esco p i n g Po l e To o l 1 7 .8 0 #

Ac c e s s o r ie sDL MW T 8 3 1 66 W i re & Ch a in P l u g in He a d 1 1 .2 5 #DL MR HD 8 3 1 68 Do u b l e S i d e d Ro d Ha n g er He a d 1 1 .2 5 #DL MH D 8 3 1 67 1 /4 ” B i t & Po we r B i t He a d 1 1 .2 5 #

T e l e s c o p i n g P o l e T o o l s

Anchors &

Kits

“ B U I L D I N G A B ET T E R B R A N D ”B 1 2

C on c rete A n c ho r i ng Sy ste m P C 4 56 0F a s te r to in s t a l l th a n mo s t s te e l an ch o rs , yet ha s s ig n i f i ca n t lo a d cap a c i t ie s . On e to o l dr i l l s th e ho l e an d set s th e an ch o r w i th o u t th e ne e d to re mo ve f r om th e d r i l l chu ck . Ha s th e ad d e d ad va n t a ge of c lo se to ed g e fa s t e n i n g w i th o u t po t e n t i a l b re a ko u t . Wo rks in po u r ed con c r e te , pr e s t r e sse d con c r e te , c in d e r b l o ck , br i c k , a n d mo r t ar, an d can be lo o se n e d fo r ad j u s t men t or re mo ve d .

Fe at u re s:

SDS R otohamme r B i ts See Page E4

I ns ta l l at io n Tool - P h i l ip s & H ex H ea d P C 4 59 0I ns t a l la t i on to o l in s t a l l s a l l le n g t hs of bo t h ph i l l ip s & he x he a d con c r e te sc re ws . Co n s i s ts o f on e ea ch : Ma son r y dr i l l b i t ho l d e r ; Ph i l l i p s socke t dr i ver w i th on e # 2 & on e #3 Ph i l l i p s b i t ; 1 / 4 ” He x socke t dr i ver ; 5 / 1 6 ” He x socke t dr i ver & a l l e n wr e n ch.

H e x He a d S l o t t e d 3/ 1 6 ”

H e x He a d S l o t t e d 1/ 4 ”

C o n c re t e A n c ho r i n g S y s t e m

11 2 0 8 3 /1 6 x 1- 1 /4 ” 1 /4 ” 5 /3 2 x 3- 1 /2 ” 1 0 0 5 0 0 0 .8 9 # 11 2 8 8 3 /1 6 x 1- 3 /4 ” 1 /4 ” 5 /3 2 x 3- 1 /2 ” 1 0 0 5 0 0 1 .0 7 # 11 3 6 8 3 /1 6 x 2- 1 /4 ” 1 /4 ” 5 /3 2 x 4- 1 /2 ” 1 0 0 5 0 0 1 .3 0 # 11 4 4 8 3 /1 6 x 2- 3 /4 ” 1 /4 ” 5 /3 2 x 4- 1 /2 ” 1 0 0 5 0 0 1 .5 1 #

11 5 2 8 3 /1 6 x 3- 1 /4 ” 1 /4 ” 5 /3 2 x 5- 1 /2 ” 1 0 0 5 0 0 1 .8 7 #

2 5 2 08 1 /4 x 1- 1 /4 ” 5 /1 6 ” 3 /1 6 x 3- 1 /2 ” 1 0 0 5 0 0 1 .4 4 # 2 5 2 88 1 /4 x 1- 3 /4 ” 5 /1 6 ” 3 /1 6 x 3- 1 /2 ” 1 0 0 5 0 0 1 .8 3 # 2 5 3 68 1 /4 x 2- 1 /4 ” 5 /1 6 ” 3 /1 6 x 4- 1 /2 ” 1 0 0 5 0 0 2 .2 6 #

2 5 4 48 1 /4 x 2- 3 /4 ” 5 /1 6 ” 3 /1 6 x 4- 1 /2 ” 1 0 0 5 0 0 2 .9 6 # 2 5 5 28 1 /4 x 3- 1 /4 ” 5 /1 6 ” 3 /1 6 x 5- 1 /2 ” 1 0 0 5 0 0 3 .0 2 # 2 5 6 08 1 /4 x 3- 3 /4 ” 5 /1 6 ” 3 /1 6 x 5- 1 /2 ” 1 0 0 5 0 0 3 .4 1 # 2 5 6 48 1 /4 x 4 ” 5 /1 6 ” 3 /1 6 x 5- 1 /2 ” 1 0 0 5 0 0 3 .6 2 #

F l at He a d Ph i l l i ps 3/ 1 6 ”

11 2 0 1 3 /1 6 x 1- 1 /4 ” # 2 5 /3 2 x 3- 1 /2 ” 1 0 0 5 0 0 0 .8 4 # 11 2 8 1 3 /1 6 x 1- 3 /4 ” # 2 5 /3 2 x 3- 1 /2 ” 1 0 0 5 0 0 1 .0 4 # 11 3 6 1 3 /1 6 x 2- 1 /4 ” # 2 5 /3 2 x 4- 1 /2 ” 1 0 0 5 0 0 1 .2 8 # 11 4 4 1 3 /1 6 x 2- 3 /4 ” # 2 5 /3 2 x 4- 1 /2 ” 1 0 0 5 0 0 1 .4 5 #

11 5 2 1 3 /1 6 x 3- 1 /4 ” # 2 5 /3 2 x 5- 1 /2 ” 1 0 0 5 0 0 1 .7 7 #

F l at He a d Ph i l l i ps 1/ 4 ”

2 5 2 01 1 /4 x 1- 1 /4 ” # 2 3 /1 6 x 3- 1 /2 ” 1 0 0 5 0 0 1 .3 9 # 2 5 2 81 1 /4 x 1- 3 /4 ” # 2 3 /1 6 x 3- 1 /2 ” 1 0 0 5 0 0 1 .8 5 # 2 5 3 61 1 /4 x 2- 1 /4 ” # 2 3 /1 6 x 4- 1 /2 ” 1 0 0 5 0 0 2 .0 5 # 2 5 4 41 1 /4 x 2- 3 /4 ” # 2 3 /1 6 x 4- 1 /2 ” 1 0 0 5 0 0 2 .5 3 # 2 5 5 21 1 /4 x 3- 1 /4 ” # 2 3 /1 6 x 5- 1 /2 ” 1 0 0 5 0 0 2 .9 6 # 2 5 6 01 1 /4 x 3- 3 /4 ” # 2 3 /1 6 x 5- 1 /2 ” 1 0 0 5 0 0 3 .3 8 # 2 5 6 41 1 /4 x 4 ” # 2 3 /1 6 x 5- 1 /2 ” 1 0 0 5 0 0 3 .6 1 #

Fe at u re s: 1 4 4 95 I ns t a l la t i on To o l 1 1 0 1 .5 0 #

H am m er D r il l C a r b i d e T ip p ed M a so nry D r il l B it s P C 4 57 0

Ha mme r Dr i l l s (CD Se r i e s ) ma de spe c i f ica l l y fo r Co n c re t e Sc r ew An ch o r i n g S ys te m an d ar e ma nu f a c tu r e d w i th c lo se r to l e ra n ce s .

Fe at u re s:

5 /3 2 ”

3 /1 6 ”

1 4 5 00 3 /1 6 ” 5 /3 2 x 3- 1 /2 ” 1 0 0 .2 2 # 1 4 5 02 3 /1 6 ” 5 /3 2 x 4- 1 /2 ” 1 0 0 .2 2 # 1 4 5 04 3 /1 6 ” 5 /3 2 x 5- 1 /2 ” 1 0 0 .2 4 #

1 4 5 06 1 /4 ” 3 /1 6 x 3- 1 /2 ” 1 0 0 .2 5 # 1 4 5 08 1 /4 ” 3 /1 6 x 4- 1 /2 ” 1 0 0 .2 7 # 1 4 5 10 1 /4 ” 3 /1 6 x 5- 1 /2 ” 1 0 0 .2 9 #

B 1 3

Anch

ors

& Ki

ts

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

A nc h or K i ts P C 4 6 10

6 x 1 S h e e t M e t al S c re w s

A n c h o r K i t s

3 0 4 60 D P hi l l ip s / S l o t te d # 2 1 R ed Co l l a r 3 /1 6 ” 1 1 0 0 .5 9 # 3 0 4 65 T P hi l l ip s / S l o t te d # 2 1 R ed Co l l a r 3 /1 6 ” 1 6 0 .5 9 #

3 0 4 63 D He x / S l o t te d # 2 1 R ed Co l l a r 3 /1 6 ” 1 1 0 0 .5 4 # 3 0 4 61 T He x / S l o t te d # 2 1 R ed Co l l a r 3 /1 6 ” 1 6 0 .5 4 #

2 9 6 30 D P hi l l ip s / S l o t te d # 1 2 1 W h i t e Wi n g 3 /1 6 ” 1 1 0 0 .6 0 # 2 9 6 32 T P hi l l ip s / S l o t te d # 1 2 1 W h i t e Wi n g 3 /1 6 ” 1 6 0 .6 0 #

8 x 1 S h e e t M e t al S c r ew s3 0 4 67 D P hi l l ip s / S l o t te d # 2 2 R ed Co l l a r 1 /4 ” 1 1 0 0 .8 3 #

3 0 4 69 T P hi l l ip s / S l o t te d # 2 2 R ed Co l l a r 1 /4 ” 1 6 0 .8 3 #

3 0 4 71 D He x / S l o t te d # 2 2 R ed Co l l a r 1 /4 ” 1 1 0 0 .8 2 # 3 0 4 73 T He x / S l o t te d # 2 2 R ed Co l l a r 1 /4 ” 1 6 0 .8 2 #

3 0 4 75 D S qu a r e Dr i ve # 2 2 R ed Co l l a r 1 /4 ” 1 1 0 0 .8 4 # 3 0 4 77 T S qu a r e Dr i ve # 2 2 R ed Co l l a r 1 /4 ” 1 6 0 .8 4 #

1 0 x 1 S h ee t Me t a l S c re ws 2 9 6 25 D P hi l l ip s / S l o t te d # 2 2 R ed Co l l a r 1 /4 ” 1 1 0 1 .0 3 #

2 9 6 27 T P hi l l ip s / S l o t te d # 2 2 R ed Co l l a r 1 /4 ” 1 6 1 .0 3 #

2 9 6 21 D He x / Ph i l /S l o t t e d # 2 2 R ed Co l l a r 1 /4 ” 1 1 0 1 .0 5 # 2 9 6 22 T He x / Ph i l /S l o t t e d # 2 2 R ed Co l l a r 1 /4 ” 1 6 1 .0 5 #

1 6 9 45 D S qu a r e Dr i ve # 2 2 R ed Co l l a r 1 /4 ” 1 1 0 1 .0 1 # 1 6 9 47 T S qu a r e Dr i ve # 2 2 R ed Co l l a r 1 /4 ” 1 6 1 .0 1 #

5 9 2 00 D P hi l l ip s / S l o t te d # 1 2 2 Ye l lo w W i n g 1 /4 ” 1 1 0 1 .11 # 5 9 2 02 T P hi l l ip s / S l o t te d # 1 2 2 Ye l lo w W i n g 1 /4 ” 1 6 1 .11 #

5 9 2 03 D He x / Ph i l /S l o t t e d # 1 2 2 Ye l lo w W i n g 1 /4 ” 1 1 0 1 .0 4 # 5 9 2 04 T He x / Ph i l /S l o t t e d # 1 2 2 Ye l lo w W i n g 1 /4 ” 1 6 1 .0 4 #

5 9 2 07 D S qu a r e Dr i ve # 1 2 2 Ye l lo w W i n g 1 /4 ” 1 1 0 1 .0 6 # 5 9 2 06 T S qu a r e Dr i ve # 1 2 2 Ye l lo w W i n g 1 /4 ” 1 6 1 .0 6 #

2 9 6 00 D P hi l l ip s / S l o t te d # 2 2 2 Gr e en S t r. 1 /4 ” 1 1 0 1 .0 2 # 2 9 6 02 T P hi l l ip s / S l o t te d # 2 2 2 Gr e en S t r. 1 /4 ” 1 6 1 .0 2 #

1 2 x 1 - 1/ 2 S h e e t M e t al S c r ew s ( 5 0 S c re ws , 5 0 An c h o r s ) 2 9 6 15 D P hi l l ip s / S l o t te d # 2 3 R ed Co l l a r 5 /1 6 ” 1 1 0 0 .9 5 #

2 9 6 17 T P hi l l ip s / S l o t te d # 2 3 R ed Co l l a r 5 /1 6 ” 1 6 0 .9 5 #

2 9 5 50 D He x / S l o t te d # 2 3 R ed Co l l a r 5 /1 6 ” 1 1 0 0 .9 9 # 2 9 5 52 T He x / S l o t te d # 2 3 R ed Co l l a r 5 /1 6 ” 1 6 0 .9 9 #

2 9 5 54 D S qu a r e Dr i ve # 2 3 R ed Co l l a r 5 /1 6 ” 1 1 0 0 .9 9 # 2 9 5 56 T S qu a r e Dr i ve # 2 3 R ed Co l l a r 5 /1 6 ” 1 6 0 .9 9 #

2 9 6 35 D P hi l l ip s / S l o t te d # 1 2 3 Ye l lo w W i n g 5 /1 6 ” 1 1 0 0 .9 5 # 2 9 6 37 T P hi l l ip s / S l o t te d # 1 2 3 Ye l lo w W i n g 5 /1 6 ” 1 6 0 .9 5 #

M ult i - G r i p K i t s C o n t a i n : 10 0 6 x 1 - 1 /4 ” S c re ws , 1 00 # 6 A nc h o r s 8 1 6 47 # 6 P h i l l i p s /S lo t t ed # 6 B e i ge 1 /4 ” 1 6 0 .8 0 #

8 1 6 49 # 6 S q u a re D r i ve # 6 B e i ge 1 /4 ” 1 6 0 .8 0 # 8 1 6 51 # 6 H e x /S l ot t ed # 6 B e i ge 1 /4 ” 1 6 0 .8 0 #

M ult i - G r i p K i t s C o n t a i n : 10 0 8 x 1 - 1 /4 ” S c re ws , 1 00 # 8 A nc h o r s 8 1 6 53 # 8 P h i l l i p s /S lo t t ed # 8 G ra y 1 /4 ” 1 6 0 .9 0 #

8 1 6 55 # 8 S q u a re D r i ve # 8 G ra y 1 /4 ” 1 6 0 .9 0 # 8 1 6 57 # 8 H e x /S l ot t ed # 8 G ra y 1 /4 ” 1 6 0 .9 0 #

M ult i - G r i p K i t s C o n t a i n : 10 0 1 0 x 1 - 1 /2 ” S c r ew s , 10 0 # 1 0 A nc h o r s 8 1 6 59 # 1 0 P h i l l i ps / S lo t te d # 1 0 B l ue 5 /1 6 ” 1 6 1 .3 0 #

8 1 6 61 # 1 0 S q u ar e D r i ve # 1 0 B l ue 5 /1 6 ” 1 6 1 .3 0 # 8 1 6 63 # 1 0 H ex / S lo t te d # 1 0 B l ue 5 /1 6 ” 1 6 1 .3 0 #

M ult i - G r i p K i t s C o n t a i n : 50 1 2 x 1 - 1 /2 ” S c r ew s , 5 0 # 12 An c h o r s 8 1 6 65 # 1 2 P h i l l i ps / S lo t te d # 1 2 Gr e e n 3 /8 ” 1 6 1 .3 0 #

8 1 6 67 # 1 2 S q u ar e D r i ve # 1 2 Gr e e n 3 /8 ” 1 6 1 .3 0 # 8 1 6 69 # 1 2 H ex / S lo t te d # 1 2 Gr e e n 3 /8 ” 1 6 1 .3 0 #

Do t t i e is a n i n d u s t r y l e a d er i n A n ch o r K i ts . We o f f e r a co mp re h e n s ive va r i e ty f or a l mo s t a ny i ma g in a b l e n e e d .

Fe at u re s:

Mu l t i -G r i p K i ts a va i l a b l e p a cka ge d i n D i sp l a yab l e 2 Co mp a r tme n t P a ckag i n g .S ee yo u r Do t t i e P r i ce Mas t e r.


Anchors &

Kits

Fe at u re s:

3 1 3 95 1 0 0 Ch ro me Ph i l l i p s Wa l l Do g 1 1 0 1 .6 7 # 1 3 / 1 6 ” Ca rb i d e Ti p Dr i l l B i t 1 IB 2 PL Ph i l l i p s Po we r B i t

3 1 3 96 1 0 0 Wh i t e Ph i l l i p s Wa l l Do g 1 1 0 1 .6 7 # 1 3 / 1 6 ” Ca rb i d e Ti p Dr i l l B i t 1 IB 2 PL Ph i l l i p s Po we r B i t

1 6 2 90 1 0 0 Ch ro me Sq u a re Wa l l Do g 1 1 0 1 .6 7 # 1 3 / 1 6 ” Ca rb i d e Ti p Dr i l l B i t 1 IB 2 L Sq u a re Dr i ve Po we r B i t

8 1 0 16 1 0 0 Ch ro me He x Dr i ve Wa l l Do g 1 1 0 1 .6 7 # 1 3 / 1 6 ” Ca rb i d e Ti p Dr i l l B i t 1 MT1 0 Ma gn e t ic He x B i t

Wa l l D og - P h il l ip s / Squ a re/ H ex P C 4 7 3 1

UP C

Wa l l B oa rd K i ts - P h i l l ip s/ Squ a re / Wa f er P C 4 73 0

A n c h o r K i t s

Fe at u re s:

UP C

P hi l l ip s /S L o t t e d

2 9 7 80 D 6 x 1 ” Z in c I B1 P 1 1 0 0 .7 5 # 2 9 8 55 T 6 x 1 ” Z in c I B1 P 1 6 0 .7 5 # 2 9 7 81 D 6 x 1 ” Ny l o n I B1 P 1 1 0 0 .4 6 #

2 9 8 57 T 6 x 1 ” Ny l o n I B1 P 1 6 0 .4 6 #

2 9 7 86 D 8 x 1- 1 /4 ” Z in c I B2 P 1 1 0 1 .3 3 # 2 9 8 62 T 8 x 1- 1 /4 ” Z in c I B2 P 1 6 1 .3 3 # 2 9 7 87 D 8 x 1- 1 /4 ” Ny l o n I B2 P 1 1 0 0 .7 0 #

2 9 8 64 T 8 x 1- 1 /4 ” Ny l o n I B2 P 1 6 0 .4 6 #

S q u ar e Dr i ve 2 9 7 90 D 6 x 1 ” Z in c I B1 1 1 0 0 .7 5 # 2 9 8 66 T 6 x 1 ” Z in c I B1 1 6 0 .7 5 # 2 9 7 91 D 6 x 1 ” Ny l o n I B1 1 1 0 0 .4 6 #

2 9 8 68 T 6 x 1 ” Ny l o n I B1 1 6 0 .4 6 #

2 9 7 96 D 8 x 1- 1 /4 ” Z in c I B2 1 1 0 1 .3 3 # 2 9 8 72 T 8 x 1- 1 /4 ” Z in c I B2 1 6 1 .3 3 # 2 9 7 97 D 8 x 1- 1 /4 ” Ny l o n I B2 1 1 0 0 .7 0 #

2 9 8 74 T 8 x 1- 1 /4 ” Ny l o n I B2 1 6 0 .4 6 #

Waf er He a d Ph i l l i ps / S q u ar e Dr i ve 8 1 5 18 D 8 x 1- 1 /4 ” Z in c I B2 P 1 1 0 1 .3 3 # 8 1 5 19 T 8 x 1- 1 /4 ” Z in c I B2 P 1 6 1 .3 3 # 8 1 5 20 D 8 x 1- 1 /4 ” Ny l o n I B2 P 1 1 0 0 .7 0 #

8 1 5 21 T 8 x 1- 1 /4 ” Ny l o n I B2 P 1 6 0 .7 0 #

8 1 5 22 D 8 x 1- 1 /4 ” Z in c I B2 1 1 0 1 .3 3 # 8 1 5 23 T 8 x 1- 1 /4 ” Z in c I B2 1 6 1 .3 3 # 8 1 5 24 D 8 x 1- 1 /4 ” Ny l o n I B2 1 1 0 0 .7 0 #

8 1 5 25 T 8 x 1- 1 /4 ” Ny l o n I B2 1 6 0 .4 6 #

B 1 5F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Anch

ors

& Ki

ts

Wa l l Bo ar d Toggl e K i ts P C 4 7 51

A n c h o r K i t s

Fe at u re s:

UP C

8 1 0 22 3 5 -1 / 8 ” Wal l B o a rd To g g le (1 / 8 ” x 3 ” 1 6 1 .1 0 # Tr u ss H d . Ma ch . Sc r e ws )

8 1 0 23 2 5 -3 / 16 ” Wal l B o a rd To g g le (3 / 1 6 ” x 3 ” 1 6 1 .6 5 # Tr u ss H d . Ma ch . Sc r e ws )

8 1 0 24 2 0 -1 / 4 ” Wal l B o a rd To g g le (1 / 4 ” x 3 ” 1 6 1 .6 5 # Tr u ss H d . Ma ch . Sc r e ws )

T e s t R e s u lt s

NO T E: T he va l ues l i s ted a bove a r e u l t imate l oad c apac i t i es wh i c h s hou ld be r educ ed b y a m in imum s a fe t y fac to r o f 4 o r g r ea te r to de te r mine th e a l l owab le wor ki ng l oad .

N yl on B U tto n He ad an d Togg l e A n c ho r K i ts P C 4 6 10

Fe at u re s:

UP C

N yl o n B u t t o n H ea d An c h o r s w it h P in s

n yl o n T o g g l e An c h o r s wi t h S c r e ws

1 8 5 35 D 3 /1 6 x 1 ” 1 7 11 3 /1 6 ” 1 1 0 0 .6 7 # 1 8 5 37 T 3 /1 6 x 1 ” 1 7 11 3 /1 6 ” 1 6 0 .6 7 #

1 8 5 40 D 1 /4 x 1 ” 1 7 1 4 1 /4 ” 1 1 0 0 .7 2 # 1 8 5 45 T 1 /4 x 1 ” 1 7 1 4 1 /4 ” 1 6 0 .7 2 #

6 6 7 97 D 8 x 1 -1 / 2 ” NT 1 4 L 1 /4 ” 1 1 0 0 .3 9 # 6 6 8 00 T 8 x 1 -1 / 2 ” NT 1 4 L 1 /4 ” 1 6 0 .3 9 #

6 6 7 99 D 1 0 x 1 -1 / 2 ” NT 3 8 L 3 /8 ” 1 1 0 0 .4 9 # 6 6 8 02 T 1 0 x 1 -1 / 2 ” NT 3 8 L 3 /8 ” 1 6 0 .4 9 #

H ar n ess Toggl e K i ts P C 4 7 35

Fe at u re s:

UP C

T h e Ha r n ess To g g l e i s a h e a vy d u t y h o l lo w w a l l an ch o r f o r use i n b a se ma t e r i a l s su ch a s p la s t e r, wa l lb o a rd , o r h o l lo w t i le . T he Ha r ne ss To g g l e i s a p re a sse mb l ed a n ch or co n s i s t in g of a ca rb o n s te e l w in g a n d a l o ck i n g ca p / r a tch e t l e g a sse mb l y mo l d ed f r o m e n g i n e er e d p l a s t i c . I t i s a va i l ab l e i n b ot h 3 / 1 6 ” a nd 1 /4 ” s i ze . W h e n co mp a re d t o t r ad i t io n a l t o g gl e s , t h is u n i qu e a nch o r ca n be i n s ta l le d i n a sm al l e r h o le a n d d o e s n o t r e qu i re a f i x tu r e o r sc re w t o se t i t . T h e a n ch o r ca n e a s i ly b e a d ju s t e d t o a cco mmo d a te a w a l l th i ckn e ss o f u p to 2 -1 /2 ” . T h e t o g g le re ma i n s ca p t i ve .

1 0 5 24 2 5 3 / 1 6 x 4 ” Ha rn e ss To g g le s a n d 1 1 0 1 .6 7 # 2 5 3 / 1 6 x 4 ” Mu shr o o m H e ad Sc r e ws

1 0 5 26 2 5 1 / 4 x 4 ” Ha rn e ss To g g l es a n d 1 1 0 1 .8 9 # 2 5 1 / 4 x 4 ” Mu sh ro o m H e a d S c re ws

Anchors &

Kits

“ B U I L D I N G A B ET T E R B R A N D ”B 1 6

F a set ne r K i ts P C 4 76 0

Fe at u re s:

Fa s t e n e r K i t s

Do t t i e in t ro d u ce d asso r te d sc re w k i t s ove r 50 yea r s ag o an d ha s a com pr e h en s i ve va r i e ty fo r a l mo s t an y ima g i n a bl e ne e d .

6 3 2 1 8 1 40 3 7 0 Asso r te d 6- 3 2 S l o t t e d F l a t He a d 1 6 1 .8 5 # Ma ch i ne Sc r ew s ; 3 / 4 ” T h ru 3 ” 1 0 0 -1 /2 ” , 75 - 3 /4 ” , 75 - 1 ” , 5 0 -1 -1 / 4 ” , 40 - 1 -1 / 2 ” , 30 - 2 ”

2 9 6 55 3 7 0 Asso r te d 6- 3 2 Sq u a re / Ph i l l i p s 1 6 1 .8 8 # F la t He a d Ma chi n e Sc r ew s ; 1 /2 ” T h ru 2 ” 1 0 0 -1 /2 ” , 75 - 3 /4 ” , 75 - 1 ” , 5 0 -1 -1 / 4 ” , 40 - 1 -1 / 2 ” , 30 - 2 ”

2 9 6 57 3 7 0 Asso r te d 6- 3 2 Ph i l l i p s /S l o t t e d 1 6 1 .5 9 # Ro u n d He a d Ma chi n e Sc r ew s ; 1 /2 ” T h ru 2 ” , 10 0 - 1/ 2 ” , 75 - 3 /4 ” , 75 - 1 ” , 5 0 - 1- 1 /4 ” , 40 - 1- 1 /2 ” , 30 - 2 ”

2 9 6 65 3 1 0 Asso r te d 8- 3 2 Sq u a re / S l o t t e d 1 6 2 .3 1 # Ro u n d He a d Ma chi n e Sc r ew s ; 1 /2 ” T h ru 2 ” 1 0 0 -1 /2 ” , 60 - 3 /4 ” , 50 - 1 ” , 4 0 -1 -1 / 4 ” , 35 - 1 -1 / 2 ” , 25 - 2 ”

2 9 6 60 3 7 0 Asso r te d 8- 3 2 Ph i l l i p s /S l o t t e d 1 6 2 .3 0 # Ro u n d He a d Ma chi n e Sc r ew s ; 1 /2 ” T h ru 2 ” 1 0 0 -1 /2 ” , 75 - 3 /4 ” , 75 - 1 ” , 50 - 1 -1 / 4 ” , 4 0 -1 -1 / 2 ” , 30 - 2 ”

1 0 3 23 2 4 5 Asso r te d 10 - 3 2 Ph i l l i p s /S l o t t e d 1 6 3 .1 3 # Ro u n d He a d Ma chi n e Sc r ew s ; 1 /2 ” T h ru 2 ” 7 5 -1 / 2 ” , 50 - 3 /4 ” , 40 - 1 ” , 30 - 1 -1 / 4 ” , 2 5 -1 -1 / 2 ” , 25 - 2 ”

1 4 2 05 11 0 Asso r te d 1/ 4 -2 0 Ph i l l i p s /S l o t t e d 1 6 1 .8 7 # Ro u n d He a d Ma chi n e Sc r ew s ; 1 /2 ” T h ru 2 ” 3 0 -1 / 2 ” , 25 - 3 /4 ” , 20 - 1 , ” 15 - 1 -1 / 4 ” , 1 0 -1 -1 / 2 ” , 10 - 2 ”

S t o v e B o lt K i t s wit h Nu t s

3 1 6 1 6 5 60 2 2 0 Asso r te d 3/ 1 6 (1 0 -2 4 ) 1 6 2 .8 2 # S lo t te d Tr u ss He a d St o ve Bo l ts w i t h He x Nu ts ; 1 / 2 ” T h ru 2 ” 5 0 -1 / 2 ” , 50 - 3 /4 ” , 40 - 1 ” , 30 - 1 -1 / 4 ” , 3 0 -1 1/ 2 ” , 20 - 2 ”

1 4 2 0 1 4 2 00 11 0 Asso r te d 1/ 4 -2 0 S l o t t e d 1 6 2 .7 7 # Tr u ss He a d S to ve Bo l ts w i th He x Nu ts ; 1 /2 ” T h ru 2 ” 3 0 -1 / 2 ” , 25 - 3 /4 ” , 20 - 1 ” , 15 - 1 -1 / 4 ” , 1 0 -1 -1 / 2 ”

H e x Nu t K i t

1 7 0 00 3 3 9 Asso r te d Z i n c P l a te d He x Nu ts 1 6 2 .6 0 # 1 0 s ize s : 6- 3 2 ” T h ru 5/ 8 ” : 50 - 6 -3 2 ” , 5 0 -8 -3 2 ” , 50 - 1 0- 2 4 ” , 25 - 1 0- 3 2 ” , 2 5 -1 2 -2 4 ” , 75 - 1 /4 ” , 25 - 5 /1 6 ” , 3 0 -3 / 8 ” , 6- 1 /2 ” , 3- 5 /8 ”

M a c h in e Sc re w K i t - Tru ss H ea d P C 4 76 0

Fe at u re s:

Do t t i e in t ro d u ce s th e Tr u ss He a d Co mb o Asso r te d Ma chi n e Sc r ew K i t . T h ese Tr u ss He a d Ma chi n e Sc r ew s ar e ne e d e d wh e n in s t a l l i n g w i r i n g de v i ce s be h i n d wa l l p l a t e s . Gr e at wh e n a lo w pr o f i l e fa s t e ne r is ne e d e d .

2 9 6 58 3 7 0 Asso r te d 6- 3 2 S l o t t e d / Ph i l l i p s 1 6 1 .5 9 # Tr u ss He a d Ma chi n e Sc r ew s ; 1 /2 ” th ru 2 ” 1 0 0 -1 /2 ” , 75 - 3 /4 , 75 - 1 ” , 50 - 1 -1 / 4 ” , 4 0 -1 -1 / 2 ” , 30 - 2 ”

M ac h in e S c re w K i t s

B 1 7

Anch

ors

& K

its

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

F a ste ne r K i ts P C 4 76 0

Fa s t e n e r K i t s

Fe at u re s:


# 8

1 5 0 21 3 0 0 Asso r te d #8 Ph i l l i p s /S l o t t e d Pa n 1 6 1 .7 5 # He a d Sh e e t Me ta l Sc r ew s : 1 /2 ” T h ru 2 ” ; 75 - 1 /2 ” , 75 - 3 /4 ” , 50 - 1 ” , 4 0 -1 -1 / 4 ” , 35 - 1 -1 / 2 ” , 25 - 2 ”

5 9 2 54 3 0 0 Asso r te d #8 He x /P h i l / S lo t te d 1 6 1 .7 6 # He a d Sh e e t Me ta l Sc r ew s : 1 /2 ” T h ru 2 ” ; 75 - 1 /2 ” , 75 - 3 /4 ” , 50 - 1 ” , 4 0 -1 -1 / 4 ” , 35 - 1 -1 / 2 ” , 25 - 2 ”

5 9 2 58 3 0 0 Asso r te d #8 Sq u a re -D r i ve Pa n 1 6 1 .7 9 # He a d Sh e e t Me ta l Sc r ew s : 1 /2 ” T h ru 2 ” ; 75 - 1 /2 ” , 75 - 3 /4 ” , 50 - 1 ” , 4 0 -1 -1 / 4 ” , 35 - 1 -1 / 2 ” , 25 - 2 ”

# 1 0

1 5 0 31 2 1 0 Asso r te d #1 0 Ph i l l i p s /S l o t t e d Pa n 1 6 2 .3 5 # He a d Sh e e t Me ta l Sc r ew s : 1 /2 ” T h ru 2 ” ; 60 - 1 /2 ” , 40 - 3 /4 ” , 35 - 1 ” , 3 0 -1 -1 / 4 ” , 25 - 1 -1 / 2 ” , 20 - 2 ”

5 9 2 56 2 1 0 Asso r te d #1 0 He x /P h i l / S lo t te d 1 6 2 .3 0 # Wash e r Sh e e t Me ta l Sc r ew s : 1 /2 ” T h ru 2 ” ; 60 - 1 /2 ” , 40 - 3 /4 ” , 35 - 1 ” , 3 0 -1 -1 / 4 ” , 25 - 1 -1 / 2 ” , 20 - 2 ”

5 9 2 60 2 1 0 Asso r te d #1 0 Sq u a re -D r i ve Pa n 1 6 2 .2 2 # He a d Sh e e t Me ta l Sc r ew s : 1 /2 ” T h ru 2 ” ; 60 - 1 /2 ” , 40 - 3 /4 ” , 35 - 1 ” , 3 0 -1 -1 / 4 ” , 25 - 1 -1 / 2 ” , 20 - 2 ”

# 6

1 5 0 15 3 0 0 Asso r te d #6 Ph i l l i p s /S l o t t e d Pa n 1 6 1 .2 4 # He a d Sh e e t Me ta l Sc r ew s : 1 /2 ” T h ru 2 ” ; 75 - 1 /2 ” , 75 - 3 /4 ” , 50 - 1 ” , 4 0 -1 -1 / 4 ” , 35 - 1 -1 / 2 ” , 25 - 2 ”

1 5 0 12 3 0 0 Asso r te d #6 S l o t t e d He x Wa sh e r 1 6 1 .2 6 # He a d Sh e e t Me ta l Sc r ew s : 1 /2 ” T h ru 2 ” ; 75 - 1 /2 ” , 75 - 3 /4 ” , 50 - 1 ” , 4 0 -1 -1 / 4 ” , 35 - 1- 1 /2 ” , 25 - 2 ”

1 5 0 17 3 0 0 Asso r te d #6 Sq u a re -D r i ve Pa n 1 6 1 .2 7 # He a d Sh e e t Me ta l Sc r ew s : 1 /2 ” T h ru 2 ” ; 75 - 1 /2 ” , 75 - 3 /4 ” , 50 - 1 ” , 4 0 -1 -1 / 4 ” , 35 - 1 -1 / 2 ” , 25 - 2 ”

Wal l Pl at e S c re w K i t ( 1 2 C o mp ar t m en t B o x )

2 7 6 40 4 5 0 Asso r te d Wa l l P l a te Sc r ew s 1 6 1 .5 7 # 1 /2 ” Le n g t h s - 10 0 Ea : Wh i t e & Ivo ry, 2 5 Ea : A l mo n d , S t a in l e ss , Br ass , Ny l o n ; 3 / 4 ” Le n g t h s - 25 Ea : Wh i t e , I vor y & A l mo n d ; 1 ” Le n g t h s - 25 Ea : W h i t e , Ivo ry & A l mo n d

Wal l Pl at e S c re w K i t ( 6 C o mp ar t m en t B o x ) 2 7 6 42 4 5 0 Asso r te d Wa l l P l a te Sc r ew s 1 6 1 .8 4 #

I vor y, Wh i t e , & A l mo n d : 50 - 5 / 1 6 ” , 5 0 - 1 / 2 ” , 30 - 3 / 4 ” , 20 - 1 ”

Wo o d R o c k et K i t 1 5 0 55 3 3 5 Asso r te d Wo o d Ro cke ts 1 6 2 .1 7 #

8 0 -6 x 1 ” , 70 - 6 x 1- 1 /8 ” , 65 - 6 x 1- 1 /4 ” , 4 5 -6 x 1- 5 /8 ” , 40 - 6 x 2 ” , 35 - 6 x 2- 1 /4 ”

C on c rete A n c ho r i ng Sy ste m K i t P C 4 76 1

8 1 5 17 He x He a d S l o t t e d - B l u e F i n i sh 1 6 1 .5 5 # 2 0 - 14 H 11 4 1/ 4 ” x 1- 1 /4 ” 2 0 - 14 H 1 34 1/ 4 ” x 1- 3 /4 ” 2 0 - 14 H 2 14 1/ 4 ” x 2- 1 /4 ”


Anchors &

Kits

Se l f D r il l in g Sc re w K i ts P C 4 81 0

Fe at u re s:

S c re w & Wa s h e r K i t s


1 7 7 05 2 4 0 Asso r te d Se l f Dr i l l in g 1 6 1 .5 0 # He x He a d Sc r ew s : 75 - 8 x 1 / 2 ” , 5 0 -8 x 3 / 4 ” 40 - 8 x 1 ” , 30 - 8 x 1- 1 /4 ” , 2 5 -8 x 1- 1 /2 ” , 20 - 8 x 2 ” , + 1 -MT 8 Ma gn e t ic Dr i ve r

1 7 7 06 2 4 0 Asso r te d Se l f Dr i l l in g 1 6 1 .4 1 # S qu a r e Dr i ve Sc r ew s : 75 - 8 x 1 / 2 ” , 5 0 -8 x 3 / 4 ” , 40 - 8 x 1 ” , 30 - 8 x 1- 1 /4 ” , 2 5 - 8 x 1- 1 /2 ” , 20 - 8 x 2 ” , + 1 - I B2 In se r t B i t

1 7 7 07 2 4 0 Asso r te d Se l f Dr i l l in g 1 6 1 .8 4 # P hi l l ip s He a d Sc r ew : 75 - 8 x 1 / 2 ” , 5 0 -8 x 3 / 4 ” , 40 - 8 x 1 ” , 30 - 8 x 1- 1 /4 ” , 2 5 -8 x 1- 1 /2 ” , 20 - 8 x 2 ” , + 1 - I B2 P In se r t B i t

# 1 0

1 7 7 70 2 4 0 Asso r te d Se l f Dr i l l in g 1 6 1 .8 5 # He x He a d Sc r ew s : 75 - 1 0 x 1 / 2 ” , 5 0 -1 0 x 3 / 4 ” , 40 - 1 0 x 1 ” , 3 0 -1 0 x 1- 1 /4 ” , 25 - 1 0 x 1- 1 /2 ” , 2 0 -1 0 x 2 ” , +1 - MT1 0 Ma gn e t ic Dr i ve r

1 7 7 01 2 4 0 Asso r te d Se l f Dr i l l in g 1 6 1 .8 5 # S qu a r e Dr i ve Sc r ew s : 75 - 10 x 1 / 2 ” , 5 0 -1 0 x 3 / 4 ” , 40 - 1 0 x 1 ” , 3 0 -1 0 x 1- 1 /4 ” , 25 - 1 0 x 1- 1 /2 ” , 2 0 -1 0 x 2 ” , +1 - IB 2 In se r t B i t

1 7 7 02 2 4 0 Asso r te d Se l f Dr i l l in g 1 6 1 .8 4 # P hi l l ip s He a d Sc r ew s : 75 - 10 x 1 / 2 ” , 5 0 -1 0 x 3 / 4 ” , 40 - 1 0 x 1 ” , 3 0 -1 0 x 1- 1 /4 ” , 25 - 1 0 x 1- 1 /2 ” , 2 0 -1 0 x 2 ” , +1 - IB 2 P In se r t B i t

# 8 an d # 1 0 1 7 7 10 2 9 5 Asso r te d Se l f Dr i l l in g 1 6 1 .9 2 #

He x He a d Sc r ew s : 75 - 8 x 1 / 2 ” , 5 0 -8 x 3 / 4 ” , 40 - 8 x 1 ” , 50 - 1 0 x 1 / 2 ” , 5 0 -1 0 x 3 / 4 ” , 30 - 1 0 x 1 ” , + 1 Ea ch ; MT8 & MT1 0 Ma g n e t i c Dr i ve rs

1 7 7 11 3 3 0 Asso r te d Se l f Dr i l l in g 1 6 1 .9 0 # S qu a r e Dr i ve Sc r ew s : 75 - 8 x 1 / 2 ” , 5 0 -8 x 3 / 4 ” , 40 - 8 x 1 ” , 75 - 1 0 x 1 / 2 ” , 5 0 -1 0 x 3 / 4 ” , 40 - 1 0 x 1 ” , + 1 - I B2 In se r t B i t

1 7 7 12 3 3 0 Asso r te d Se l f Dr i l l in g 1 6 1 .8 6 # P hi l l ip s He a d Sc r ew s : 75 - 8 x 1 / 2 ” , 5 0 -8 x 3 / 4 ” , 40 - 8 x 1 ” , 75 - 1 0 x 1 / 2 ” , 5 0 -1 0 x 3 / 4 ” , 40 - 1 0 x 1 ” , + 1 - I B2 P In se r t B i t

Wa s he r K i ts P C 4 76 0

1 5 0 50 F la t Wa sh e r K i t (2 po u n d s ) 1 6 2 .0 0 # # 8 12 0 pcs , #1 0 12 0 pcs , 1 / 4 ” 60 pcs , 5 /1 6 ” 30 pcs , 3 / 8 ” 85 pcs , 1 / 2 ” 6 pcs

# 8

F l at Wa s h er K i t

1 5 5 39 1 2 0 Asso r te d Z i n c P l a te d 1 6 2 .5 4 # F e nd e r Wa sh e rs ; 3 S i ze s : 3 /1 6 x 1- 1 /4 ” , 1 / 4 x 1- 1 /4 ” , 3 /8 x 1- 1 /4 ” 40 Ea ch S i ze

F e n de r Wa s h er K i t

3 1 0 05 4 1 5 Asso r te d Z i n c P l a te d Lo ck 1 6 1 .3 8 # Wash e r s ; 6 S i ze s : #8 , #1 0 , 1 / 4 ” , 5 /1 6 ” , 3 / 8 ” , 1 / 2 ” ; 10 0 - #8 , 10 0 - #1 0 , 1 0 0 -1 /4 ” , 50 - 5 /1 6 ” , 40 - 3 /8 ” , 25 - 1 /2 ”

L o c k Wa s h er K i t

FITT

INGS

& S

TAM

PING

S

Fittings & Stampings SECTION C

Fittings & S

tam

pings


Fittings & Stampings SECTION

C

C 1

Fitt

ings

& S

tam

ping

s

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

S t a p l e s

St a p l es P C 5 0 2 0 , 5 0 2 5

CAT. NO. UP C CA BL E SI ZE S IZ E (W X L) GA UGE MS TR

1 /2 ” - 2 C o n duc t o r ( # 1 2 & # 1 4 ) R o m ex ® an d o t h er t yp e NM C ab l e - PC 50 2 0

S ta p l e s ar e use d to at t a ch NMC (n o n me ta l l i c cab l e ) or BX (a rmo r e d) cab l e to wo o d en s t ud s . T h e RX Se r i e s is use d fo r Ro me x ® an d th e BX Se r i e s is use d fo r Ro me x ® an d B X. T h e SE U s ta p l e is use d fo r ser v i ce en t ra n ce cab l e an d is ava i l a b le in 10 0 pa ck . Fo r e l ec t ro ga l va n i zed spe c i f y G ( i .e . ; RX G5 0 , BX G or SE U6 3 G) . P l a s t i c In su l a te d s ta p l e s ar e u se d fo r coa x i a l cab l e , be l l w i re , th e rmo s t a t w i re , te l e p ho n e w i re an d Ro me x ® .

Fe at u re s: 3 0 7 10 1 4 -2 , 12 - 2 1 /2 x 1 ” 1 2 GA 1 0 0 5 0 0 0 0 .5 7 #

RX 5 0 5 3 0 7 15 1 4 -2 , 12 - 2 1 /2 x 1 ” 1 2 GA 5 0 0 5 0 0 0 2 .7 5 # RX 5 0 B 3 0 7 20 1 4 -2 , 12 - 2 1 /2 x 1 ” 1 2 GA 5 0 0 0 2 8 .1 2 # RX 5 0 3 P 3 0 7 25 1 4 -2 , 12 - 2 1 /2 x 1 ” 1 2 GA 1 0 0 00 5 6 .6 0 #

S TD W T/ S TD

(P a i l )

9 /1 6 ” - 3 C o n duc t o r ( # 1 0 , # 1 2 & # 1 4 ) R o m ex ® , B X , MC an d o t h er C ab l e - PC 50 2 0

(P a i l )

2 7 0 10 1 4 -3 , 12 - 3 , 10 - 3 9 /1 6 x 1- 3 /1 6 ” 1 2 GA 1 0 0 5 0 0 0 0 .6 9 # 2 7 0 15 1 4 -3 , 12 - 3 , 10 - 3 9 /1 6 x 1- 3 /1 6 ” 1 2 GA 5 0 0 5 0 0 0 3 .3 8 # 2 7 0 20 1 4 -3 , 12 - 3 , 10 - 3 9 /1 6 x 1- 3 /1 6 ” 1 2 GA 5 0 0 0 3 4 .5 0 #

BX 3 P 2 7 0 25 1 4 -3 , 12 - 3 , 10 - 3 9 /1 6 x 1- 3 /1 6 ” 1 2 GA 7 5 0 0 5 1 .6 4 #

S E U - PC 50 2 5

S EU 63 2 7 1 30 6 /3 SE U Ca b le 1 3 /1 6 x 1- 3 /8 ” 1 2 GA 1 0 0 1 0 0 0 1 .0 9 # S EU 43 2 7 1 35 4 /3 & 2/ 3 SE U Ca b le 1 -1 / 8 x 1- 1 /2 ” 1 2 GA 1 0 0 1 0 0 0 1 .3 0 #

St a p l es - E l ec tro Ga l v a n iz ed P C 50 22 , 50 24

CAT. NO. UP C CA BL E SI ZE S IZ E (W X L) GA UGE MS TR

1 /2 ” - 2 C o n duc t o r ( # 1 2 & # 1 4 ) R o m ex ® an d o t h er t yp e NM C ab l e - PC 50 2 2

S TD W T/ S TD

(P a i l )

9 /1 6 ” - 3 C o n duc t o r ( # 1 0 , # 1 2 & # 1 4 ) R o m ex ® , B X , MC an d o t h er C ab l e - PC 50 2 2

(P a i l )

S E U - PC 50 2 4

S EU 63 G 2 7 1 31 6 /3 SE U Ca b le 1 3 /1 6 x 1- 3 /8 ” 1 2 GA 1 0 0 1 0 0 0 1 .0 9 # S EU 43 G 2 7 1 36 4 /3 & 2/ 3 SE U Ca b le 1 -1 / 8 x 1- 1 /2 ” 1 2 GA 1 0 0 1 0 0 0 1 .3 2 #

1 0 5 30 1 4 -2 , 12 - 2 1 /2 x 1 ” 1 2 GA 1 0 0 5 0 0 0 0 .6 0 # RX G5 0 5 1 0 5 31 1 4 -2 , 12 - 2 1 /2 x 1 ” 1 2 GA 5 0 0 5 0 0 0 2 .8 5 # RX G5 0 3 P 1 0 5 32 1 4 -2 , 12 - 2 1 /2 x 1 ” 1 2 GA 1 0 0 00 5 9 .5 0 #

1 0 5 33 1 4 -3 , 12 - 3 , 10 - 3 9 /1 6 x 1- 3 /1 6 ” 1 2 GA 1 0 0 5 0 0 0 0 .7 0 # 1 0 5 34 1 4 -3 , 12 - 3 , 10 - 3 9 /1 6 x 1- 3 /1 6 ” 1 2 GA 5 0 0 5 0 0 0 3 .5 0 #

BX G3 P 1 0 5 35 1 4 -3 , 12 - 3 , 10 - 3 9 /1 6 x 1- 3 /1 6 ” 1 2 GA 7 5 0 0 5 2 .5 0 #

St a p l es & St r ap s - P l a s t i c I ns u l ate d P C 5 0 2 6

CAT. NO. UP C CA BL E SI ZES IZ E

(W X L)CO LO R MS TR

1 /2 ” - 2 C o n duc t o r ( # 1 2 & # 1 4 ) R o m ex ® an d o t h er t yp e NM C ab l e

S TD W T/ S TD

(P a i l )

2 7 1 40 1 4 -2 , 12 - 2 1 /2 ” W h i t e 1 0 0 1 0 0 0 0 .5 7 # P LX 5 0 5 2 7 1 42 1 4 -2 , 12 - 2 1 /2 ” W h i t e 5 0 0 5 0 0 0 2 .4 4 # P LX 5 0 P 2 7 1 44 1 4 -2 , 12 - 2 1 /2 ” W h i t e 4 0 0 0 2 2 .8 0 #

9 /1 6 ” - 3 C o n duc t o r ( # 1 0 , # 1 2 & # 1 4 ) R o m ex ® , B X , MC an d o t h er C ab l e

(P a i l )

2 7 1 46 1 4 -3 , 12 - 3 , 10 - 3 3 /4 ” W h i t e 1 0 0 1 0 0 0 0 .6 2 # P LX 7 5 5 2 7 1 48 1 4 -3 , 12 - 3 , 10 - 3 3 /4 ” W h i t e 5 0 0 5 0 0 0 2 .5 3 # P LX 7 5 P 2 7 1 50 1 4 -3 , 12 - 3 , 10 - 3 3 /4 ” W h i t e 3 0 0 0 1 5 .6 0 #

C o - A x ial S t r a ps ( Us e wit h C o - Ax i al R G - 6 & R G - 5 9 U )

1 0 5 23 Tu f f 1 /4 ” W h i t e 5 0 0 3 0 0 0 1 .1 6 # 1 0 5 39 P ack 1 /4 ” B la ck ( UV ) 5 0 0 3 0 0 0 1 .1 6 #

B e l l , T e l ep h o n e & T h er mo s t at Wir e S t r a ps

1 0 5 40 Tu f f 1 /4 x 1 / 8 ” W h i t e 5 0 0 3 0 0 0 1 .0 8 # 1 0 5 41 P ack 1 /4 x 1 / 8 ” B la ck ( UV ) 5 0 0 3 0 0 0 1 .0 8 #

C 2 CE L EB R AT I N G 5 0 YE A R S

Fittings &

Stampings

S A FE T Y P L AT E S , P L AT E S T R A P S & N A I L S T R A P S

Sa f et y P l ate s P C 5 0 5 0 , 5 0 6 0

CAT. NO. UP C S IZ E (W X L) GA UGE MS TR

P C 50 5 0

S te e l saf e t y p l a t e s ar e af f i x e d to th e fa ce of 2 ” x 4 ” me mb er s to p ro t e c t u t i l i t y p i p e s an d to pr e ve nt na i l s f r om pe n e t ra t in g in t o h i dd e n l i ve w i re s (NM C cab l e ) wh i ch ma y be ru n n in g th ro u g h no t ch e s o r th ro u g h dr i l l e d ho l e s in th e s tu d .

Fe at u re s:

S TD W T/ S TD

1 4 1 00 1 -1 / 2 x 2- 3 /4 ” 1 6 1 0 0 1 0 0 0 7 .0 0 # 1 4 1 05 1 -1 / 2 x 2- 3 /4 ” 1 6 5 0 0 3 5 .0 0 # 1 4 11 6 1 -1 / 2 x 2- 3 /4 ” 1 6 5 0 0 3 5 .0 0 #(P a i l )

P C 50 6 0

1 4 11 0 1 -3 / 4 x 5 ” 1 6 1 0 0 1 6 .0 0 # 1 4 11 5 1 -3 / 4 x 5 ” 2 0 1 0 0 1 0 .0 0 #

1 4 1 20 3 x 5 ” 1 6 1 0 0 2 6 .8 0 #

P l ate St r ap s P C 5 15 0

CAT. NO. UP C S IZ E (W X L)

1 2 G au g e

P la t e s t r ap s ar e na i l e d ac r o ss s tu d s to re s t r a i n p i p e be t we e n s tu d s ; i n s ta l l ed ove r u t i l i t y p i p e s & e l e c t r i ca l w i re th a t pa ss th ro u g h f r am in g me mb e rs to pr e ve nt p i e rc i n g .

Fe at u re s:

S TD W T /S TD

Dot t i e gu aran tees th ese p l a t es to be 16 ga ( .0538 to .0 658) as r equ i r ed by s ome c odes . Do t t i e mak es no wa rr an ty th a t th ese p l a te s c anno t be p i e r c ed by pow der ac tua ted / gas pow ered na i l gu ns.

6 0 0 10 1 -1 / 2 x 9 ” 5 0 1 6 .6 6 # 6 0 0 12 1 -1 / 2 x 12 ” 5 0 2 3 .5 0 # 6 0 0 14 1 -1 / 2 x 18 ” 5 0 3 6 .0 0 # 6 0 0 16 1 -1 / 2 x 24 ” 5 0 4 1 .2 0 #

1 6 G au g e

6 0 0 18 1 -1 / 2 x 9 ” 5 0 9 .1 4 # 6 0 0 20 1 -1 / 2 x 12 ” 5 0 1 5 .4 0 # 6 0 0 22 1 -1 / 2 x 18 ” 5 0 1 9 .5 8 # 6 0 0 24 1 -1 / 2 x 24 ” 5 0 2 8 .5 0 #

N ai l St r ap s P C 5 0 7 0

Na i l S t ra p s ar e a s ta mp e d s te e l s t r ap (J ho o k ) wh i ch is na i l e d in t o s t ud s to sup p o r t tu b i n g, p i p e or E . M .T. Ava i l a b l e in z in c , an d in z in c p l a t e d w i th p l a s t ic coa t i n g.

CAT. NO .

UP C S IZ E DE S CRI P TI ON MS TR

Z in c Pl at e d

S TD W T /S TD

(P a i l ) 2 7 6 55 1 /2 ” P ip e 1 0 0 1 0 0 0 1 .9 4 #

2 7 6 58 1 /2 ” P ip e 2 0 0 0 3 9 .9 0 # 2 7 6 60 3 /4 ” P ip e 1 0 0 1 0 0 0 2 .3 2 #

D3 2 7 6 65 1 ” P ip e 1 0 0 1 0 0 0 2 .6 3 # 2 7 6 70 1 /2 ” E .M . T. 1 0 0 1 0 0 0 1 .5 3 # 2 7 6 75 3 /4 ” E .M . T. 1 0 0 1 0 0 0 1 .9 9 # 2 7 6 80 1 ” E .M . T. 1 0 0 1 0 0 0 2 .3 0 #

P l a st ic C oate d N a il St r ap s P C 5 0 9 0

CAT. NO .

UP C S IZ E DE S CRI P TI ON MS TR

Z in c Pl at e d w/ Pl a s t ic C o at in g

S TD W T/ S TD

2 7 11 0 1 ” S ER /S EU Ca b le 5 0 5 0 0 1 .3 0 # 2 7 11 2 1 -1 / 4 ” S ER /S EU Ca b le 5 0 5 0 0 1 .5 5 #

Fe at u re s:

MS TR

C 3F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fitt

ings

& S

tam

ping

sCAT. NO. UP C S IZ E MS TRS TD W T/ S TD

P l u m b e r’s Ta p e , H o o k o n C l i p s & S t r a p s a n d W ire H a n g e r

P l a st ic C oat ed W i re H a nge r P C 5 1 0 0

P la s t i c C oa t e d W i re Ha n g er s a r e u se d t o secu r e p i p e o r t ub i n g t ra n sve rs i n g w oo d b ea ms .

Fe at u re s:

P l as t i c C o at e d

P C 5 11 0 , 5 12 0

Ho o k o n S t r a ps & C l i p s ar e u se d t o secu r e p i p e o r t ub i n g r u n ni n g p a ra l le l w i th s tu d s . T he h o ok o n s t ra p s a re na i l e d a c ro ss tw o s t u d s . T h e h o o k o n c l i p s w i th in su l a to r sn a p i n t o h o l es i n t h e s t ra p an d t ub i n g o r p i p e i s th e n se cu r ed p e rp e n di cu l a r to th e s t r a p.

CAT. NO. UP C S IZ E MS TR

1 2 G a ug e Wir e C l i p - P C 5 1 10

Fe at u re s:S TD W T/ S TD

1 4 G a ug e S t r a ps - PC 5 1 20

2 7 2 20 1 /2 ” P i p e 1 0 0 1 0 0 0 1 .6 6 # 2 7 2 25 3 /4 ” P i p e 1 0 0 1 0 0 0 1 .7 5 #

2 7 2 30 1 8 ” L en g t h 1 0 0 2 1 .0 8 # 2 7 2 35 2 6 ” L en g t h 1 0 0 3 0 .5 8 #

P l u m b er’s Ta p e P C 5 13 0 , 5 14 0

P lu mb e r ’s Ta p e i s 3 / 4 ” w i d e a n d i s p er fo r a te d w i th a l t e rn a t in g s ize h o le s t o a cco mmo d a te na i l s o r b o l ts . I t i s u sed to s t ra p o r su p p o r t p i pe , du c t s & o th e r fa s t e n in g a pp l i ca t i o n s . Co p p e r s t r a p a l so u se d f o r g ro u n d in g .

Fe at u re s:CAT. NO. UP C GA UGE MS TR

G a l van i ze d S t e e l - P C 5 1 30

S TD W T/ S TD

3 0 9 45 3 /4 x 10 ’ 2 8 1 0 0 3 5 .1 6 # 3 0 9 40 3 /4 x 10 ’ 2 6 1 0 0 4 6 .2 4 # 3 0 9 35 3 /4 x 10 ’ 2 2 5 0 3 7 .6 4 #

S o l i d C o pp e r - PC 5 1 40

2 7 5 50 3 /4 x 10 ’ 2 3 1 1 0 0 .5 8 # 2 7 5 55 3 /4 x 25 ’ 2 3 1 6 1 .4 8 #

CU 5 0 2 7 5 60 3 /4 x 50 ’ 2 3 1 6 2 .9 7 #

P C3 4 6 2 7 2 14 3 /4 x 6 ” 1 0 0 5 0 0 6 .3 0 #

Fittings &

Stampings

“ B U I L D I N G A B ET T E R B R A N D ”C 4

O n e H o le S t r a p s & T w o H o le S t r a p s

On e H ol e St r ap s P C 5 16 0

CAT. NO. UP C S IZ E GA UGE MS TR

C o a xi al

On e Ho l e S t ra p s ar e use d to secu r e cab l e s , tu b i n g, p i p e or E . M .T. to a su r f a ce .

Fe at u re s:

S TD W T/ S TD

Ac co mmodate s 12 -2 , 12- 3 , 10 -2 , 10 -3 BX

2 7 7 45 1 /4 ” 1 8 GA 1 0 0 1 0 0 0 0 .5 7 #

B X

2 7 7 50 3 /8 ” 1 8 GA 1 0 0 1 0 0 0 1 .1 5 #

E .M .T.

T W5 0 2 7 7 00 1 /2 ” 1 8 GA 1 0 0 1 0 0 0 2 .2 2 # T W7 5 2 7 7 05 3 /4 ” 1 8 GA 1 0 0 1 0 0 0 3 .1 2 #

2 7 7 10 1 ” 1 8 GA 1 0 0 1 0 0 0 3 .4 5 # 2 7 7 15 1 -1 / 4 ” 1 5 GA 1 0 0 1 0 0 0 5 .4 9 # 2 7 7 20 1 -1 / 2 ” 1 5 GA 5 0 5 0 0 3 .8 6 # 2 7 7 25 2 ” 1 3 GA 5 0 5 0 0 7 .1 0 #

E .M .T. / P i pe

2 7 7 26 2 -1 / 2 ” 9 GA 2 5 1 0 0 1 0 .1 3 # T W3 0 0 2 7 7 27 3 ” 9 GA 2 5 1 0 0 1 3 .3 8 # T W3 5 0 2 7 7 28 3 -1 / 2 ” 7 GA 2 5 1 0 0 1 6 .6 1 # T W4 0 0 2 7 7 29 4 ” 7 GA 2 5 1 0 0 1 9 .0 2 #

E .M .T. Me d i um We ig h t

MT W 50 2 7 7 30 1 /2 ” 1 4 GA 1 0 0 1 0 0 0 3 .6 2 # MT W 75 2 7 7 35 3 /4 ” 1 4 GA 1 0 0 1 0 0 0 4 .1 7 #

2 7 7 40 1 ” 1 4 GA 1 0 0 5 0 0 5 .4 5 #

P ip e

2 7 8 00 1 /2 ” 1 8 GA 1 0 0 1 0 0 0 2 .5 3 # 2 7 8 05 3 /4 ” 1 8 GA 1 0 0 1 0 0 0 3 .1 9 #

2 7 8 10 1 ” 1 4 GA 1 0 0 1 0 0 0 6 .6 6 # 2 7 8 15 1 -1 / 4 ” 1 3 GA 5 0 5 0 0 5 .4 9 # 2 7 8 20 1 -1 / 2 ” 11 GA 5 0 5 0 0 8 .3 6 # 2 7 8 25 2 ” 11 GA 5 0 5 0 0 1 0 .6 6 #

P ip e Me d i um We ig h t

2 7 8 30 1 /2 ” 1 4 GA 1 0 0 1 0 0 0 3 .8 2 # 2 7 8 35 3 /4 ” 1 4 GA 1 0 0 1 0 0 0 5 .0 0 #

2 7 8 40 1 ” 1 4 GA 1 0 0 1 0 0 0 6 .7 1 #

Tw o H ol e St r ap s P C 5 20 0

CAT. NO. UP C S IZ E GA UGE MS TR

E .M .T.

Two ho l e s t r ap s ar e use d to secu r e cab l e s , tu b i n g, p i p e or E . M .T. to a su r f a ce .

Fe at u re s:

S TD W T/ S TD

2 7 3 00 1 /2 ” 2 2 GA 2 5 0 1 0 0 0 4 .1 3 # 2 7 3 05 3 /4 ” 2 2 GA 2 5 0 1 0 0 0 4 .6 7 #

T W3 0 3 2 7 3 10 1 ” 2 2 GA 2 5 0 1 0 0 0 8 .2 4 # T W3 0 4 2 7 3 15 1 -1 / 4 ” 2 0 GA 1 0 0 5 0 0 4 .4 5 # T W3 0 5 2 7 3 20 1 -1 / 2 ” 2 0 GA 1 0 0 5 0 0 4 .8 3 # T W3 0 6 2 7 3 25 2 ” 2 0 GA 5 0 2 5 0 3 .11 #

P ip e

2 7 9 00 3 /8 ” 2 2 GA 2 5 0 1 0 0 0 4 .6 4 # 2 7 9 05 1 /2 ” 2 2 GA 2 5 0 1 0 0 0 4 .7 0 # 2 7 9 10 3 /4 ” 2 2 GA 2 5 0 1 0 0 0 5 .3 3 # 2 7 9 15 1 ” 2 0 GA 1 0 0 1 0 0 0 3 .8 2 # 2 7 9 20 1 -1 / 4 ” 2 0 GA 1 0 0 5 0 0 4 .7 4 # 2 7 9 25 1 -1 / 2 ” 2 0 GA 1 0 0 5 0 0 5 .3 0 # 2 7 9 30 2 ” 1 8 GA 5 0 5 0 0 4 .3 2 # 2 7 9 35 2 -1 / 2 ” 1 5 GA 2 5 2 5 0 4 .9 6 # 2 7 9 40 3 ” 1 5 GA 2 5 2 5 0 5 .6 4 # 2 7 9 45 3 -1 / 2 ” 1 5 GA 1 0 5 0 3 .4 4 # 2 7 9 50 4 ” 1 5 GA 1 0 5 0 3 .7 2 #

C 5

Fitt

ings

& S

tam

ping

s

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

C on d u it H an ge rs W it h B olts P C 52 2 0

Co n d u i t h a ng e r s a re u se d f o r sup p o r t i n g co n d u i t or P V C f r o m o ve rh e a d a p p l i ca t io n s .

CAT. NO. UP C BO LT S IZ E

Fe at u re s:

S TD W T/ S TD

C o n d u it H a n g e r s

P IP E E .M. T. GA UGE

2 8 3 20 3 /8 -1 / 2 ” 1 /2 ” 1 8 G A 1 /4 - 2 0 x 1 ” 1 0 0 4 .3 3 # 2 8 3 22 3 /4 ” 3 /4 ” 1 8 G A 1 /4 - 2 0 x 1 -1 /4 ” 1 0 0 6 .1 2 #

2 8 3 24 1 ” 1 ” 1 8 G A 1 /4 - 2 0 x 1 -1 /4 ” 1 0 0 6 .7 1 #

2 8 3 26 – 1 -1 / 4 ” 1 8 G A 1 /4 - 2 0 x 1 -1 /4 ” 1 0 0 1 .9 1 # 2 8 3 28 1 -1 / 4 ” 1 -1 / 2 ” 1 8 G A 1 /4 - 2 0 x 1 -1 /2 ” 1 0 0 9 .1 8 #

2 8 3 30 1 -1 / 2 ” – 1 6 G A 1 /4 - 2 0 x 1 -1 /2 ” 1 0 0 1 3 .8 8 # 2 8 3 32 2 ” 2 ” 1 6 G A 1 /4 - 2 0 x 1 -1 /2 ” 5 0 11 . 3 9 # 2 8 3 34 2 -1 / 2 ” 2 -1 / 2 ” 1 6 G A 1 /4 - 2 0 x 1 -1 /2 ” 5 0 1 2 .0 7 #

2 8 3 36 3 ” 3 ” 1 6 G A 1 /4 - 2 0 x 1 -1 /2 ” 2 5 7 .4 5 # 2 8 3 37 3 -1 / 2 ” – 1 6 G A 1 /4 - 2 0 x 2 ” 2 5 8 .9 5 # 2 8 3 38 4 ” – 1 6 G A 1 /4 - 2 0 x 2 ” 2 5 9 .8 0 #

C on d u it H an ge rs - St a i n l ess St eel w i th St a i n l ess St eel Bo lt P C 5 2 21

Co n d u i t h a ng e r s a re u se d f o r sup p o r t i n g co n d u i t or P V C f r o m o ve rh e a d a p p l i ca t io n s . S ta i n l ess S te e l d r am at i ca l l y imp r o ve s co r r o s io n re s i s ta n ce .

CAT. NO. UP C BO LT S IZ E MS TR

Fe at u re s:

S TD W T/ S TDP IP E E .M. T. GA UGE

8 1 4 97 3 /8 -1 / 2 ” 1 /2 ” 1 8 G A 1 /4 - 2 0 x 1 ” 1 0 1 0 0 0 .4 3 # 8 1 4 98 3 /4 ” 3 /4 ” 1 8 G A 1 /4 - 2 0 x 1 -1 /4 ” 5 5 0 0 .3 6 #

8 1 4 99 1 ” 1 ” 1 8 G A 1 /4 - 2 0 x 1 -1 /4 ” 5 5 0 0 .3 3 #

8 1 5 00 – 1 -1 / 4 ” 1 8 G A 1 /4 - 2 0 x 1 -1 /4 ” 2 2 0 0 .3 8 # 8 1 5 01 1 -1 / 4 ” 1 -1 / 2 ” 1 8 G A 1 /4 - 2 0 x 1 -1 /2 ” 2 2 0 0 .4 8 #

8 1 5 02 1 -1 / 2 ” – 1 6 G A 1 /4 - 2 0 x 1 -1 /2 ” 2 2 0 0 .2 7 # 8 1 5 03 2 ” 2 ” 1 6 G A 1 /4 - 2 0 x 1 -1 /2 ” 2 2 0 0 .4 5 # 8 1 5 04 2 -1 / 2 ” 2 -1 / 2 ” 1 6 G A 1 /4 - 2 0 x 1 -1 /2 ” 2 2 0 0 .4 8 #

8 1 5 05 3 ” 3 ” 1 6 G A 1 /4 - 2 0 x 1 -1 /2 ” 2 2 0 0 .5 9 # 8 1 5 06 3 -1 / 2 ” – 1 6 G A 1 /4 - 2 0 x 2 ” 2 2 0 0 .7 2 # 8 1 5 07 4 ” – 1 6 G A 1 /4 - 2 0 x 2 ” 2 2 0 0 .7 8 #

T e c hPla t ing is the mos t w ide ly used p la t ing . Z inc i s

popu la r as a fas tener coa t i ng because i t i s t he l eas t expensi ve and can be app l ied to a b r oad range of th icknesses. I t has good t o excel lent cor rosi on r es is tance and is re la t i ve ly non t ox ic .

STAINLESS STEEL I s a f ami ly of fe r r ous a l loys, each w i th a min imum chromium cont en t o f 12 per cen t . Chr om ium is a non- co r r od ib le e lement ; consequent ly, a l l s t a i n l ess st eels have a h igh degr ee o f cor rosi on r es is tance . Genera l l y, the h igher the ch romium con tent , t he bet te r t he co r r os ion res ist ance.

Ta lk

MS TR

C 6 CE L EB R AT I N G 5 0 YE A R S

Fittings &

Stampings

S t r u t C l a m p s , C h a nn e l N u t s & U - B o lt B e a m C l a m p s

St ru t C l a m p s P C 5 3 9 1

On e to o l is a l l you ne e d w i th ou r Un i ver sa l S t ru t C l a mp s th a n ks to th e we l de d s tu d th a t a l lo w s fo r a qu i ck an d ea sy in s t a l l a t io n . In c l u d es kep s nu t , an d th e c la mp s com e a sse mb le d to ma ke sur e you ne ve r lo se an y pa r ts . E l e c t r o g al va n i zed is th e s ta n d a rd f in i sh .

E .M . T. S t ru t C l a mp s com e asse mb l e d w i th a kep s nu t an d s lo t te d he x he a d bo l t to ma ke su re you ne ve r lo se a pa r t . E l e c t r o g al va n i zed is th e s ta n d a rd f i n i sh.

R i g i d S t ru t C l a mp s com e asse mb l e d w i th a kep s nu t an d s lo t te d he x he a d bo l t to ma ke su re you ne ve r lo se a pa r t . E l e c t r o g al va n i zed is th e s ta n d a rd f i n i sh. A l so ava i l a b le ar e S ta i n le ss S t e e l R i d ge St ru t C l a mp s Typ e 30 4 or 31 6 , qu o t e d up o n re q u es t .

C H AN N EL N U TS & U - B OLT B EA M C L A M P S P C 5 3 9 2

Ch a n n e l Nu ts ar e fo rm ed or s ta mp e d f r om s te e l ba r s to ck an d ar e case ha r d en e d af t e r a l l f or m i n g an d ta p i n g op e r at i o n s ha ve be e n com pl e t ed . T h e nu t s ar e th e n coa t e d w i th z in c f or an e l e c t ro g a lva n i ze f i n i sh. S i ze s ar e a l so ava i l a b le in typ e 31 6 s ta i n le ss s te e l , qu o t e d u p o n re q u es t .

U- Bo l t Be a m c la mp s ar e ma de f r om col d fo rm ed s te e l an d con f o rm to a l l to l e ra n ce s l i s t e d i n sec t i o n 5. 3 of th e me ta l f r am in g s ta n d a rd s pu b l i ca t i o n .

CAT. NO. UP C S IZ E MS TRS TD W T /S TDDE S CRI P TI ON

S C5 0 U 8 1 7 07 1 /2 ” Un i ve rsa l S t ru t C l a mp s 5 0 5 .5 # S C7 5 U 8 1 7 08 3 /4 ” Un i ve rsa l S t ru t C l a mp s 5 0 6 .0 # S C1 0 0 U 8 1 7 09 1 ” Un i ve rsa l S t ru t C l a mp s 5 0 7 .5 # S C1 2 5 U 8 1 7 10 1 -1 / 4 ” Un i ve rsa l S t ru t C l a mp s 5 0 9 .0 #S C1 5 0 U 8 1 7 11 1 -1 / 2 ” Un i ve rsa l S t ru t C l a mp s 5 0 1 0 .0 # S C2 0 0 U 8 1 7 12 2 ” Un i ve rsa l S t ru t C l a mp s 5 0 11 . 0 #


S C5 0 E 8 1 7 13 1 /2 ” E .M . T. S t ru t C l a mp s 1 0 0 11 . 0 # S C7 5 E 8 1 7 14 3 /4 ” E .M . T. S t ru t C l a mp s 1 0 0 1 2 .0 # S C1 0 0 E 8 1 7 15 1 ” E .M . T. S t ru t C l a mp s 1 0 0 1 5 .0 # S C1 2 5 E 8 1 7 16 1 -1 / 4 ” E .M . T. S t ru t C l a mp s 5 0 7 .5 #S C1 5 0 E 8 1 7 17 1 -1 / 2 ” E .M . T. S t ru t C l a mp s 5 0 1 4 .5 # S C2 0 0 E 8 1 7 18 2 ” E .M . T. S t ru t C l a mp s 5 0 1 6 .5 #


S C5 0 R 8 1 7 19 1 /2 ” R i g i d S t ru t C l a mp s 1 0 0 11 . 0 # S C7 5 R 8 1 7 20 3 /4 ” R i g i d S t ru t C l a mp s 1 0 0 1 5 .0 # S C1 0 0 R 8 1 7 21 1 ” R i g i d S t ru t C l a mp s 1 0 0 1 7 .0 # S C1 2 5 R 8 1 7 22 1 -1 / 4 ” R i g i d S t ru t C l a mp s 5 0 9 .5 #S C1 5 0 R 8 1 7 23 1 -1 / 2 ” R i g i d S t ru t C l a mp s 5 0 1 4 .5 # S C2 0 0 R 8 1 7 24 2 ” R i g i d S t ru t C l a mp s 5 0 1 7 .0 # S C2 5 0 R 8 1 7 25 2 -1 / 2 ” R i g i d S t ru t C l a mp s 2 5 1 0 .0 # S C3 0 0 R 8 1 7 26 3 ” R i g i d S t ru t C l a mp s 2 5 11 . 8 # S C3 5 0 R 8 1 7 27 3 -1 / 2 ” R i g i d S t ru t C l a mp s 5 0 3 1 .0 # S C4 0 0 R 8 1 7 28 4 ” R i g i d S t ru t C l a mp s 5 0 3 3 .5 # S C5 0 0 R 8 1 7 29 5 ” R i g i d S t ru t C l a mp s 2 5 2 0 .0 # S C6 0 0 R 8 1 7 30 6 ” R i g i d S t ru t C l a mp s 2 5 2 5 .2 #



S SN 25 8 1 7 31 1 /4 ” S ta n d a rd Sp r i n g Nu t 1 0 0 7 .5 # S SN 38 8 1 7 32 3 /8 ” S ta n d a rd Sp r i n g Nu t 1 0 0 1 0 .0 # S SN 50 8 1 7 33 1 /2 ” S ta n d a rd Sp r i n g Nu t 1 0 0 11 . 5 # S SN 25 S 8 1 7 34 1 /4 ” S ho r t Sp r i n g Nu t 1 0 0 7 .5 # S SN 38 S 8 1 7 35 3 /8 ” S ho r t Sp r i n g Nu t 1 0 0 9 .0 # S SN 50 S 8 1 7 36 1 /2 ” S ho r t Sp r i n g Nu t 1 0 0 8 .2 # S CN2 5 8 1 7 37 1 /4 ” Ch a n n e l Nu t Wi t h ou t Sp r i n g 1 0 0 6 .5 # S CN3 8 8 1 7 38 3 /8 ” Ch a n n e l Nu t Wi t h ou t Sp r i n g 1 0 0 9 .0 # S CN5 0 8 1 7 39 1 /2 ” Ch a n n e l Nu t Wi t h ou t Sp r i n g 1 0 0 1 0 .6 #

S UB1 5 8 8 1 7 67 1 -5 / 8 ” x 1- 5 /8 ” U - Bo l t Be a m C l a mp fo r S t ru t 2 5 2 0 .5 # S UB3 2 5 8 1 7 68 1 -5 / 8 ” x 3- 1 /4 ” U - Bo l t Be a m C l a mp fo r S t ru t 2 5 2 3 .0 #

C 7F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fitt

ings

& S

tam

ping

s

Fl at P l at e , A n g le , Z e e & U F i t t i ng s & P o s t B a s e sF l at P l at e F i tt in gs P C 53 9 3

F la t P l a te S t ru t F i t t i n gs a re ma d e f ro m co ld fo r me d s t e e l a n d co n fo r m t o a l l t o l er a n ces l is t e d i n sec t i o n 5 . 3 o f Me t a l F ra m i n g S ta n d a rd s Pu b l ica t i on No . MF MA -1 . S ta n d a rd f i n i sh i s e l e c t r o g al va n i zed . S t a in l e ss s t e e l t yp es 3 0 4 a n d 3 1 6 qu o t e d u p o n r eq u e s t .

A ng l e F i tt in gs P C 53 9 4

A ng l e S t ru t F i t t i ng s a re ma de f ro m col d fo rm ed s t ee l an d co n fo rm t o a l l t o le r an ce s l is t e d i n se c t io n 5 .3 o f Me ta l F r am in g St a n da r d s P u bl i ca t i o n N o . MF MA- 1 . S t a n d a rd f i n ish i s e l ec t ro g a l va n ize d . S ta i n l ess s t e e l typ e s 3 04 a n d 3 1 6 q u o te d u p on re q u e s t .

Ze e F i tt in gs , U F i tt in gs & P o st Ba se s P C 53 9 5

Z e e a n d U -sh a p e d f i t t in g s , P o s t Ba se s a re m ad e f r o m co l d f o rme d s te e l a n d co nf o rm t o a l l t o l e ra n ce s l i s t e d i n se c t io n 5 .3 o f Me ta l Fr a m in g St a n d ar d s P u b l i ca t io n No . MF MA -1 . S ta n d a rd f i n ish i s e l e c t r o ga l va n i zed . S t a in l e ss s t e e l t ype s 3 0 4 a n d 3 1 6 qu o t e d u p o n re q u e s t .

U

Fe at u re s:CAT. NO. UP C S IZ E/ T YP E MS TRS TD W T/ S TDDE S CRI P TI ON

8 1 7 40 5 /1 6 ” S qu a r e Wash e r 1 0 0 1 8 .0 # 8 1 7 41 3 /8 ” S qu a r e Wash e r 1 0 0 1 8 .0 #

S QW 5 0 8 1 7 42 1 /2 ” S qu a r e Wash e r 1 0 0 1 8 .0 # 8 1 7 43 5 /8 ” S qu a r e Wash e r 1 0 0 1 7 .0 #

8 1 7 44 2 H o le F la t P l a te F i t t i n g 5 0 1 9 .0 # 8 1 7 45 3 H o le F la t P l a te F i t t i n g 5 0 2 9 .0 # 8 1 7 46 4 H o le F la t P l a te F i t t i n g 2 5 1 9 .5 #

8 1 7 47 3 H o le F la t L P l a t e F i t t in g 5 0 3 1 .0 # 8 1 7 48 4 H o le F la t T P l a te F i t t i n g 2 5 2 0 .0 # 8 1 7 49 5 H o le Cr o ss P l at e F i t t i n g 1 5 1 4 .2 #

CAT. NO. UP C T YP E MS TRS TD W T/ S TDDE S CRI P TI ON

CAT. NO. UP CS IZ E/T YP E

MS TRS TD W T/ S TDDE S CRI P TI ON

Z ee F i t t in g s an d U F i t t i ng s

8 1 7 58 - Z e e F i t t in g De e p S t r u t 5 0 2 7 .5 # 8 1 7 59 - Z e e F i t t in g Sh a l lo w S t ru t 5 0 2 3 .5 # 8 1 7 60 - U F i t t in g De e p S t r u t 1 5 1 3 .2 # 8 1 7 61 - U F i t t in g Sh a l lo w S t ru t 2 5 1 7 .7 #

P o s t B as es

8 1 7 62 8 H o le S in g l e C h an n e l Ta l l C l e v is 1 0 2 8 .7 # 8 1 7 63 1 0 H o le S in g l e C h an n e l Ta l l C l e v is 1 0 3 7 .2 # 8 1 7 64 1 0 H o le S in g l e C h an n e l Ta l l C l e v is S qu a r e 1 0 3 7 .2 # 8 1 7 65 1 2 H o le Do u b l e C ha n n e l Ta l l C l e v is 1 0 4 0 .0 # 8 1 7 66 1 2 H o le Do u b l e C ha n n e l Ta l l C l e v is Sq u a r e 1 0 4 0 .0 #

Fittings &

Stampings

“ B U I L D I N G A B ET T E R B R A N D ”C 8

St a nd a rd - Roo f J ac k s P C 5 23 0

CAT. NO. UP C P IP E SI ZE

Ro o f Jacks ar e ap p l i e d to th e ro o f to fo rm a wa te r - t i gh t sea l . T h ey ad d a d d i t i o na l sup p o r t be t we e n th e ro o f l i n e an d ser v i ce en t ra n ce con d u i t o r ven t i la t i on p i p e .

S TD W T/ S TD

RJ 5 0 6 9 6 00 1 /2 ” 11 ” x 13 ” 1 2 2 4 .0 8 # RJ 7 5 6 9 6 05 3 /4 ” 11 ” x 13 ” 1 2 2 3 .9 2 #

6 9 6 10 1 ” 11 ” x 13 ” 1 2 2 3 .0 6 # 6 9 6 15 1 -1 / 4 ” 11 ” x 13 ” 1 2 2 3 .1 3 # 6 9 6 20 1 -1 / 2 ” 11 ” x 13 ” 1 2 2 2 .8 7 # 6 9 6 25 2 ” 11 ” x 13 ” 1 2 2 1 .8 2 #

RJ 3 0 0 6 9 6 30 3 ” 1 2 -1 / 2 ” x 15 ” 1 2 1 5 .2 2 # RJ 4 0 0 6 9 6 35 4 ” 1 2 -1 / 2 ” x 15 ” 1 2 1 9 .3 9 #

3 i n 1 R oof J ac k s P C 5 25 0

Ro o f Jacks ar e ap p l i e d to th e ro o f to fo rm a wa te r - t i gh t sea l . T h ey ad d a d d i t i o na l sup p o r t be t we e n th e ro o f l i n e an d ser v i ce en t ra n ce con d u i t o r ven t i la t i on p i p e .

Fe at u re s:

Tes ted fo r u l t r av i o l e t , oz one , an d w eather r es is ta nce .

St eel / Ga l v an i zed - T i re W i re P C 5 0 3 0 , 5 0 3 5

Ti e w i re is use d fo r ma ny pu r p ose s , am on g th e m ty i n g do w n PV C co n d ui t in t r en ch e s be f o re po u r in g con c r e te , as we l l as dr o p ce i l i n g a p p l i ca t io n s .

Fe at u re s:

Fe at u re s:

BA SE SI ZE

CAT. NO .

UP C MS TRS TD W T /S TD

RN 3 1 0 3 50 1 /2 ” , 3 / 4 ” , 8 -3 / 4 ” , 12 - 1 /2 ” 1 2 11 . 9 5 # 1 ” *

RN 4 1 0 3 52 1 -1 / 2 ” , 2 ” , 1 0 -3 / 4 ” x 12 - 1 /2 ” 1 2 1 8 .8 2 # 2 -1 / 2 ” , 3 ”

CAT. NO. UP C MS TRS TD W T/ S TD

B l a c k An n ea l ed - PC 5 03 0

2 8 1 70 2 0 7 1 .1 0 #

G a l van i ze d - PC 5 03 5

2 8 1 80 2 0 6 8 .3 5 #

MS TR

P IP E SI ZE BA SE SI ZE

R o o f J a c ks & T i e W i re

T e c h Ta lk

C 9

Fitt

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& S

tam

ping

s

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

B e a m C la m p s , Fl o o r F la n g e s , B o x S u p p o rt s & C o v e r P l at e s

B ea m C l a m p s - S tee l & M al l ea bl e P C 5 2 60 , 5 2 6 5B ea m C l a mp s wh e n se cu re d to a n I -b e a m, g i rd e r o r o th e r s t ru c tu r a l me mb e r, pr o v id e a mo u n t in g b ase fo r t h e a t ta ch me n t o f co n d u i t h a n ge r s , e i th e r d i re c t l y o r b y u s i n g t h re a d ed ro d .

CAT. NO. UP C S IZ E T YP E MS TR

S t e e l - P C 5 2 6 0

Fe at u re s:

S TD W T/ S TD

1 0 0 90 1 /4 - 2 0 S te e l 5 0 2 5 0 6 .0 3 # 1 0 0 95 3 /8 - 1 6 S te e l 2 5 1 0 0 6 .6 2 #

M al l e ab l e - PC 5 26 5

1 0 0 92 1 /4 - 2 0 Ma l le a b l e 5 0 2 5 0 11 . 4 4 # 1 0 0 97 3 /8 - 1 6 Ma l le a b l e 2 5 1 0 0 1 8 .2 2 #

BK 5 0 M 1 0 0 99 1 /2 - 1 3 Ma l le a b l e 1 0 5 0 1 2 .9 6 #

A B C D E *

B K1 4 1 .3 9 . 67 2 1 /4 x 1 ” . 69 5 1 /4 - 2 0B K1 4 M 1 .3 9 . 75 0 5 /1 6 x 1 ” . 62 5 1 /4 - 2 0B K3 8 1 .9 5 . 78 1 5 /1 6 x 1 3 /8 ” . 97 9 3 /8 - 1 6B K3 8 M 1 .7 5 . 87 5 3 /8 x 1 1 /4 ” . 62 5 3 /8 - 1 6B K5 0 M 2 .4 7 1 .1 0 9 3 /8 x 1 1 /2 ” . 81 2 1 /2 - 1 3

* Bo t t om & Ba ck

F l oor F l a ng es P C 5 2 70F lo o r f l an g e s ar e se cu r ed to f lo o rs o r wa l l s a n d t h re a d e d co n d u i t is t he n i nse r te d as a po s t o r d i v i d er.

Fe at u re s:

Sw i tc h B ox Su p p orts P C 5 2 90

CAT. NO. UP C DE S CRI P TI ON MS TR

S wi tch b o x su p p o r t s a re u se d i n p a i rs i n o l d w or k . T h e t o n g u es a re b e n t o ve r th e l i p o f t h e b o x a nd t he b a r is i n ser te d i n t o t h e o p e n i ng t o p re ve n t t h e b o x f ro m f a l l i ng b a ck o u t o f t h e o p e n in g . Th e e a rs of th e b o x ke e p i t f ro m f a l l i n g i n to th e o pe n i n g .

Fe at u re s:

S TD W T/ S TD

5 9 8 50 Ga l va n ize d Bo x 1 0 0 P a i r 5 0 0 P a i r 5 .3 0 # S up p o r t

C e i l i ng C ov er P l ate P C 5 2 80

CAT. NO. UP C S IZ E MS TR

Ce i l in g co ve r p l a t es , 5 1 / 4 ” can o p y w i th a d ju s t a b l e s t r a p a n d sc r e ws f or 3 ” o r 4 ” o u t le t b o x e s . W h i te co l o r b l e nd s w i t h mo s t i n s ta l l a t i o n s . Te mp o ra ry o r p e rma n e n t .

Fe at u re s:

S TD W T/ S TD

CP 5 2 7 5 45 5 -1 / 4 ” W h i t e U n ive r sa l 1 5 0 0 .1 4 # Co ve r P la t e

DE S CRI P TI ON

AB

C

DE

CAT. NO. UP C S IZ E MS TRS TD W T/ S TD

6 0 3 50 1 /2 ” 2 5 6 .7 9 # 6 0 3 51 3 /4 ” 2 5 7 .6 4 #

6 0 3 52 1 ” 1 0 4 .5 0 # 6 0 3 53 1 -1 / 4 ” 5 3 .1 5 # 6 0 3 54 1 -1 / 2 ” 5 3 .8 5 # 6 0 3 55 2 ” 5 6 .4 6 #

C 1 0 CE L EB R AT I N G 5 0 YE A R S

Fittings &

Stampings

R e d u c in g , P l a s t i c & E M T B u s h in g s

R ed u c i ng B u sh in gs P C 5 43 0

Re d u c i n g bu sh i n g s ar e use d w i th r i g id / IMC con d u i t to re d u ce th e s i ze of a th re a d e d op e n i n g to acce p t a sma l l e r s ize con d u i t .

Fe at u re s:

CAT. NO. UP C S IZ E MS TRS TD W T /S TD

3 0 5 00 S te e l 1 /2 x 3 / 8 ” 1 0 0 1 0 0 0 2 .4 0 # 3 0 5 05 3 /4 x 1 / 2 ” 1 0 0 1 0 0 0 5 .0 0 #

R3 5 3 3 0 5 10 1 x 1 / 2 ” 5 0 5 0 0 5 .8 8 # R3 5 4 3 0 5 15 1 x 3 / 4 ” 5 0 5 0 0 6 .7 7 # R3 5 5 3 0 5 20 1 -1 / 4 x 1 / 2 ” 2 5 2 5 0 3 .4 4 # R3 5 6 3 0 5 25 1 -1 / 4 x 3 / 4 ” 2 5 2 5 0 5 .3 3 # R3 5 7 3 0 5 30 1 -1 / 4 x 1 ” 2 5 2 5 0 3 .7 0 #

3 0 5 35 1 -1 / 2 x 1 / 2 ” 2 5 2 5 0 1 0 .0 6 # 3 0 5 40 1 -1 / 2 x 3 / 4 ” 2 5 2 5 0 8 .2 5 #

R3 6 0 3 0 5 45 1 -1 / 2 x 1 ” 2 5 2 5 0 6 .4 5 # 3 0 5 50 1 -1 / 2 x 1- 1 /4 ” 2 5 2 5 0 2 .7 8 # 3 0 5 55 2 x 1 / 2 ” 1 0 1 0 0 8 .1 8 #

R3 6 3 3 0 5 60 2 x 3 / 4 ” 1 0 1 0 0 7 .3 4 # R3 6 4 3 0 5 65 2 x 1 ” 1 0 1 0 0 6 .5 0 # R3 6 5 3 0 5 70 2 x 1- 1 /4 ” 1 0 1 0 0 4 .8 1 # R3 6 6 3 0 5 75 2 x 1- 1 /2 ” 1 0 1 0 0 3 .2 7 # R3 6 7 3 0 5 76 I ro n 2 -1 / 2 x 2 ” 1 1 0 0 .6 0 #

3 0 5 77 3 x 2 ” 1 1 0 1 .0 4 # 3 0 5 78 3 x 2- 1 /2 ” 1 1 0 1 .2 2 #

R3 7 0 3 0 5 79 3 -1 / 2 x 2 ” 1 1 0 1 .3 9 # 3 0 5 80 3 -1 / 2 x 2- 1 /2 ” 1 1 0 1 .4 8 # 3 0 5 81 3 -1 / 2 x 3 ” 1 1 0 1 .1 7 #

R3 7 3 3 0 5 82 4 x 2 ” 1 1 0 3 .6 2 # R3 7 4 3 0 5 83 4 x 2- 1 /2 ” 1 1 0 1 .9 5 # R3 7 5 3 0 5 84 4 x 3 ” 1 1 0 1 .6 4 # R3 7 6 3 0 5 85 4 x 3- 1 /2 ” 1 1 0 1 .2 8 #

P l a st ic B u sh in gs P C 5 67 0

P la s t i c bu sh i n g s ar e th re a d e d on t o th e en d of con d u i t an d ar e use d to p ro t e c t w i re s com in g th ro u g h th e con d u i t .

Fe at u re s:


P B5 0 1 0 1 00 1 /2 ” 1 0 0 1 0 0 0 0 .4 9 # P B7 5 1 0 1 05 3 /4 ” 1 0 0 1 0 0 0 0 .6 4 #

1 0 11 0 1 ” 5 0 5 0 0 0 .5 8 # 1 0 11 5 1 -1 / 4 ” 2 5 2 5 0 0 .4 4 # 1 0 1 20 1 -1 / 2 ” 2 5 2 5 0 0 .5 0 # 1 0 1 25 2 ” 2 5 2 5 0 0 .7 4 # 1 0 1 30 2 -1 / 2 ” 2 5 2 5 0 1 .3 2 #

P B3 0 0 1 0 1 35 3 ” 2 5 2 5 0 1 .5 5 # P B3 5 0 1 0 1 40 3 -1 / 2 ” 1 0 1 0 0 0 .8 5 # P B4 0 0 1 0 1 45 4 ” 1 0 1 0 0 0 .9 8 # P B5 0 0 1 0 1 50 5 ” 1 0 1 0 2 .9 3 # P B6 0 0 1 0 1 55 6 ” 1 0 1 0 3 .8 5 #

EM T B u sh in gs P C 5 6 7 5

E MT In su l a t i n g Bu sh i n gs pr o te c t cab l e s f r om ab r a s io n . Use wh e re n o n me ta l l i c lo w vo l t a g e cab l i n g is in s t a l l e d in EMT.

Fe at u re s:


E MTB 5 0 8 1 6 13 1 /2 ” 1 0 0 1 0 0 0 0 .4 0 # E MTB 7 5 8 1 6 14 3 /4 ” 5 0 5 0 0 0 .2 5 #

8 1 6 15 1 ” 2 5 2 5 0 0 .2 3 # 8 1 6 16 1 -1 / 4 ” 2 5 2 5 0 0 .2 7 # 8 1 6 17 1 -1 / 2 ” 2 5 2 5 0 0 .3 5 # 8 1 6 18 2 ” 2 5 2 5 0 0 .5 5 # 8 1 6 19 2 -1 / 2 ” 2 5 1 0 0 1 .4 0 #

E MTB 3 00 8 1 6 20 3 ” 2 5 1 0 0 1 .3 0 # E MTB 3 50 8 1 6 21 3 -1 / 2 ” 2 5 1 0 0 2 .1 0 # E MTB 4 00 8 1 6 22 4 ” 2 5 1 0 0 3 .2 0 #

C 1 1F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fitt

ings

& S

tam

ping

s

N y l o n B u s h in g s , A n t i - S h o rt B u s h i n g s & K . O . S e a l s

N yl on K O Bu sh i ng s P C 6 1 0 0

Ny l o n K O b u sh in g s ar e sn a p p e d i n to p u nch e d ho l e s in p an e l s to p ro t e c t w i re s f r o m t h e r o u gh e d ge s .


Fe at u re s:

1 2 1 00 1 /2 ” 1 0 0 1 0 0 0 0 .4 5 # 1 2 11 0 3 /4 ” 1 0 0 1 0 0 0 0 .6 6 # 1 2 1 20 1 ” 1 0 0 1 0 0 0 0 .9 9 # 1 2 1 30 1 -1 / 4 ” 5 0 5 0 0 0 .7 0 # 1 2 1 40 1 -1 / 2 ” 2 5 2 5 0 0 .4 6 # 1 2 1 50 2 ” 2 5 2 5 0 0 .9 3 # 1 2 1 60 2 -1 / 2 ” 2 5 2 5 0 1 .2 0 #

Th ree P i ec e K . O . S ea l s P C 5 4 50

T h re e p i e ce K .O . se a ls a re u sed t o se a l u p h o l e s p u n ch e d i n p a n e l s o r kn o ckou t s f r om o u t l e t b o x e s . T h e y ar e h e l d i n p l a ce b y a sc r e w i n ser te d th r o ug h th e se al i n t o a t hr e a de d s t r a p o n t h e o p p o s i te s id e o f t h e o p e ni n g . Ava i l ab l e in s ize s f ro m 1/ 2 ” th r u 6 ” . T h re e p i e ce K . O . se a ls a re e mb o ssed to ce n t r a l i ze i n kn ocko u t . I ns t a l ls f ro m th e i n s i d e o r o u ts i d e o f a n y b ox w i t h ou t re a r r an g i n g w i r e s . On e sc r e w se cu re s u n i t . S i ze i s s t a mp e d o n to se a l .


Fe at u re s:

1 0 2 40 1 /2 ” 1 0 0 1 0 0 0 2 .6 2 # 1 0 2 42 3 /4 ” 5 0 5 0 0 1 .7 3 #

D3 0 S 1 0 2 44 1 ” 2 5 2 5 0 1 .3 3 # D4 0 S 1 0 2 46 1 -1 / 4 ” 2 5 2 5 0 1 .7 4 # D5 0 S 1 0 2 48 1 -1 / 2 ” 1 0 1 0 0 1 .0 3 # D6 0 S 1 0 2 50 2 ” 1 0 1 0 0 1 .4 6 # D7 0 S 1 0 2 52 2 -1 / 2 ” 1 0 1 0 0 2 .1 6 #

1 0 2 54 3 ” 1 0 1 0 0 3 .11 # 1 0 2 56 3 -1 / 2 ” 1 0 1 0 0 3 .9 7 #

1 0 2 58 4 ” 1 0 1 0 0 5 .8 1 # 1 0 2 60 4 -1 / 2 ” 1 0 1 0 .4 5 # 1 0 2 62 5 ” 1 0 1 3 .3 3 # 1 0 2 64 6 ” 1 0 1 4 .1 0 #

K . O . Sea l s P C 5 4 40

S na p i n K .O . sea l s a re u se d to se al u p h o l es p u n che d i n p a n el s o r kn o cko ut s f r o m o u t le t b o x e s . Th e y ar e h e l d i n p l a ce b y sp r i n g t e n s io n . Ava i la b l e i n s i ze s f r o m 1 / 2 ” th ru 2 ” .

Fe at u re s:

A nt i - Sh ort Bu s i n gs P C 5 6 80

A nt i -S h o r t b u sh in g s a re use d to p ro t ec t w i re in su l a t i o n f ro m t he j a gg e d o r sh a rp cut ed g e s o f BX o r f l e x . Pr ice d p e r 10 0 p ie ce s .

Fe at u re s:

CAT. NO .

UP C MS TRS TD W T/ S TDCA BL E S IZ E

0 11 6 0 0 5 /1 6 ” 1 4 /2 , 1 4 / 3 , 1 2 /2 1 0 0 1 0 0 0 0 .7 5 # 11 6 0 1 3 /8 ” 1 4 /4 , 6 / 1 ,4 / 1 ,1 2 / 3 1 0 0 1 0 0 0 0 .3 0 # 11 6 0 2 7 /1 6 ” 1 2 /4 , 1 0 /2 , 10 / 3 ,2 / 1 5 0 5 0 0 0 .3 5 #

3 11 6 0 3 1 /2 ” 1 0 /4 , 8 / 2 , 8 /3 , 1 /1 5 0 5 0 0 0 .4 0 # 4 11 6 0 4 3 /4 ” 8 /4 , 6 / 2 , 6 / 3 , 4 / 2 , 4 / 3 5 0 5 0 0 0 .4 0 #

P KG


KO 5 0 1 6 0 00 1 /2 ” 1 0 0 1 0 0 0 1 .4 4 # KO 7 5 1 6 0 10 3 /4 ” 1 0 0 1 0 0 0 1 .6 2 #

1 6 0 20 1 ” 1 0 0 1 0 0 0 2 .1 0 # 1 6 0 30 1 -1 / 4 ” 5 0 5 0 0 1 .4 5 # 1 6 0 40 1 -1 / 2 ” 5 0 5 0 0 2 .1 4 # 1 6 0 50 2 ” 2 5 2 5 0 1 .4 4 #

Fittings &

Stampings

“ B U I L D I N G A B ET T E R B R A N D ”C 1 2

R ed u c i ng Wa she rs P C 5 4 5 5

Re d u c i n g wa sh e rs ar e use d to re d u ce th e s ize of a kno cko u t on a sh e e t me ta l bo x , en c l o su re or cab i n e t .

Fe at u re s:


3 0 1 03 3 /4 x 1 / 2 ” 1 0 0 1 0 0 0 0 .9 8 #

3 0 1 06 1 x 1 / 2 ” 1 0 0 1 0 0 0 1 .9 0 # 3 0 1 09 1 x 3 / 4 ” 1 0 0 1 0 0 0 1 .3 7 #

3 0 11 2 1 -1 / 4 x 1 / 2 ” 5 0 5 0 0 1 .3 3 # 3 0 11 5 1 -1 / 4 x 3 / 4 ” 5 0 5 0 0 1 .2 4 #

RW 43 3 0 11 8 1 -1 / 4 x 1 ” 5 0 5 0 0 0 .9 5 #

3 0 1 21 1 -1 / 2 x 1 / 2 ” 5 0 5 0 0 1 .9 3 # 3 0 1 24 1 -1 / 2 x 3 / 4 ” 5 0 5 0 0 1 .7 8 #

RW 53 3 0 1 27 1 -1 / 2 x 1 ” 5 0 5 0 0 1 .5 4 # RW 54 3 0 1 30 1 -1 / 2 x 1- 1 /4 ” 5 0 5 0 0 1 .1 5 #

3 0 1 33 2 x 1 / 2 ” 2 5 2 5 0 1 .5 6 # 3 0 1 36 2 x 3 / 4 ” 2 5 2 5 0 1 .4 9 #

RW 63 3 0 1 39 2 x 1 ” 2 5 2 5 0 1 .3 7 # RW 64 3 0 1 42 2 x 1- 1 /4 ” 2 5 2 5 0 1 .1 7 #RW 65 3 0 1 45 2 x 1- 1 /2 ” 2 5 2 5 0 0 .9 9 #

3 0 1 48 2 -1 / 2 x 1 / 2 ” 2 5 2 5 0 2 .4 9 # 3 0 1 51 2 -1 / 2 x 3 / 4 ” 2 5 2 5 0 2 .3 7 #

RW 73 3 0 1 54 2 -1 / 2 x 1 ” 2 5 2 5 0 2 .2 6 # RW 74 3 0 1 57 2 -1 / 2 x 1- 1 /4 ” 2 5 2 5 0 2 .0 4 # RW 75 3 0 1 60 2 -1 / 2 x 1- 1 /2 ” 2 5 2 5 0 1 .8 2 # RW 76 3 0 1 63 2 -1 / 2 x 2 ” 2 5 2 5 0 1 .3 7 #

3 0 1 66 3 x 1 / 2 ” 1 0 1 0 0 1 .4 5 # 3 0 1 69 3 x 3 / 4 ” 1 0 1 0 0 1 .4 3 # 3 0 1 72 3 x 1 ” 1 0 1 0 0 1 .3 2 # 3 0 1 75 3 x 1- 1 /4 ” 1 0 1 0 0 1 .2 8 # 3 0 1 78 3 x 1- 1 /2 ” 1 0 1 0 0 1 .11 # 3 0 1 81 3 x 2 ” 1 0 1 0 0 1 .0 1 # 3 0 1 84 3 x 2- 1 /2 ” 1 0 1 0 0 0 .7 8 #

3 0 1 70 3 -1 / 2 x 1 / 2 ” 1 0 1 0 0 2 .0 8 # 3 0 1 71 3 -1 / 2 x 3 / 4 ” 1 0 1 0 0 2 .7 4 # 3 0 1 73 3 -1 / 2 x 1 ” 1 0 1 0 0 2 .5 7 # 3 0 1 85 3 -1 / 2 x 1- 1 /4 ” 1 0 1 0 0 2 .7 0 # 3 0 1 86 3 -1 / 2 x 1- 1 /2 ” 1 0 1 0 0 2 .2 9 # 3 0 1 88 3 -1 / 2 x 2 ” 1 0 1 0 0 2 .0 4 # 3 0 1 90 3 -1 / 2 x 2- 1 /2 ” 1 0 1 0 0 2 .3 3 # 3 0 1 92 3 -1 / 2 x 3 ” 1 0 1 0 0 1 .1 9 #

3 0 1 89 4 x 1 / 2 ” 1 0 1 0 0 3 .4 7 # 3 0 1 91 4 x 3 / 4 ” 1 0 1 0 0 3 .4 0 # 3 0 1 93 4 x 1 ” 1 0 1 0 0 3 .3 2 # 3 0 1 95 4 x 1- 1 /4 ” 1 0 1 0 0 3 .4 2 # 3 0 1 97 4 x 1- 1 /2 ” 1 0 1 0 0 3 .0 6 # 3 0 1 94 4 x 2 ” 1 0 1 0 0 2 .7 0 # 3 0 1 96 4 x 2- 1 /2 ” 1 0 1 0 0 2 .3 5 # 3 0 1 98 4 x 3 ” 1 0 1 0 0 1 .8 4 # 3 0 2 00 4 x 3- 1 /2 ” 1 0 1 0 0 1 .3 9 #

U n iv er sa l P l a s t i c St u d B u sh in g P C 6 0 84

Un i ve rsa l P l a s t i c S t u d Bu sh i n gs ar e use d to pr o te c t w i re s f r om a b ra s i o n in me ta l s tu d s . Du e to th e i r mo ld e d h i g h -s t re n g t h, no n -co n d uc t i ve po l yp ro p y l e n e con s t ru c t i on , th e US B a l l o ws fo r th e i n s ta l l a t i o n of mu l t i p l e cab l e s th ro u g h a s in g l e op e n i n g wh i le pr o v id i n g a smo ot h w i re pu l l i ng sur fa ce . Do t t i e ’s US B ’s can be use d w i th po w e r ca b l i n g , lo w vo l t a g e da t a co m, v id e o an d vo i ce cab l e s . F i t s a l l s t an d a rd pr e -p u n ch e d an d f i e l d pu n ch e d ho l e s .

Fe at u re s:CAT. NO. UP C S IZ E MS TRS TD W T /S TD

US B 8 1 0 31 3 /8 ” 2 5 8 7 5 0 .3 4 #

R e d u c in g Wa s h e r s & U ni v e r s a l S t u d B u s h in g

C 1 3

Fitt

ings

& S

tam

ping

s

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

L o c k n u t s , S e a l i n g Lo c k nu t s , O ffs e t & C o n d u i t N i p p l e s

L oc k n u ts P C 5 6 60

L o ckn ut s a re u se d to se cur e co n d u i t b y r un n i n g o r t h re a d in g co nd u i t i n to a b o x o r p a n e l a n d a t ta ch i n g t h e l o ckn ut a nd c i nch i n g u p u nt i l t ig h t .

Fe at u re s:


1 2 3 00 3 /8 ” 1 0 0 1 0 0 0 3 .0 2 # L N5 0 1 2 3 01 1 /2 ” 1 0 0 1 0 0 0 1 .3 4 # L N7 5 1 2 3 02 3 /4 ” 1 0 0 1 0 0 0 2 .0 5 #

1 2 3 03 1 ” 1 0 0 1 0 0 0 2 .7 8 # 1 2 3 04 1 -1 / 4 ” 5 0 5 0 0 2 .0 8 # 1 2 3 05 1 -1 / 2 ” 5 0 5 0 0 2 .9 5 # 1 2 3 06 2 ” 5 0 5 0 0 3 .2 2 # 1 2 3 07 2 -1 / 2 ” 2 5 2 5 0 3 .3 0 #

L N3 0 0 1 2 3 08 3 ” 2 5 2 5 0 3 .9 4 # L N3 5 0 1 2 3 09 3 -1 / 2 ” 2 5 2 5 0 5 .0 0 # L N4 0 0 1 2 3 10 4 ” 2 5 2 5 0 6 .0 6 # L N5 0 0 1 2 3 11 5 ” 1 0 8 .9 5 # L N6 0 0 1 2 3 12 6 ” 1 0 9 .9 0 #

Se a l in g L o c k nu t s P C 56 6 5

Use d wh e re ve r a l i q u id t ig h t a p p l ica t io n i s n e e d ed wh e n fa s t en i n g t hr e a de d co n du i t t o a n un t h re a d e d o p e n in g in a b o x o r en c l o su re .

Fe at u re s:


L NS 5 0 1 2 3 30 1 /2 ” 1 0 0 1 0 0 0 1 .3 4 # L NS 7 5 1 2 3 31 3 /4 ” 1 0 0 1 0 0 0 2 .0 5 #

1 2 3 32 1 ” 1 0 0 5 0 0 2 .7 8 # 1 2 3 33 1 -1 / 4 ” 5 0 2 5 0 2 .0 8 # 1 2 3 34 1 -1 / 2 ” 5 0 2 5 0 2 .9 5 # 1 2 3 36 2 ” 5 0 1 0 0 3 .2 2 # 1 2 3 38 2 -1 / 2 ” 2 5 1 0 0 3 .3 0 #

L NS 3 00 1 2 3 40 3 ” 2 5 1 0 0 3 .9 4 # L NS 3 50 1 2 3 42 3 -1 / 2 ” 2 5 5 0 5 .0 0 # L NS 4 00 1 2 3 44 4 ” 2 5 5 0 6 .0 6 #

* LN 38 Squa re F i x tu re Loc k nu t

Off se t N i p p l e s P C 5 5 40

Off se t N i p p l es a re u sed t o o f fse t th e a x i s o f ra ce wa ys .

Fe at u re s:


C on d u it N ip p l es P C 5 5 50

Co n d u i t N i p p le s a re use d w i t h a l o ckn u t t o se rve a s a sh o r t r ace w a y b e tw e en e n c lo su r es .

Fe at u re s:


ON 5 0 1 0 6 00 1 /2 ” 2 5 2 5 0 2 .3 3 # ON 7 5 1 0 6 05 3 /4 ” 2 0 2 0 0 2 .4 8 #

1 0 6 10 1 ” 1 0 1 0 0 2 .11 # 1 0 6 15 1 -1 / 4 ” 1 0 1 0 0 2 .7 9 # 1 0 6 20 1 -1 / 2 ” 2 2 0 0 .8 0 # 1 0 6 25 2 ” 2 2 0 1 .1 8 #

CN 5 0 1 0 2 00 1 /2 ” 1 0 0 5 0 0 2 .9 7 # CN 7 5 1 0 2 05 3 /4 ” 1 0 0 5 0 0 5 .6 0 #

1 0 2 10 1 ” 1 0 0 5 0 0 7 .6 6 # 1 0 2 15 1 -1 / 4 ” 2 5 1 2 5 2 .7 7 # 1 0 2 20 1 -1 / 2 ” 2 5 1 2 5 3 .9 9 # 1 0 2 25 2 ” 2 5 1 2 5 5 .7 0 # 6 7 7 00 2 -1 / 2 ” 5 2 .1 9 #

CN 3 0 0 6 7 7 02 3 ” 5 2 .4 1 # CN 3 5 0 6 7 7 04 3 -1 / 2 ” 5 3 .7 1 # CN 4 0 0 6 7 7 06 4 ” 5 4 .0 2 #


Fittings &

Stampings

N on M e ta l l i c C a b l e C on n ec to rs P C 6 0 81DR C5 0 & DRC 7 5 ar e sma l l e r an d ea s i l y in s t a l l e d in con f i n ed an d t i g h t a re a s . No to o l s re q u i r e d . Sn a p in an d you ’ re do n e . Ea s i l y re mo ve d f ro m kno cko u t s an d ea sy re mo va l o f Ro me x f r om con n e c t o rs . A la b o r sa v i ng con n e c t o r w i th 60 po u n d te s t pu l l ! Pa cke d in ha n g a b l e d i sp l a y b a g .

Fe at u re s:CAT. NO .

UP C CA BL E SI ZE MS TRS TD W T/ S TD

C a b l e C o n n e c t o r s , D e v i c e S p a c e r & Wa l l P l at e G a s k e t s

DR C5 0 5 0 5 07 S in g l e Ca b le 14 / 2 - 10 / 3 1 /2 ” 1 0 0 4 0 0 0 1 .0 6 # Two Ca b le s 14 / 2 , 12 / 2 , 1 4 /3

DR C7 5 5 0 5 08 S in g l e Ca b le 8/ 3 - 6 / 3 3 /4 ” 5 0 2 4 0 0 0 .7 2 # Two Ca b le s 14 / 2 - 8 / 2

S IZ E

N on M e ta l l i c C a b l e C on n ec to rs P C 6 0 7 0T h e NMC5 0 con n e c t o r fo r Ro me x is a sna p to in s t a l l . Mo ld e d in a on e p i ece p l a s t ic con s t ru c t i on , th i s pu sh in de s i g n ha s a cap t i ve lo ck i n g we d g e . T h e cab l e w i l l be secu r e ly re ta i n e d an d no lo ckn u t is re q u i r e d . T h ey pr o v id e ex ce l l e n t s t r a i n re l ie f an d ar e de s i g n e d to acco mm od a t e 1 4 /2 m in i mu m to 10 / 3 ma x imu m cab l e s , an d on e or mo re .3 0 0 to .6 0 0 d i am et e r cor d s .

Fe at u re s: CAT. NO. UP C S IZ E MS TRS TD W T/ S TD

NMC 5 0 1 0 1 60 1 /2 ” 5 0 5 0 0 1 .1 4 #

C at - A - P i l l a r W i r i n g D e v i c e Sp a c er P C 6 23 0

CAT. NO. UP C MS TR

Ca t -A -P i l l a r is a no n con d u c t ive , lo w de n s i t y po l ye t hy l e n e spa ce r s t r ip co n s is t i n g of 8 fo l d a bl e seg me n t s . Ea ch seg me n t a l l o ws fo r 1 / 8 ” o f sp a c in g . I t ’s ea sy to ca l cu l a te . De te r m i ne th e de p t h of th e bo x to th e su r f a ce an d te a r or cut th e nu mb e r of 1 / 8 ” seg me n t s ne e d e d . Sn a p o ve r sc re w (n o ne e d to re mo ve ) an d ro ta t e a Ca t - A- P i l l a r so th a t th e s l o t fa ce s aw a y f r om th e de v i ce . In s t a l l s qu i ck l y on s in g l e or mu l t i -g a n g bo x e s . Re u sa bl e an d can be use d as a sh i m or a p l a s t ic wa sh e r t o s t r a i g h t en c ro o ke d de v i ce s .Fe at u re s:

S TD W T/ S TD

1 6 1 70 1 Pa ck (co n ta i n i ng 25 ) 1 0 Pa cks 0 .1 8 # 1 6 1 71 1 Pa ck (co n ta i n i ng 10 0 ) 1 0 Pa cks 0 .6 5 #

CAT-A- P ILLARS ar e no t i n te nded to be us ed i n l i eu o f s tand ard mea ns o f s uppo rt und er nor ma l c i rc ums tan ces o r w hen i n c on f l i c t w i t h gover n i ng e l ec t r i ca l c odes .

Wa l l P l ate I ns u l at i on Ga s k ets P C 6 24 0

CAT. NO. UP C MS TR

E ne r g y sav i n g ga ske t s pr e ve nt th e lo ss of he a t an d co l d th ro u g h o u t l e t s an d sw i tch e s lo ca t e d on ou t s i d e wa l ls . Co n s t r u c te d of UL Ra t e d #9 4 H FI l i s t e d c ro ss l i n k c lo se ce l l po l ye t hy l e n e in su l a t i n g fo a m. Ne w on e p i e ce de s i g n f i t s : re g u la r to g g l e or du p l e x re ce p ta c l e an d De co r a Typ e To g g le an d du p l e x re ce p ta c l e s .

Fe at u re s:S TD W T/ S TD

1 6 1 80 1 Pa ck (co n ta i n i ng 25 ) 1 0 Pa cks 0 .0 5 # 1 6 1 82 1 Pa ck (co n ta i n i ng 10 0 ) 1 0 Pa cks 0 .4 0 #

C 1 5F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fitt

ings

& S

tam

ping

s

S t r a i n R e l i e f C o n e c t o r s & S t e e l C o m b o C o u p l i n g s

St ra i n Re l ie f C on ne c tor s- N yl on P C 5 5 10

Ny l o n s t ra i n re l ie f co n n e c to r s g r ip p o r t ab l e cor d t o r e l i e ve s t r a i n on co rd a nd p re ve n t w i r es f ro m b ei n g p u l l e d o u t o f co n n ec t i n g sc r ew s . No t e : W ir e r a n ge s va ry f r o m t h e s t e e l s t ra i n re l i e f co n ne c t o rs . L o ckn u t n o t su p p l i e d .

Fe at u re s:


St eel C om b o C ou p l in gs P C 5 4 70

S te e l co mb o co u p l i ng s a re use d to co nn e c t l i q u id t i t e co n d u i t t o E . M .T.

Fe at u re s:


3 6 0 20 3 /8 ” . 19 7 to .3 9 4 2 5 2 5 0 0 .7 1 # 3 6 0 24 1 /2 ” . 39 4 to .5 5 1 2 5 2 5 0 0 .9 6 #

NS R3 4 L 3 6 0 28 3 /4 ” . 55 1 to .7 0 9 1 0 1 0 0 0 .6 2 # 3 6 0 32 1 ” . 70 9 to .9 8 4 1 0 1 0 0 1 .0 2 #

CA BL E RA NG E

St ra i n Re l ie f C on ne c tor s- S te el P C 5 5 20

S te e l s t ra i n r e l i e f co n n e c to r s g r i p po r ta b l e co r d t o r e l i e ve s t ra i n o n co rd a n d p re ve n t w i r e s f ro m b e in g p u l l e d o u t o f co n n e c t i n g sc r e ws . N o te : W i re ra n g e s va r y f ro m t he n y l on s t r a in re l i e f co n ne c t o rs .

Fe at u re s:

CAT. NO. UP C S IZ E MS TRS TD W T/ S TDCA BL E RA NG E

3 6 0 50 1 /2 ” . 15 0 to .2 5 0 Re d 2 5 2 5 0 2 .6 1 # S R5 0 A3 5 0 3 6 0 52 1 /2 ” . 25 0 to .3 5 0 W h i t e 2 5 2 5 0 2 .5 8 # S R5 0 A4 5 0 3 6 0 54 1 /2 ” . 35 0 to .4 5 0 B lu e 2 5 2 5 0 2 .5 5 # S R5 0 A5 6 0 3 6 0 56 1 /2 ” . 45 0 to .5 6 0 Gr e en 2 5 2 5 0 2 .5 0 # S R5 0 A6 5 0 3 6 0 58 1 /2 ” . 55 0 to .6 5 0 B ro wn 2 5 2 5 0 2 .4 3 #

3 6 0 60 3 /4 ” . 15 0 to .2 5 0 Re d 1 0 1 0 0 1 .6 7 # S R7 5 A3 5 0 3 6 0 62 3 /4 ” . 25 0 to .3 5 0 W h i t e 1 0 1 0 0 1 .7 1 # S R7 5 A4 5 0 3 6 0 64 3 /4 ” . 35 0 to .4 5 0 B lu e 1 0 1 0 0 1 .6 6 # S R7 5 A5 6 0 3 6 0 66 3 /4 ” . 45 0 to .5 6 0 Gr e en 1 0 1 0 0 1 .6 2 # S R7 5 A6 5 0 3 6 0 68 3 /4 ” . 55 0 to .6 5 0 B ro wn 1 0 1 0 0 1 .5 7 # S R7 5 B7 5 0 3 6 0 70 3 /4 ” . 65 0 to .7 5 0 Yel l o w 1 0 1 0 0 1 .4 4 #

3 6 0 72 3 /4 ” . 75 0 to .8 5 0 P ur p le 1 0 1 0 0 1 .4 5 #

3 6 0 74 1 ” . 65 0 to .7 5 0 Yel l o w 5 5 0 1 .4 4 # 3 6 0 76 1 ” . 75 0 to .8 5 0 P ur p le 5 5 0 1 .4 4 # 3 6 0 78 1 ” . 85 0 to .9 5 0 Gr a y 5 5 0 1 .4 3 #

3 6 0 80 1 ” . 95 0 to 1 .0 5 0 B la ck 5 5 0 1 .4 1 #

CO LO R

4 0 7 50 1 /2 ” F l e x t o E .M .T. 2 5 1 2 5 3 .3 9 # 4 0 7 55 3 /4 ” F le x to E . M . T. 1 0 5 0 2 .1 6 # 4 0 7 60 1 ” F le x to E . M . T. 1 0 2 0 3 .4 9 #

Fittings &

Stampings


D i e C a s t & P V C L i q u i d T i t e C o n n e c t o r s

D i e C a st L i qu i d T i t e C on n ec to rs P C 5 46 0

Di e cas t l i q u i d t i t e con n e c t o rs ar e use d to con n e c t me ta l l i c & no n -me t a l l i c l i q u i d t i t e con d u i t in t o an en c l o su re .

Fe at u re s:


S t r a ig ht

11 0 0 0 3 /8 ” 2 5 2 5 0 3 .2 2 # LT 5 0 11 0 0 5 1 /2 ” 2 5 2 5 0 3 .6 5 # LT 7 5 11 0 1 0 3 /4 ” 1 0 1 0 0 2 .1 9 #

11 0 1 5 1 ” 5 5 0 1 .7 4 # 11 0 2 0 1 -1 / 4 ” 5 5 0 2 .6 9 # 11 0 2 5 1 -1 / 2 ” 2 2 0 1 .2 6 # 11 0 3 0 2 ” 2 2 0 1 .6 0 #

9 0°

11 2 0 0 3 /8 ” 1 0 1 0 0 2 .1 7 # 11 2 0 5 1 /2 ” 1 0 1 0 0 2 .9 7 # 11 2 1 0 3 /4 ” 1 0 1 0 0 2 .7 3 #

11 2 1 5 1 ” 5 5 0 2 .2 6 # 11 2 2 0 1 -1 / 4 ” 5 5 0 3 .9 2 # 11 2 2 5 1 -1 / 2 ” 2 2 0 2 .1 2 # 11 2 3 0 2 ” 2 2 0 2 .6 2 #

S t r a ig ht In s ul at e d

111 0 0 3 /8 ” 2 5 2 5 0 3 .8 6 # LT 5 0 I 111 0 5 1 /2 ” 2 5 2 5 0 3 .3 2 # LT 7 5 I 1111 0 3 /4 ” 1 0 1 0 0 2 .3 7 #

1111 5 1 ” 5 5 0 1 .8 4 # 111 2 0 1 -1 / 4 ” 5 5 0 2 .6 6 # 111 2 5 1 -1 / 2 ” 2 2 0 1 .2 4 # 111 3 0 2 ” 2 2 0 1 .6 4 # 111 3 5 2 -1 / 2 ” 1 1 .7 4 #

LT 3 0 0 I 111 4 0 3 ” 1 2 .6 8 # LT 3 5 0 I 111 4 5 3 -1 / 2 ” 1 3 .4 5 # LT 4 0 0 I 111 5 0 4 ” 1 3 .8 7 #

9 0° In s ul at e d

11 3 0 0 3 /8 ” 1 0 1 0 0 2 .2 8 # 11 3 0 5 1 /2 ” 1 0 1 0 0 1 .9 8 # 11 3 1 0 3 /4 ” 1 0 1 0 0 2 .7 7 #

11 3 1 5 1 ” 5 5 0 2 .2 6 # 11 3 2 0 1 -1 / 4 ” 5 5 0 4 .0 9 # 11 3 2 5 1 -1 / 2 ” 2 2 0 2 .0 6 # 11 3 3 0 2 ” 2 2 0 2 .8 1 # 11 2 3 5 2 -1 / 2 ” 1 3 .4 3 # 11 2 4 0 3 ” 1 4 .7 2 # 11 2 4 5 3 -1 / 2 ” 1 7 .3 3 # 11 2 5 0 4 ” 1 8 .0 3 #

P V C L i qu i d T i t e C on n ec to rs P C 5 49 0

P VC l i q u i d t i t e con n e c t o rs ar e use d to con n e c t no n me ta l l i c l i q u i d t i t e co n d ui t & f l e x i b l e no n - me ta l l ic tu b i n g to en c l o su re s . UV ra te d p l a s t ic .

Fe at u re s:


S t r a ig ht

9 0°

3 6 0 08 3 /8 ” 1 0 1 0 0 0 .8 9 # 3 6 0 10 1 /2 ” 1 0 1 0 0 0 .7 6 # 3 6 0 12 3 /4 ” 1 0 1 0 0 1 .0 7 #

3 6 0 14 1 ” 5 5 0 1 .0 0 # 3 6 0 13 1 -1 / 4 ” 5 5 0 1 .7 2 # 3 6 0 15 1 -1 / 2 ” 5 5 0 2 .4 3 # 3 6 0 16 2 ” 5 5 0 3 .4 1 #

3 6 0 00 3 /8 ” 2 5 2 5 0 1 .9 2 # NLT5 0 3 6 0 02 1 /2 ” 2 5 2 5 0 1 .3 4 # NLT7 5 3 6 0 04 3 /4 ” 2 5 2 5 0 2 .3 8 #

3 6 0 06 1 ” 2 5 2 5 0 2 .6 8 # 3 6 0 07 1 -1 / 4 ” 5 5 0 1 .4 0 # 3 6 0 09 1 -1 / 2 ” 5 5 0 1 .4 2 # 3 6 0 11 2 ” 5 5 0 2 .1 3 #

C 1 7

Fitt

ings

& S

tam

ping

s

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

St eel L iq u id T i te C onn ec t or s P C 5 4 80

S te e l l i q u i d t i t e co n n e c to rs a re u sed t o co n n ec t l i q u i d t i t e co n d u i t i n t o a n e n c l o su re .

Fe at u re s:


S t e e l L i q u i d T i t e C o n n e c t o r s

S t r a ig ht

4 5 °

6 6 7 01 3 /8 ” 2 5 1 2 5 2 .8 8 # S L5 0 6 6 7 00 1 /2 ” 2 5 1 2 5 3 .2 2 # S L7 5 6 6 7 02 3 /4 ” 1 0 5 0 1 .8 0 #

6 6 7 04 1 ” 5 2 5 1 .4 9 # 6 6 7 36 1 -1 / 4 ” 5 2 5 2 .3 5 # 6 6 7 38 1 -1 / 2 ” 5 3 .0 1 # 6 6 7 40 2 ” 5 4 .2 5 #

6 6 7 05 3 /8 ” 1 0 5 0 1 .9 9 # S L4 5 5 0 6 6 7 06 1 /2 ” 1 0 5 0 2 .1 9 # S L4 5 7 5 6 6 7 08 3 /4 ” 1 0 5 0 3 .0 6 #

6 6 7 10 1 ” 5 2 5 2 .6 1 # 6 6 7 11 1 -1 / 4 ” 5 2 5 3 .4 3 # 6 6 7 13 1 -1 / 2 ” 2 1 0 2 .0 4 # 6 6 7 15 2 ” 2 1 0 2 .9 2 #

9 0° 6 6 7 09 3 /8 ” 1 0 5 0 2 .2 2 # 6 6 7 12 1 /2 ” 1 0 5 0 2 .3 5 # 6 6 7 14 3 /4 ” 1 0 5 0 3 .5 4 #

6 6 7 16 1 ” 5 2 5 2 .9 3 # 6 6 7 42 1 -1 / 4 ” 5 2 5 4 .1 0 # 6 6 7 43 1 -1 / 2 ” 2 1 0 2 .3 6 # 6 6 7 45 2 ” 2 1 0 3 .4 8 #

S t r a ig ht I ns u l at e d 6 6 7 17 3 /8 ” 2 5 1 2 5 2 .9 3 #

S L5 0 I 6 6 7 18 1 /2 ” 2 5 1 2 5 3 .0 9 #S L7 5 I 6 6 7 20 3 /4 ” 1 0 5 0 2 .0 8 #

6 6 7 22 1 ” 5 2 5 1 .4 7 # 6 6 7 44 1 -1 / 4 ” 5 2 5 2 .3 3 # 6 6 7 46 1 -1 / 2 ” 5 2 5 2 .9 3 # 6 6 7 48 2 ” 5 2 5 4 .2 5 # 8 1 6 23 2 -1 / 2 ” 1 2 .6 0 #

S L3 0 0 I 8 1 6 24 3 ” 1 3 .6 0 #S L3 5 0 I 8 1 6 25 3 -1 / 2 ” 1 4 .4 5 #

8 1 6 26 4 ” 1 5 .2 0 #

4 5 ° In s u l at e d

6 6 7 23 3 /8 ” 1 0 5 0 1 .9 9 # S L4 5 5 0 I 6 6 7 24 1 /2 ” 1 0 5 0 2 .2 3 # S L4 5 7 5 I 6 6 7 26 3 /4 ” 1 0 5 0 3 .0 8 #

6 6 7 28 1 ” 5 2 5 2 .6 7 # 6 6 7 29 1 -1 / 4 ” 5 2 5 3 .2 7 # 6 6 7 31 1 -1 / 2 ” 2 1 0 1 .7 9 # 6 6 7 33 2 ” 2 1 0 2 .9 2 # 8 1 6 27 2 -1 / 2 ” 1 4 .7 8 #

S L4 5 3 0 0 I 8 1 6 28 3 ” 1 7 .7 5 # S L4 5 3 5 0 I 8 1 6 29 3 -1 / 2 ” 1 8 .8 0 #

8 1 6 30 4 ” 1 1 0 .0 0 #

9 0° I n s ul at e d 6 6 7 35 3 /8 ” 1 0 5 0 2 .3 7 # 6 6 7 30 1 /2 ” 1 0 5 0 2 .3 7 # 6 6 7 32 3 /4 ” 1 0 5 0 3 .6 2 #

6 6 7 34 1 ” 5 2 5 3 .3 7 # 6 6 7 49 1 -1 / 4 ” 5 2 5 4 .4 2 # 6 6 7 47 1 -1 / 2 ” 2 1 0 2 .0 0 # 6 6 7 51 2 ” 2 1 0 3 .6 5 # 8 1 6 31 2 -1 / 2 ” 1 6 .2 5 # 8 1 6 32 3 ” 1 9 .0 0 # 8 1 6 33 3 -1 / 2 ” 1 1 0 .0 0 # 8 1 6 34 4 ” 1 1 5 .0 0 #


Fittings &

Stampings

We at h e rt i g h t H u b s & N o t h re a d C o n n e c t o r s & C o u p l i n g s

Weath ert ig ht H u bs P C 5 4 6 2

We a t he r t i g h t hu b s ar e use d to te rm in a t e r i g id con d u i t or IMC in t o an e n c lo su r e.


I n s u l at ed

In s u l at ed w/ G ro u n d in g L ug s

Fe at u re s: 6 0 2 55 1 /2 ” 1 0 1 0 0 1 .8 5 # 6 0 2 56 3 /4 ” 1 0 1 0 0 2 .6 2 #

6 0 2 57 1 ” 1 0 1 0 0 3 .9 6 # 6 0 2 58 1 -1 / 4 ” 5 5 0 2 .7 2 # 6 0 2 59 1 -1 / 2 ” 5 5 0 3 .6 2 # 6 0 2 60 2 ” 2 2 0 1 .9 4 # 6 0 2 61 2 -1 / 2 ” 1 5 1 .7 9 # 6 0 2 62 3 ” 1 5 2 .2 3 # 6 0 2 63 3 -1 / 2 ” 1 5 2 .7 4 # 6 0 2 64 4 ” 1 5 2 .8 0 #

6 0 2 70 1 /2 ” 1 0 1 0 0 2 .0 2 # 6 0 2 71 3 /4 ” 1 0 1 0 0 2 .7 8 #

6 0 2 72 1 ” 1 0 1 0 0 4 .0 0 # 6 0 2 73 1 -1 / 4 ” 5 5 0 2 .6 8 # 6 0 2 74 1 -1 / 2 ” 5 5 0 3 .6 5 # 6 0 2 75 2 ” 2 2 0 2 .0 2 # 6 0 2 76 2 -1 / 2 ” 1 5 1 .7 9 # 6 0 2 77 3 ” 1 5 2 .2 6 # 6 0 2 78 3 -1 / 2 ” 1 5 2 .7 4 # 6 0 2 79 4 ” 1 5 2 .8 0 #

N o t hrea d C on n ec to rs & C ou p l in gs P C 5 53 0

No th re a d con n e c t o rs ar e use d to con n e c t r i g id con d u i t to an e n c lo su r e. T h e con n e c t o rs an d cou p l i n gs ar e ra i n t i te an d ap p r ove d f or d i r ec t bu r ia l .


C o n n ec t o r s - N o n In s ul at e d

C o n n ec t o r s - I ns ul at e d

Fe at u re s: 6 6 7 50 1 /2 ” 2 5 1 2 5 2 .9 5 # 6 6 7 52 3 /4 ” 2 5 1 2 5 4 .4 9 #

6 6 7 54 1 ” 1 0 5 0 3 .0 6 # 6 6 7 56 1 -1 / 4 ” 1 0 5 0 4 .2 2 # 6 6 7 58 1 -1 / 2 ” 5 2 5 2 .8 3 # 6 6 7 80 2 ” 5 2 5 3 .5 4 #

6 6 7 60 1 /2 ” 2 5 1 2 5 3 .0 9 # 6 6 7 62 3 /4 ” 2 5 1 2 5 4 .5 4 #

6 6 7 64 1 ” 1 0 5 0 3 .0 8 # 6 6 7 66 1 -1 / 4 ” 1 0 5 0 4 .3 6 # 6 6 7 68 1 -1 / 2 ” 5 2 5 2 .8 7 # 6 6 7 82 2 ” 5 2 5 3 .8 7 # 8 1 6 35 2 -1 / 2 ” 5 1 2 .1 0 # 8 1 6 36 3 ” 3 9 .2 1 # 8 1 6 37 3 -1 / 2 ” 2 11 . 7 0 # 6 1 6 38 4 ” 2 9 .8 4 #

C o u pl i ng s 6 6 7 70 1 /2 ” 2 5 1 2 5 3 .8 2 # 6 6 7 72 3 /4 ” 2 5 1 2 5 6 .0 0 #

6 6 7 74 1 ” 1 5 7 5 5 .5 2 # 6 6 7 76 1 -1 / 4 ” 5 2 5 2 .7 2 # 6 6 7 78 1 -1 / 2 ” 5 2 5 3 .4 6 # 6 6 7 84 2 ” 5 2 5 4 .4 3 # 8 1 6 39 2 -1 / 2 ” 5 1 8 .0 0 # 8 1 6 40 3 ” 3 1 2 .1 5 # 8 1 6 41 3 -1 / 2 ” 2 1 0 .9 0 # 8 1 6 42 4 ” 2 1 2 .7 0 #

C 1 9F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fitt

ings

& S

tam

ping

s

I n s u l at e d G ro u nd B u s h i n g s , G ro u n d R o d s & G ro u n d C l a m p s

I ns ul ate d Grou n d B u sh in gs -L ay I n L ug s P C 5 6 0 0

Gr o un d b ush i n g s w i th la y - in l ug s a re u sed to t er m i n at e t h re a d e d r ig i d

p ro v i d e d f o r gr o u nd i n g j u mp e r to n e u t r a l b u s b a r.

Fe at u re s:

CAT. NO .

UP C S IZ E MS TRS TD W T/ S TDRA NGE

GB L5 0 1 0 4 00 1 /2 ” 1 4 S o l t o 4 S t r 2 5 2 5 0 1 .8 7 # GB L7 5 1 0 4 05 3 /4 ” 1 4 S o l t o 4 S t r 2 5 2 5 0 2 .11 #

1 0 4 10 1 ” 1 4 S o l t o 4 S t r 2 5 2 5 0 2 .4 8 # 1 0 4 15 1 -1 / 4 ” 1 4 S o l t o 4 S t r 2 5 2 5 0 3 .0 9 # 1 0 4 20 1 -1 / 2 ” 1 4 S o l t o 2 S t r 2 5 2 5 0 4 .1 2 # 1 0 4 25 2 ” 1 4 S o l t o 2 S t r 1 0 1 0 0 1 .9 4 # 1 0 4 30 2 -1 / 2 ” 1 4 S o l t o 1 / 0 S t r 5 5 0 1 .8 6 #

GB L3 0 0 1 0 4 35 3 ” 1 4 S o l t o 1 / 0 S t r 5 5 0 2 .1 9 # GB L3 5 0 1 0 4 40 3 -1 / 2 ” 1 4 S o l t o 1 / 0 S t r 2 2 0 1 .0 9 # GB L4 0 0 1 0 4 45 4 ” 1 4 S o l t o 1 / 0 S t r 2 2 0 1 .1 7 #

Gro u nd R od s (C op p er B ond e d ) P C 5 6 10

Gr o un d ro d s ar e a va i la b l e i n 1 / 2 ” , 5 / 8 ” a n d 3 / 4 ” d i a me t er s a n d in 8 ’ a n d 1 0 ’ l e ng t h s . T h e co p p e r e x te r io r i s mo le cu l a r l y b o n d e d t o n i cke l se a le d , h i g h s t re n g t h s t ee l co re s . Co p p e r j a cket p l a t in g th i ckn e ss e x ce e ds UL & A NS I sp ecs o f . 0 10 ” .

Fe at u re s:CAT. NO. UP C S IZ E MS TRS TD W T/ S TD

3 5 0 05 1 /2 x 8 ’ 5 1 0 0 5 0 .0 0 # 3 5 0 10 1 /2 x 10 ’ 5 1 0 0 6 3 .0 0 # 3 5 0 15 5 /8 x 8 ’ 5 1 0 0 6 9 .5 0 # 3 5 0 20 5 /8 x 10 ’ 5 1 0 0 8 6 .0 0 # 3 5 0 25 3 /4 x 8 ’ 5 5 0 4 9 .7 5 # 3 5 0 30 3 /4 x 10 ’ 5 5 0 6 3 .7 5 #


UP C S IZ E MS TRS TD W T/ S TDRA NGE

Gro u nd R od C l a m p s P C 5 5 70

Gr o un d ro d c la mp s a re u se d to co nn e c t co n d u c to r t o a d r i ve n g r ou n d ro d . C a s t f r o m h i g h s t re n g t h, h ig h l y co n d u c t i ve cop p e r a l lo y, t he y a re a p p ro ve d f o r d i r e c t b u r i a l i n g ro u n d a n d co nc r e te a n d a re a ssem bl e d w i t h a b ro n ze h e x h e a d bo l t .

1 0 5 00 1 /2 ” 1 0 S o l t o 2 S t r 5 0 2 5 0 8 .8 3 # 1 0 5 05 5 /8 ” 1 0 S o l t o 2 S t r 5 0 2 5 0 4 .6 5 #

GR 3 4 1 0 5 10 3 /4 ” 1 0 S o l t o 2 S t r 2 5 2 5 0 2 .9 6 #

Fe at u re s:

Gro u nd R od C l a m p s - Un i v er sa l P C 55 7 1

Un i ve rsa l G ro u n d R o d C l a mp s is UL L i s t e d f o r a l l s i ze s o f Gro u n d Ro d s a nd Re b a r. Co n s t r u c te d o f S t a i n l e ss S t e el A l l o y a n d a H ig h P er fo r ma n ce S ta i n le ss S t e e l B o l t .

3 /8 ” R o d - W i re Ra n g e 1 0 S o l id to 1 /0 S t ra n d e d1 /2 ” R o d - W i re Ra n g e 1 0 S o l id to 1 /0 S t ra n d e d5 /8 ” R o d - W i re Ra n g e 1 0 S o l id to 1 /0 S t ra n d e d3 /4 ” R o d - W i re Ra n g e 1 0 S o l id to 1 /0 S t ra n d e d


UG RCS 8 3 1 80 5 0 5 0 0 4 .6 5 #

* G ro und R od Dr i ve r, pa ge E29

Fittings &

Stampings


G ro u n d C l a m p s & G ro u n d C l a m p s w it h H u b s

B are Grou nd C l a m p s P C 5 56 0

B ar e gr o u nd c la mp s ar e use d to con n e c t ba r e cop p e r w i re to wa te r p i pe , re b a r, gr o u nd ro d or cop p e r wa te r tu b i n g fo r gr o u nd i n g . F i t t i n g s a re UL l i s t e d an d cas t f r om h i g h s t r en g t h , h i g h l y con d u c t ive cop p e r a l lo y w i th s te e l , br a ss or br o n ze sc re ws .

CAT. NO .

UP C P IP E SI ZE MS TRS TD W T/ S TDFe at u re s:

1 0 0 05 8 2 P rs r Ca s t Br s P l a te d 1 /2 to 1 ” 2 5 2 5 0 3 .8 3 #

1 0 0 10 8 2 P rs r Ca s t M lb l F i n i sh 1 /2 to 1 ” 2 5 2 5 0 4 .4 0 # 1 0 0 15 1 0 2 B ro n ze 1 /2 to 1 ” 2 5 2 5 0 4 .4 8 #

6 7 5 00 1 0 2 B ro n ze D i re c t Bu r i a l 1 /2 to 1 ” 2 5 2 5 0 4 .7 9 # 2 8 0 90 1 0 2 B ro n ze D i re c t Bu r i a l 1 /2 to 1 ” 2 5 2 5 0 4 .7 9 #

L a y in Fe a t ur e

6 7 5 03 1 0 2 B ro n ze D i re c t Bu r i a l 1 /2 to 1 ” 2 5 2 5 0 4 .4 5 #

5 6 4 70 1 0 2 B ro n ze 1 /2 to 1 ” 2 5 2 5 0 4 .8 5 # 1 0 0 25 1 0 2 B ro n ze 1 -1 / 4 to 2 ” 5 5 0 2 .1 8 #

6 7 5 02 1 0 2 B ro n ze D i re c t Bu r i a l 1 -1 / 4 to 2 ” 5 5 0 2 .1 3 # 2 8 0 92 1 0 2 B ro n ze D i re c t Bu r i a l 1 -1 / 4 to 2 ” 5 5 0 2 .1 3 #

L a y in Fe a t ur e

1 0 0 27 1 0 2 B ro n ze 2 -1 / 2 to 4 ” 5 5 .0 7 # 1 0 0 28 1 0 2 B ro n ze 4 -1 / 2 to -6 ” 5 9 .1 2 #

DE S CRI P TI ONW IR E RAN GE

SOL S TR

DB25 an d D LI25 Appr oved F or S tee l 4 / 6 /8 R ebarDB25 38 D ua l R a ted Su i tab le F or P ipe o r S tee l R ebar 3 / 8 to 1 ” ( #3 - #8 ) . Acc omm odates S tee l R ebar W i thou t D is as s embly* 20 B, 100 1 & 100 2 N on UL Appr oved

Gro u nd C l a m p s w i th H u bs P C 5 56 0

Gr o un d c la mp s w i th hu b s ar e use d to con n e c t gr o u nd i n g con d u c t o r in co n d ui t to wa te r p i p e fo r gr o u nd i n g . Ca s t f r om h i g h s t r en g t h , h i g h l y co n d uc t i ve cop p e r a l l o y w i th s te e l or br o n ze sc re ws .

Fe at u re s:


1 0 0 51 B 1 0 -6 1 /2 ” 1 /2 to 1 ” 2 5 1 2 5 9 .8 0 # 1 0 0 54 B 1 0 -6 1 /2 ” 1 /2 to 1 ” 2 5 1 2 5 1 0 .0 6 #

1 0 0 53 A 1 0 -2 / 0 3 /4 ” 1 /2 to 1 ” 2 5 1 2 5 11 . 3 5 # 1 0 0 56 A 1 0 -3 / 0 1 ” 1 /2 to 1 ” 2 5 1 2 5 1 2 .3 3 #

1 0 0 57 B 1 0 -6 1 /2 ” 1 -1 / 4 to 2 ” 2 5 2 5 1 4 .8 7 # 1 0 0 59 A 1 0 -2 / 0 3 /4 ” 1 -1 / 4 to 2 ” 2 5 2 5 1 6 .6 3 # 1 0 0 61 A 1 0 -3 / 0 1 ” 1 -1 / 4 to 2 ” 2 5 2 5 1 7 .4 4 #

1 0 0 63 B 1 0 -6 1 /2 ” 2 -1 / 2 to 4 ” 5 5 6 .2 3 # 1 0 0 64 A 1 0 -2 / 0 3 /4 ” 2 -1 / 2 to 4 ” 5 5 6 .6 3 # 1 0 0 66 A 1 0 -3 / 0 1 ” 2 -1 / 2 to 4 ” 5 5 6 .6 4 #

W IR E RA NGE S IZ E

P IP E SI ZE

Al l c l amps p r ov i ded w it h s tee l s c rew s ex c ep t 29 BR Z ( b ro nz e s c rew s)

A B

C 2 1

Fitt

ings

& S

tam

ping

s

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

A r m ored G rou n d C l a m p s P C 5 5 60

Use d to co n ne c t a r mo re d ca b l e t o w a te r p i p e f o r g ro u n di n g . S p ec i a l p re ssu re b a r g r i p s a rm or e d ca b l e i n su la t i on to d e c re a se ch a n ce s o f g ro u n d in g co n du c t o r b e in g pu l l e d o u t . Ca s t f ro m h ig h s t r e ng t h , h i gh l y co n d uc t i ve co p p e r a l l o y.

CAT. NO .

UP C P IP E SI Z E MS TRS TD W T /S TD

Fe at u re s:

S CRE W T YP E

DE S CRI P TI ONW IR E RA NGE

* No n UL App roved

1 0 0 30 8 S o l t o 4 S t r P rs r Ca s t B rs P la t e d S te e l 1 /2 t o 1 ” 2 5 2 5 0 5 .0 9 #

1 0 0 35 8 S o l t o 4 S t r P rs r Ca s t M lb l F i n i sh S te e l 1 /2 t o 1 ” 2 5 2 5 0 5 .0 9 # 1 0 0 40 8 S o l t o 4 S t r B ro n ze S te e l 1 /2 t o 1 ” 2 5 2 5 0 5 .8 3 #

2 8 0 91 8 S o l t o 4 S t r B ro n ze S ta i n le ss 1 /2 t o 1 ” 2 5 2 5 0 5 .6 3 # L a y i n Fe a t ur e S te e l

1 0 0 42 1 0 S o l t o 6 S t r B ro n ze S wi ve l Typ e S te e l 1 /2 t o 1 ” 2 5 1 2 5 9 .3 3 #

1 0 0 45 8 S o l t o 4 S t r B ro n ze S te e l 1 -1 / 4 t o 2 ” 2 5 2 5 0 11 . 6 3 #

1 0 0 46 1 0 S o l t o 6 S t r B ro n ze sw ive l Typ e S te e l 1 -1 / 4 t o 2 ” 5 3 .0 5 #

1 0 0 47 8 S o l t o 4 S t r B ro n ze S te e l 2 -1 / 2 t o 4 ” 5 6 .6 0 # 11 0 4 8 8 S o l t o 4 S t r B ro n ze S te e l 4 -5 - 6 ” 5 9 .9 2 #

Fe at u re s:CAT. NO. UP C S IZ E MS TRS TD W T/ S TD

H u bs P C 5 5 80

Hu b s a re u se d w i th g ro u n d c l a mp s t o co n n e c t r ig i d co n d u i t to wa t e r

ca s t f ro m h ig h s t r en g t h , h ig h l y con d u c t ive co p pe r a l l o y w i t h z i n c p l a t ed sc re w s .

1 0 1 71 1 /2 ” C 1 0 S o l t o 6 S t r 2 5 2 5 0 5 .0 4 # 1 0 1 76 3 /4 ” D 1 0 S o l t o 2 / 0 S t r 2 5 2 5 0 7 .2 3 #

1 0 1 81 1 ” D 1 0 S o l t o 3 / 0 S t r 1 0 1 0 0 3 .0 0 #

GR OUN D W IR E

C D

G ro u n d C la m p s & H u b s

Gro u nd R od D r i v er s P C 6 5 50I ns t a l l g ro u n d r o d f ro m g ro u n d l e ve l . S l i d i n g a c t i o n d r i ve s r o d w i t h o u t n e e d o f h a mme r. Dr ive r w i l l n o t d e f o rm e nd o f ro d . H e avy d u ty co n s t r u c t i o n p r ov i d e s max i mu m d r i v i n g f or ce s , wh i l e so f t ru b b e r e rg o n o mi c g r i p p ro v i de s u se r co mfo r t .

Fe at u re s:CAT. NO. UP C DE S CRI P TI ON MS TRS TD W T/ S TD

2 4 1 01 5 ’ D r i ver w i th in se r t fo r 5 / 8 ” 1 1 2 2 .3 4 # Gr o un d Ro d GR D3 4 2 4 1 02 5 ’ D r i ver w i th in se r t fo r 3 / 4 ” 1 1 2 2 .1 3 # Gr o un d Ro d

I n s e r t O n l y 2 4 1 03 I nse r t o n ly f or 5 / 8 ” 1 1 5 .7 3 #

Gr o un d Ro d GR DI 3 4 2 4 1 04 I nse r t o n ly f or 3 / 4 ” 1 1 5 .6 3 # Gr o un d Ro d


Fittings &

Stampings

G ro u n d S c re w s , G ro u n d P i g t a i l s , G ro u n d C l i p & C r i m p S le e v e s

Gro u nd Sc re w s P C 5 62 0Gr o un d sc re ws ar e p l a t ed gr e e n fo r id e n t i f i cat i o n pu r p ose s an d ar e use d fo r g ro u n d in g p i g t a i l s or w i re . T h ey ha ve e i t h e r a 1/ 4 ” or 5 / 1 6 ” he a d w i th He x /S lo t te d / Ph i l l i p s / Sq u a re dr i ve. T h e 1/ 4 ” (1 0 3 2G & 10 3 2 GT P ) ha s a le a d e r p o in t ; th e 5/ 1 6 ” (1 0 3 2T C & 10 3 2 T CT P) ha s a th re a d cut t in g po i n t .

Fe at u re s: CAT. NO. UP C DE S CRI P TI ON MS TRS TD W T/ S TDS CRE W

S IZ E

1 4 1 07 L e a de r Po i n t 1 /4 ” 1 0 -3 2 x 3 / 8 ” 1 0 0 4 0 0 0 0 .4 4 # He x / S l o t te d / P hi l l ip s / Sq u a re

1 4 1 08 Tu f f 1 /4 ” 1 0 -3 2 x 3 / 8 ” 5 0 0 3 0 0 0 4 .2 0 # P ack

1 4 1 09 T h re a d Cu t t i n g 5 /1 6 ” 1 0 -3 2 x 3 / 8 ” 1 0 0 4 0 0 0 0 .5 0 # P t . He x /S l o t t e d P hi l l ip s / Sq u a re

1 4 111 Tu f f 5 /1 6 ” 1 0 -3 2 x 3 / 8 ” 5 0 0 3 0 0 0 4 .8 6 # P ack

S IZ E

Gro u nd P i gt a il s P C 5 63 0Gr o un d p i g t a i l s ar e use d fo r gr o u nd i n g re ce p ta c l e s to s te e l bo x e s .

Fe at u re s:

CAT. NO .

UP C S IZ E MS TRS TD W T /S TDGA UGE

GP 6 5 0 1 6 1 00 7 -1 / 2 ” 1 2 Ga So l i d 2 5 0 2 5 0 0 4 .9 0 # 1 6 1 02 1 0 -1 / 2 ” 1 2 Ga So l i d 2 5 0 2 0 0 0 6 .5 6 # 1 6 1 03 1 2 -1 / 2 ” 1 2 Ga So l i d 2 5 0 1 0 0 0 7 .4 4 #

GP S7 7 5 8 2 5 96 1 2 -1 / 2 ” 1 2 Ga St ra n d e d 2 5 0 2 5 0 0 4 .9 0 #

CAT. NO. UP C MS TRFe at u re s:

S TD W T/ S TD

GC 2 7 0 50 1 0 0 4 0 0 0 0 .3 8 #GC TP 2 7 0 51 Tu f f Pa ck 5 0 0 3 0 0 0 1 .9 0 #

Gro u nd C l i p s P C 5 64 0Gr o un d C l ip s ar e in t e n de d to be pr e sse d on th e to p ed g e of a bo x to h o ld a No . 10 , 12 , or 14 AWG cop p e r or No . 10 , or 12 AWG al u m i n u m g ro u n d in g con d u c t o r ag a i n s t th e s id e wa l l . T h is c l i p ma y be use d fo r co n n ec t i n g th e gr o u nd i n g con d u c t o r o f no n me t a l l i c she a t h e d cab l e to o u t l e t bo x e s or fo r con n e c t in g th e gr o u nd i n g ju mp e r f r om a re ce p ta c l e t o an ou t l e t .

CAT. NO. UP C MS TR

Fe at u re s:

S TD W T/ S TD

2 7 7 55 1 8 -1 0 AW G 1 0 0 4 0 0 0 0 .2 4 # 2 7 7 56 Tu f f Pa ck 1 8 -1 0 AW G 5 0 0 3 0 0 0 1 .1 5 #

2 7 7 60 1 8 -8 AW G 5 0 2 0 0 0 0 .2 4 #

C op p er C r i m p Sl eev e s P C 5 65 0Co p p e r Cr i mp S l e e ve s ar e use d to gr o u p an d te rm in a t e cop p e r w i re s a n d pr o v id e a v ib r at i o n re s i s ta n t con n e c t io n . Co p p er re q u i r e s c r i mp in g p re ssu re an d re s i s ts cor ro s i o n .

W IR E GA UGE

C 2 3F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fitt

ings

& S

tam

ping

s

E n t r a n c e C a p s , E n t r a nc e E l l s & P u l l i n g E l ls

En tr a n ce C a p s P C 5 6 90

Cl a mp on se rv i ce e n t ra n ce ca p s p er m i t a w e at h e r re s i s ta n t e n t ra n ce f or t yp e S E ca b l e o n r i g i d , I MC o r EM T f o r p u l l i n g se rv i ce d r o p co n d uc t o rs . T h ey a re a ssem bl e d w i th a n e l e c t r ica l g r a d e P he n o l ic i n su l a t o r w i th mu l t i p le h o le s .

Fe at u re s:CAT. NO. UP C S IZ E S TD W T/ S TD

E C5 0 4 0 0 05 1 /2 ” 2 5 6 .2 1 #E C7 5 4 0 0 10 3 /4 ” 2 5 7 .1 8 #

4 0 0 15 1 ” 2 5 8 .9 7 # 4 0 0 20 1 -1 / 4 ” 1 0 4 .8 9 # 4 0 0 25 1 -1 / 2 ” 1 0 7 .5 6 # 4 0 0 30 2 ” 5 6 .0 9 # 4 0 0 35 2 -1 / 2 ” 1 3 .8 3 #

E C3 0 0 4 0 0 40 3 ” 1 5 .4 3 # E C3 5 0 4 0 0 45 3 -1 / 2 ” 1 6 .4 7 # E C4 0 0 4 0 0 50 4 ” 1 6 .7 8 #

En tr a n ce El l s (S L B ) P C 5 7 0 0

S er v i ce E n t r an ce E l l s a r e u se d w i t h th re a d e d r i g i d con d u i t o r IM C fo r p ro v i d in g a cce ss t o t h e i n te r io r o f a co n du i t s ys t e m f o r p u l l i n g , sp l ic i n g , i n spe c t i o n a n d ma i n te n a n ce .

Fe at u re s:


S LB 5 0 4 0 1 00 1 /2 ” 1 0 1 0 0 2 .0 1 # S LB 7 5 4 0 1 05 3 /4 ” 1 0 1 0 0 2 .6 0 #

4 0 11 0 1 ” 5 5 0 2 .1 5 # 4 0 11 5 1 -1 / 4 ” 5 5 0 3 .7 6 # 4 0 1 20 1 -1 / 2 ” 2 2 0 1 .8 3 # 4 0 1 25 2 ” 2 1 0 2 .6 9 #

P u l l i n g El l s P C 5 7 10

P ul l i n g E l l s ar e u se d to co nn e c t t wo le n g t h s o f t h re a d e d r i g i d co n d u i t

Fe at u re s:


4 0 1 30 1 /2 ” 1 0 1 0 0 1 .8 9 # 4 0 1 35 3 /4 ” 1 0 1 0 0 2 .6 9 #

P E3 4 0 1 40 1 ” 5 2 5 2 .5 0 #

MS TR

Fittings &

Stampings


C on d u it B od i es P C 5 73 0

T h re a d ed Co n d ui t Bo d i e s ar e use d w i th r i g id con d u i t to pr o v id e acce ss t o th e in t e r i o r o f a con d u i t s ys te m. T h ey ar e ava i l a b le as bo d i e s on l y, o r as bo d i e s asse mb l e d w i th cove r s an d ga ske t s . T h e f l a t ba ck de s i g n a l lo w s th e un i t to be mo un t e d c lo se to th e wa l l . T h ey ar e d i e cas t f r om h i gh s t r en g t h , cop p e r f r ee a l u m i n u m.

Fe at u re s:

S IZ E

C o n d u it B o d i e s

L B

4 0 4 00 1 /2 ” 1 0 1 0 0 2 .9 8 # 4 0 4 05 3 /4 ” 1 0 5 0 4 .4 1 #

4 0 4 10 1 ” 5 2 5 3 .1 5 # 4 0 4 15 1 -1 / 4 ” 2 1 0 2 .6 3 # 4 0 4 20 1 -1 / 2 ” 2 1 0 2 .9 4 # 4 0 4 25 2 ” 1 5 2 .4 6 # 4 0 4 30 2 -1 / 2 ” 1 4 .7 1 # 4 0 4 35 3 ” 1 5 .4 0 # 4 0 4 40 3 -1 / 2 ” 1 8 .3 2 # 4 0 4 45 4 ” 1 8 .5 0 #

L R

4 0 6 00 1 /2 ” 1 0 1 0 0 2 .5 2 # 4 0 6 05 3 /4 ” 1 0 5 0 4 .5 8 #

4 0 6 10 1 ” 5 2 5 3 .1 2 # 4 0 6 15 1 -1 / 4 ” 2 1 0 2 .8 9 # 4 0 6 20 1 -1 / 2 ” 2 1 0 3 .1 5 # 4 0 6 25 2 ” 1 5 2 .5 9 # 4 0 6 30 2 -1 / 2 ” 1 6 .1 3 # 4 0 6 35 3 ” 1 9 .0 2 # 4 0 6 40 3 -1 / 2 ” 1 1 0 .2 4 # 4 0 6 45 4 ” 1 9 .6 0 #

L L

4 0 5 50 1 /2 ” 1 0 1 0 0 2 .4 8 # 4 0 5 55 3 /4 ” 1 0 5 0 4 .5 0 #

4 0 5 60 1 ” 5 2 5 3 .1 3 # 4 0 5 65 1 -1 / 4 ” 2 1 0 2 .4 7 # 4 0 5 70 1 -1 / 2 ” 2 1 0 2 .9 8 # 4 0 5 75 2 ” 1 5 2 .6 1 # 4 0 5 80 2 -1 / 2 ” 1 4 .6 9 # 4 0 5 85 3 ” 1 6 .4 4 # 4 0 5 90 3 -1 / 2 ” 1 9 .1 3 # 4 0 5 95 4 ” 1 9 .2 2 #

C

4 0 7 00 1 /2 ” 1 0 1 0 0 2 .4 4 # 4 0 7 05 3 /4 ” 1 0 5 0 4 .1 7 #

4 0 7 10 1 ” 5 2 5 2 .4 2 # 4 0 7 15 1 -1 / 4 ” 2 1 0 3 .1 6 # 4 0 7 20 1 -1 / 2 ” 2 1 0 2 .8 4 # 4 0 7 25 2 ” 1 5 2 .5 5 # 4 0 7 30 2 -1 / 2 ” 1 5 .2 5 # 4 0 7 35 3 ” 1 5 .7 2 # 4 0 7 40 3 -1 / 2 ” 1 9 .5 1 # 4 0 7 45 4 ” 1 9 .0 0 #

T

4 0 8 00 1 /2 ” 1 0 1 0 0 2 .9 9 # 4 0 8 05 3 /4 ” 1 0 5 0 4 .4 3 #

4 0 8 10 1 ” 5 2 5 3 .2 7 # 4 0 8 15 1 -1 / 4 ” 2 1 0 3 .7 6 # 4 0 8 20 1 -1 / 2 ” 2 1 0 3 .2 9 # 4 0 8 25 2 ” 1 5 5 .3 8 # 4 0 8 30 2 -1 / 2 ” 1 5 .7 7 # 4 0 8 35 3 ” 1 6 .3 5 # 4 0 8 40 3 -1 / 2 ” 1 11 . 3 0 # 4 0 8 45 4 ” 1 9 .7 0 #

C 2 5

Fitt

ings

& S

tam

ping

s

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

C o n d u it B o d i e s W i t h C o v e r A n d G a s k e t

C on d u it B od ie s W i th C ov er & Ga sk e t P C 5 7 20

T h re a d ed Co n d u i t Bo d i e s w i t h co ve r a n d g a ske t a re u se d w i t h r i g i d co n d ui t t o p r o v id e a ccess t o t h e i n te r io r o f a co nd u i t s ys t e m. T h e y a r e a va i l a b l e a s bo d i e s o n l y, or a s b o d ie s a ssem bl e d w i th co ver s a n d g a ske ts . Th e f l a t b a ck de s i g n a l l o ws th e u n i t t o b e mo un t e d c l o se t o t he wa l l . T h e y a r e d i e ca s t f ro m h ig h s t r e ng t h , co p p er f r ee a lu m i n u m.

Fe at u re s:


L B

L B5 0 CG 1 0 7 22 1 /2 ” 1 0 1 0 0 2 .9 3 # L B7 5 CG 1 0 7 24 3 /4 ” 1 0 5 0 4 .1 0 #

1 0 7 26 1 ” 5 2 5 3 .5 8 # 1 0 7 28 1 -1 / 4 ” 2 1 0 2 .9 6 # 1 0 7 30 1 -1 / 2 ” 2 1 0 3 .2 5 # 1 0 7 32 2 ” 1 5 2 .8 0 # 1 0 7 34 2 -1 / 2 ” 1 5 .1 0 #

L B3 0 0 CG 1 0 7 36 3 ” 1 6 .2 0 # L B3 5 0 CG 1 0 7 38 3 -1 / 2 ” 1 9 .5 4 # L B4 0 0 CG 1 0 7 40 4 ” 1 1 0 .0 9 #

L RL R5 0 CG 1 0 7 62 1 /2 ” 1 0 1 0 0 2 .9 8 # L R7 5 CG 1 0 7 64 3 /4 ” 1 0 5 0 5 .2 1 #

1 0 7 66 1 ” 5 2 5 3 .6 2 # 1 0 7 68 1 -1 / 4 ” 2 1 0 3 .0 6 # 1 0 7 70 1 -1 / 2 ” 2 1 0 3 .3 3 # 1 0 7 72 2 ” 1 5 2 .8 0 # 1 0 7 74 2 -1 / 2 ” 1 6 .4 3 #

L R3 0 0 CG 1 0 7 76 3 ” 1 9 .6 0 # L R3 5 0 CG 1 0 7 78 3 -1 / 2 ” 1 11 . 3 9 # L R4 0 0 CG 1 0 7 80 4 ” 1 1 2 .0 0 #

L L

L L5 0 C G 1 0 7 42 1 /2 ” 1 0 1 0 0 3 .0 0 # L L7 5 C G 1 0 7 44 3 /4 ” 1 0 5 0 5 .1 7 #

1 0 7 46 1 ” 5 2 5 3 .5 2 # 1 0 7 48 1 -1 / 4 ” 2 1 0 2 .9 3 # 1 0 7 50 1 -1 / 2 ” 2 1 0 3 .2 2 # 1 0 7 52 2 ” 1 5 2 .8 4 # 1 0 7 54 2 -1 / 2 ” 1 5 .2 6 #

L L3 0 0 CG 1 0 7 56 3 ” 1 7 .0 2 # L L3 5 0 CG 1 0 7 58 3 -1 / 2 ” 1 1 0 .3 5 # L L4 0 0 CG 1 0 7 60 4 ” 1 1 0 .8 0 #

C

C5 0 C G 1 0 7 02 1 /2 ” 1 0 1 0 0 2 .8 2 # C7 5 C G 1 0 7 04 3 /4 ” 1 0 5 0 4 .7 9 #

1 0 7 06 1 ” 5 2 5 2 .8 7 # 1 0 7 08 1 -1 / 4 ” 2 1 0 2 .8 8 # 1 0 7 10 1 -1 / 2 ” 2 1 0 2 .9 0 # 1 0 7 12 2 ” 1 5 2 .6 5 # 1 0 7 14 2 -1 / 2 ” 1 5 .6 7 #

C3 0 0 CG 1 0 7 16 3 ” 1 6 .2 8 # C3 5 0 CG 1 0 7 18 3 -1 / 2 ” 1 9 .9 0 # C4 0 0 CG 1 0 7 20 4 ” 1 1 0 .3 5 #

TT 5 0C G 1 0 7 82 1 /2 ” 1 0 1 0 0 3 .8 0 # T 7 5C G 1 0 7 84 3 /4 ” 1 0 5 0 4 .2 5 #

1 0 7 86 1 ” 5 2 5 3 .6 3 # 1 0 7 88 1 -1 / 4 ” 2 1 0 4 .0 3 # 1 0 7 90 1 -1 / 2 ” 2 1 0 3 .5 5 # 1 0 7 92 2 ” 1 5 5 .8 5 # 1 0 7 94 2 -1 / 2 ” 1 7 .0 6 #

T 3 00 C G 1 0 7 96 3 ” 1 7 .6 3 # T 3 50 C G 1 0 7 98 3 -1 / 2 ” 1 1 2 .5 2 # T 4 00 C G 1 0 8 02 4 ” 1 1 0 .9 5 #

T BT B5 0 CG 8 1 5 26 1 /2 ” 1 0 1 0 0 3 .8 0 #T B7 5 CG 8 1 5 27 3 /4 ” 1 0 5 0 4 .2 5 #

8 1 5 28 1 ” 5 2 5 3 .6 3 # 8 1 5 29 1 -1 / 4 ” 2 1 0 4 .0 3 # 8 1 5 30 1 -1 / 2 ” 2 1 0 3 .5 5 # 8 1 5 31 2 ” 1 5 .8 5 #

XX 50 C G 8 1 5 32 1 /2 ” 1 0 1 0 0 3 .8 0 # X 75 C G 8 1 5 33 3 /4 ” 1 0 5 0 4 .2 5 #

8 1 5 34 1 ” 5 2 5 3 .6 3 # 8 1 5 35 1 -1 / 4 ” 2 1 0 4 .0 3 # 8 1 5 36 1 -1 / 2 ” 2 1 0 3 .5 5 # 8 1 5 37 2 ” 2 5 .8 5 #


Fittings &

Stampings

F ib er & N eop ren e Ga s k ets P C 5 79 0 , 5 80 0

Ga ske t s ar e ava i l a b le in f i b e r or ne o p re n e an d ar e use d to ma ke a co n d ui t bo d y we a th e r re s i s ta n t .

Fe at u re s:


G a s k e t s & C o v e r s

F i b e r G as k e t s - PC 57 9 0

N e o pr en e G as k e t s - PC 58 0 0

G5 0 4 0 2 00 1 /2 ” 5 0 5 0 0 0 .3 6 # G7 5 4 0 2 05 3 /4 ” 5 0 5 0 0 0 .4 8 #

4 0 2 10 1 ” 5 0 2 5 0 0 .6 4 # 4 0 2 15 1 -1 / 4 & 1- 1 /2 ” 5 0 2 5 0 1 .3 1 #

4 0 2 20 2 ” 2 5 5 0 0 .9 8 # 4 0 2 25 2 -1 / 2 & 3 ” 2 5 2 .3 0 #

G3 5 0 /4 0 0 4 0 2 30 3 -1 / 2 & 4 ” 2 5 3 .1 0 #

GN 5 0 4 0 2 50 1 /2 ” 5 0 5 0 0 0 .5 8 # GN 7 5 4 0 2 55 3 /4 ” 5 0 5 0 0 0 .7 8 #

4 0 2 60 1 ” 5 0 2 5 0 1 .0 0 # 4 0 2 65 1 -1 / 4 & 1- 1 /2 ” 5 0 1 0 0 2 .2 1 #

4 0 2 70 2 ” 2 5 5 0 1 .8 4 # 4 0 2 75 2 -1 / 2 & 3 ” 2 5 4 .6 0 #

GN 3 50 / 4 0 0 4 0 2 80 3 -1 / 2 & 4 ” 2 5 6 .2 5 #

A l u m i nu m C ov e rs P C 5 76 0

A lu m i n u m cove r s ar e s ta mp e d f r om h i g h s t r en g t h a l u m i n u m an d ar e u se d w i th a l l s ty l e s of a l u m i n u m con d u i t bo d i e s .

Fe at u re s:

CAT. NO. UP C S IZ E S TD W T /S TD

BC 5 0 4 0 3 00 1 /2 ” 5 0 5 0 0 2 .4 0 # BC 7 5 4 0 3 05 3 /4 ” 5 0 5 0 0 3 .1 3 #

4 0 3 10 1 ” 2 5 2 5 0 2 .2 2 # 4 0 3 15 1 -1 / 4 & 1- 1 /2 ” 1 0 1 0 0 1 .6 7 #

4 0 3 20 2 ” 5 5 0 1 .4 2 # 4 0 3 25 2 -1 / 2 & 3 ” 5 5 0 4 .0 3 #

BC 3 5 0/ 4 0 0 4 0 3 30 3 -1 / 2 & 4 ” 5 5 0 4 .1 2 #

Sp i d er P l ate P C 5 91 0

S pi d e r p l a t e s ar e a un i ve rsa l mo un t i ng p l a t e wh i ch a l l o ws mo un t i ng f ix t u re s to a 3 ” or 4 ” ro u n d bo x re g a rd l e ss of sc re w ho l e lo ca t io n .

Fe at u re s:

CAT. NO. UP C DE S CRI P TI ON S TD W T/ S TD

S P3 4 4 2 0 90 A da p t s 3- 1 /4 ” to 4 ” bo x e s 2 0 2 0 0 3 .0 0 #

MS TR

MS TR

C 2 7F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fitt

ings

& S

tam

ping

s

D o t t ie P i p e S u p p o rt

D ot t i e P i p e Su p p ort P C 5 3 90

T h e Do t t i e P i p e S u p p or t i s t h e f i r s t a n d o n l y p i p e sup p o r t in th e in d u s t ry. T h is n e w an d i nn o va t ive p ro d u c t f ea t u re s Du a l Ch a n n e l t e chn o l o g y, a n d is co n s t r u c te d o f h i g h s t re n g th p o l yme r s A BS an d A ES f o r i nc r e a sed s t r u c tu r a l su p po r t a n d U V re s i s t an ce . D u a l ch a nn e l te ch n o lo g y c re a te s t he

. S t r u t c l am ps ca n b e fa s t e ne d to th e l ar g e ch a n n e l wh i l e co n d u i t h a n ge r s a n d le ve l in g sys te ms ca n b e fa s t e ne d to th e sma l l e r ch a n n el . Th e Do t t i e P i p e su p p or t co me s at a s t a nd a r d l e ng t h o f 4 f ee t , a n d i s ea s i l y cu t t o re q u i r e d sp e c i f i ca t i o n s . L i gh t we i g h t a n d h i gh l y re s i s ta n t ma t e r i a l g u a ra n te e a n e x t re me l y d u ra b l e p ro d u c t . A s i n g le 4 ” su p po r t h a s a lo a d re s i s ta n ce of 52 2 L b s . Do t t i e ’s cut t o l e n gt h p i p e su p p o r t s .

CAT. NO .

UP C DE S CRI P TI ON MS TRS TD W T/ S TD

DP S 8 4 9 32 Do t t i e 4 f t P i p e S up p o r t 1 3 .9 0 #

Fe at u re s:

Fittings &

Stampings


M u lt i - Gu a rd C ov e rs P C 5 9 1 2

“W h i l e In -u se ” we a th e rp r o o f re ce p ta c l e cove r me et s NE C 41 0 - 57 ( b ) co d e . Pr ot e c t io n f r om ra i n , s le e t an d sno w w i th cor d set p l u g g e d in fo r u n a t t e n de d re ce p ta c l e s . De s i gn e d to me et NE C 21 0 - 60 ( b ) cod e .

Fe at u re s:

M u lt i - G u a r d C o v e r s

S in g l e G an g

CAT. NO. UP C MS TRS TD W T /S TDDE S CRI P TI ON

1 0 9 01 S ta n d a rd De p th Co ve r 2 -1 / 4 ” 1 1 0 0 .4 5 # 1 0 9 02 De e p Co ve r 3 -1 / 8 ” 1 1 0 0 .4 9 #

1 0 9 11 S ta n d a rd De p th Co ve r 2 -1 / 4 ” 1 1 0 0 .5 5 #

Single Gang Vertical or Horizontal. Includes 3 Patented Inserts4 Rounds; Toggle; Duplex; GFCI 1-3/8”; 1-5/8”; 1-3/4”; 2-1/8”

Plug and Outlet Protection for any Single Gang Applicat ion. The standard Depth Cover recommended for 16 gauge or lighter cord sets for vending machines, holiday l ighting, landscape l ighting and portable signs.

Any Two Gang Applicat ion.Includes 6 Snap Together Patented Inserts.

Plug and Outlet Protection for any Two Gang Applicat ion.The standard Depth Cover recommended for 16 gauge or l ighter cord sets for vending machines, holiday l ighting, landscape l ighting and portable signs.

T e c h

F lex i b le and easy t o i ns ta l l , “ Whi le i n Use ” Cover s a re idea l f or s ing le -gang , doub le -gang, ho r izont al and ve r t i ca l ou tdoor appl i cat ions i n a we t l oca t ion .

wh i ch s ta t e s th a t 15 to 20 Amp e r e, 12 5 an d 25 0 vo l t re ce p ta c l e s in s t a l l e d in a we t lo ca t io n sha l l ha ve an en c l o su re th a t is we a th e rp r o o f wh e th e r or no t th e a t t a chme n t p l u g cap is in se r t e d .

in s t a l l a t io n s

an d tw o in se r t s

Ta lk

Do ub l e G an g

CAT. NO. UP C MS TRS TD W T /S TDDE S CRI P TI ON

CHEM

ICAL

S &

TAPE

Chemicals & Tape SECTION D

Chemicals & Tape SECTION

D

D 1

Chem

ical

s &

Tap

e

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Ta p e

P V C C ol o r C od i n g Tap e P C 5 35 0 , 5 33 0

CAT. NO. UP C DI ME NS IO NS CO LO R S TD MS TR W T/ S TD

P VC Ta p e is use d fo r in su l a t i o n an d pr o te c t i on ove r w i re s an d co n n ec t o rs or ove r sp l i c i n g an d f i l le r com po u n d s ; th e ho l d i n g of h i g h vo l ta g e e l e c t r i ca l ap p l i a nce s ; w i re ha r n ess i n g an d ho me ma in t e na n ce .

Fe at u re s: 1 5 8 90 3 /4 ” x 60 ’ x 7M i l B la ck 1 0 2 0 0 1 .8 1 # 8 4 7 55 3 /4 ” x 60 ’ x 7M i l B lu e 1 0 2 0 0 1 .8 1 # 8 4 7 56 3 /4 ” x 60 ’ x 7M i l B ro wn 1 0 2 0 0 1 .8 1 # 8 4 7 57 3 /4 ” x 60 ’ x 7M i l G r e en 1 0 2 0 0 1 .8 1 # 8 4 7 58 3 /4 ” x 60 ’ x 7M i l G r a y 1 0 2 0 0 1 .8 1 # 8 4 7 59 3 /4 ” x 60 ’ x 7M i l O r a ng e 1 0 2 0 0 1 .8 1 # 8 4 7 60 3 /4 ” x 60 ’ x 7M i l Re d 1 0 2 0 0 1 .8 1 #

8 4 7 65 3 /4 ” x 60 ’ x 7M i l V i o le t 1 0 2 0 0 1 .8 1 # 8 4 7 61 3 /4 ” x 60 ’ x 7M i l W h i t e 1 0 2 0 0 1 .8 1 #

8 4 7 62 3 /4 ” x 60 ’ x 7M i l Yel l o w 1 0 2 0 0 1 .8 1 #

R u bb er Tap e P C 5 37 0

CAT. NO. UP C DI ME NS IO NS S TD MS TR W T/ S TD

Ru b b e r Ta p e is use d in com bi n a t i o n w i th f r ic t i o n an d v in y l ta p e fo r p r i ma ry in su l a t i o n up to 60 0 vo l t s an d fo r use ar o u nd sp l i t bo l t co n n ec t i o n s , te rm in a l lu g s an d com pr e ss io n con n e c t o rs . I t is use d ini n su l a t in g an d wa te r p ro o f ap p l i ca t i o n s , an d ea s i l y con f o rms to i r re g u l ar sh a p es an d sur fa ce s y ie l d i ng a vo i d f r ee , e l e c t r i ca l l y s ta b l e bu i l d u p. I t i s com pa t i b l e w i th a l l ex t ru d e d d i e l e c t r ic cab l e in su l a t i o n s .

Fe at u re s:

2 8 1 20 3 /4 ” x 22 ’ 1 0 1 0 0 3 .6 0 #

F r i c t i on Tap e P C 5 36 0

CAT. NO. UP C DI ME NS IO NS S TD MS TR W T/ S TD

F r i c t i o n Ta p e is use d fo r pr o v id i n g me cha n i ca l pr o te c t i on ag a i n s t a b ra s i o n an d pe n e t ra t io n of cab l e , sp l i ce s an d w i re . A l so use d as a te mp o ra r y b i n d i n g an d ha r n ess i n g ta p e an d a mu l t i tu d e of m i sce l l a n e o us ge n e ra l pu r p ose use s . Wh e n ap p l i e d ove r to o l ha n d l e s , i t c re a te s a no n - s l i p sur fa ce .

Fe at u re s:

2 8 1 30 3 /4 ” x 60 ’ 1 0 1 0 0 3 .2 0 #

UN IT

Thickness 0.007 inch ASTHM-D-1000

0.18 mm

7 mil

Tensile Strength 30 N/cm ASTHM-D-1000

Elongation 250 % ASTHM-D-1000

Adhesion to Steel 1.5 N/cm ASTHM-D-1000

Adhesion to Backing .15 N/cm ASTHM-D-1000

Flame Resistance <2 sec ASTHM-D-1000

Temperature Resistance 80° C ASTHM-D-1000

176° F

E LE CT RI CA LDielectric Strength 600 V UL510

360YEL

360ORG

360RED

360BRN

360GRY

360

360WHT

360BLU

360VLT

360GRN

D 2 CE L EB R AT I N G 5 0 YE A R S

Chemicals

& Tape

Ta p e & B a rr i c a d e Ta p e

D u c t Tap e P C 5 38 0Du c t Ta p e w i l l ad h e re to a l l typ e s of sur fa ce s . T h e po l ye t hy l e n e co a te d c lo t h con s t ru c t i on pr o v id e s sup e r io r me cha n i ca l s t r en g t h a n d con f o rms we l l to i r re g u l ar sur fa ce s . I t is ex ce l l e n t fo r bu n d l i ng , p a tch i n g an d sea l i n g . I t te a rs s t r a i g h t an d is cur l re s i s ta n t .

Fe at u re s: CAT. NO. UP C DI ME NS IO NS CO LO R S TD MS TR W T/ S TD

2 8 1 00 2 ” x 60 yds S i l ve r 1 2 2 4 1 9 .5 0 # 8 1 0 64 2 ” x 60 yds Re d 1 2 2 4 1 9 .5 0 #

P i p e Wr a p - P V C P C 5 42 0P ip e Wra p is a po l yv i n y l ch l o r i d e f i l m coa t e d w i th a ru b b er re s i n a d h es i ve wh i ch pr o te c t s p i p e , jo i n ts , con d u i t an d cou p l i n gs fo r o ve rh e a d or d i r ec t bu r ia l ap p l i ca t i o n s . I t is cor ro s i o n an d pu n c t u re re s i s t an t .

Fe at u re s:

M a sk i n g Tap e P C 5 41 0Ma sk i n g Ta p e is a ge n e ra l pu r p ose ta p e wh i ch is ta n in co l o r an d is su p p l i e d fo r in d o o r ap p l i ca t i o n s . T h e ou t d o o r ver s i on , 20 0 MT B lu e , is b l ue in co l o r an d UV re s i s ta n t . I t ha s a lo w ta ck an d is ea s i l y re mo ve d wh e re ap p l i ca t i o n an d c le a n u p ar e seve r a l da ys ap a r t .

Fe at u re s: CAT. NO. UP C DI ME NS IO NS

M as k in g Tap e

3 0 0 20 2 ” x 60 yds 2 4 1 5 .1 2 #

O u t do o r Ma s k i ng Tap e ( B l u e )

2 8 1 43 2 ” x 60 yds 2 4 1 6 .6 8 #

B arr i c a d e Tap e P C 5 32 0B ar r i ca d e Ta p e is use d fo r ma rk i n g ph ys i ca l ha za r ds or o f f l i m i t ar e a s . O t h e r le g e n d s & co l o rs on re q u es t . Me et s OSH A 19 1 0 . 1 44 fo r ma rk i n g p h ys ica l ha za r ds .

Fe at u re s:

CAT. NO .

UP C CO LO R S TD MS TR W T /S TD

3 ” x 1 , 0 00 F t .

1 6 3 30 Ca u t io n Ca u t i o n Ca u t i o n Yel l o w 1 1 2 4 .8 6 # 1 6 3 32 Ca u t io n Do No t En t e r Yel l o w 1 1 2 4 .8 6 #

1 6 3 35 Ca u t io n H i g h Vo l t ag e Yel l o w 1 1 2 4 .8 6 # 1 6 3 34 Ca u t io n Ke e p Ou t Yel l o w 1 1 2 4 .8 6 #

1 6 3 36 Ca u t io n Op e n Tr e n ch Yel l o w 1 1 2 4 .8 6 # 1 6 3 38 A l t e rn a t in g S t r i p e s B la ck / Ye l l ow 1 1 2 4 .8 6 # 1 6 3 39 A l t e rn a t in g S t r i p e s Re d / W hi t e 1 1 2 4 .8 6 # 1 6 3 87 Da n g e r Ke e p Ou t Re d 1 1 2 4 .8 6 #

3 ” x 30 0 F t .

1 6 3 31 Ca u t io n Ca u t i o n Ca u t i o n Yel l o w 1 1 2 1 .3 6 # 1 6 3 33 Ca u t io n Do No t En t e r Yel l o w 1 1 2 1 .3 6 #

1 6 3 37 Ca u t io n Ke e p Ou t Yel l o w 1 1 2 1 .3 6 #

Plumbing Code

CAT. NO. UP C DI ME NS IO NS MI L S TD MS TR W T/ S TD

2 8 11 0 1 ” x 10 0 ’ 1 0 M i l 4 8 2 9 .2 8 # 2 8 1 40 2 ” x 10 0 ’ 1 0 M i l 2 4 2 8 .8 0 # 2 8 1 42 4 ” x 10 0 ’ 1 0 M i l 1 2 2 7 .6 0 #

2 8 1 45 2 ” x 10 0 ’ 2 0 M i l 2 4 5 3 .5 2 #

S TD MS TR W T /S TD

D 3F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Chem

ical

s &

Tape

U n de rg rou nd Ta p e P C 5 3 20Un d e rg r o un d Ta p e p r o te c t s b u r i e d u t i l i t y l i n e s a n d i s p la ce d 1 2 ” a b o ve b u r i e d p i p e s , ca b le s a n d co n d u i t s be f o re f i n a l b a ck f i l l in g . O t h e r l eg e n d s & co lo r s a va i la b l e o n re q u e s t .

T e c hBa r r i cad e t ape s w i l l cons is t o f h ig h v is ib i l i t y sa fe t y

ye l l ow o r red po lye thy le ne w i t h b o ld b lac k l e t te r s . S t anda rd Le t te r he i gh t i s t wo inc hes (2 ” ) . Tap e h e lp s p re ven t a cc i den ts by in c re as i ng v i s ib i l i t y o f ha za r ds and ca n b e t ie d , s t ap l ed o r na i le d i n p la ce .

Non -De tec tab le war n i ng tap e f o r th e p ro t ec t io n , lo ca t io n a nd ide n t i f i ca t io n o f und erg r oun d u t i l i t y in s ta l l a t i ons . Cons is ts o f a no m ina l 4 .0 m i l ove ra l l th i ckn ess i ne r t p la s t i c f i l m f o r mu la te d t o r es i s t de g ra da t ion du e t o ac i d a nd a l ka l ies f oun d i n s o i l s . P r odu c t i s l ead f r ee .

De t ec tab le war n in g t ape c ons i s t s o f nom i na l 4 .5 m i l ( . 004 5 ” ) o ve r a l l t h ic kne ss , w i th a so l id a l um i num fo i l co re . The imp r i n te d war n i ng mess age i s “ Bur ied , o r Enc ased ” to p re ven t ink ru b -o f f , an d i s im per v io us to ac i d , a l ka l i s a nd o th e r des t r uc t i ve e l eme n ts f ound i n s o i l . Th e im pr i n t i s as s uch th a t i t a l lo ws fo r t o ta l re f le c t i v i t y. Use o f an i ndus t r ia l g r ade no n- f e r r ous me ta l d e te c to r i s use d w hen lo ca t ion i s n eed ed .

Ta lk

U n d e rg ro u n d & D e t e c t a b le Ta p e

CAT. NO .

UP C CO LO R S TD MS TR W T/ S TD

3 ” x 1 , 00 0 F t . 4 M il

6 ” x 1 , 00 0 F t . 4 M il

Fe at u re s: 1 6 7 04 Ca u t io n Bu r ie d Ca b l e T V L i n e B e lo w Or a ng e 1 6 4 .4 9 #

UT 7 D 1 6 3 40 Ca u t io n Bu r ie d E l e c t r i c L i n e B e lo w Yel l o w 1 6 4 .4 9 # 1 6 3 42 Ca u t io n Bu r ie d E l e c t r i c L i n e B e lo w Re d 1 6 4 .4 9 #

UT 11 D 1 6 7 11 Ca u t io n Bu r ie d H i g h Vo l ta g e L i n e B e lo w Yel l o w 1 6 4 .4 9 # 1 6 7 12 Ca u t io n Bu r ie d H i g h Vo l ta g e L i n e B e lo w Re d 1 6 4 .4 9 #

UT 1 7 D 1 6 7 17 Ca u t io n Bu r ie d Te l e ph o n e L i n e B e l ow Or a ng e 1 6 4 .4 9 # 1 6 7 19 Ca u t io n Bu r ie d U t i l i t ie s Un d e rg ro u n d Yel l o w 1 6 4 .4 9 # 1 6 7 20 Ca u t io n Bu r ie d U t i l i t y L i n e B e lo w Yel l o w 1 6 4 .4 9 # 1 6 7 43 Ca u t io n Bu r ie d Ca b l e L i n e B el o w Or a ng e 1 6 4 .4 9 # 1 6 7 44 Ca u t io n Bu r ie d F i b e r Op t ic L i ne Be l o w Or a ng e 1 6 4 .4 9 #

1 6 7 25 Ca u t io n Bu r ie d Ca b l e T V L i n e B e lo w Or a ng e 1 2 9 .0 2 # 1 6 3 44 Ca u t io n Bu r ie d E l e c t r i c L i n e B e lo w Yel l o w 1 2 9 .0 2 # 1 6 3 46 Ca u t io n Bu r ie d E l e c t r i c L i n e B e lo w Re d 1 2 9 .0 2 # 1 6 7 32 Ca u t io n Bu r ie d H i g h Vo l ta g e L i n e B e lo w Yel l o w 1 2 9 .0 2 # 1 6 7 33 Ca u t io n Bu r ie d H i g h Vo l ta g e L i n e B e lo w Re d 1 2 9 .0 2 # 1 6 7 38 Ca u t io n Bu r ie d Te l e ph o n e L i n e B e l ow Or a ng e 1 2 9 .0 2 # 1 6 7 40 Ca u t io n Bu r ie d U t i l i t ie s Un d e rg ro u n d Yel l o w 1 2 9 .0 2 # 1 6 7 41 Ca u t io n Bu r ie d U t i l i t y L i n e B e lo w Yel l o w 1 2 9 .0 2 # 1 6 7 46 Ca u t io n Bu r ie d Ca b l e L i n e B el o w Or a ng e 1 2 9 .0 2 # 1 6 7 47 Ca u t io n Bu r ie d F i b e r Op t ic L i ne Be l o w Or a ng e 1 2 9 .0 2 #

D et ec t ab l e Ta p e P C 5 32 5De t e c ta b l e Ta pe p ro t ec t s b ur i ed u t i l i t y l in e s an d i s p l a ced a b o ve b u r i e d p i p e s , ca b le s a n d co n d u i t s . I t i s e a s i ly l o ca te d w i th a n i n du s t r i a l g r ad e n o n- fe r ro u s m et a l d e te c t o r, f o r u se b e f or e yo u d ig ; i t s h i g h ly v i s ib l e co l o rs ma ke i t e a sy to l oca t e a f te r t he d i g h a s b e g u n . O th e r l e g en d s , co l o rs a va i l a b l e o n r e qu e s t .

CAT. NO .

UP C CO LO R S TD MS TR W T/ S TD

3 ” x 1 , 00 0 F t .

6 ” x 1 , 00 0 F t .

Fe at u re s: 1 6 3 50 Ca u t io n Bu r ie d E l e c t r i c L i n e B e lo w Re d 1 4 6 .0 7 # 1 6 3 60 Ca u t io n Bu r ie d Te l e ph o n e L i n e B e l ow Or a ng e 1 4 6 .0 7 # 1 6 3 64 Ca u t io n Bu r ie d CAT V L i n e B el o w Or a ng e 1 4 6 .0 7 # 1 6 3 66 Ca u t io n Bu r ie d H i g h Vo l ta g e L i n e B e lo w Re d 1 4 6 .0 7 # 1 6 3 68 Ca u t io n Bu r ie d F i b e r Op t ic L i ne Be l o w Or a ng e 1 4 6 .0 7 #

1 6 3 52 Ca u t io n Bu r ie d E l e c t r i c L i n e B e lo w Re d 1 2 1 3 .7 2 # 1 6 3 70 Ca u t io n Bu r ie d Te l e ph o n e L i n e B e l ow Or a ng e 1 2 1 3 .7 2 # 1 6 3 72 Ca u t io n Bu r ie d CAT V L i n e B el o w Or a ng e 1 2 1 3 .7 2 # 1 6 3 74 Ca u t io n Bu r ie d H i g h Vo l ta g e L i n e B e lo w Re d 1 2 1 3 .7 2 # 1 6 3 76 Ca u t io n Bu r ie d F i b e r Op t ic L i ne Be l o w Or a ng e 1 2 1 3 .7 2 #

Chemicals

& Tape

“ B U I L D I N G A B ET T E R B R A N D ”D 4

C a b l e T i e s & M o u n t i n g B a s e s

Fe at u re s:U. S .A .

CAT. NO .

UP C CO LO R W T/ S TDMS TRDI A

T EN SI L E

C a bl e T ie s - N yl on P C 5 97 0

Ca b l e t i e s f r om L. H . Do t t i e – th e pe r fe c t wa y to bu n d l e , secu r e an d i d en t i fy. Co n s is t e n t qu a l i ty f r om s ta t is t i ca l l y con t ro l l e d mo ld i n g p ro ce sse s in su re th e h i g h e s t te n s i le s t r en g t h w i th th e lo w es t i n ser t i o n fo rce . Me et s m i l i ta r y spe c i f ica t i on s , AS -3 3 6 7 1 , fo r d i me ns i o n s , mo is t u re con t e n t , te n s i le s t r en g t h , l i f e cyc le s , f l u i d i mme rs i o n , me l t i ng po i n t , an d cor ro s i o n .

S TD

5 0 0 04 Na t u ra l 4 . 1 2 ” . 09 5 ” . 04 2 ” 1 8 lb . .8 7 4 ” 1 0 0 1 ,0 0 0 0 .0 7 # 5 0 5 04 UV B l a ck 4 . 1 2 ” . 09 5 ” . 04 2 ” 1 8 lb . .8 7 4 ” 1 0 0 1 ,0 0 0 0 .0 7 #

5 0 0 05 Na t u ra l 5 . 8 4 ” . 14 0 ” . 04 9 ” 4 0 lb . 1 .4 3 7 ” 1 0 0 1 ,0 0 0 0 .1 4 # 5 0 5 05 UV B l a ck 5 . 8 4 ” . 14 0 ” . 04 9 ” 4 0 lb . 1 .4 3 7 ” 1 0 0 1 ,0 0 0 0 .1 4 #

5 0 0 06 Na t u ra l 7 . 5 6 ” . 18 0 ” . 05 2 ” 5 0 lb . 1 .8 7 5 ” 1 0 0 1 ,0 0 0 0 .2 9 # 5 0 5 06 UV B l a ck 7 . 5 6 ” . 18 0 ” . 05 2 ” 5 0 lb . 1 .8 7 5 ” 1 0 0 1 ,0 0 0 0 .2 9 #

DT 11 5 0 0 11 Na t u ra l 11 . 2 5 ” . 18 0 ” . 05 2 ” 5 0 lb . 3 .0 6 2 ” 1 0 0 5 0 0 0 .3 8 # 5 0 5 11 UV B l a ck 11 . 2 5 ” . 18 0 ” . 05 2 ” 5 0 lb . 3 .0 6 2 ” 1 0 0 5 0 0 0 .3 8 #

5 0 0 14 Na t u ra l 1 4 .2 5 ” . 18 0 ” . 05 2 ” 5 0 lb . 4 .0 0 0 ” 1 0 0 5 0 0 0 .4 8 # 5 0 5 14 UV B l a ck 1 4 .2 5 ” . 18 0 ” . 05 2 ” 5 0 lb . 4 .0 0 0 ” 1 0 0 5 0 0 0 .4 8 #

St a nd a rd D u ty C a b l e T ie s - N yl on P C 5 97 0

CAT. NO .

UP C CO LO RW T /S TD

MS TRDI A

T EN SI L ES TD

H ea v y D u ty C a b l e T ie s - N yl on P C 5 97 0

5 1 0 14 Na t u ra l 1 5 .0 9 ” . 30 0 ” . 07 6 ” 1 2 0 lb . 4 .0 6 ” 5 0 5 0 0 0 .5 2 # 5 1 5 14 UV B l a ck 1 5 .0 9 ” . 30 0 ” . 07 6 ” 1 2 0 lb . 4 .0 6 ” 5 0 5 0 0 0 .5 2 #

5 1 0 21 Na t u ra l 2 5 .2 5 ” . 34 0 ” . 09 0 ” 1 7 5 lb . 7 .1 8 ” 5 0 5 0 0 0 .8 7 # 5 1 5 21 UV B l a ck 2 5 .2 5 ” . 34 0 ” . 09 0 ” 1 7 5 lb . 7 .1 8 ” 5 0 5 0 0 0 .8 7 #

5 1 0 34 Na t u ra l 3 7 .2 5 ” . 34 0 ” . 09 0 ” 1 7 5 lb . 11 . 0 0 ” 5 0 5 0 0 1 .5 4 # 5 1 5 34 UV B l a ck 3 7 .2 5 ” . 34 0 ” . 09 0 ” 1 7 5 lb . 11 . 0 0 ” 5 0 5 0 0 1 .5 4 #

8 1 7 05 Gr a y 4 8 .5 6 ” . 34 0 ” . 09 0 ” 1 7 5 lb . 1 4 .5 0 ” 5 0 5 0 0 1 .6 5 #

CAT. NO. UP C CO LO RW T/S TD

MS TRS CRE W

DI AT EN SI L E

S TD

M ou n t i n g H ol e C a b l e T ie s - N yl on P C 5 97 0

5 2 0 06 Na t u ra l 8 .0 ” No . 1 0 . 17 7 ” . 05 2 ” 5 0 lb . 1 .7 5 ” 1 0 0 1 ,0 0 0 0 .3 4 # 5 2 5 06 UV B l a ck 8 .0 ” No . 1 0 . 17 7 ” . 05 2 ” 5 0 lb . 1 .7 5 ” 1 0 0 1 ,0 0 0 0 .3 4 # 5 2 0 14 Na t u ra l 1 4 .5 ” No . 1 0 . 17 7 ” . 05 3 ” 5 0 lb . 4 .0 0 ” 1 0 0 5 0 0 0 .5 2 #

5 2 5 14 UV B l a ck 1 4 .5 ” No . 1 0 . 17 7 ” . 05 3 ” 5 0 lb . 4 .0 0 ” 1 0 0 5 0 0 0 .5 2 #

CAT. NO. UP C CO LO RW T/S TD

MS TRSCREW S LO T S LO T S TD

M ou n t i n g B a ses - N yl o n P C 5 97 0

5 1 0 75 Na t u ra l No . 4 . 74 ” . 19 ” Ru b b e r . 05 ” . 20 ” 1 0 0 1 ,0 0 0 0 .2 0 # 5 1 0 76 B la ck No . 4 . 74 ” . 19 ” Ru b b e r . 05 ” . 20 ” 1 0 0 1 ,0 0 0 0 .2 0 # 5 11 0 0 Na t u ra l No . 6 . 99 ” . 20 ” Ru b b e r . 06 ” . 20 ” 1 0 0 1 ,0 0 0 0 .5 0 #

5 11 0 2 B la ck No . 6 . 99 ” . 20 ” Ru b b e r . 06 ” . 20 ” 1 0 0 1 ,0 0 0 0 .5 0 #

*Add “ Bul k ” to th e end o f pa r t nu mber fo r Bu l k ba g , See I t em Mas te r M i l -Sp ec ava i l ab l e up on r eques t

D 5

Chem

ical

s &

Tape

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

St a nd a rd D o tt i e P a c k - N yl on P C 5 9 70Ou r s t a nd a r d D ot t ie Pa ck i s a n a sso r tme n t o f 4 0 0 t i e s i n a 3 co mp a r tme n t s t o ra g e b o x a nd i n c lu d e s 20 0 - 4 .1 2 ” , 10 0 - 7 .5 6 ” a n d 1 0 0 - 11 .2 5 ” s i ze s . Ava i la b l e i n bo t h N a tu ra l a nd UV R a te d B la ck .

T e c h

According to the NEC, the area above a drop cei l ing or below a raised floor is an example of an “other (air handl ing) space ”, whereas a plenum is the air carry ing duct i tself which may be located above a drop cei ling or below a raised f loor. Wiring is permitted in both air-handl ing spaces, but only metal l ic wiring systems (and metal l ic cable t ies) are permitted in “plenums ” (ducts). AIR HANDLING TIES are “Suitable for use in air handl ing spaces in accordance with Section 300-22 (C) & (D) of the National Electr ical Code ” . The bag label should contain the UL Listed symbol.

Ta lk

C a b l e T i e P a c k s & A i r H a n d l i n g C a bl e T ie s

CAT. NO .

UP C CO LO RW T/S TD

MS TRPAR T

CONTENTS T EN SI L E DI A S TD

1 5 9 70 Na t u ra l DT 4 2 0 0 4 . 1 2 ” . 09 5 ” . 04 2 ” 1 8 l b . . 87 4 ” 1 2 0 1 .0 5 # DT 6 1 0 0 7 . 5 6 ” . 18 0 ” . 05 2 ” 5 0 l b . 1 .8 7 5 ” DT 11 1 0 0 11 . 2 5 ” . 18 0 ” . 05 2 ” 5 0 l b . 3 .0 6 2 ”

1 5 9 72 UV B l a ck DT 4 B 2 0 0 4 . 1 2 ” . 09 5 ” . 04 2 ” 1 8 l b . . 87 4 ” 1 2 0 1 .0 5 # DT 6 B 1 0 0 7 . 5 6 ” . 18 0 ” . 05 2 ” 5 0 l b . 1 .8 7 5 ” DT 11 B 1 0 0 11 . 2 5 ” . 18 0 ” . 05 2 ” 5 0 l b . 3 .0 6 2 ”

Features:

A i r H a nd l i n g C a b l e T ie s - Ny l on P C 5 96 5A ir h a n d l in g cab l e t i e s a r e UL L is t e d su i ta b l e f o r u se i n a i r h a n d l i n g sp a ce s (P le n u ms) i n a cco rd a n ce w i t h t h e S e c t i o n 3 0 0 . 2 2 (C ) a n d (D ) o f t he Na t i on a l E l e c t r ica l Co d e a n d Ru l e s 1 2 - 01 0 (3 ) , (4 ) , a nd (5 ) a n d 1 2 - 02 0 o f th e Ca n a d ia n E l e c t r i ca l Co d e , P ar t 1 .

CAT. NO .

UP C CO LO R W T/ S TDMS TRT EN SI L EDI A

S TD

8 1 2 06 B ur g u nd y 7 .5 6 ” . 18 0 ” . 05 2 ” 5 0 l b . 1 .8 7 5 ” 1 0 0 1 0 0 0 0 .2 9 #DT P 11 8 1 2 07 B ur g u nd y 11 . 2 5 ” . 18 0 ” . 05 2 ” 5 0 l b . 3 .0 6 2 ” 1 0 0 5 0 0 0 .3 8 #

8 1 2 08 B ur g u nd y 1 4 .2 5 ” . 18 0 ” . 05 2 ” 5 0 l b . 4 .1 2 5 ” 1 0 0 5 0 0 0 .4 8 #

Features:

M o un t i ng H o l e

8 1 2 09 B ur g u nd y 8 .0 0 ” .1 7 7 ” . 05 2 ” 5 0 l b . 1 .7 5 0 ” 1 0 0 1 0 0 0 0 .3 4 #

C a bl e T i e In st a l l at i on Tool P C 5 96 6

CAT. NO .

UP C DE S CRI P TI ON W T/ S TDMS TRS TD

8 2 0 70 Ca b l e Ti e Te n s io n To o l - A u to ma t ic Cu t O f f 1 1 2 1 .1 2 #

Features:

D 6 CE L EB R AT I N G 5 0 YE A R S

Chemicals

& Tape

P u l l R op e P C 6 0 0 0P ol yp ro p y l e n e Pu l l Ro p e is a l i g h tw e ig h t , s t r on g ro p e th a t is ro t pr o o f a n d un a f f e c te d by wa te r, o i l , ga so l i n e an d mo s t che m i ca l s .

Fe at u re s:

P u l l L i n e P C 6 0 0 0P ul l L i n e is use d to pu l l ro p e th ro u g h con d u i t an d can be use d w i th po w e r f ish i n g sys te ms .

Fe at u re s:

N yl on L i n e P C 6 0 6 0Ny l o n f i sh i ng l i n e w i th a cen t e r fe e d an d fa s t pa yo u t can be pu l l e d i n to th e ru n an d le f t to ad d fu t u re w i re s . Ex ce l l en t re s i s ta n ce to ro t , ab r a s io n , m i l d e w, ma r i n e gr o wt h , pe t ro l e u m pr o d uc t s an d mo s t ch e m i ca l s .

Fe at u re s:CAT. NO. UP C T EN SI L E S TD MS TR W T/ S TD

1 7 8 80 2 1 5 0 ’ 8 5 # 1 1 2 1 .2 3 #

H ea v y D u ty N yl on L i n e P C 6 0 6 0He a vy Ny l o n f i sh l i n e is use d wh e re a h i g h e r te n s i le s t r en g t h is re q u i re d . I t can be pu l l e d in t o th e ru n an d le f t to ad d fu t u re w i re s .

Fe at u re s:

CAT. NO. UP C T EN SI L E S TD MS TR W T/ S TD

1 7 8 81 5 8 0 ’ 3 1 0 # 1 6 1 .0 4 #

P u l l R o p e , P u ll L i n e& N y l o n L i n e

CAT. NO. UP C S IZ E S TDT EN SI L E MS TR W T/ S TD

6 1 3 00 1 /8 ” x 10 0 0 ’ 4 8 # 4 8 0 # 1 4 .0 5 # 6 1 3 05 1 /8 ” x 25 0 0 ’ 4 8 # 4 8 0 # 1 1 0 .5 8 #

6 1 3 02 3 /1 6 ” x 25 0 ’ 7 2 # 7 2 0 # 1 2 .6 9 # 6 1 3 04 3 /1 6 ” x 60 0 ’ 7 2 # 7 2 0 # 1 6 .5 2 #

6 1 3 06 3 /1 6 ” x 10 0 0 ’ 7 2 # 7 2 0 # 1 9 .3 9 # 6 1 3 08 3 /1 6 ” x 12 0 0 ’ 7 2 # 7 2 0 # 1 1 0 .6 2 # 6 0 3 14 3 /1 6 ” x 30 0 0 ’ 7 2 # 7 2 0 # 1 2 3 .4 7 # 6 0 3 16 3 /1 6 ” x 36 0 0 ’ 7 2 # 7 2 0 # 1 3 0 .7 8 #

6 1 3 10 1 /4 ” x 25 0 ’ 11 3 # 11 3 0 # 1 4 .9 9 # 6 1 3 12 1 /4 ” x 60 0 ’ 11 3 # 11 3 0 # 1 8 .9 6 #

6 1 3 14 1 /4 ” x 10 0 0 ’ 11 3 # 11 3 0 # 1 1 5 .7 2 # 6 1 3 16 1 /4 ” x 12 0 0 ’ 11 3 # 11 3 0 # 1 1 7 .8 4 # 6 1 3 13 1 /4 ” x 24 0 0 ’ 11 3 # 11 3 0 # 1 3 4 .0 2 # 6 1 3 15 1 /4 ” x 40 0 0 ’ 11 3 # 11 3 0 # 1 5 1 .5 4 #

6 1 3 18 3 /8 ” x 30 0 ’ 2 4 3 # 2 4 3 0# 1 8 .9 3 # 6 1 3 20 3 /8 ” x 60 0 ’ 2 4 3 # 2 4 3 0# 1 1 8 .5 5 #

6 1 3 22 3 /8 ” x 12 0 0 ’ 2 4 3 # 2 4 3 0# 1 3 6 .9 2 # 6 0 3 12 3 /8 ” x 25 0 0 ’ 2 4 3 # 2 4 3 0# 1 7 0 .0 0 # 6 0 3 18 3 /8 ” x 36 0 0 ’ 2 4 3 # 2 4 3 0# 1 111 .0 0 #

6 1 3 24 1 /2 ” x 30 0 ’ 3 7 8 # 3 7 8 0# 1 1 6 .9 8 # 6 1 3 26 1 /2 ” x 60 0 ’ 3 7 8 # 3 7 8 0# 1 3 3 .1 0 #

6 1 3 28 1 /2 ” x 12 0 0 ’ 3 7 8 # 3 7 8 0# 1 6 2 .2 2 #

L OAD

CAT. NO .

UP C S TDT EN SI L E MS TR WT / ST DL OAD

CO LO R

1 5 7 45 B lu e / Wh i t e 6 5 0 0 ’ 2 0 # 2 0 0 # 1 1 0 .0 0 # 1 5 7 47 B lu e / Wh i t e 6 5 0 0 ’ Pa i l 2 0 # 2 0 0 # 1 11 . 6 5 #

H e avy Du t y

2 7 5 06 Re d / Wh i t e 2 2 0 0 ’ Pa i l 5 0 # 5 0 0 # 1 1 2 .6 6 #

D 7F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Chem

ical

s &

Tape

P ol yes ter P u l l L in e- M ea su r i ng Ta p e P C 60 10

P ol ye s t e r pu l l l i n e /me a su r i n g t a p e i s a ve ry s t r o n g syn t he t i c w i t h e x ce l l e n t a b ra s i o n r e s is t a n ce. Po l ye s te r d o e s n o t h a ve th e s t re t ch a n d e l a s t i c i ty o f n y l on , bu t i s su p er i or t o ny l o n w i th re sp e c t to cyc l e l o ad i n g a n d ab r a s io n . P re - lu b e d a n d lo w f r i c t io n , i t p ro v i d e s a so f t e r f ee l fo r e a s i er ha n d l in g b y l i n em en .

Fe at u re s:CAT. NO. UP C S IZ E T EN SI L E S TD MS TR W T/ S TD

2 7 5 57 1 /2 ” x 5 0 0 ’ 1 2 5 0# 1 6 .2 8 # 2 7 5 58 1 /2 ” x 1 5 0 0 ’ 1 2 5 0# 1 1 6 .7 8 # 2 7 5 59 1 /2 ” x 3 0 0 0 ’ 1 2 5 0# 1 2 8 .2 5 #

2 7 5 00 5 /8 ” x 5 0 0 ’ 1 8 0 0# 1 8 .7 8 # 2 7 5 01 5 /8 ” x 1 5 0 0 ’ 1 8 0 0# 1 2 2 .2 0 # 2 7 5 02 5 /8 ” x 3 0 0 0 ’ 1 8 0 0# 1 3 6 .4 5 #

2 7 5 03 3 /4 ” x 5 0 0 ’ 2 5 0 0# 1 1 3 .5 0 # 2 7 5 04 3 /4 ” x 1 5 0 0 ’ 2 5 0 0# 1 2 7 .5 0 # 2 7 5 05 3 /4 ” x 3 0 0 0 ’ 2 5 0 0# 1 4 8 .4 2 #

6 1 3 31 1 /4 ” x 3 0 0 0 ’ 4 0 0 # 1 1 4 .0 0 #

C on d u it M ea s u r i ng Ta p e P C 6 0 3 1

Co n d u i t me a sur i n g t ap e a l l o ws yo u t o f i sh a n d me a su r e co n d ui t r u n s i n o n e o p e ra t i on . I t i s se qu e n t ia l l y ma r ke d i n o n e f o o t i n c re me n ts a n d ma d e o f s t r on g wa t e rp ro o f p o l ye s te r. I t ma y b e f i sh e d i n to co n d ui t a n d a l l o we d to re ma i n o ve r a n e x t en d e d pe r io d o f t i me fo r f ur th e r u se .


UP C T EN SI L E S TD MS TR W T/ S TD

3 0 0 00 3 0 0 0 ’ 1 4 # 1 4 0 # 1 4 4 .1 8 #

L OAD

C o n d u it M e a s u r i n g Ta p e , P u l l L i ne & P re m is e Ta p e

3 - i n- 1 - P re m i se M UL ETAP E P C 6 0 1 2

T h is h ig h q u al i ty p u l l i n g t a p e su b s ta n t i a l l y r e d u ces ca b le i n s ta l la t i o n l a bo r, ma t er i a l , a n d in ve n t or y co s t s b y p ro v i d in g th r e ad i n g l i n e , me a sur i ng t ap e , a n d w i n ch l i n e a l l i n o n e pr o d uc t .

Fe at u re s:

CAT. NO. UP C S IZ E T EN SI L E S TD W T/ S TD

8 2 3 37 1 /4 ” x 4 5 0 0 ’ 3- i n- 1 4 0 0 l b . 1 1 4 .0 0 # P re m i se Mu l e ta p e -P a i l

8 2 3 38 5 /8 ” x 1 3 0 0 ’ 3- i n- 1 1 8 0 0 l b . 1 1 3 .3 0 # P re m i se Mu l e ta p e -P a i l

MS TR

Chemicals

& Tape

“ B U I L D I N G A B ET T E R B R A N D ”D 8

L i ne P a c k a ge s P C 6 0 5 0

CAT. NO. UP C S TDCO LO R MS TR W T/ S TD

L i ne pa cka g e s com bi n e p i s t o n an d s t r in g in a s in g l e pa cka g e . Wi t h a p o r t a b l e b l o we r you can b l o w or vacu u m th e ny l o n l i n e an d pu l l a ro p e t hr o u gh .

Fe at u re s:

T e c h

Quick S t i cks sc rew t oge the r t o r each f u l l o r desi red leng th . Use t o f i sh w i r es t hr ough wa l ls , under f loor s, over suspended ce i l ings and in to many o the r conf ined spaces. Qu ick S t i cks w i l l f lex up t o 90° w i thou t b reaki ng . Made f rom h igh s t r eng th , l ow we igh t f iber g lass mate r ia l . Qu ick S t i cks a re i dea l f or pu l l ing and s t r inging comm un ica t ion w i r es, a la rm system wi r es, r omex , t e l ephone and the rmos ta t w i r e . Ava i lab le a t t achment s a re ; Pu l l i ng Hooks , Pu l l i ng Eyes and Whisk Heads . Our g low i n the da rk ve rs ion i s avai lable i n 3 /16 ” & 1 /4 ” d iamete r. Fo r use in p lenum s. See page E15 .

Ta lk

P ow er F i sh i n g P i st on s P C 6 0 4 0

P ow e r f i sh i ng p i s t o n s ar e use d w i th a po w e r vacu u m or b l o we r to pu l l l in e th ro u g h a con d u i t ru n . I t f i t s mo s t con d u i ts 1 / 2 ” th ro u g h 6 ” . T h e 1 /2 ” , 3 / 4 ” & 1 ” s ize s ha ve me ta l pu l l i ng eye s at bo t h en d s . O th e r s ize s h a ve a ho o k on on e en d an d an eye on th e op p o s i te en d . To u g h fo a m p i s to n c le a n s i t s ow n pa t h an d pr o v id e s an a i r - t ig h t sea l .

Fe at u re s:

L i ne P a c ka g e s & P o w e r F i s h in g P i s t o n s

3 2 2 20 1 /2 ” x 75 ’ Re d 1 0 1 0 0 0 .0 9 # 3 2 2 02 1 /2 ” x 15 0 ’ Re d 1 0 1 0 0 0 .1 2 #

3 2 2 04 3 /4 ” x 75 ’ Ye l l o w 1 0 1 0 0 0 .0 9 # 3 2 2 06 3 /4 ” x 20 0 ’ Ye l l o w 5 5 0 0 .0 8 # 3 2 2 08 3 /4 ” x 30 0 ’ Ye l l o w 5 2 5 0 .1 3 # 3 2 2 10 3 /4 ” x 45 0 ’ Ye l l o w 5 2 5 0 .1 8 #

3 2 2 12 1 ” x 75 ’ W h i t e 1 0 5 0 0 .0 9 # 3 2 2 14 1 ” x 20 0 ’ W h i t e 5 5 0 0 .1 0 # 3 2 2 16 1 ” x 30 0 ’ W h i t e 5 2 5 0 .1 4 # 3 2 2 18 1 ” x 45 0 ’ W h i t e 5 2 5 0 .1 7 #

CAT. NO. UP C S TD MS TR W T/ S TD

3 2 0 30 1 /2 ” Co n d ui t 5 2 5 0 .1 9 # 3 2 0 32 3 /4 ” Co n d ui t 5 2 5 0 .2 0 #

3 2 0 34 1 ” Co n d ui t 5 1 0 0 .2 1 # 3 2 0 36 1 -1 / 4 ” Co n d ui t 2 1 0 0 .3 2 # 3 2 0 38 1 -1 / 2 ” Co n d ui t 1 5 0 .2 7 # 3 2 0 40 2 ” Co n d ui t 1 5 0 .4 3 #

3 2 0 42 2 -1 / 2 ” Co n d ui t 5 0 .4 3 # 3 2 0 44 3 ” Co n d ui t 5 0 .5 7 # 3 2 0 46 3 -1 / 2 ” Co n d ui t 2 0 .5 0 # 3 2 0 48 4 ” Co n d ui t 2 0 .5 5 # 3 2 0 50 5 ” Co n d ui t 2 0 .6 3 # 3 2 0 52 6 ” Co n d ui t 2 0 .6 8 #

D 9

Chem

ical

s &

Tape

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

A BS & P VC C em en t P C 6 1 70

L o w VO C (Vo la t i le Org a n i c C o mp ou n d ) A BS & PV C Ce me n t co n fo r m t o S o ut h C o a s t A i r Q ua l i ty Ma n a ge me n t D i s t r ic t r e g u la t io n s (R ul e 11 6 8 ) , an d a re use d fo r e l e c t r i ca l co nd u i t s a n d n o n pr e ssu re a p p l i ca t io n s . A l l co n d ui t s ch e d u l es & c l a sse s t h ro u g h 6 ” . Jo in s A BS t o P VC , A BS t o A B S, P V C to PV C.

Fe at u re s:

P V C C e m e n t / P r im e r, R o o f M a s t i c & D a r k C u t t i n g O i l

A BS & P VC P r i m e r P C 6 1 70

A BS & P V C Pr ime r i s a w at e r t h i n so l ve n t t o b e use d in co n ju n c t io n w i t h P VC ce me n t t o p ro d u ce t h e b e s t P VC j o i n t po ss i b l e . I t a l so a c t s a s a c l e an e r a s we l l a s a p re -so f t en e r, a n d i s su i t a b l e fo r u se o n a l l t ype s , c la sse s , a n d sch e d u l es o f P VC p i p e s a n d f i t t i n gs .

Fe at u re s:

R oof M a st ic P C 6 2 10

P re m i u m g r ad e ro o f ma s t ic ca n b e u sed i n we t or d r y l o ca t i o n s t o p a tch c ra cks & b re a ks , r ep a i r se a ms & j o i n ts a n d f o r sea l i n g f la sh i n g s . I t ad h e re s to a l l su r f a ce s , we t o r d ry a n d f o rms a t i gh t , s t ro n g w ea t h e r t ig h t se a l w h ich s t ays so f t a nd p l i a b l e . Ap p l i e d w i t h a t ro we l o r p u t ty kn i fe , i t w i l l cu r e t o b e a d u ra b l e, re s i l i e n t co a t i n g o f e x ce l l e n t a d h e s io n a nd u n sur p a ssed we a t h er i ng .

Fe at u re s:

D a rk C u tt i n g O i l P C 6 2 20

Da r k C u t t in g O i l i s sp e c i f ica l l y d e s i g ne d fo r t h re a d in g s te e l a n d ca s t i ro n , a n d i s re co mme n d ed f or cu t t i n g fe r r o u s ma t e r i a ls a n d f e r r ou s a l lo ys . I t h a s be e n fo r t i f i e d w i th a ch l o r i n a te d a d d i t i ve wh i ch wo r ks a s a n e x t r e me p re ssu r e a g e n t to a l l o w a n i n c re a se d t o l er a n ce o f a l lo ye d or h a r d- g ra i n e d p i pe . Ca u t i o n : Da r k cu t t i n g o i l co n t a i n s a c t i ve su lp h u r wh i ch w i l l s ta i n n o n - f e r r ou s ma te r i a l s in c l u d i ng co p p er, b r ass , s ta i n le ss .

Fe at u re s:

CAT. NO. UP C CO NT EN TS CO LO R S TD MS TR W T/ S TD

3 0 9 50 P in t C l e a r 1 2 1 4 .6 4 # 3 0 9 55 P in t Gr a y 1 2 1 4 .6 4 # 3 0 9 60 Qu a r t C l e a r 1 2 2 6 .8 8 # 3 0 9 65 Qu a r t Gr a y 1 2 2 6 .8 8 #

CAT. NO. UP C CO NT EN TS CO LO R S TD MS TR W T/ S TD

3 0 9 75 P in t P ur p le 1 2 1 3 .5 6 #

CAT. NO. UP C CO NT EN TS S TD MS TR W T/ S TD

3 0 6 05 1 Q u ar t 1 2 3 0 .6 0 # 3 0 6 10 1 G a l l o n 4 3 8 .5 2 #

1 0 9 20 1 0 o z . C a r t r i g e 1 2 9 .4 8 #

CAT. NO. UP C CO NT EN TS S TD MS TR W T/ S TD

CO 1 2 7 5 25 1 Q u ar t 1 2 2 4 .9 6 # 2 7 5 30 1 G a l l o n 4 3 2 .0 4 #

D 1 0 CE L EB R AT I N G 5 0 YE A R S

Chemicals

& Tape

F ire St op C a u l k i ng C om p ou n d P C 6 16 0

Fe at u re s:

T e c har e wa t er ba se d, f l ex ib le , h ig h l y i n t ume s ce nt , f i re ra te d se a la n t s .

Th ey pr ev en t t he sp re ad o f f i r e an d sm ok e t h ro ug h j o i n ts i n f i re ra te d gy ps um wa l l bo ar d pa r t i t i ons , c on cr e t e b lo ck o r co nc re t e wa l l s an d / or co nc re t e o r co r r ug at ed s t e e l de ck f l oor / ce i l i ng as s emb l i es . MC 15 0 i s a ge ne ra l d r y ca u l k ra te d to a max imum 3 ho ur f i re ra t i n g . Th e 10 00D i s a p r em iu m ca u l k ra t ed t o a max imum 4 ho ur f i re ra t i n g .

pa ds ar e us ed on e le ct r i ca l ou t l e t bo xe s an d ca b in e t s t o ma in ta in t he ho ur l y ra t i n g o f f i re ra te d wa l l s an d t o p r ev en t pa ss ag e o f sm ok e, f l ame an d t ox i c ga se s. Th e pa ds ar e i n t ume s ce nt (s w e l l s wh en he at ed f o rm in g an i ns u la t in g ch ar ) an d ca n be pr es se d i n t o an y sh ap e t o f o rm a wa t e r an d a i r t i g h t se a l . On l y on e 1 / 8 ” pa d i s re qu i red f o r a on e t o t wo ho ur f i re ra t i n g

ar e us ed t o se a l a r ou nd i t ems t ha t pe net r a t e th ro ug h f i re ra te d wa l l s an d f l oor s , i nc lu d ing co ns t ru ct i o n j o i n ts an d b la nk op en ings . I t i s us ed wi t h e le c t r i ca l ca b le s, co nd u i t an d met a l p i p e . F i re s t i c k s a r e ha nd mold ab le w i t h no cu r i n g t ime re qu i red , an d wi l l no t d r y ou t . Th ey ca n be re us ed as ad d i t i on a l pe ne tr a t i ng i t ems ar e re mov ed or i ns t a l l e d .

Ta lk

F i re S t o p / C a u l k, P u t t y P a d s & F i re s t i c k s

CAT. NO. UP C CO NT EN TS CO LO R S TD W T/ S TD

F ire R at ed P u t ty P a d s P C 6 14 0

Fe at u re s:


1 6 3 56 1 0 .3 oz . Re d 2 4 3 0 .2 4 # 1 6 3 86 1 0 .3 oz . Re d 2 4 2 5 .2 0 #

1 6 3 78 6 ” x 7 ” x 1 / 8 ” 2 0 7 .2 0 #

F ire st i c k s P C 6 14 0

Fe at u re s:


1 6 3 80 1 8 cu. in . 1 2 0 .7 7 #

MS TR

MS TR

MS TR

* Soun d r a t i ng ava i l ab l e up on r eques t

D 1 1F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Chem

ical

s &

Tape

I ns ul p a d s P C 6 1 20

I n s u l p a d s , D u c t S e a l , H a nd i- Fo a m & S i l ic o n e S e a l a n t

D u c t S ea l P C 6 1 30Du c t S e a l ( Pr es t “O ” S e a l ) i s u sed t o se a l a ro u n d j u n c t i o n bo x f la sh i n g s , se rv i ce ma s t s , e tc . I t i s h e avy ma s t ic , w h ich i s f l ex i b l e a n d ca n be p re sse d i n t o a n y sh a p e t o f o rm a wa te r a n d a i r t i g h t se a l .

Fe at u re s:

H an d i - F oa m E xp an d i ng Sea l a n t P C 6 1 90 , 6 1 9 1Ha n d i -F o a m i s an e x p a nd i n g se a l a n t wh i ch i s a mo i s tu r e- cu re p o lyu r e th a n e f o a m. I t is u se d t o se a l , b o n d, re t ro f i t , i n su l a t e a n d d e a de n so u nd i n e l e c t r ica l , p l u mb in g , a i r - co nd i t io n i n g a n d re f r i g e ra t io n a pp l i ca t i o n s . I t e x pa n d s 2 t o 3 t i me s i t s ex t ru d e d b e a d , a n d i s ra te d R- 5 f o r ea ch in ch o f fo a m. Sp e c i f i ca l l y d e s ig n e d t o b e d i spe n se d as a b e a d fo r f i l l i ng c ra cks . S u b s t r a te mu s t b e c l e a n, f i r m , f re e o f l o o se p a r t i c l e s a n d d u s t .

Fe at u re s:

RTV S il i c on e S ea l a n t P C 62 0 0


CAT. NO. UP C CO LO R S TD MS TR W T/ S TD

CAT. NO. UP C S IZ E S TD MS TR W T/ S TD

Fe at u re s:

1 5 2 50 1 /8 ” x 6 ” x 8 ” 1 0 0 3 3 .8 0 #

CAT. NO. UP C S IZ E S TD MS TR W T/ S TD

1 7 2 30 1 l b 5 0 5 0 .0 0 # 1 7 2 35 5 l b 1 0 5 0 .0 0 #

9 0 9 80 Ha n d i -F o a m E x p a nd i n g 1 2 1 2 .1 2 # S ea l a n t 1 2 o z .

1 7 3 60 C l e a r 3 o z . Tu b e 1 2 3 .6 0 # 1 7 3 66 C l e a r 8 o z . P re ssu r i ze d C an 1 2 4 .5 3 #

1 7 3 65 C l e a r 1 0 .1 o z . Ca r t r id g e s 1 2 9 .4 8 # 1 0 9 21 W h i t e 8 o z . P re ssu r i ze d C an 1 2 4 .5 3 #

1 7 3 67 W h i t e 1 0 .1 o z . Ca r t r id g e s 1 2 9 .4 8 #

CO NT EN TS DE S CRI P TI ON

Fe at u re s:

F ir e b lo ck l ow p r e ssur e o n e -co mp o n e n t p o lyu r et h a n e f o am se a l a nt i s a mo is t u re cu re d se a l a n t d e s ig n e d t o se a l , f i l l , b o n d a n d s t o p a i r i n f i l t r a t i o n i n a r e as wh e r e a f i re b l o ck p r od u c t i s re q u i r e d . F i r e b l o ck h a s a re co g n iza b l e o r a ng e co lo r a l l ow i ng i nsp e c t o rs to e a s i l y i d en t i fy th e u se o f a n ap p r ove d f i r eb l o ck p r o du c t fo r Typ e V re s i d e n t i a l co n s t r u c t i o n .

Fe at u re s:


1 0 3 53 Ha n d i -F o a m E x p a nd i n g 1 2 1 3 .2 5 # F i r e b lo ck 1 2 o z .

F i re b l o c k - 6 1 9 1

H an d i - F o a m - 6 19 0

Chemicals

& Tape

“ B U I L D I N G A B ET T E R B R A N D ”D 1 2

Tu f T o w e l s , W i p i n g R a g s & Wa re h o u s e S u p p l i e s

Tu f Tow e l s P C 6 25 0Do t t i e Tu f To we l s ar e pe r fe c t on th e jo b s i t e or an yw h er e wa te r is no t re a d i l y a va i l a b l e . Po we r fu l c le a n i n g fo rm ul a com bi n e d w i th un i q u e d i sp e n s i ng can i s t e r a l lo w s fo r s to ra g e an d re -u se of to we l s , ma k in g you r do l l a rs la s t lo n g e r ! To u g h on g r i me , bu t no t you r ha n d s !

CAT. NO .

UP C DE S CRI P TI ON S TD MS TR W T /S TD

4 0 7 75 7 5 Pr e- mo i s te n e d Mu l t i -P ur p o se Ha n d To we l s 6 1 4 .7 5 #

Fe at u re s:

W ip in g R a gs P C 6 2 5 2Ra g s ar e a l l ne w ma te r i a l b l e a ch e d kn i t s . T h ey ar e me di u m we i gh t , ra n d o m s ize , sof t , ab so r be n t , an d ar e a lo w l i n t in g Pr em iu m a l l pu r p os e w i p e r.

CAT. NO .

UP C DE S CRI P TI ON S TD MS TR W T /S TD

11 9 2 2 2 Po u n d Ba g Ne w B l e a ch ed Kn i t Ra g s 1 1 0 2 .1 0 # 8 1 0 63 5 Po u n d Bo x Ne w B l e a ch ed Kn i t Ra g s 1 1 0 5 .1 0 #

Fe at u re s:

Ec o nom y W i p i ng R a gs P C 6 2 5 2E con o my Wi p i n g Ra g s ar e me di u m we i gh t ra n d om s ize d a l l -p u r po se w i p er s .

CAT. NO .

UP C DE S CRI P TI ON S TD MS TR W T/ S TD

Fe at u re s:

8 1 9 13 2 5 Po u n d Bo x of Re cyc l ed Co l or e d T-S h i r ts 1 2 6 .6 5 #

Wa re ho us e Su p p l i es P C 5 4 0 0

CAT. NO. UP C S TD MS TR W T /S TD

S t r et c h F i l m

2 4 0 30 1 8 ” x 15 0 0 ’ 4 3 8 .6 8 # 8 0 Ga u ge St re t ch F i l m F o r Wra p p i ng P al l e t i ze d Pr od u c t s

C ar t o n S ea l in g Tap e

5 9 8 02 2 ” x 11 0 yds 3 6 1 6 .2 0 # C l e a r Po l yp roUse in d i sp e n se r to e a s i l y sea l car to n s

Ta pe D is pe n s er

T D 5 9 8 00 D i sp e n se r On ly 1 1 .1 0 # Ha n d l e s 2 ” w i d e Ca r to n Se a l in g Ta p e

D 1 3

Chem

ical

s &

Tape

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

W ire M a r k er Bo ok s P C 53 0 0

W i re M a r ke r B o o ks , W i re T e r m in a l K i t & Lu m be r C r ay o n s

W ire T er m in a l K i t P C 5 7 30

L u m b er C r ayo ns P C 6 6 30

L u mb e r c ra yo n s a r e u se d t o w r i te o n ca r db o a rd , co n c r e te , l u mb e r ( r ou g h or smo o th ) , me ta l , p a p e r, p l a s t ic , e t c . N ow i n a 3 pa ck Ha n g up Ba g b y co l o r.

Fe at u res :


CAT. NO. UP C S TD MS TR W T/ S TD

Fe at u re s:


W i re M ar ke r Bo o ks ar e a va i l ab l e in a co mb i n at i o n o f i n d u s t r y r eco g n i ze d n u mb e rs , l e t te rs , Ne ma co lo r s a n d le g e n d s . T h e y e l i m in a t e co s t ly t r i a l a n d e r r o r se a rch e s .

1 6 3 00 0 -9 6 0 E a , 0 -4 / 3 0 E a , 5 -9 1 1 0 0 .0 9 # 1 6 3 02 1 -4 5 1 0 E a ch 1 1 0 0 .0 9 #

1 6 3 04 4 6 -9 0 1 0 E a ch 1 1 0 0 .0 9 # DMA Z 1 6 3 06 A -Z , 0 -1 5 , + , - , / 1 0 E a ch 1 1 0 0 .0 9 # DMN C 1 6 3 29 1 0 N EMA Co l o rs 1 0 E a ch 1 1 0 0 .0 9 #

1 6 3 27 B ur g la r /S e cu r i ty A la r m 3 S e t s o f 9 0 1 1 0 0 .0 9 # 1 6 3 28 F i r e /S e cu r i ty A la r m 3 S e t s o f 9 0 1 1 0 0 .0 9 #

11 5 5 4 2 5 0 p c . A sso r t me n t K i t 1 1 0 0 .8 8 #

Fe at u re s:

CO LO R

6 7 5 61 3 R e d L u mb e r Cr ayo n s Re d 1 1 0 0 .2 3 # 6 7 5 71 3 Ye l l o w Lu mb e r C ra yo n s Yel l o w 1 1 0 0 .2 3 # 6 7 5 76 3 B l u e L u mb e r Cr ayo n s B lu e 1 1 0 0 .2 3 #

6 7 5 66 3 B l a ck L u mb e r Cr a yon s B la ck 1 1 0 0 .2 3 #* 1 4 6 50 5 4 B l u e L u mb e r Cra yo n s B lu e 5 4 5 4 0 3 .2 5 #

L u mb e r C r ay o n H o l d er 6 7 5 85 L u mb e r Cra yo n Ho l de r Wal n u t 1 6 0 .0 5 #

* P r ic e per eac h c ra yon


Chemicals

& Tape

M a r k i n g , I n v e rt - A - C a p & A ll P u r p o s e P a i nt s

C on str u c t i on M a r k i ng P a i n t P C 6 18 0Co n s t ru c t io n Ma rk i n g Pa i n t is th e f l a g sh ip of th e l i n e , o f f e r i n g h i g h qu a l i ty pa i n t t ha t is pr i ced com pe t i t i ve l y to me et a var i e t y o f ma rk i n g ap p l i ca t i o n s wh i le pr o v id i n g g o o d co l o r v is i b i l i t y an d du r a bi l i t y.

CAT. NO .

UP C CA N SI ZE S TD MS TR W T /S TD

Fe at u re s:

I nv e rt- A - C a p M a r k i ng P a i n t P C 6 18 0T h e u l t i mat e wr i t in g to o l is in ve r t e d ma rk i n g pa i n t . Use wh e re con t ro l l e d a p p l i ca t io n s ( l e t t e rs an d nu mb e r s ) ar e ne e d e d , in ad d i t io n to l i n e s . Be s t p o s i t i ve de l i ve ry cut o f f an d no n - c lo g g i n g pe r fo r ma nce w i th th e le a s t po ss i b l e t i p p a in t bu i l d -u p .

Fe at u re s:

A l l P u r p os e M a r k i ng P a i n t P C 6 18 0T h is go o d , a l l pu r p ose pa i n t is an eco n o mi ca l l y pr i ced ma rk i n g pa i n t th a t is d e s ig n e d to pr o v id e a ver y cos t -e f f e c t i ve ap p r oa ch to ma rk i n g an d s t i l l pr o v id e s g o o d v is i b i l i t y in th e tw o- mo n th ra n g e.

Fe at u re s:

(N ET ) CO LO R

CAT. NO .

UP C CA N SI ZE S TD MS TR W T /S TD(N ET ) CO LO R

0 0 2 61 1 6 -o z . Ae r o so l (1 2 - oz . ) Re d 1 2 1 4 .0 0 # 0 0 2 62 1 6 -o z . Ae r o sol (1 2 - oz . ) Yel l o w 1 2 1 4 .0 0 # 0 0 2 63 1 6 -o z . Ae r o so l (1 2 - oz . ) B lu e 1 2 1 4 .0 0 # 0 0 2 72 1 6 -o z . Ae r o sol (1 2 - oz . ) F lu o r esce n t Ora n g e 1 2 1 4 .0 0 # 0 0 2 74 1 6 -o z . Ae r o so l (1 2 - oz . ) F lu o r esce n t Gre e n 1 2 1 4 .0 0 # 0 0 2 79 1 6 -o z . Ae r o sol (1 2 - oz . ) F lu o r esce n t P i n k 1 2 1 4 .0 0 #

CAT. NO .

UP C CA N SI ZE S TD MS TR W T /S TD(N ET ) CO LO R

0 1 3 81 2 0 -o z . Ae r o so l (1 5 - oz . ) Re d 1 2 1 5 .0 0 # 0 1 3 82 2 0 -o z . Ae r o sol (1 5 - oz . ) Yel l o w 1 2 1 5 .0 0 # 0 1 3 87 2 0 -o z . Ae r o sol (1 5 - oz . ) W h i t e 1 2 1 5 .0 0 # 0 1 3 90 2 0 -o z . Ae r o sol (1 5 - oz . ) F lu o r esce n t Re d 1 2 1 5 .0 0 # 0 1 3 91 2 0 -o z . Ae r o so l (1 5 - oz . ) F lu o r esce n t Gre e n 1 2 1 5 .0 0 # 0 1 3 92 2 0 -o z . Ae r o sol (1 5 - oz . ) F lu o r esce n t Ora n g e 1 2 1 5 .0 0 # 0 1 3 94 2 0 -o z . Ae r o sol (1 5 - oz . ) B lu e 1 2 1 5 .0 0 # 0 1 3 95 2 0 -o z . Ae r o sol (1 5 - oz . ) Re d - Ora n g e 1 2 1 5 .0 0 #

T he A mer ic an Pub l i c Work s A ssoc ia t ion (A PWA) requ i res pub l i c agenc i es , u t i l i t i es , and con t r ac to rs t ha t exc ava te unde r g round t o use t h is co l o r s t anda r d t o iden t i f y t he loc a t i on and t ype o f sub - su r face u t i l i t i es . A e rvoe I ndus t r ies w as t he f i r s t mark ing pa in t manu fac tu r e r t o p rov ide t he un i f o r m s tanda r d f o r t hese co l o rs , and t he i r p roduc t s s t i l l p r oud ly ca r ry t he o r i g ina l One - C a l l Sy s tems In te rna t iona l t rademar k .

AL L PU RP OSEAP P LI CAT IO N CO NS TR UC TI ON

E le c t r i c Re d 2 5 6 2 6 1 1 3 8 1 Ga s - O i l Yel l o w 2 5 2 * 2 6 2 1 3 8 2 Wat e r B lu e 2 5 4 2 6 3 1 3 8 3* S ew e r Gr e en 2 5 9 – 1 3 8 4* Co mmu n i ca t i o n s / CAT V Or a ng e 2 5 7 * 2 6 5 * 1 3 8 5* P ro p o sed Ex ca va t io n W h i t e 2 5 5 2 6 7 * 1 3 8 7 Re c l a i me d Wa t er P ur p le 2 6 0 * – –Te mp o ra ry Su rve y Ma rk i n g P in k 2 4 9 2 7 9 1 3 9 9*

* Spec ia l O rd er

0 0 2 46 2 0 -o z . Ae r o so l (1 7 - oz . ) F lu o r esce n t Re d 1 2 1 8 .0 0 # 0 0 2 47 2 0 -o z . Ae r o sol (1 7 - oz . ) F lu o r esce n t Ora n g e 1 2 1 8 .0 0 # 0 0 2 49 2 0 -o z . Ae r o sol (1 7 - oz . ) F lu o r esce n t P i n k 1 2 1 8 .0 0 # 0 0 2 54 2 0 -o z . Ae r o sol (1 7 - oz . ) B lu e 1 2 1 8 .0 0 # 0 0 2 55 2 0 -o z . Ae r o sol (1 7 - oz . ) W h i t e 1 2 1 8 .0 0 # 0 0 2 56 2 0 -o z . Ae r o sol (1 7 - oz . ) Re d 1 2 1 8 .0 0 # 0 0 2 58 2 0 -o z . Ae r o sol (1 7 - oz . ) H i - V is Yel l o w 1 2 1 8 .0 0 # 0 0 2 59 2 0 -o z . Ae r o sol (1 7 - oz . ) Gr e en 1 2 1 8 .0 0 # 0 0 2 83 2 0 -o z . Ae r o sol (1 7 - oz . ) F lu o r esce n t Re d -Or g . 1 2 1 8 .0 0 #

C l e ar C o at

0 0 2 00 2 0 -o z . Ae r o so l (1 5 - oz . ) C l e a r Co a t 1 2 1 5 .0 0 #

D 1 5F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Chem

ical

s &

Tape

R u st P roof P a i n t So l v en t B a sed P C 6 1 80

R u s t P ro o f P a in t & C o l o r S e l e c t o r

Fe at u re s:

Hi g h -p e r f o rma n ce Ru s t P ro o f so l ve nt -b a se d f o rmu l a t io n w i th s t a n ds co r r o s io n a nd e x p o sur e f ro m m i l d t o mo d e ra t e co n d i t i o n s w hi l e ma i n ta i n i n g h i gh g l oss l e ve l s . W i d e co l or se l e c t io n in c l u d e s OS HA sa fe t y, H VAC , co mme rc i a l a n d se l e c t ed f ac t o ry e q u ip me n t t o u ch- u p co l o rs . I d e al fo r e q u i p men t to u ch -u p / OE M p r od u c t io n a p p l i ca t io n s in d o o rs & o u t , Ru s t P ro o f Pa i n t i s r e s i s ta n t t o m i l d a n d mo d e ra t e e n v i r o n me nt s in c l u d in g i n t e rm i t te n t e x p o su re to wa t er, sa l t sp ra y, mo i s tu r e a n d

su r f a ce p r ep a r at i o n a n d p r ov i d e s ex ce l l e nt h id i n g ch a ra c t e r i s t i c s w i t h smo o th , e ve n co ve ra g e .

CAT. NO .

UP C CA N SI Z E S TD MS TR W T/ S TD(N ET ) CO LO R

8 1 7 78 1 6 -o z . A e ro so l (1 2 - oz . ) S af e t y P u rp l e 6 7 .0 2 # 0 0 3 01 1 6 -o z . A e ro so l (1 2 - oz . ) S af e t y Re d 6 7 .0 2 # 0 0 3 02 1 6 -o z . A e ro so l (1 2 - oz . ) S af e t y Ye l lo w 6 7 .0 2 # 0 0 3 03 1 6 -o z . A e ro so l (1 2 - oz . ) S af e t y B lu e 6 7 .0 2 # 0 0 3 04 1 6 -o z . A e ro so l (1 2 - oz . ) S af e t y Gr e e n 6 7 .0 2 # 0 0 3 05 1 6 -o z . A e ro so l (1 2 - oz . ) S af e t y Or a n ge 6 7 .0 2 # 0 0 3 06 1 6 -o z . A e ro so l (1 2 - oz . ) S af e t y B la ck 6 7 .0 2 # 0 0 3 07 1 6 -o z . A e ro so l (1 2 - oz . ) S af e t y W h i t e 6 7 .0 2 #

0 0 3 12 1 6 -o z . A e ro so l (1 2 - oz . ) F la t B l a ck 6 7 .0 2 # 8 1 7 79 1 6 -o z . A e ro so l (1 2 - oz . ) Ta n 6 7 .0 2 # 8 1 7 80 1 6 -o z . A e ro so l (1 2 - oz . ) L i gh t B l u e 6 7 .0 2 #

0 0 3 33 1 6 -o z . A e ro so l (1 2 - oz . ) Da r k G ra y /A NS I -3 3 6 7 .0 2 # 0 0 3 49 1 6 -o z . A e ro so l (1 2 - oz . ) Me t er G ra y / AN SI -4 9 6 7 .0 2 # 0 0 3 61 1 6 -o z . A e ro so l (1 2 - oz . ) L i gh t Gra y / AN SI -6 1 6 7 .0 2 #

* Spec ia l O rd er

CAT. NO .

UP C W T/ S TD

CO LO R SE LE CT I ON

Yellow 252*, 262, 1382

White 255, 267*, 1387

Orange 257*, 265*, 1385*

Green 259, 1384*

Blue 254, 263, 1383*

Red 256, 261, 1381

Hi-Vis Yellow 258

Purple 260*

Yellow 252*, 262, 1382

White 255, 267*, 1387

Orange 257*, 265*, 1385*

Green 259, 1384*

Blue 254, 263, 1383*

Red 256, 261, 1381

The printed colors on these pages approximate the appearance of the actual paint colors* Special Order

OSHA Purple 300*

OSHA Red 301

OSHA Yellow 302

OSHA Blue 303

OSHA Green 304

OSHA Orange 305

OSHA Black 306

OSHA White 307*

Radiation Hazard

protection equipment

Caution and physical hazards

Equipment being repaired.Caution against moving or starting

Location of safety equipment

Dangerous parts of machinery or energized equipment

Purple 300*

Light Green 304

Orange 305

Tan 317*

Light Blue 318*

RefrigerantR502

RefrigerantR22

RefrigerantR404A

RefrigerantR409A

RefrigerantR134A

*Special OrderOSHA ColorsThe Occupational Safety and Health Act (OSHA) stipulates that industrial plants provide color coded safety equipment and hazard areas.

HVAC ColorsColor designations are currently used by DuPont® for its refrigerants. Although refrigerant manufacturers make a concerted effort to select colors to differentiate refrigerant types, color guidelines are not a substitute for reading cylinder labels and makings.

T e c h

Inver t - A -Ca p® Be t te r Ex c e l len t 3 -4 Months Exc e l l en t 2 .6 g / sec 350 ’ Inver ted mark i ng pa i n t bes t fo r wr i t i ng too l & c on t r o l l ed s pra y. Non -f r eez i ng fo r mu la ; oper a t i ona l to 14ºF ( -10º C) Con st ruc t i on Be t t e r Exc e l l en t 3 Mon ths Exc e l l en t 3 .2 g / se c. 420 ’ U t i l i t y / l oc a t o r, Mar k ing Pa in t c ons t r uct io n & p r opos ed ex c ava t i on

A l l Purp ose Go od Goo d 2 Mo nths G ood 3 .2 g / se c. 380 ’ P r opos ed Mar k ing Pa in t ex c ava t i on , c ons t r uct io n l ands c ape, u t i l i t y / l oc a to r & s ur vey mar k ing .

* Co ve rage va r i es dep end ing on w id th o f mar k and h i de des i re d .

Ta lk

Chemicals

& Tape

“ B U I L D I N G A B ET T E R B R A N D ”D 1 6

T e f - L u b e , A ll - 4 , C o m p o n e n t & C o n t a c t C l e a ne r s & S a f e t y S o l v e n t

T ef - L u b e P C 6 18 0Te f - L u be ™ is a sup e r io r lu b r i ca n t th a t com bi n e s th e ad va n t a ge s of h i g h -g r a de p e t r o le u m o i l s an d so l ve n t s w i th m ic r o n -s i ze d PT F E to pr o v id e th e f i n e s t mu l t i -co mp o n en t pe n e t ra t in g lu b r i ca n t sys te m ava i l a b le .

CAT. NO. UP C CA N SI ZE S TD MS TR W T /S TD(N ET )

Fe at u re s:

0 0 9 3 8 -o z . Ae r o so l (7 - o z . ) 1 2 8 .0 0 #

A l l - 4 P C 6 18 0T h is is a mo is t u re -d i sp l a c in g , mu l t i pu r p o se lu b r i ca n t th a t Pe n e t r a te s , C l e an s , L u b r i ca te s , an d Pr ot e c t s (me e ts M IL - C-1 6 1 7 3 E gr a d e I I I fo r cor ro s i o n pr o te c t i on ) .


Fe at u re s:

0 7 3 40 1 6 -o z . Ae r o sol (1 0 - oz . ) 1 2 1 2 .0 0 #

El e c tro n i c C om p on en t C l e an er P C 6 18 0T h is ch l o r i n a t ed c le a n e r is HCF C- 1 4 1 b f r ee wh i le be i n g no n - f l a mma b le an d no n - ozo n e d e p le t i ng . Wi t h a d i e l e c t r ic s t r en g t h of 26 kV/ mm an d KB va l u e of 66 , th i s on e p ro d u c t ma kes th e be s t cho i ce fo r you r c le a n i n g ne e d s of sen s i t ive e l e c t ro n i cs an d mo s t p l a s t ic pa r ts .


Fe at u re s: 0 8 3 77 1 6 -o z . Ae r o sol (1 4 - oz . ) 1 2 1 6 .0 0 #

Off - L in e C on ta c t C l e an er P C 6 18 0W i th a KB va l u e of 29 an d le ss th a n 10 % IPA , th i s is an ex ce l l e n t pr o d uc t to c le a n n o n -e n e rg i ze d eq u i p me n t .


Fe at u re s:

0 8 2 76 1 0 .9 - oz . Ae r o sol (1 6 - oz . ) 1 2 1 2 .0 0 #

N fp Sa f et y So l v en t P C 6 18 0T h is qu i ck dr y i ng , no f l a sh po i n t (N f p ) pr o d uc t re mo ve s gr e a se de p o s i ts , o i l , me t a l l i c pa r t i c l e s , car b o n du s t , an d ot h e r da n g e ro u s ma te r i a l s , an d pr e ve nt s cos t l y f la sh -o ve r s .


Fe at u re s:

0 8 0 60 2 0 -o z . Ae r o so l (2 0 - oz . ) 1 2 2 1 .0 0 #

D 1 7

Chem

ical

s &

Tape

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

D e g re a s e r, S a fe t y S o l v e n t , D u s t A i r, R u s t - S o l v & L u b r i c a n t

L f p C l e an er / D e grea se r H . D . P C 6 1 80T h is fa s t -d r y in g , i n d u s t r ia l s t r e ng t h so l ve n t i s i n e x p en s i ve a n d id e a l f o r c l ea n i n g a n d d e g re a s in g . R e mo ve s g re a se , o i l , wa x an d o th e r co n ta m i n a n ts w i t ho u t l e a v i ng a re s i d u e . Ha s lo w f l ash p o in t ( L fp ) ,

CAT. NO. UP C CA N SI Z E S TD MS TR W T/ S TD(N ET )

Fe at u re s:

0 0 3 99 2 0 -o z . A e ro so l (1 5 - oz . ) 1 2 1 7 .0 0 #

D u st A ir P C 6 1 80A p u re , no n - CF C co nt ro l l e d a i r so ur ce t h a t re mo ve s d us t an d a i r b o rn e co n t a m in a n t s f ro m de l i ca te in s t ru me n t s w i t h o u t sc ra t ch in g th e sur fa ce .


Fe at u re s:

0 0 4 20 1 2 -o z . A e ro so l (1 0 - oz . ) 6 6 .0 0 #

P e rf or m a n c e B l en d R u st- S ol v P C 6 1 80Qu i ck l y l o o se ns ru s t w h i l e p en e t ra t in g g re a se a n d d i r t . Th i s pr o d uc t is n o t a l u b r i ca n t , b u t a d e e p p e n e t ra n t ma d e f o r f r e e i n g se i ze d a n d / o r f r oze n p a r t s a n d a sse mb l i es .


Fe at u re s:

0 0 9 50 1 6 -o z . A e ro so l (1 2 - oz . ) 1 2 1 4 .0 0 #

S i l i c on e L u b r i c a nt P C 6 1 80P ro v i de s n o n -s t a i n i n g, lo n g la s t i ng l ub r i cat i o n.


Fe at u re s:

0 8 0 34 1 6 -o z . A e ro so l (1 0 . 5 -o z . ) 1 2 1 2 .0 0 #

M a r k in g S t i c k P C 6 1 80


Fe at u re s:

0 0 2 45 Ma rk i n g S t ic k 1 2 .0 0 #


Chemicals

& Tape

C u t t i n g O i l , G a l v a n i z e , E p o x y C o at i n g & Wa s p S p r ay

C u tt in g O i l P C 6 18 0T h is no n - f l a mma b le , wa te r - ba se d cut t in g o i l imp r o ves me ta l cut t in g op e r at i o n s an d i n c re a se s ef f i c i en c i e s in ma chi n i n g op e r at i o n s .


Fe at u re s:

0 0 8 90 1 6 -o z . Ae r o so l (1 3 - oz . ) 1 2 1 4 .0 0 #

Z i n c R i c h Ga l v a n iz e P C 6 18 0I de a l fo r use on sur fa ce s th a t ar e ex p o se d to seve r e cor ro s i ve con d i t io n s in c l u d in g s t ru c tu r a l s te e l , fe n c i n g, au t o mo b i l e s , gu a r d ra i ls , an d br i dg e s .


Fe at u re s:

0 7 0 07 1 6 -o z . Ae r o so l (1 3 - oz . ) 1 2 1 4 .0 0 #

R ed I ns u l at i n g E p ox y P C 6 18 0A to u g h f l e x i b l e coa t i n g th a t pr o te c t s an d in su l a te s ex p o se d w i re s an d e l e c t r i ca l w i n d i ng s .


Fe at u re s:

0 0 4 01 1 6 -o z . Ae r o so l (1 2 . 5 -o z . ) 1 2 1 4 .0 0 #

H or ne t & Wa sp Sp ray P C 6 18 0F a s t - ac t i n g po w e r f u l ae r o sol sat u ra t e s in s t a n t l y to e l i m i n at e ho r n et s , wa sp s , an d ye l lo w ja cke t s .


Fe at u re s:

0 0 8 63 2 0 -o z . Ae r o so l (1 5 - oz . ) 1 2 1 7 .0 0 #

TOOL

S &

SPEC

IALT

Y IT

EMS

Tools & Specialty Items SECTION E

Tools & S

pecia

lty Ite

ms


Tools & Specialty Items SECTION

E

E 1

Tool

s &

Spe

cial

ty It

ems

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

S t e p D r il l s

T i p - B i ts TM P C 6 3 7 5

Do t t i e Ti p -B i ts ar e s te p dr i l l b i t s w i th a re p la ce a b l e t i p . Ra th e r th a n t hr o w i n g aw a y a go o d b i t th a t ju s t wo n ’ t s ta r t a ho l e , th e f i r s t fe w s te p s ca n be re p la ce d ma k in g th e dr i l l b i t s ta r t l i ke ne w ag a i n .

Fe at u re s:

8 1 2 10 Re p l a ce ab l e T i p - 2 Pa ck 1 /4 ” 1 1 5 0 .1 0 # F i t s a l l T i p B i t s . Ca n a l so be use d as a 1 /4 ” - 1 / 2 ” S t e p Dr i l l 5 / 3 2 ” , 1 / 4 ” 5 /1 6 ” , 3 / 8 ” 7 / 1 6 ” 1 / 2 ”

8 1 2 11 1 /4 ” - 7 / 8 ” Ba se & T i p 1 /4 ” 1 5 0 .2 0 # 9 / 1 6 ” 1 1 /1 6 ” , 3 / 4 ” , 1 3 /1 6 ” , 7 / 8 ”

8 1 2 12 1 /4 ” - 1- 1 /8 ” Ba se & Ti p 1 /4 ” 1 5 0 .3 0 # 19 / 3 2 ” 2 1 /3 2 ” , 3 / 4 ” , 1 3 /1 6 ” , 7 / 8 ” , 1 5 /1 6 , 1- 1 /3 2 ” , 1 -1 / 1 8 ”

8 1 2 13 1 /4 ” - 1- 3 /8 ” Ba se & Ti p 1 /4 ” 1 5 0 .5 0 # 5 / 8 ” , 3 / 4 ” , 7 /8 ” , 1 ” , 1- 1 /1 6 ” , 1 -3 / 1 6 ” , 1- 1 /4 ” , 1 -5 / 1 6 ” , 1- 3 /8 ”

8 1 2 14 1 /4 ” 1 4 0 .5 5 # 1 /4 ” - 1 / 2 ” Ex t ra T i p 1 /4 ” - 7 / 8 ” Ba se & T i p 1 /4 ” - 1- 1 /8 ” Ba se & T i p

E 2 CE L EB R AT I N G 5 0 YE A R S

Tools &

Specialty Item

s

D r il l / Ta p / C ou n ter s i n k H ex B it K i t P C 6 34 8


Fe at u re s:

D r i l l/ Ta p , S c re w R e m o v a l K it s & N u t D r iv e r

1 2 8 70 Dr i l l / Tap / Co u n t er s i nk 1 1 0 0 .3 0 # He x B i t K i t

R e p l ac e me n t B i t s

1 2 8 80 6-32 Dri l l & Tap B i t 1 1 0 0 .0 2 0 # 1 2 8 81 8-32 Dri l l & Tap B i t 1 1 0 0 .0 2 0 # 1 2 8 82 1 0 -2 4 Dr i l l & Tap B i t 1 1 0 0 .0 2 0 # 1 2 9 00 1 0 -3 2 Dr i l l & Tap B i t 1 1 0 0 .0 2 0 # 1 2 8 84 1 2 -2 4 Dr i l l & Tap B i t 1 1 0 0 .0 2 0 # 1 2 8 85 1 /4 - 2 0 Dr i l l & Tap B i t 1 1 0 0 .0 2 0 #

P ro Gr ab i t - Sc re w R em o v al K i t P C 6 35 2


Fe at u re s:

8 1 9 67 3 -P i ece Pr oG ra b i t 1 1 0 0 .2 0 # S c re w Re mo va l K i t

R e p l ac e me n t B i t s

8 1 9 68 # 4 -# 7 Pr oG ra b i t 1 1 0 0 .0 5 # Re p l a ce me nt B i t

8 1 9 69 # 6 -# 1 0 Pr oG ra b i t 1 1 0 0 .0 5 # Re p l a ce me nt B i t

8 1 9 70 # 1 2 -# 1 4 Pr oG ra b i t 1 1 0 0 .0 5 # Re p l a ce me nt B i t

P ro Gr ab i t wo rks on da ma g e d sc re ws an d br o ke n bo l t s f r om as sma l l as a No . 4 sc re w to as la r ge as a 3/ 8 ” bo l t .

P ow er W i re N u t D r iv e r P C 6 7 0 0

T h is mu l t i pu r p o se to o l w i l l ha n d l e mo s t br a n ds of w i re co n n ec t o rs . Use d in a po w e r dr i l l or sc re wd r ive r i t save s we a r a n d te a r on wr i s t s an d f i n g e rs . Ma de of h i g h imp a c t p l a s t ic w i th a 1 /4 ” me t a l sha n k .


UP C DE S CRI P TI ON S TD MS TR W T/ S TD

2 4 1 00 P ow e r Dr i ve r w i th 1 / 4 ” Sh a n k 1 1 0 0 .0 7 #

E 3F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Tool

s &

Spec

ialt

y It

ems

H ig h S p ee d Ste el D r i l l s P C 6 37 5

su i ta b l e f o r s te e l , s te e l fo rg i n g , ca s t i ro n an d o th e r wo r k ma t e r i a ls .

Fe at u re s:

8 2 1 24 Carded 5 pack - 1/16” High Speed Steel Drills 1 6 . 03 # 8 2 1 25 Carded 5 pack - 5/64” High Speed Steel Drills 1 6 . 04 # 8 2 1 26 Carded 4 pack - 3/32” High Speed Steel Drills 1 6 . 05 # 8 2 1 27 Carded 4 pack - 7/64” High Speed Steel Drills 1 6 . 07 # 8 2 1 28 Carded 4 pack - 1/8” High Speed Steel Drills 1 6 . 09 # 8 2 1 29 Carded 4 pack - 9/64” High Speed Steel Drills 1 6 . 11 #

8 2 1 30 Carded 3 pack - 5/32” High Speed Steel Drills 1 6 . 14 # 8 2 1 31 Carded 3 pack - 11/64” High Speed Steel Drills 1 6 . 19 # 8 2 1 32 Carded 3 pack - 3/16” High Speed Steel Drills 1 6 . 24 # 8 2 1 33 Carded 2 pack - 13/64” High Speed Steel Drills 1 6 . 27 # 8 2 1 34 Carded 2 pack - 7/32” High Speed Steel Drills 1 6 . 32 # 8 2 1 35 Carded 2 pack - 15/64” High Speed Steel Drills 1 6 . 37 # 8 2 1 36 Carded 2 pack - 1/4” High Speed Steel Drills 1 6 . 44 #

M ult ipl e Dr i l l s pe r C a r d

H ig h S p ee d Ste el D r i l l K i ts P C 6 3 30

su i ta b l e f o r s te e l , s te e l fo rg i n g , ca s t i ro n an d o th e r wo r k ma t e r i a ls .

Fe at u re s:

6 6 5 00 1 3 p c . se t 1 /1 6 ” -1 / 4 ” x 6 4 th 1 1 0 0 .7 1 0 # 6 6 5 50 2 1 p c . se t 1 /1 6 ” -3 / 8 ” x 6 4 th 1 1 0 1 .5 8 0 # 2 9 8 50 2 9 p c . se t 1 /1 6 ” -1 / 2 ” x 6 4 th 1 1 0 3 .1 0 0 #

H ig h S p ee d Ste el D i a l - a - D r i l l K i t P C 6 3 40

Fe at u re s:

6 7 5 10 1 3 p c . se t 1 /1 6 ” -1 / 4 ” x 6 4 th 1 1 0 0 .3 2 0 #

H i g h S p e e d D r i ll s & K it s

* Drill Bits available in bulk - Drop the ‘C ’ - check your Price Master

8 2 1 37 Carded 1 pack - 17/64” High Speed Steel Drills 1 6 . 74 # 8 2 1 38 Carded 1 pack - 9/32” High Speed Steel Drills 1 6 . 57 # 8 2 1 39 Carded 1 pack - 19/64” High Speed Steel Drills 1 6 . 63 # 8 2 1 40 Carded 1 pack - 5/16” High Speed Steel Drills 1 6 . 74 # 8 2 1 41 Carded 1 pack - 21/64” High Speed Steel Drills 1 6 . 44 # 8 2 1 42 Carded 1 pack - 11/32” High Speed Steel Drills 1 6 . 51 # 8 2 1 43 Carded 1 pack - 23/64” High Speed Steel Drills 1 6 . 53 # 8 2 1 44 Carded 1 pack - 3/8” High Speed Steel Drills 1 6 . 64 # 8 2 1 45 Carded 1 pack - 25/64” High Speed Steel Drills 1 6 . 66 # 8 2 1 46 Carded 1 pack - 13/32” High Speed Steel Drills 1 6 . 69 # 8 2 1 47 Carded 1 pack - 27/64” High Speed Steel Drills 1 6 . 82 # 8 2 1 48 Carded 1 pack - 7/16” High Speed Steel Drills 1 6 . 89 # 8 2 1 49 Carded 1 pack - 29/64” High Speed Steel Drills 1 6 . 93 # 8 2 1 50 Carded 1 pack - 15/32” High Speed Steel Drills 1 6 1 .0 0 # 8 2 1 51 Carded 1 pack - 31/64” High Speed Steel Drills 1 6 1 .0 9 # 8 2 1 52 Carded 1 pack - 1/2” High Speed Steel Drills 1 6 1 .1 5 #

S in g l e Dr i l l s pe r C a r d

Tools &

Specialty Item

s

“ B U I L D I N G A B ET T E R B R A N D ”E 4

C a rb i d e T ip M a so nry D r il l B it s P C 6 32 0

Ma so n ry dr i l l s ha ve tu n g s te n car b id e t i p s an d ar e su i t a b le fo r br i c k , co n c re t e, t i l e , s la t e an d c in d e r b l o ck .

Fe at u re s:

3 0 2 05 3 /1 6 x 4 3 /1 6 ” 1 1 0 0 .0 3 # 3 0 2 10 1 /4 x 4 ” 1 /4 ” 1 1 0 0 .0 4 #

3 0 3 00 1 /4 x 6 ” 1 /4 ” 1 5 0 .0 7 # 3 0 3 02 1 /4 x 12 ” 1 /4 ” 1 5 0 .1 5 #

3 0 2 15 5 /1 6 x 4 ” 1 /4 ” 1 1 0 0 .0 6 # 3 0 2 20 3 /8 x 4 ” 1 /4 ” 1 1 0 0 .0 7 #

3 0 3 04 3 /8 x 6 ” 1 /4 ” 1 5 0 .1 3 # 3 0 3 06 3 /8 x 12 ” 3 /8 ” 1 5 0 .2 9 #

3 0 2 25 7 /1 6 x 4 ” 1 /4 ” 1 5 0 .1 0 # 3 0 2 30 1 /2 x 4 ” 1 /4 ” 1 5 0 .11 #

3 0 3 08 1 /2 x 6 ” 1 /4 ” 1 5 0 .2 1 # 3 0 3 10 1 /2 x 12 ” 3 /8 ” 1 5 0 .4 5 #

3 0 3 12 5 /8 x 6 ” 3 /8 ” 1 5 0 .2 9 # 3 0 3 14 5 /8 x 12 ” 3 /8 ” 1 0 .5 8 #

3 0 3 16 3 /4 x 6 ” 1 /2 ” 1 0 .4 4 # 3 0 3 18 3 /4 x 12 ” 1 /2 ” 1 0 .9 2 #

3 0 3 20 7 /8 x 6 ” 1 /2 ” 1 0 .5 6 # 3 0 3 22 1 x 6 ” 1 /2 ” 1 0 .7 1 #

SD S 4 P l u s R ot ary H a m m er D r il l B it s P C 4 58 0

T h is fa s t , to u g h car b id e t i p pr o v id e s lo n g l i f e , ea sy cen t e r i n g , an d fa s t d r i l l i n g th ro u g h a l l ag g r eg a t e s , con c r e te , ma son r y, br i c k , s to n e an d eve n re b a r ! A dyn a mi c ch i se l -sh a p e d dr i l l he a d en su r es sw i f t pe n e t ra t io n an d f ee d s th e de b r is s imu l t an e o u s l y to th e f l u te sec t i o n . T h e 3 f l u te d , sp a c io u s KV S- sp i r a l re mo ve s th e de b r is ra p id l y f r om th e bo r e ho l e , sa v i ng th e op e r at o r bo t h t i me an d mo ne y.

Fe at u re s: 1 2 2 00 3 /1 6 x 4- 1 /2 ” 2 ” 1 6 0 .0 8 # 1 2 2 01 3 /1 6 x 6- 1 /4 ” 4 ” 1 6 0 .0 9 # 1 2 2 02 3 /1 6 x 8- 1 /4 ” 6 ” 1 6 0 .1 0 #

1 2 2 03 3 /1 6 x 10 ” 8 ” 1 6 0 .1 3 # 1 2 2 04 3 /1 6 x 12 ” 1 0 ” 1 6 0 .1 5 #

1 2 2 05 7 /3 2 x 4- 1 /2 ” 2 ” 1 6 0 .1 0 # 1 2 2 06 7 /3 2 x 6- 1 /4 ” 4 ” 1 6 0 .1 2 # 1 2 2 07 7 /3 2 x 8- 1 /4 ” 6 ” 1 6 0 .1 3 #

1 2 2 08 1 /4 x 4- 1 /2 ” 2 ” 1 6 0 .1 0 # 1 2 2 09 1 /4 x 6- 1 /4 ” 4 ” 1 6 0 .11 # 1 2 2 10 1 /4 x 8- 1 /4 ” 6 ” 1 6 0 .1 4 #

1 2 2 11 1 /4 x 11 ” 9 ” 1 6 0 .1 6 # 1 2 2 12 1 /4 x 14 ” 1 2 ” 1 6 0 .1 9 #

1 2 2 13 5 /1 6 x 6- 1 /4 ” 4 ” 1 6 0 .1 3 # 1 2 2 14 5 /1 6 x 8- 1 /4 ” 6 ” 1 6 0 .1 5 #

1 2 2 15 3 /8 x 6- 1 /4 ” 4 ” 1 6 0 .1 6 # 1 2 2 16 3 /8 x 8- 1 /4 ” 6 ” 1 6 0 .1 9 #

1 2 2 17 3 /8 x 10 - 1 /4 ” 8 ” 1 6 0 .2 3 # 1 2 2 18 3 /8 x 12 - 1 /4 ” 1 0 ” 1 6 0 .2 9 #

1 2 2 19 3 /8 x 18 ” 1 6 ” 1 6 0 .5 0 # 1 2 2 20 1 /2 x 6- 1 /4 ” 4 ” 1 6 0 .1 9 #

1 2 2 21 1 /2 x 10 - 1 /4 ” 8 ” 1 6 0 .2 8 # 1 2 2 22 1 /2 x 12 - 1 /4 ” 1 0 ” 1 6 0 .4 1 #

1 2 2 23 1 /2 x 18 ” 1 6 ” 1 6 0 .7 0 # 1 2 2 24 5 /8 x 6- 1 /4 ” 4 ” 1 6 0 .2 2 #

1 2 2 25 5 /8 x 8 ” 6 ” 1 6 0 .2 8 # 1 2 2 26 5 /8 x 12 ” 1 0 ” 1 6 0 .5 0 # 1 2 2 27 5 /8 x 18 ” 1 6 ” 1 6 0 .8 0 #

1 2 2 28 3 /4 x 9 ” 6 ” 1 6 0 .4 7 # 1 2 2 29 7 /8 x 9 ” 6 ” 1 6 0 .5 4 #

M a s o n ry & S D S 4 P l u sR o t a ry H a m m e r D r il l B i t s

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S h i p A u g e r s , E x t e n s io n s & A u g e r B i t F i le

Sh i p A u ger s P C 6 2 90

S hi p a ug e r s a re ve rsa t i l e , h i g h q u a l i t y d r i l l s w i th a se l f f ee d sc re w p o in t fo r f as t , e f f o r t le ss b o r i n g a n d q u i ck ch i p r e mo va l . D e s ig n e d f or d r i l l i n g t h ro u g h c l e an l u mb er o r w o od wh e re sma l l n a i l s ma y b e e n co un t e re d .

Fe at u re s:

S h o r t

1 4 6 09 9 /1 6 ” 1 6 0 .2 9 # 1 4 6 10 5 /8 ” 1 6 0 .3 4 # 1 4 6 12 3 /4 ” 1 6 0 .3 9 # 1 4 6 13 1 3 /1 6 ” 1 6 0 .4 9 # 1 4 6 14 7 /8 ” 1 6 0 .4 9 # 1 4 6 15 1 5 /1 6 ” 1 6 0 .5 1 # 1 4 6 16 1 ” 1 6 0 .5 7 # 1 4 6 18 1 -1 / 8 ” 1 6 0 .6 9 # 1 4 6 20 1 -1 / 4 ” 1 6 0 .8 0 # 1 4 6 22 1 -3 / 8 ” 1 6 0 .9 0 # 1 4 6 24 1 -1 / 2 ” 1 6 1 .0 1 #

L o n g

2 1 8 09 9 /1 6 ” 1 6 0 .7 5 # 2 1 8 10 5 /8 ” 1 6 0 .8 1 # 2 1 8 12 3 /4 ” 1 6 0 .9 9 # 2 1 8 13 1 3 /1 6 ” 1 6 1 .1 7 # 2 1 8 14 7 /8 ” 1 6 1 .1 7 # 2 1 8 15 1 5 /1 6 ” 1 6 1 .2 1 # 2 1 8 16 1 ” 1 6 1 .4 0 # 2 1 8 18 1 -1 / 8 ” 1 6 1 .6 6 # 2 1 8 20 1 -1 / 4 ” 1 6 2 .0 5 # 2 1 8 22 1 -3 / 8 ” 1 6 2 .2 8 # 2 1 8 24 1 -1 / 2 ” 1 6 2 .6 1 #

Sh i p A u ger & Sp e ed D F ee d Ex te ns io ns P C 6 3 10

E x te n s i o ns a re u sed wh e re a d d i t i on a l re a ch i s re q u i r e d.

Fe at u re s:

A u ger B i t F i l e P C 6 29 1

S pe c i a l ly d e s ig n e d to sha r p en a u g er b i t s f o r lo n g e r cu t t i n g l i fe .

Fe at u re s:

2 1 9 55 5 -1 / 2 ” 7 /1 6 ” 1 6 0 .5 0 # 2 2 0 09 9 ” 7 /1 6 ” 1 6 0 .6 9 #

2 1 9 56 1 2 ” 7 /1 6 ” 1 6 0 .9 5 # 2 2 0 18 1 8 ” 7 /1 6 ” 1 6 1 .2 0 #

2 2 0 24 2 4 ” 7 /1 6 ” 1 6 1 .4 6 #

11 6 3 0 7 ” A ug e r B i t F i l e 1 6 0 .0 4 #

E 6 CE L EB R AT I N G 5 0 YE A R S

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S p a d e D r il l s , B e l l H a n g e rD r i l ls & P i l o t D r il l s

Sp a d e D r il l B it s P C 6 27 0

S pa d e dr i l l s ar e use d fo r bo r in g ha r d wo o d s , sof t wo o d , p l yw oo d an d d ryw a l l . Fu l l y he a t t r ea t e d to ex t e n d b i t l i f e an d in d i v i du a l l y s ta mp e d w i th s i ze .

Fe at u re s:

2 1 7 00 1 /4 ” 6 ” 1 6 0 .0 6 # 2 1 7 02 5 /1 6 ” 6 ” 1 6 0 .1 0 #

2 1 7 04 3 /8 ” 6 ” 1 6 0 .1 0 # 2 1 7 06 7 /1 6 ” 6 ” 1 6 0 .1 0 #

2 1 7 08 1 /2 ” 6 ” 1 6 0 .1 0 # 2 1 7 10 9 /1 6 ” 6 ” 1 6 0 .1 0 #

2 1 7 12 5 /8 ” 6 ” 1 6 0 .1 0 # 2 1 7 14 11 / 1 6 ” 6 ” 1 6 0 .11 #

2 1 7 16 3 /4 ” 6 ” 1 6 0 .11 # 2 1 7 18 1 3 /1 6 ” 6 ” 1 6 0 .1 0 #

2 1 7 20 7 /8 ” 6 ” 1 6 0 .11 # 2 1 7 22 1 5 /1 6 ” 6 ” 1 6 0 .1 2 #

2 1 7 24 1 ” 6 ” 1 6 0 .11 # 2 1 7 26 1 -1 / 8 ” 6 ” 1 6 0 .1 3 # 2 1 7 28 1 -1 / 4 ” 6 ” 1 6 0 .1 3 # 2 1 7 30 1 -3 / 8 ” 6 ” 1 6 0 .1 4 # 2 1 7 32 1 -1 / 2 ” 6 ” 1 6 0 .1 5 #

B el l H a ng er D r il l s P C 6 28 0

B el l ha n g e r dr i l l s ar e use d to dr i l l an d f i sh sma l l ga u g e w i re s . A f t er d r i l l i n g th ro u g h th e s tu d or he a d e r, a w i re is a t t a che d to th e f i sh ho l e in t he f l u te an d th e dr i l l i s re t r a c te d , pu l l i ng th e w i re th ro u g h . Be l l ha n g e rs a re ava i l a b le in a var i e t y o f d i a me t er s an d le n g t hs an d ar e su i t a b le fo rt e l e p h o n e in s t a l l a t io n s , secu r i t y an d cab l e ap p l i ca t i o n s .

Fe at u re s: 2 1 7 50 3 /1 6 ” 1 2 ” 1 6 0 .11 # 2 1 7 52 1 /4 ” 1 2 ” 1 6 0 .1 7 # 2 1 7 54 5 /1 6 ” 1 2 ” 1 6 0 .2 5 # 2 1 7 56 3 /8 ” 1 2 ” 1 6 0 .3 4 # 2 1 7 58 1 /2 ” 1 2 ” 1 6 0 .5 4 # 2 1 7 60 1 /4 ” 1 8 ” 1 6 0 .2 6 # 2 1 7 62 5 /1 6 ” 1 8 ” 1 6 0 .3 9 # 2 1 7 64 3 /8 ” 1 8 ” 1 6 0 .5 5 # 2 1 7 66 1 /2 ” 1 8 ” 1 6 0 .8 7 # 2 1 7 70 1 /4 ” 2 4 ” 1 6 0 .3 5 # 2 1 7 72 5 /1 6 ” 2 4 ” 1 6 0 .5 3 # 2 1 7 74 3 /8 ” 2 4 ” 1 6 0 .7 5 # 2 1 7 76 1 /2 ” 2 4 ” 1 6 1 .2 2 # 2 1 7 78 1 /4 ” 3 0 ” 1 6 0 .3 8 # 2 1 7 80 3 /8 ” 3 0 ” 1 6 0 .8 8 # 2 1 7 82 1 /4 ” 4 2 ” 1 6 0 .6 1 # 2 1 7 84 3 /8 ” 4 2 ” 1 6 1 .3 1 #

P i l ot D r il l s & A c c es sor i es P C 6 39 0

P i l o t dr i l l s ar e ava i l a b le w i th th re e f l a ts or th re e no t ch e s . Se t sc re ws se cu re dr i l l in ar b o r.

Fe at u re s: 2 8 5 40 4 -1 / 2 x 1 / 4 ” P i l o t Dr i l l , 1 1 0 0 .0 5 #

S ha n k Gro u n d 3 S i d e s 2 8 5 45 4 -1 / 2 x 1 / 4 ” P i l o t Dr i l l , 1 1 0 0 .0 5 #

3 No tch e s fo r Se t Sc r ew 2 8 5 50 3 -1 / 1 6 ” P i l o t Dr i l l fo r 1 1 0 0 .0 5 #

V 24 K , V3 4 , & V3 5 P Ar b or s 2 8 5 55 1 2 ” Ex t e n s io n fo r 1 1 0 .8 0 #

7 /1 6 ” A r b o rs 2 8 5 60 A da p t e r Nu t - Ad a p t s Ar b o r 1 1 0 .6 5 #

w i t h 1 / 2 -2 0 th re a d s to f i t Ho l e Sa w w i th 5 / 8 -1 8 T h re a d s

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Sp e ed D Fe ed B it s P C 6 35 5

S pe e d D Fe e d mul t i - sp u r wo o d b o r in g b i t s a r e i d e al fo r b o r i n g l a rg e h o l e s q u i ck ly - f ro m 1 ” th r ou g h 4- 5 /8 ” . T h i s b i t i s e sp e c i a l l y su i te d to e l e c t r i c i an s a n d p l u mb er s .

Fe at u re s:

R e p l ac e me n t S c re w P o in t s

T e c hElect r i c ian ’s F lex- A-B i ts a re spec i f i ca l l y des igned t o fac i l i ta te f i shing w i r es and cab les th rough wa l l s and cei l ings . A se l f feedi ng sc rew poi nt i s pe rmanen t ly b razed to f lex ib le shaf ts .

Ta lk

2 1 9 00 1 ” 1 6 0 .4 4 # 2 1 9 01 1 -1 / 8 ” 1 6 0 .4 7 # 2 1 9 02 1 -1 / 4 ” 1 6 0 .5 0 # 2 1 9 03 1 -3 / 8 ” 1 6 0 .5 0 # 2 1 9 04 1 -1 / 2 ” 1 6 0 .5 6 # 2 1 9 05 1 -3 / 4 ” 1 6 0 .6 3 # 2 1 9 06 2 ” 1 6 0 .7 3 # 2 1 9 07 2 -1 / 8 ” 1 6 0 .8 1 # 2 1 9 08 2 -1 / 4 ” 1 6 0 .9 4 #

2 1 9 09 2 -9 / 1 6 ” 1 6 1 .0 6 # 2 1 9 10 3 ” 1 6 1 .5 0 # 2 1 9 11 3 -5 / 8 ” 1 6 2 .0 0 # 2 1 9 12 4 -5 / 8 ” 1 6 3 .5 0 #

2 1 9 13 1 /4 x 2- 1 /2 ” 1 6 0 .0 1 #(F o r 1 ” t hr u 2 - 9/ 1 6 ” )

2 1 9 14 1 /4 x 2 - 3/ 4 ” 1 6 0 .0 1 #(F o r 3 ” t hr u 4 - 5/ 8 ” )

F l ex - A - B i t P C 6 3 60

F le x A B i ts a re u sed to d r i l l w i t h in wa l l s a n d a r e a b l e t o r ea ch n o rma l l y i n a cce ss ib l e a r ea s t hr o u gh a sma l l o p e n i ng . A f te r (d r i l l i n g) t h ro u g h a s tu d o r h ea d e r, a w i r e i s a t t a che d to th e f i sh h o le i n t h e f lu t e a n d th e d r i l l i s re t ra c t e d p u l l i n g t h e w i r e t h ro u g h . T h e F G3 5 7 F l ex A Gu id e to o l a i d s in p os i t i on i n g t h e b i t .

Fe at u re s:

F l e x - A - B i t T o o l

3 7 0 00 3 /8 x 54 ” 1 6 0 .5 0 # 3 7 0 05 3 /8 x 72 ” 1 6 0 .6 4 # 3 7 0 10 1 /2 x 54 ” 1 6 0 .5 3 # 3 7 0 15 1 /2 x 72 ” 1 6 0 .6 8 # 3 7 0 30 9 /1 6 x 5 4 ” 1 6 0 .5 4 # 3 7 0 35 9 /1 6 x 7 2 ” 1 6 0 .6 8 # 3 7 0 20 3 /4 x 54 ” 1 6 0 .9 5 # 3 7 0 25 3 /4 x 72 ” 1 6 1 .2 2 #

3 7 0 40 A l l 1 6 0 .4 5 #

S p e e d D Fe e d B i t s & Fl e x - A - B i t

Tools &

Specialty Item

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“ B U I L D I N G A B ET T E R B R A N D ”E 8

H ol e Sa w s P C 6 38 0

Va r i a b l e p i t ch ho l e saw s ar e b i - me ta l con s t ru c t i on w i th an M3 HS S cut t in g e d g e wh i ch is la se r we l de d to a spr i ng s te e l ba ck . T h ey w i l l cut to de p t h s of 1 -3 / 8 ” an d w i l l ou t l a s t car b o n s te e l ho l e saw s , wh i le th e to o t h de s i g n re s i s ts sh o ck an d s t r ip p a g e . T h e saw s acce p t s ta n d a rd ar b o rs an d w i l l cut s ta i n le ss s t ee l , i r o n, p i p e , wo o d an d p l a s t ic .

Fe at u re s:

R ec es sed L i gh t i ng H ol e Sa w s P C 6 44 0

K an Cu t saw s ef f e c t ive l y cut th ro u g h s tu cco , la t h an d p l a s t e r or tw o she e t s o f 5 / 8 ” dr ywa l l in on e pa ss to a de p t h of tw o in ch e s . F i t s mo s t ma jo r br a n ds . A rb o r no t in c l u d e d use V4 5 P.

Fe at u re s:

K an - C ut F ix t u re S aw s

2 8 4 00 9 /1 6 ” V 24 K , V3 4 , V4 4 1 1 0 0 .0 8 # 2 8 4 02 5 /8 ” V 24 K , V3 4 , V4 4 1 1 0 0 .0 9 # 2 8 4 04 11 / 1 6 ” V 24 K , V3 4 , V4 4 1 1 0 0 .0 9 # 2 8 4 06 3 /4 ” V 24 K , V3 4 , V4 4 3 /8 ” 1 1 0 0 .0 9 # 2 8 4 08 1 3 /1 6 ” V 24 K , V3 4 , V4 4 1 1 0 0 .11 # 2 8 4 10 7 /8 ” V 24 K , V3 4 , V4 4 3 /4 ” 1 /2 ” 1 1 0 0 .11 # 2 8 4 12 1 5 /1 6 ” V 24 K , V3 4 , V4 4 1 1 0 0 .1 3 # 2 8 4 14 1 ” V 24 K , V3 4 , V4 4 1 1 0 0 .1 4 # 2 8 4 16 1 -1 / 8 ” V 24 K , V3 4 , V4 4 1 ” 3 /4 ” 1 1 0 0 .1 9 # 2 8 4 18 1 -3 / 1 6 ” V 24 K , V3 4 , V4 4 1 1 0 0 .2 0 # 2 8 4 20 1 -1 / 4 ” V 35 P, V4 5 P 1 1 0 0 .2 0 # 2 8 4 22 1 -5 / 1 6 ” V 35 P, V4 5 P 1 1 0 0 .2 1 # 2 8 4 24 1 -3 / 8 ” V 35 P, V4 5 P 1 ” 1 1 0 0 .2 4 # 2 8 4 26 1 -1 / 2 ” V 35 P, V4 5 P 1 1 0 0 .2 8 # 2 8 4 28 1 -5 / 8 ” V 35 P, V4 5 P 1 1 0 0 .3 4 # 2 8 4 30 1 -3 / 4 ” V 35 P, V4 5 P 1 -1 / 2 ” 1 -1 / 4 ” 1 1 0 0 .2 3 # 2 8 4 32 1 -7 / 8 ” V 35 P, V4 5 P 1 1 0 0 .2 7 # 2 8 4 34 2 ” V 35 P, V4 5 P 1 -1 / 2 ” 1 1 0 0 .2 9 # 2 8 4 36 2 -1 / 8 ” V 35 P, V4 5 P 1 1 0 0 .3 3 # 2 8 4 38 2 -1 / 4 ” V 35 P, V4 5 P 2 ” 1 1 0 0 .3 6 # 2 8 4 40 2 -5 / 1 6 ” V 35 P, V4 5 P 1 1 0 0 .3 3 # 2 8 4 42 2 -3 / 8 ” V 35 P, V4 5 P 1 1 0 0 .3 3 # 2 8 4 44 2 -1 / 2 ” V 45 P 2 ” 1 1 0 0 .4 5 # 2 8 4 46 2 -9 / 1 6 ” V 45 P 1 1 0 0 .4 5 # 2 8 4 48 3 ” V 45 P 2 -1 / 2 ” 1 1 0 0 .6 0 #

2 8 4 50 3 -1 / 2 ” V 45 P 1 1 0 0 .6 2 # 2 8 4 52 3 -5 / 8 ” V 45 P 3 ” 1 1 0 0 .6 6 # 2 8 4 54 4 ” V 45 P 1 1 0 0 .8 1 # 2 8 4 56 4 -1 / 8 ” V 45 P 3 -1 / 2 ” 1 1 0 0 .8 5 # 2 8 4 58 4 -3 / 8 ” V 45 P 1 1 0 0 .9 1 # 2 8 4 60 4 -1 / 2 ” V 45 P 1 1 0 0 .9 6 # 2 8 4 62 4 -3 / 4 ” V 45 P 4 ” 1 1 0 1 .0 3 # 2 8 4 64 5 ” V 45 P 1 1 0 1 .1 4 # 2 8 4 66 5 -1 / 2 ” V 45 P 1 1 0 1 .3 0 # 2 8 4 68 6 ” V 45 P 1 1 0 1 .5 3 #

1 5 9 60 3 -5 / 8 ” 1 1 0 0 .8 8 # 1 5 9 62 4 -1 / 4 ” 1 1 0 1 .0 6 #

1 5 9 75 4 -3 / 8 ” 1 1 0 1 .0 8 # 8 1 7 81 5 -1 / 2 ” 1 1 0 1 .5 0 # 1 5 9 80 6 -3 / 8 ” 1 1 0 1 .9 9 # 1 5 9 85 6 -5 / 8 ” 1 1 0 2 .0 5 # 1 5 9 90 6 -7 / 8 ” 1 1 0 2 .0 7 #

2 8 5 25 A rb o r 1 1 0 0 .5 0 #

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H ol e Sa w K i ts P C 64 0 0

Ho l e sa w k i t s a r e su p p l i e d w i th th e mo s t p op u l a r s i zes f or th e e l e c t r i c ia n a nd p l um be r. T h e V P1 0 0 co n t a in s 9 p o p u la r e l e c t r i ca l a nd p l um bi n g sa w s , wh i l e t h e V P0 2 E & V P0 8 a re fo r t h e e l e c t r ica l con d u i t s i ze s . T h e se k i ts co n ta i n t h e n e ce ssa ry a rb o rs f or a l l t h e h o le sa ws .

Fe at u re s:

M ain t e n an c e H o l e S aw K i t ( C o n t a i ns 9 Pl u mb in g a n d El e c t r ic al C o n du it S i z e s 3/ 8 ” - 2 ” )

2 8 4 70 V P1 4 7 /8 ” V P4 0 2 -1 / 2 ” V 44 1 1 2 .7 0 # V P1 8 1 -1 / 8 ” V 45 P V P2 2 1 -3 / 8 ” V P2 8 1 -3 / 4 ” V P3 2 2 ”

A r bor s P C 6 3 90

A rb o rs a re sup p l i ed w i t h p i lo t dr i l l s . Ch e ck H o le Sa w t o d e t e rm i n e p ro p e r a rb o r.

Fe at u re s:

2 8 5 00 1 /4 ” R o un d 1 /2 - 2 0 1 /4 ” V PD 4 1 /4 ” 9 /1 6 ” - 1 - 1/ 8 ” 1 6 0 .1 3 # 2 8 5 05 3 /8 ” H e x 1 /2 - 2 0 1 /4 ” V DP 4S 3 /8 ” 9 /1 6 ” - 1 - 1/ 8 ” 1 6 0 .1 5 #

2 8 5 10 3 /8 ” H e x 5 /8 - 1 8 1 /4 ” V PD 4S 3 /8 ” 1 -1 / 4 ” - 6 ” 1 6 0 .3 6 # 2 8 5 15 7 /1 6 ” H ex 1 /2 - 2 0 1 /4 ” V PD 4 1 /2 ” 9 /1 6 ” - 1 - 1/ 8 ” 1 6 0 .1 6 #

2 8 5 25 7 /1 6 ” H ex 5 /8 - 1 8 1 /4 ” V PD 4 1 /2 ” 1 -1 / 4 ” - 6 ” 1 6 0 .5 0 #

E l ec t r ic i an ’s H o l e S aw K i t ( C o n t a i ns 6 E l e c t r i c al C o n du it S i z e s 1 / 2” - 2 ” )

2 8 4 72 V P1 2 3 /4 ” V P2 4 1 -1 / 2 ” V 24 K V 44 1 1 4 .8 2 # V P1 4 7 /8 ” V P2 8 1 -3 / 4 ” V 45 P V P1 8 1 -1 / 8 ” V P3 2 2 ” V E1 2 1 E x te n s i o n V P2 2 1 -3 / 8 ” V P3 6 2 -1 / 4 ” V P4 0 2 -1 / 2 ”

M as t e r E l e c t r i c ian ’s Ho l e S aw K i t ( C o n t a in s 1 0 E l e c t r i c al C o n du it S i z e s 1 / 2” - 4 ” ) 2 8 4 74 V P1 4 7 /8 ” V P4 0 2 -1 / 2 ” V 24 K V 44 1 1 7 .8 0 #

V P1 8 1 -1 / 8 ” V P4 8 3 ” V 45 P V P2 2 1 -3 / 8 ” V P5 8 3 -5 / 8 ” V E1 2 1 E x te n s i o n V P2 8 1 -3 / 4 ” V P6 6 4 -1 / 8 ” V P3 2 2 ” V P7 2 4 -1 / 2 ”

H o l e S a w K i t s & A r bo r s

* See page E6 fo r P i lo t Dr i l l s & Ac ces s or ie s

E 1 0 CE L EB R AT I N G 5 0 YE A R S

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P u n c h K i t s & A c c e s s o r i e s

1 2 Ton H yd r a u l ic P u n c h K i ts P C 6 41 0

Fe at u re s:

1 p c . 12 To n Hyd ra u l ic Pu n ch w i th Fu l l y Ar t i cu l a t i n g He a d7 p c . D i e Se t s : S i ze s - 7 / 8 ” , 1- 1 /8 ” , 1- 3 /8 ” , 1- 3 /4 ” , 2 ” , 2- 1 /2 ” , 3 ”2 p c . Dra w St u d s /C ol l a r : S i ze s - 3 / 8 ” , 3 / 4 ”2 p c . Ti p -B i ts™ S t e p s Dr i l l s1 p c . 1 / 2 ” D i e Sp a ce rU l t ra He a vy Du ty Ca r r y in g Ca se

8 2 0 44 1 /2 ” to 2 1/ 2 ” (1 3 p c k i t ) 1 2 1 .6 5 #

H PT K 1 - 1 3 P i e c e K i t f o r 1 / 2 ” t o 2 1 / 2” C o nd u i t

Ou r f l a g sh ip an d s ta t e of th e ar t 12 - To n Hyd ra u l ic Ho l e Pu n ch k i t s fe a u t r e a com pa c t yet ex t re me l y p o we r f u l pu n ch pu mp w i th a 36 0 de g r ee fu l l y ar t i cu l a t i n g 12 - To n He a d . T h e 12 - To n ar t i cu l a t i n gh e a d a l l o ws use r s to pu n ch ho l e s in an y po s t i o n. In n o va t i ve th re e po i n t d i e s en su r e a c le a n cut e ve ry t i me , eve n on 10 ga u g e s ta i n le ss s te e l ! Ea ch k i t is pa cke d in an u l t ra he a vy du t y car ry i n g ca se w i th in d u s t r i a l s t r en g t h la t ch e s .

1 p c . 12 To n Hyd ra u l ic Pu n ch w i th Fu l l y Ar t i cu l a t i n g He a d1 0 p c . D i e Se t s : S i ze s - 7 / 8 ” , 1- 1 /8 ” , 1- 3 /8 ” , 1- 3 /4 ” , 2 ” , 2- 1 /2 ” , 3 ” , 3- 1 /2 ”4 ” , 4- 1 /2 ”2 p c . Dra w St u d s /C ol l a r : S i ze s - 3 / 8 ” , 3 / 4 ”2 p c . Ti p -B i ts™ S t e p s Dr i l l s1 p c . 1 / 2 ” D i e Sp a ce rU l t ra He a vy Du ty Ca r r y in g Ca se

8 2 0 45 1 /2 ” to 4 ” (1 6 p c k i t ) 1 4 0 .0 0 #

H PT K 2 - 1 6 P i e c e K i t f o r 1 / 2” t o 4 ” C on d u i t

3 p c . D i e Se t s : S i ze s - 3- 1 /2 ” , 4 ” , an d 4- 1 /2 ”Ul t ra He a vy Du ty Ca r r y in g Ca se

8 2 0 43 3 ” to 4 ” (3 p c K i t ) 1 1 8 .8 5 #

H PT K 3 - 3 P i e c e D i e K i t f o r 3 ” , 3 - 1 / 2 ” a n d 4 ” C o nd u i t

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ems

C u p s & D ie s , A c c e s s o r i e s

Ou r u n i qu e d ie se ts f ea t u re 3 cu t t i n g p o i n ts . W i t h t h i s fe a t u re , n o s l u g w i l l e ver h a n g up a n d n o e f fo r t i s r e qu i re d to sp l i t a s l ug . T h e s l u g w i l l s i mp l y f a l l o u t o f th e cu p! Ea ch D i e cu p is l ase r e tch e d fo r p re c i se ho l e l o ca t io n . E a ch cu p a n d d i e is ma ch i ne d w i t h t he f in e s t H SS f o r l on g la s t i n g l i f e .

C u p s & D i es P C 6 4 10

Fe at u re s:

A c c ess or ie s P C 6 4 10

8 2 0 10 7 /8 ” Cu p (1 / 2 ” Co n d ui t ) 1 0 .2 5 # 8 2 0 13 1 1 / 8 ” Cu p (3 / 4 ” Co n d ui t ) 1 0 .3 5 # 8 2 0 19 1 3 / 4 ” Cu p (1 1/ 4 ” Co n d u i t ) 1 0 .4 5 # 8 2 0 16 1 3 / 8 ” Cu p (1 ” Co n d u i t ) 1 0 .6 5 #

8 2 1 78 1 -7 / 3 2 ” Cu p (H ol e Lo ck ) 1 0 .4 0 # 8 2 0 22 2 ” Cu p (1 1/ 2 ” Co n d u i t ) 1 0 .8 0 # 8 2 0 25 2 1 / 2 ” Cu p (2 ” Co n d u i t ) 1 1 .3 0 # 8 2 0 28 3 ” Cu p (2 1/ 2 ” Co n d u i t ) 1 1 .5 5 # 8 2 0 31 3 1 / 2 ” Cu p (3 ” Co n d u i t ) 1 2 .1 0 # 8 2 0 34 4 ” Cu p (3 1/ 2 ” Co n d u i t ) 1 2 .6 5 # 8 2 0 37 4 1 / 2 ” Cu p (4 ” Co n d u i t ) 1 3 .4 5 #

C up s

8 2 0 09 7 /8 ” D i e ( 1 / 2 ” Co n d u i t ) 1 0 .1 0 # 8 2 0 12 1 1 / 8 ” D i e ( 3 / 4 ” Co n d u i t ) 1 0 .1 0 # 8 2 0 18 1 3 / 4 ” D i e ( 1 1 / 4 ” C o n du i t ) 1 0 .4 0 # 8 2 0 15 1 3 / 8 ” D i e ( 1 ” Co n d ui t ) 1 0 .2 5 #

8 2 1 79 1 -7 / 3 2 ” D i e ( Ho l e L o ck ) 1 0 .2 0 # 8 2 0 21 2 ” D i e ( 1 1 / 2 ” C o n du i t ) 1 0 .6 5 # 8 2 0 24 2 1 / 2 ” D i e ( 2 ” Co n d ui t ) 1 1 .2 0 # 8 2 0 27 3 ” D i e ( 2 1 / 2 ” C o n du i t ) 1 1 .6 0 # 8 2 0 30 3 1 / 2 ” D i e ( 3 ” Co n d ui t ) 1 2 .3 5 # 8 2 0 33 4 ” D i e ( 3 1 / 2 ” C o n du i t ) 1 2 .8 5 # 8 2 0 36 4 1 / 2 ” D i e ( 4 ” Co n d ui t ) 1 3 .3 0 #

D i e s

8 2 0 08 7 /8 ” S et (1 / 2 ” Co n d ui t ) 1 0 .1 0 # 8 2 0 11 1 1 / 8 ” S et (3 / 4 ” Co n d ui t ) 1 0 .1 0 # 8 2 0 17 1 3 / 4 ” S et (1 1 /4 ” Co n d u i t ) 1 0 .4 0 # 8 2 0 15 1 3 / 8 ” S et (1 ” C on d u i t ) 1 0 .2 5 #

8 2 1 77 1 -7 / 3 2 ” S et (H o le L ock ) 1 0 .2 0 # 8 2 0 20 2 ” S et (1 1 /2 ” Co n d u i t ) 1 0 .6 5 # 8 2 0 23 2 1 / 2 ” S et (2 ” C on d u i t ) 1 1 .2 0 # 8 2 0 26 3 ” S et (2 1 /2 ” Co n d u i t ) 1 1 .6 0 # 8 2 0 29 3 1 / 2 ” S et (3 ” C on d u i t ) 1 2 .3 5 # 8 2 0 33 4 ” S et (3 1 /2 ” Co n d u i t ) 1 2 .8 5 # 8 2 0 35 4 1 / 2 ” S et (4 ” C on d u i t ) 1 3 .3 0 # 8 2 1 70 5 -1 / 2 ” S et (5 ” C on d u i t ) 1 3 .3 0 #

I nc l u d e s 1 ” D ra w S tu d 8 2 1 71 4 1 / 2 ” S et (4 ” C on d u i t ) 1 3 .3 0 #

I nc l u d e s 1 ” D ra w S tu d

C up & D i e S e t s

8 2 0 38 S ma l l Dra w S tu d (3 / 8 ” ) 1 0 .2 5 # 8 2 0 39 L a rg e D ra w S tu d (3 / 4 ” ) 1 0 .3 5 #

8 2 0 49 L a rg e D ra w S tu d (1 ” ) 1 0 .4 5 # 8 2 0 69 Hyd r a ul i c P u n ch S p a cer 1 0 .6 5 #

8 2 1 80 HP T Ma in t e n an ce Re p a r K i t 1 0 .4 0 # - 1 2 To n

Tools &

Specialty Item

s

“ B U I L D I N G A B ET T E R B R A N D ”E 1 2

R ec i p roB l a d es P C 6 45 0

B i- me ta l b l a d e s ha ve a f l e x i b l e spr i ng s te e l ba ck an d ar e la se r we l de d to a ha r d en e d ed g e . Ea ch b l a d e is d e s ig n e d fo r a spe c i f ic use an d con d i t io n . “Tu f f -G r i t ” car b id e b l a d e s w i l l cut cas t i r o n.

Fe at u re s:

R e c i p ro B l a d e s

C ar b id e “ T uf - G r i t ” Ed g e ( O n e pe r po u c h )

3 1 3 65 8 ” 3 /4 ” 0 .0 4 0 n /a Ca s t i r o n p i p e . 1 5 0 .0 9 #

3 1 3 00 4 ” 5 /8 ” 0 .0 3 5 1 4 He a vy ga u g e me ta l , 5 2 5 0 .1 3 # 1 /8 ” th i ck an d ab o ve .

3 1 3 05 4 ” 5 /8 ” 0 .0 3 5 1 8 He a vy ga u g e me ta l , 5 2 5 0 .11 # 1 8 ga u g e to 1/ 8 ” th i ck .

3 1 3 10 4 ” 5 /8 ” 0 .0 3 5 2 4 Me t a l cut t in g , 5 2 5 0 .1 3 # 1 8 ga u g e an d un d e r.

3 1 3 15 6 ” 3 /4 ” 0 .0 3 5 1 0 Na i l -e mb e d d ed wo o d , 5 2 5 0 .2 0 # n o n - f er ro u s me ta l .

3 1 3 20 6 ” 3 /4 ” 0 .0 3 5 1 4 He a vy ga u g e me ta l , 5 2 5 0 .2 1 # 1 /8 ” th i ck an d ab o ve .

3 1 3 25 6 ” 3 /4 ” 0 .0 3 5 1 8 He a vy ga u g e me ta l , 5 2 5 0 .2 1 # 1 8 ga u g e to 1/ 8 ” th i ck .

3 1 3 30 6 ” 3 /4 ” 0 .0 3 5 2 4 Me t a l cut t in g , 5 2 5 0 .2 1 # 1 8 ga u g e an d un d e r.

3 1 3 35 8 ” 3 /4 ” 0 .0 3 5 1 0 Na i l -e mb e d d ed wo o d , 5 2 5 0 .2 8 # p l as t i c , no n - fe r ro u s me ta l .

3 1 3 40 8 ” 3 /4 ” 0 .0 3 5 1 4 Ge n e ra l ro u g h- i n , me ta l 5 2 5 0 .2 8 # cu t t i n g , na i l -e mb e d d e d wo o d .

3 1 3 45 6 ” 3 /4 ” 0 .0 5 0 6 Wo o d con t o u rs , 5 2 5 0 .2 1 # n a i l - em be d d e d wo o d .

3 1 3 50 6 ” 3 /4 ” 0 .0 5 0 6 Ge n e ra l ro u g h- i n , a l l wo o d s 5 2 5 0 .2 2 # n a i l - em be d d e d wo o d .

3 1 3 55 9 ” 3 /4 ” 0 .0 5 0 6 Ge n e ra l ro u g h- i n , a l l wo o d s 5 2 5 0 .3 7 # n a i l - em be d d e d wo o d .

3 1 3 60 1 2 ” 3 /4 ” 0 .0 5 0 6 Ge n e ra l ro u g h- i n , a l l wo o d s 5 2 5 0 .5 3 # n a i l - em be d d e d wo o d .

E 1 3

Tool

s &

Spec

ialt

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ems

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

D ry w a l l S a w s , P V C S a w & C a bl e S a w

U t i l i ty Sa w P C 6 5 60

T h e u t i l i t y sa w w i th i ts s t r a i gh t w o o de n h a nd l e i s e a s ie r t o ma n i p u la t e t ha n a p i s to l g r i p sa w wh e n cut t in g o pe n i n g s i n d r ywa l l .

Fe at u re s:

2 8 9 60 Ut i l i t y S a w 6 ” 1 1 2 0 .1 8 #

P V C S aw & R ep l a c e m en t B l a d es P C 65 0 0

T h e P VC B i - Sa w i s d es i g n e d f o r PV C a n d cu t s o n b o t h t h e f ro n t a n d b a ck s t r oke . T he o f fse t h a n d l e a l lo w s cu t t i n g a t gr o u nd l eve l wh i l e p e rm i t t i n g h a n d c le a ra n ce . Th e d ie ca s t , o f f se t h a n dl e is i n te rch a n g e a b le w i th mo s t p o p u la r b r an d s o f re p l a cem en t b l a d e s .

Fe at u re s: 2 9 3 80 1 2 ” Ha n d le & B la d e 1 5 0 .6 6 # 2 9 3 82 1 8 ” Ha n d le & B la d e 1 5 0 .7 7 #

2 9 3 84 1 2 ” Re p l ace me n t B l a de On l y 1 5 0 .3 3 # 2 9 3 86 1 8 ” Re p l ace me n t B l a de On l y 1 5 0 .4 6 #

Sn a ggl e too th P ro Sa w P C 6 55 9

T h e S na g g l e to o t h P ro Sa w i s t h e r ig h t t o o l f or cu t t in g op e n i n g s f o r e le c t r i ca l o u t l e t s , a nd t he h a rd e n ed t ip p en e t ra t e s d ryw a l l e a s i l y e l i m i n a t i n g t h e n e e d t o d r i l l .

Fe at u re s:

4 2 0 92 S na g g l e to o t h P ro Sa w 6 ” B l a d e /1 2 ” Ove r a l l 1 1 2 0 .3 5 #

C a bl e Sa w P C 6 53 5

T h e Ca b l e S a w e a s i l y cut s th r ou g h PV C co nd u i t . T h e q u i ck r e le a se h a n dl e a l l o ws th e ca b le sa w b l a d e t o e a s i l y cu t a r ou n d PV C i n h a rd t o re a ch a re a s .

Fe at u re s:

2 8 9 67 Ca b l e S a w 1 1 0 0 .2 2 #


Tools &

Specialty Item

s

L B K K n i fe , T o o l S h a r p e n e r, P V C C u t t e r & W i re S t r i p p e r

L oc k B a c k K n i fe P C 6 51 0

Fe at u re s:

1 0 8 80 F o ld i n g Lo ck - Ba ck U t i l i t y Kn i fe 1 1 2 0 .5 5 # Re p l a ce me nt B l a d e s

1 6 5 02 Do u b l e Po i n te d Re p la ce me n t B l a d e s 1 1 2 0 .0 5 # On e Ca rd Co n ta i n s 5 B l a d e s

P ro fe ss i on a l K n i fe & Tool Sh a r p en er P C 6 5 2 4

Fe at u re s:

T h e kn i f e sha r p en e r an yo n e can use ! No me ssy o i l s or s to n e s . Sh a rp e n s kn i ves in le ss th a t 10 seco n d s ! I t eve n wo rks on ser ra t e d kn i ve s . Pe r f e c t t oo l fo r E l e c t r i c ia n s , P l u mb e rs an d He a t i n g an d A i r In s t a l l e rs .

1 4 6 60 P ro fe ss i o n a l Kn i fe & To o l Sh a rp e n e r 1 1 2 0 .3 0 #

K - P VC C u t ter P C 6 54 0

Fe at u re s:

T h e KP VC cut t e r is an eco n o mi ca l cut t e r fo r sche d u l e 40 PV C, an d i t s h e a vy b l a d e ma kes ea sy wo rk of i t . A f f o rd a b i l i t y an d qu a l i ty in on e p a cka ge .

2 8 9 80 K -P VC Cu t t e r 1 6 0 .8 3 #

P VC C ut t e r R e pl a c em e nt B l ad e s 2 8 9 85 Re p l a ce me nt B l a d e s 1 6 0 .1 6 #

W ire St r ip p er / C u tte r P C 6 59 0

Fe at u re s:

T h is ha n d y Wi r e S t r i p p e r / Cu t t e r ha s be e n on e of th e mo s t po p u l a r w i re s t r i p pe r s con t ra c t o rs use . I t is e f f e c t ive an d f i t s ea s i l y in a po u ch or p o cke t .

2 8 9 95 A dj u s t a b l e S t r i p p e r Cu sh io n Gr i p 1 6 0 .8 3 #

E 1 5F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Tool

s &

Spec

ialt

y It

ems

Q u ic k S t i c ks & Q u ic k L e a d e r

Qu i c k St ic k s P C 6 0 5 5

Do t t i e Qu i ck S t i c ks o ff e r u n ma tch e d d u r a bi l i t y to re a ch o ve r d r op ce i l i n g s , t hr o u gh i n su l a t ed wa l l s , a s w e l l a s u n d e r f l o o rs a nd i n a n y co n f i n e d sp a ce . T h e y a r e f l ex i b l e e n o u g h t o b e n d t o t h e a n g l e yo u n e e d , ye t r i g i d e n o u g h t o p u sh t h ro u g h i n su l at i o n.

Fe at u re s:

2 3 1 32 3 /1 6 ” x 3 0 ’ Tu b e Co n ta i n s : F ive - 3 /1 6 ” x 6 ’ 1 2 .0 0 # Re d Ro d s & Two Pu l l in g Eye s

2 3 1 34 3 /1 6 ” x 3 0 ’ Tu b e Co n ta i n s : F ive - 3 /1 6 ” x 6 ’ 1 2 .0 0 # L i te S t i c k R od s & Tw o P u l l i n g E ye s

2 3 1 36 3 /1 6 ” x 1 2 ’ K i t Co n ta i n s : F ou r - 3 / 1 6 ” x 3 ’ 1 1 .0 0 # Re d Ro d s w / P u l l i n g E ye & H o ok

2 3 1 40 3 /1 6 ” x 1 2 ’ K i t Co n ta i n s : F ou r - 3 / 1 6 ” x 3 ’ 1 1 .0 0 # L i te S t i c k R od s w / Pu l l i n g E ye & Ho o k

2 3 1 66 3 /1 6 ” x 1 2 ’ Tu b e Co n ta i n s : T h re e - 3 / 1 6 ” x 4 ’ 1 1 .0 0 # Re d Ro d s w / P u l l i n g E ye & H o ok

2 3 1 65 3 /1 6 ” x 1 2 ’ Tu b e Co n ta i n s : T h re e - 3 / 1 6 ” x 4 ’ 1 1 .0 0 # L i te S t i c k R od s w / Pu l l i n g E ye & Ho o k

2 3 1 30 1 /4 ” x 2 4 ’ Tu b e Co n ta i n s : F o ur - 1 / 4 ” x 6 ’ 1 2 .0 0 # W h i t e R o d s & Two P u l l i n g E ye s

2 3 1 58 1 /4 ” x 2 4 ’ Tu b e Co n ta i n s : F o ur - 1 / 4 ” x 6 ’ 1 2 .0 0 # L i te S t i c k R od s & Tw o P u l l i n g E ye s

2 3 1 38 1 /4 ” x 1 2 ’ K i t Co n ta i n s : F ou r - 1 / 4 ” x 3 ’ 1 1 .0 0 # W h i t e R o d s w / Pu l l in g Eye & Ho o k

2 3 1 56 1 /4 ” x 1 2 ’ K i t Co n ta i n s : T hr e e - 1 / 4 ” x 4 ’ 1 1 .0 0 # W h i t e R o d s w / Pu l l in g Eye & Ho o k

2 3 1 55 1 /4 ” x 1 2 ’ K i t Co n ta i n s : T hr e e - 1 / 4 ” x 4 ’ 1 1 .0 0 # L i te S t i c k R od s w / Pu l l i n g E ye & Ho o k

Q u ic k S t i c k Ac c e s s o r ie s

2 3 1 46 3 /1 6 ” 3 /1 6 ” R ep l a ce me n t Pu l l in g Eye 1 0 .0 1 # 2 3 1 48 3 /1 6 ” 3 /1 6 ” P u l l i n g H oo k 1 0 .0 1 #

2 3 1 52 3 /1 6 ” 3 /1 6 ” W h i sk ( e gg b e at e r ) H e a d 1 0 .0 1 # 2 3 1 42 1 /4 ” 1 /4 ” R e pl a ce me n t P ul l i ng E ye 1 0 .0 1 # 2 3 1 44 1 /4 ” 1 /4 ” P u l l i n g H o ok 1 0 .0 1 #

2 3 1 50 1 /4 ” 1 /4 ” W h i sk ( e g g b e a te r ) He a d 1 0 .0 1 #

Qu i c k L e ad e r P C 6 59 5

Fe at u re s:

T h e Do t t i e Qu i ck L e a d er is d e s ig n e d f o r ma x i mu m f l ex i b i l i t y, cur v i ng a ro u n d b e n d s i n con d u i t w i t h e a se . I t i s f o r a 1 / 8 i n ch w id e s te e l f i sh t a pe a n d w i l l p u l l u p to 50 0 l b s .

11 9 6 7 1 2 ” Qu i ck L e a d e r 1 1 0 0 .1 2 #

Tools &

Specialty Item

s


F i r s t A i d K i t s

F ir st A i d K i ts P C 6 6 1 5

Do t t i e F i rs t A i d K i t s ar e Co mp l ia n t w i th OSH A/ A NS I S t a n da r d s . an d s to cke d w i th com pr e h en s i ve co mp o n en t s th a t me et or ex ce e d you r re q u i r e me nt s . Su p p l ie d in H i g h Qu a l i t y an d Du ra b l e Tr a n s lu ce n t Ca se s th a t bo t h Org a n i ze an d D i sp en se th e ma te r i a l s you w i l l ne e d to Tr e a t Co mmo n F i r s t A i d In j u r i e s an d Co n d i t i o ns .

Fe at u re s:

1 2 A l co h o l Pr ep Pa d s1 2 An t i sep t i c To we l e t t e s

1 F i rs t A i d In s t ru c t io n Gu id e4 Ex a mi n a t i o n G l ove s

6 An t i b i o t ic O i nt me n t6 Bu rn Cre a m1 In s t a nt Co l d Pa ck 5 “ x 6

1 6 Ad h e s i ve Ba n d a g es 1 ” x 3 ”2 5 Ad h e s i ve Ba n d a g es 3/ 4 ” x 3 ”

2 No n Ad h e re n t Pa d s 1/ 2 ” x 2 ”1 Pa p e r Ta p e Ro l l 1 / 2 ” x 5 yd1 Tr i an g u l a r Ba n d a g e 40 ” x 40 ” x 56 ”4 St e r i l e Ga u ze Pa d s 2 ” x 2 ”4 St e r i l e Ga u ze Pa d s 3 ” x 3 ”4 St e r i l e Ga u ze Pa d s 4 ” x 4 ”1 St e r i l e Tr a u ma Pa d 5 ” x 9 ”

8 4 8 96 F i r s t A i d K i t -1 0 Pe rso n - 10 0 P i e ce s 1 4 1 .0 0 #

A n em er g e ncy can ha p p e n at an y t i me - an yw h er e you r wo rk fo rce go e s to do th e i r jo b . T h is we l l s t ocke d em er g e ncy f i r s t a i d k i t sup p l i e s a l l you r o f f i ce , fa c t o ry or wo rks i t e ne e d s fo r up to 25 p e o pl e . Pa cke d in a po l yp ro p y l e n e case .

Fe at u re s:

1 5 A l co h o l Pr ep Pa d s1 2 An t i sep t i c To we l e t t e s1 Eye Wa sh

1 0 Co t t o n Ti p Ap p l i cat o rs3 F i n g e r Sp l i n t s1 F i rs t A i d In s t ru c t io n Gu id e4 Ex a mi n a t i o n G l ove s5 Sa f e ty P i n s1 Twe e ze rs

1 Sc i sso rs

6 An t i b i o t ic O i nt me n t6 Bu rn Cre a m3 St i ng Re l ie f Pr ep Pa d s8 Asp i r i n Ta b le t s8 No n -A sp i r in Ta b le t s1 In s t a nt Co l d Pa ck 5 “ x 6

2 0 Ad h e s i ve Ba n d a g es 1 ” x 3 ”2 0 Ad h e s i ve Ba n d a g es 3/ 4 ” x 3 ”

2 0 Ad h e s i ve Ba n d a g es 3/ 8 ” x 1 -1 / 2 ”5 Bu t te r f l y C l o sur e s1 Pa p e r Ta p e Ro l l 1 / 2 ” x 5 yd1 Tr i an g u l a r Ba n d a g e 40 ” x 40 ” x 56 ”8 St e r i l e Ga u ze Pa d s 2 ” x 2 ”2 Ova l Eye Pa d s 2 ”6 St e r i l e Ga u ze Pa d s 4 ” x 4 ”1 St e r i l e Tr a u ma Pa d 5 ” x 9 ”1 Ga u ze Ro l l 2 ’

8 4 8 95 F i r s t A i d K i t -2 5 Pe rso n - 17 0 P i e ce s 1 4 1 .5 0 #

No of f i ce , veh i c l e , or wo rks i t e sho u l d be w i th o u t th i s com pa c t em er g e ncy F i rs t A i d K i t . T h e FK 1 0 co me s in a po l yp ro p y l e n e case an d in c l u d e s a l l th e sup p l i e s you ne e d fo r up to 10 pe o p l e .

FA 10 - 1 0 P e r so n K i t

FA 25 - 2 5 P e r so n K i t

E 1 7

Tool

s &

Spec

ialt

y It

ems

F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Fe at u re s:

2 4 A l co h ol Pr e p P ad s2 1 A n t ise p t ic To w el e t te s1 E ye Wa sh

1 0 C o t t o n Ti p A p p l i ca t or s5 F i n g er Sp l in t s1 F i rs t A i d I n s t ru c t i o n G u id e4 E x a mi n at i o n G l o ve s1 0 S a fe t y P i n s1 Twe e ze rs

1 S c i sso rs

6 An t ib i o t i c O i n tme n t6 B u rn Cr ea m3 S t in g Re l ie f Pr ep Pa d s1 0 Asp i r i n Ta bl e t s1 0 N o n- Asp i r i n Ta b l et s2 I n s t an t C o ld P ack 5 ” x 6

2 0 A d h e s ive Ba n d a g e s 1 ” x 3 ”4 0 A d h e s ive Ba n d a g e s 3 / 4 ” x 3 ”

3 0 A d h e s ive Ba n d a g e s 3 / 8 ” x 1 -1 / 2 ”5 B u t te r f l y C lo su r es5 K n u ck l e B an d a g e s5 N o n -A dh e r en t Pa d s 1 / 2 ” x 2 ”1 P a p e r Ta p e R o l l 1 / 2 ” x 5 yd1 Tr ia n g u l a r Ba n d a ge 4 0 ” x 4 0 ” x 56 ”1 0 S t er i le Ga u ze P a d s 2 ” x 2 ”2 O va l E ye P ad s 2 ”6 S t e r i le Ga u ze P a d s 4 ” x 4 ”1 S t e r i le Tra u ma P a d 5 ” x 9 ”1 G a uze Ro l l 2 ”

8 4 8 98 F i r s t A i d K i t -5 0 Pe r son - 2 50 P i e ce s 1 4 2 .2 0 #

Do t t i e ’s Be s t K i t - S to ck you r l a rg e fa c i l i t y or wo rk s i te w i th th i s com pl e t e e me rg e n cy f i r s t a i d k i t . Th i s d u ra b l e k i t i s p a cke d w i th a l a rg e a sso r tme n t o f f i r s t a i d su p p l ie s to me e t yo u r n ee d s fo r u p to 1 00 p e o pl . P a cke d i n a p o lyp r op y l e n e ca se .

Fe at u re s:

3 6 A l co h ol Pr e p P ad s2 1 A n t ise p t ic To w el e t te s

6 An t ib i o t i c O i n tme n t6 B u rn Cr ea m6 S t in g Re l ie f Pr ep Pa d s1 0 A n t ac i d Ta b le t s1 0 A sp i r i n Ta bl e t s1 0 N o n- Asp i r i n Ta b l et s1 I n s t an t C o ld P ack 5 ” x 6

4 0 A d h e s ive Ba n d a g e s 1 ” x 3 ”6 0 A d h e s ive Ba n d a g e s 3 / 4 ” x 3 ”5 0 A d h e s ive Ba n d a g e s 3 / 8 ” x 1 -1 / 2 ”1 4 B u t t e r f l y C lo su re s1 8 W ou l d C l osu r e S t r i ps1 P a p e r Ta p e R o l l 1 / 2 ” x 5 yd1 Tr ia n g u l a r Ba n d a ge 4 0 ” x 4 0 ” x 56 ”8 S t e r i le Ga u ze P a d s 2 ” x 2 ”2 S t e r i le Eye Pa d s 2 ”4 S t e r i le Ga u ze P a d s 4 ” x 4 ”1 S t e r i le Tra u ma P a d 5 ” x 9 ”

1 G a uze Ro l l 2 ”

3 0 C o t t o n Ti p A p p l i ca t or s5 F i n g er Sp l in t s1 F i rs t A i d I n s t ru c t i o n G u id e E ng l i sh1 F i rs t A i d I n s t ru c t i o n G u id e S pa n i sh4 E x a mi n at i o n G l o ve s5 S a f et y P i n s1 Twe e ze rs1 S c i sso rs

8 4 8 97 F i r s t A i d K i t -1 0 0 Pe rso n - 35 0 P i e ce s 1 4 4 .2 0 #

S to ck yo ur l a rg e fa c i l i t y or wo rk s i te w i th th i s com pl e t e e me rg e n cy f i r s t a i d k i t . Th i s d u r ab l e k i t i s p a cke d w i t h a la r g e a sso r t me n t o f f i r s t a i d su p p l i e s to me et you r n e e d s f o r u p t o 5 0 p eo p l e . P acke d in a p o l yp ro p y l e ne ca se .

F ir st A id K it s P C 6 61 5

F i r s t A id K i t s

FA 50 - 5 0 P e r so n K i t

FA 10 0 - 1 0 0 Pe r s on K i t


Tools &

Specialty Item

s

Sa f et y H el m e ts & R at c he t Sa f et y H el m e ts P C 6 6 1 6

S af e t y he l me t s ar e re q u i r e d on mo s t jo b s i t e s . T h e wo ve n ny l o n su sp e ns i o n is com fo r t a b l e an d ab so r bs imp a c t . On th e ra tch e t mo d e l th e he a d s ize can be ad j u s t ed w i th o u t re mo v i ng th e he l me t , p ro v i d in g a no s l i p ho l d – eve n in th e mo s t ph ys i ca l ly ac t i ve jo b .

Fe at u re s:

S a fe t y H e l m e t s , R a i n S u i t & S a f e t y Ve s t s

R at c h e t S af et y He l m et s

11 6 3 5 Yel l o w 1 6 0 .7 5 # 11 6 3 6 W h i t e 1 6 0 .7 5 # 11 6 3 7 Or a ng e 1 6 0 .7 5 #

11 6 3 8 Yel l o w 1 6 0 .8 9 # 11 6 3 9 W h i t e 1 6 0 .8 9 #

C l i m at e Ge a r tm P C 6 61 8

T h e he a vy du t y ye l l o w ra i n su i t con s i s t s o f th re e p i e ce s ; ex t ra la r ge cut j a cket , de t a ch a bl e ho o d , an d b i b ove r a l l s .

Fe at u re s:

0 . 3 5 mm PV C w i th po l ye s t er ba ck i n g .

ho o d . f r on t an d ad j u s t ab l e s t r ap s .

0 8 4 29 8 0 1 0 1 3 2 3 Pc He a vywe i g ht Me d i um 1 6 3 .4 3 # P VC Ra i n Su i t

0 8 4 29 8 0 1 0 1 4 9 3 Pc He a vywe i g ht L a rg e 1 6 3 .4 3 # P VC Ra i n Su i t

0 8 4 29 8 0 1 0 1 5 6 3 -P C He a vywe i g ht X -L a rg e 1 6 3 .4 3 # P VC Ra i n Su i t

0 8 4 29 8 0 1 0 1 6 3 3 -P C He a vywe i g ht 2 X- L a rg e 1 6 4 .3 0 # P VC Ra i n Su i t

H i - Vi z P C 6 61 7

T h is sup e r io r qu a l i ty, AN SI C l a ss 2 ra te d , sur ve yo r ’s saf e t y ves t ha s 2 ” w i d e re t r o - r e f l e c t i ve s t r ip e s an d com es w i th 11 po cke t s , a m ic lo o p , an d a z ip p e r f r on t c lo su re . We ’ve ta ke n th e br i gh t l i me -ye l l o w use d on f i re d e n g in e s an d in co rp o r a te d l i g h t re f l e c t ive s t r ip i n g to c re a te a wh o le ne w co n ce pt in wo rk ge a r.

Fe at u re s: 0 8 4 29 8 1 4 2 2 4 6 S ur ve yo r ’s Ve s t L a rg e 1 3 0 .4 9 #

C l a ss 2, L i me 0 8 4 29 8 1 4 2 2 5 3 S ur ve yo r ’s Ve s t X -L a rg e 1 3 0 .5 1 #

C l a ss 2, L i me 0 8 4 29 8 1 4 2 2 6 0 S ur ve yo r ’s Ve s t 2 X- L a rg e 1 3 0 .6 1 #

C l a ss 2, L i me 0 8 4 29 8 1 4 2 2 7 7 S ur ve yo r ’s Ve s t 3 X- L a rg e 1 3 0 .6 4 #

C l a ss 2, L i me

S a f e t y He l m et

E 1 9F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Tool

s &

Spec

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D u st M a sk s P C 5 3 10

C AU T IO N : Do N o t Use A s P ro t ec t i o n F ro m; Asb e s to n s , S i l i ca o r C ot t on Du s t , To x i c Du s t , Fu me s , M i s t s , Ga s o r Va po r. N OT TO BE U SE D IN SP RAY PA IN T O PER AT ION S

3 0 4 50 Ge n e ra l P u rp o se Du s t Ma sk 5 0 5 0 0 1 .1 4 # 3 0 4 55 Ge n e ra l P u rp o se Du s t Ma sk 1 2 p a cks 1 2 p a cks 0 .5 8 #

(5 p a ck )

Fe at u re s:

P ro t e c t i v e E y e w e a r, E a r P ro t e c t i o n & D u s t M a s ks

So ft fr a m e Gogg l es P C 6 6 10

S of t , c l ea r v i n y l G og g l e w i t h un i ve rsa l b r i dg e p ro v i de s a l l d a y co mf or t a n d e x ce p t i o n a l p ro t e c t i o n a g a i n s t d u s t a nd f ly i n g d e b r i s . A ro u n d- th e - le n s ve nt i l a t i o n m i n im ize s l en s fo g g i n g . Co mf o r t ab l e o ve r p re sc r i p t io n g l a sse s or w h e n wo r n a l o n e.

Fe at u re s: 4 0 1 50 S of t f r a me Go g g l e 1 1 0 0 .2 6 #

Ea r P ro tec t i on P C 6 61 5

On e pa i r p e r p o lyb a g . P a cked 2 0 0 p a i r pe r d i sp e n ser b o x .

Fe at u re s:

11 6 4 5 Ma x L i te Ea r P lu g s 2 0 0 P r 2 0 0 P r 0 .9 4 #

L at ex Gl ov es an d Sh oe C ov er s P C 6 77 1

L at ex G lo v es Sh oe C ov e rs

Tools &

Specialty Item

s


1 5 i n 1 Sc re w d ri v er P C 6 7 6 2T h e Or i g i na l S t a n da r d 15 in 1 dr i ver con t a i ns seve n do u b l e en d e d b i t s fo r a to t a l o f f ou r te e n d i f f e re n t s ta n d a rd dr i ver s . T h e ¼ ” sha n k f i t s an y ¼ ” he x po w e r gr o o ved b i t s a n d is a l so gr e a t fo r dr i v in g ¼ ” he x he a d sc re ws .

Fe at u re s: 1 0 2 82 Yel l o w/ B l u e Or ig i n a l 15 in 1 Sc r ew d r i ve r - 1 1 0 0 .4 9 # Ca r d ed

8 4 1 48 Yel l o w/ B l u e Or ig i n a l 15 in 1 Sc r ew d r i ve r - 1 1 0 0 .4 9 # B ul k La b e l e d

Ta m p er P roof 1 5 i n 1 Sc re w d ri v er P C 6 7 6 3T h is 15 in 1 Ta mp e r Pr oo f dr i ver is a mu s t fo r a l l com me rc i a l / i nd u s t r i a l t r ad e sme n (E l e c t r ic i a n s , Se cu r i t y, e t c . ) . T h e 15 in 1 Ta mp e r Pr oo f com es lo a d e d w i th th e mo s t co mmo n secu r i t y b i t s , in c l u d in g : Sp a n n e r, He x p i n an d St a r p i n .

Fe at u re s: 1 0 2 66 B la ck / Re d 1 5 in 1 Ta mp e r Pr oo f 1 1 0 0 .5 5 #

S c re wd r ive r - Ca rd e d 8 4 1 49 B la ck / Re d 1 5 in 1 Ta mp e r Pr oo f 1 1 0 0 .5 5 #

S c re wd r ive r - Bu l k La b e l e d

St a in l es s St ee l 1 5 i n 1 Sc re w d ri v er P C 6 7 6 21 5 in 1 S t a in l e ss sc re wd r ive r is lo a d e d w i th e l e c t ro l e ss n i cke l p l a t e d b i t s fo r use in a re a s wh e re h i g h cor ro s i o n or hu m i d i ty ar e an is su e . T h e dr i ver is eq u i p p e d w i th a s t a i n l e ss s te e l sha f t .

Fe at u re s: 1 0 2 65 B lu e / Ye l lo w 1 5 in 1 S t a in l e ss S t e e l 1 1 0 0 .5 5 # S c re wd r ive r - Ca rd e d

8 4 1 56 B lu e / Ye l lo w 1 5 in 1 S t a in l e ss S t e e l 1 1 0 0 .5 5 # S c re wd r ive r - Bu l k La b e l e d

H VA C 1 4 i n 1 Sc re w d ri v er P C 6 7 6 21 4 in 1 HVA C mu l t i b i t s c re wd r ive r is lo a d e d w i th th e mo s t com mo n HVA C bi t s , i n c lu d i n g a va l ve s te m b i t .

Fe at u re s: 1 0 2 67 B lu e / B l u e 1 4 in 1 HVA C S c re wd r ive r - 1 1 0 0 .5 5 #

Ca r d ed 8 4 1 51 B lu e / B l u e 1 4 in 1 HVA C S c re wd r ive r - 1 1 0 0 .5 5 #

B ul k La b e l e d

M e g a P ro S c re w d r i v e r s

E 2 1

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F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Ta m p er p roof 2 Sc re w D r iv e rs P C 6 76 3Ou r n e w Ta mp e rp r o of 2 D r i ve r fe a t ur e s a n ad d i t io n a l se l e c t i o n o f 1 4 d i f f e re n t se cu r i t y f as t e n e r d r i ve r b i t s . I nc l u d e d a r e T R I- Wi n g . T ORQ- SE T, a n d TOR X PL U S TA MP ER RE S IS TAN T. T h e sha f t o p e n in g ser ve s a s a 1 / 4 ” h ex d r i ve r.

8 4 1 45 Re d / Re d 1 5 i n 1 Ta mp e r pr o o f 2 S c re wd r i ver - C a rd e d 1 1 0 0 .5 1 # 8 4 1 50 Re d / Re d 1 5 i n 1 Ta mp e r pr o o f 2 S c re wd r i ver - 1 1 0 0 .5 1 #

B ul k L a be l e d

Fe at u re s:

Sh a ft L oc S c rew d r iv e r + E xt en s i on s P C 6 7 68 , 6 76 2L o ck in g sh a f t e l i m in a t e s t h e d a n g e r o f b i t s f a l l i n g o u t o f t h e sh a f t wh e n ge t t i n g p a r t ia l l y “ s tu ck ” i n th e f a s t en e r. 6 ” & 1 0 ” L o ck in g Ex t e ns i o n s Lo s i n t o Sh a f t L o c D r i ve r sh a f t pr o v id i n g a s l im p ro f i l e in t o t h o se h a rd to re a ch p l a ce s . L i nk mu l t i p l e e x t e ns i o n s t og e t h e r fo r e x t ra l o n g r e a ch.

Fe at u re s:

8 4 1 54 Yel l o w/ 1 5 i n 1 S ha f t Lo c Sc r e wd r i ve r - Ca r d ed 1 1 0 0 .5 1 # Yel l o w

8 4 1 55 Yel l o w/ 1 5 i n 1 S ha f t Lo c Sc r e wd r i ve r - B ul k L a be l e d 1 1 0 0 .5 1 # Yel l o w

8 4 2 03 S ha f t Lo k 6 ” Ex t e n s io n - B l a ck Ox i de 1 5 0 .0 5 # - Ca r d ed

8 4 2 04 S ha f t Lo k 1 0 ” Ex t e n s io n - B l a ck O x id e 1 5 0 .0 6 # - Ca r d ed

M e g a P ro S c re w d r i v e r s

1 3 i n 1 Ratc h et i n g Sc re w d ri v er P C 6 76 2T h e n e w 1 3 i n 1 cu shi o n gr i pp e d ra t che t i ng sc re w d r i ve r is t he l a t e s t e d i t i o n t o o u r p o p ul a r l i ne u p o f mu l t i b i t d r i ve rs . W i th i ts smo o th p at e n t p e n di n g Z A D 8 z i n c a l l o y p re c i s i on 2 8 t o o th ra t che t i n g me ch a n ism, i t de l i ve rs ove r 2 2 5 lb s o f to r q ue s t re n g th , wh i ch m ake s d r i v i n g f as t e n e rs fa s t e r a nd e a s ie r t h a n e ve r b e fo re . T he co n ve ni e n t s t or a g e h a n d le is l o a de d w i th s i x d o u b le - e n de d b i t s fo r a t o t a l o f tw e lve d i f f e re n t s t an d a rd s i ze d d r i ve rs . T h e ¼ ” H ex d r i ve sha f t i s g r e at fo r d r i v i n g ¼ ” h e x h ea d sc re ws . T h is i s d e f in i te l y a t o p o f t h e l i ne to o l eve r y p r of e ss i o na l con t ra c t o r sh ou l d ha ve in h i s o r h e r to o l b a g .

8 1 2 51 Re d / B l a ck 1 3 i n 1 Ra t ch e t i n g S c re w dr i ver - C a rd e d 1 1 0 0 .5 5 # 8 1 2 51 Re d / B l a ck 1 3 i n 1 Ra t ch e t i n g S c re w dr i ver - B u l k L a b e le d 1 1 0 0 .5 5 #

Fe at u re s:


Tools &

Specialty Item

s

N ic k e l P l ate d R ep l ac e m en t B it s F or M e ga P ro D r iv e rs P C 6 76 8

Fe at u re s:

8 1 9 51 T 1 0 & T 1 5 St a r 1 5 0 .0 2 # 8 1 9 52 T 2 0 & T 2 5 St a r 1 5 0 .0 2 #

8 1 9 53 0 & 3 Ph i l l i p s 1 5 0 .0 2 # 8 1 9 54 1 & 2 Ph i l l i p s 1 5 0 .0 2 #

8 1 9 55 0 & 3 Sq u a re Re ce ss 1 5 0 .0 2 # 8 1 9 56 1 & 2 Sq u a re Re ce ss 1 5 0 .0 2 #

8 1 9 57 4 & 6 S l o t t e d 1 5 0 .0 2 #

8 1 9 58 Va l ve St e m B i t + 5 . 5 S l o t t e d 1 5 0 .0 2 #* 8 1 9 59 1 /4 ” So cke t Ad a p t or 1 5 0 .0 2 #

* U np la ted

Ta m p er P roof R ep l ac e m en t B it s F or M e ga P ro D r iv e rs P C 6 77 9

Fe at u re s:

8 1 9 60 T 1 0 & T 1 5 St a r P i n 1 5 0 .0 2 # 8 1 9 61 T 2 0 & T 2 5 St a r P i n 1 5 0 .0 2 # 8 1 9 62 T 2 7 & T 3 0 St a r P i n 1 5 0 .0 2 #

8 1 9 63 1 /8 & 9/ 6 4 He x P i n 1 5 0 .0 2 # 8 1 9 64 5 /3 2 & 3/ 1 6 He x P i n 1 5 0 .0 2 #

8 1 9 65 6 & 8 Sp a n n e r 1 5 0 .0 2 # 8 1 9 66 1 0 & 12 Sp a n n e r 1 5 0 .0 2 #

R e p l a c e m e n t B i t s & S o c k e t A d a p t e r s

So ck et A d a p te r E xt en s i on s P C 6 72 0

2 3 1 05 1 /4 ” He x Sh a n k 1 /4 x 1- 1 /4 ” 1 1 0 0 .0 3 # 2 3 1 08 1 /4 ” 1 /4 ” He x Sh a n k 1 /4 x 2 ” 1 1 0 0 .0 3 # 2 3 111 1 /4 ” He x Sh a n k 1 /4 x 3 ” 1 1 0 0 .0 5 #

2 3 11 4 1 /4 ” He x Sh a n k 3 /8 x 2 ” 1 1 0 0 .0 4 # 2 3 11 7 3 /8 ” 1 /4 ” He x Sh a n k 3 /8 x 3 ” 1 1 0 0 .0 8 # 2 3 1 20 1 /4 ” He x Sh a n k 3 /8 x 4 ” 1 1 0 0 .11 #Fe at u re s:

E 2 3F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Tool

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Spec

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y It

ems

C om p ac t C om b o B i t K i t P C 6 3 40

T h is 3 1 p i e ce b i t k i t co n ta i n s t h e mo s t o f te n u se d S ta n d a rd an d Ta mp e r Pr o of b i t s i n a co mp a c t s t or a g e ca se , wh i ch is s i zed t o f i t i n a co nt ra c t o r ’ s p o u ch o r ca n b e e a s i l y a t t a che d to a b e l t . I nc l u d e s a q u ick ch a n ge b i t h o l d e r.

Fe at u re s:

Ta m p er P roo f Ha n d D r i v er s P C 6 6 70

Fe at u re s:

2 3 0 00 # 6 -# 8 Re mo va l To o l 1 1 0 0 .2 5 # 2 3 0 05 # 8 -# 1 0 Re mo va l To o l 1 1 0 0 .3 1 #

2 3 0 10 # 1 2 -# 1 4 Re mo va l To o l 1 1 0 0 .3 5 #

O n e Way

2 3 0 15 # 6 S pa n n e r 1 1 0 0 .2 2 # 2 3 0 20 # 8 S pa n n e r 1 1 0 0 .2 2 #

2 3 0 25 # 1 0 S pa n n e r 1 1 0 0 .2 2 #

S p an n er

S t a r P in

2 3 0 30 # 6 BH S ta r P in 1 1 0 0 .1 8 # 2 3 0 35 # 6 FH -# 8 B H S ta r P in 1 1 0 0 .1 8 # 2 3 0 40 # 8 FH S ta r P in 1 1 0 0 .1 8 # 2 3 0 45 # 1 0 FH , # 1 0B H S ta r P in 1 1 0 0 .1 9 # 2 3 0 50 1 /4 F H- 1 /4 B H S ta r P in 1 1 0 0 .2 1 # 2 3 0 52 1 /4 F H S ta r P in 1 1 0 0 .2 2 #

2 3 1 90 3 1 A sso r t e d B i ts w / Q u ick 1 6 0 .5 0 # Re l e a se B i t Ho l d er

Ta m p er P roo f B i t K it P C 6 7 60T h e Ta mp e r P ro o f B i t Dr i ve r K i t con t a in s t he fu l l co mp l i me n t o f th e mo s t p o p ul a r b i ts . T he k i t i s p ro v i d e d w i t h a ma g n e t i c h a n d dr i ver, a so cket a d a pt e r, a nd a ma g n e t ic b i t h o l d e r f or u se in p o we r t oo l s .

Fe at u re s:

6 0 2 53 3 1 p c . Ta mp er Pr oo f B i t K i t 1 1 .1 3 #

B i t K it s & H a nd D r i v e r s

Tools &

Specialty Item

s


C a r d e d I n s e rt & P o w e r B i t s

C a rd e d I ns ert & P o w er B it s P C 6 7 5 1

I nse r t an d po w e r b i t s ar e ava i l a b le in a var i e t y o f con f i g ur a t i o n s . B i t s o f 1 ” le n g t h a re in se r t b i t s ; b i t s 2 ” an d lo n g e r ar e po w e r b i t s . No te : MBH To o l is use d w i th in se r t b i ts on l y. No t to be use d w i th po w e r b i t s .

Fe at u re s:

P hi l l ip s Pt . S i z e 0 & 1

8 1 8 36 I nse r t B i t # 4 # 0 x 1 ” 1 1 0 0 .0 2 # 8 1 8 37 I nse r t B i t # 6 # 1 x 1 ” 1 1 0 0 .0 2 #

8 1 8 38 P ow e r B i t # 6 # 1 x 2 ” 1 1 0 0 .0 5 # 8 1 8 39 P ow e r B i t # 6 # 1 x 3 ” 1 1 0 0 .0 7 # 8 1 8 40 P ow e r B i t # 6 # 1 x 4 ” 1 1 0 0 .0 9 # 8 1 8 41 P ow e r B i t # 6 # 1 x 6 ” 1 1 0 0 .1 4 #

P hi l l ip s Pt . S i z e 2

8 1 8 42 I nse r t B i t # 8 -1 0 # 2 x 1 ” 1 1 0 0 .0 2 # 8 1 8 43 P ow e r B i t # 8 -1 0 # 2 x 2 ” 1 1 0 0 .0 2 # 8 1 8 44 P ow e r B i t # 8 -1 0 # 2 x 3 ” 1 1 0 0 .0 7 # 8 1 8 45 P ow e r B i t # 8 -1 0 # 2 x 4 ” 1 1 0 0 .0 9 # 8 1 8 46 P ow e r B i t # 8 -1 0 # 2 x 6 ” 1 1 0 0 .1 4 #


8 1 8 47 I nse r t B i t # 1 2 -1 4 # 3 x 1 ” 1 1 0 0 .0 2 # 8 1 8 48 P ow e r B i t # 1 2 -1 4 # 3 x 2 ” 1 1 0 0 .0 9 # 8 1 8 49 P ow e r B i t # 1 2 -1 4 # 3 x 3 ” 1 1 0 0 .0 7 # 8 1 8 50 P ow e r B i t # 1 2 -1 4 # 3 x 4 ” 1 1 0 0 .0 9 # 8 1 8 51 P ow e r B i t # 1 2 -1 4 # 3 x 6 ” 1 1 0 0 .1 4 #

S l o t t ed Pt . S i z e 0 & 1

S l o t t ed Pt . S i z e 2



S q u ar e Pt . 0 & 1



S q u ar e Pt . S i z e 2



8 1 8 79 I nse r t B i t # 1 2 -1 4 # 3 x 1 ” 1 1 0 0 .0 2 # 8 1 8 80 P ow e r B i t # 1 2 -1 4 # 3 x 2 ” 1 1 0 0 .0 5 #

8 1 8 81 P ow e r B i t # 1 2 -1 4 # 3 x 3 ” 1 1 0 0 .0 7 # 8 1 8 82 P ow e r B i t # 1 2 -1 4 # 3 x 4 ” 1 1 0 0 .0 9 # 8 1 8 83 P ow e r B i t # 1 2 -1 4 # 3 x 6 ” 1 1 0 0 .1 4 #



8 1 8 63 I nse r t B i t # 1 2 -1 4 # 3 x 1 ” 1 1 0 0 .0 2 # 8 1 8 64 P ow e r B i t # 1 2 -1 4 # 3 x 2 ” 1 1 0 0 .0 5 # 8 1 8 65 P ow e r B i t # 1 2 -1 4 # 3 x 3 ” 1 1 0 0 .0 7 # 8 1 8 66 P ow e r B i t # 1 2 -1 4 # 3 x 4 ” 1 1 0 0 .0 9 # 8 1 8 67 P ow e r B i t # 1 2 -1 4 # 3 x 6 ” 1 1 0 0 .1 4 #

C o m b o Pt . S i z e # 2 S q ua re / # 2 Ph i l l i ps

8 1 8 91 P ow e r B i t # 8 -1 0 # 2 x 2 ” 1 1 0 0 .0 2 #

E 2 5

Tool

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Spec

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F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

B i t s & To o ls , M a g n e t i c H o l d e r & M u lt i - D r i v eC a rd e d B i ts & Tool s P C 6 7 0 1 , 6 7 0 0

M ag n e t ic H ex T o o l s - C a r de d P C 6 7 01

8 1 8 90 Ma g n e t i c B i t Ho l d e r - Ca rd e d 1 /4 x 3 ” 1 1 0 0 .11 # 1 6 9 48 Ma g n e t i c B i t Ho l d e r - Bu l k 1 /4 x 3 ” 1 0 1 0 0 0 .11 #

Fe at u re s:

8 1 8 84 # 6 -8 1 /4 x 1- 3 /4 ” 1 1 0 0 .0 7 # 8 1 8 85 # 6 -8 1 /4 x 2- 9 /1 6 ” 1 1 0 0 .0 8 #

8 1 8 86 # 1 0 -1 2 5 /1 6 x 1 - 3 /4 ” 1 1 0 0 .0 7 # 8 1 8 87 # 1 0 -1 2 5 /1 6 x 2 - 9 /1 6 ” 1 1 0 0 .0 9 #

8 1 8 88 1 /4 ” 3 /8 x 1- 3 /4 ” 1 1 0 0 .0 8 # 8 1 8 89 1 /4 ” 3 /8 x 2- 9 /1 6 ” 1 1 0 0 .0 9 #

M a gn et ic B i t H ol d e r P C 6 7 10 , 6 7 1 1

Not e : To be us ed wi th i ns er t b i t s on ly. No t power b i t s .

M u lt i D r i v e Sc rew G u id e K i t P C 6 71 2

T h e Mu l t i D r i ve Sc r e w Gu id e K i t co n t a i n s th e mo s t p op u l a r sc re w d r i v i n g b i ts f o r a l l yo u r fa s t e n i n g jo b s . D r i ve t h e mo s t d i f f icu l t l e n gt h s o f sc re ws w i t h e a se u s i n g t h i s p ro f ess i o n a l l y d e s ig n e d t o o l .

8 1 9 12 1 -E a Mu l t i D r i ve S c re w Gu i d e 1 1 0 0 .5 0 # 1 -E a P h i l l i p s # 1 , # 2 , # 3 1 -E a S q u a re # 1 , # 2 1 -E a S l o t t e d # 6 F- # 8 R, # 8 R- 1 0 F, # 10 R -1 2 R

Ta m p er P roo f In se rt B i ts P C 6 7 20

H e x P in

2 2 7 33 # 4 -5 3 /3 2 ” He x P i n 1 ” 1 5 0 .0 1 # 2 2 7 35 # 6 1 /8 ” He x P i n 1 ” 1 5 0 .0 1 # 2 2 7 37 # 8 ,1 0 , 1 2, 1 4 5 /3 2 ” He x P i n 1 ” 1 5 0 .0 1 # 2 2 7 38 5 /1 6 3 /1 6 ” He x P i n 1 ” 1 5 0 .0 1 # 2 2 7 39 3 /8 7 /3 2 ” He x P i n 1 ” 1 5 0 .0 1 #

S t a r P in

2 2 6 10 # 6 R T 1 0 S ta r P in 1 ” 1 5 0 .0 1 # 2 2 6 15 # 6 F- 8 R T 1 5 S ta r P in 1 ” 1 5 0 .0 1 # 2 2 6 20 # 8 F T 2 0 S ta r P in 1 ” 1 5 0 .0 1 # 2 2 6 25 1 0 F- 1 0 R T 2 5 S ta r P in 1 ” 1 5 0 .0 1 #

2 2 6 27 1 /4 F 1/ 4 R T 2 7 S ta r P in 1 ” 1 5 0 .0 1 # 2 2 6 30 1 /4 F T 3 0 S ta r P in 1 ” 1 5 0 .0 1 #

S p an n er

3 11 5 6 # 6 # 6 S pa n n e r 1 ” 1 5 0 .0 1 # 3 11 5 8 # 8 # 8 S pa n n e r 1 ” 1 5 0 .0 1 #

3 11 5 0 # 1 0 # 1 0 S pa n n e r 1 ” 1 5 0 .0 1 # 3 11 5 2 # 1 2 # 1 2 S pa n n e r 1 ” 1 5 0 .0 1 # 3 11 5 4 # 1 4 # 1 4 S pa n n e r 1 ” 1 5 0 .0 1 #

M ag n e t ic H ex T o o l s - B ul k P C 6 7 0 0

1 7 7 30 # 6 -8 1 /4 x 1- 3 /4 ” 1 0 1 0 0 0 .0 7 # 1 7 7 35 # 6 -8 1 /4 x 2- 9 /1 6 ” 1 0 1 0 0 0 .0 8 #

1 7 7 40 # 1 0 -1 2 5 /1 6 x 1 - 3 /4 ” 1 0 1 0 0 0 .0 7 # 1 7 7 45 # 1 0 -1 2 5 /1 6 x 2 - 9 /1 6 ” 1 0 1 0 0 0 .0 9 #

1 7 7 60 1 /4 ” 3 /8 x 1- 3 /4 ” 1 0 1 0 0 0 .0 8 # 1 7 7 52 1 /4 ” 3 /8 x 2- 9 /1 6 ” 1 0 1 0 0 0 .0 9 #


Tools &

Specialty Item

s

I n s e rt & P o w e r b i t s

I ns ert & P o w er B it s P C 6 65 0

I nse r t an d po w e r b i t s ar e ava i l a b le in a var i e t y o f con f i g ur a t i o n s . B i t s o f 1 ” l e ng t h ar e in se r t b i t s ; b i t s 2 ” an d lo n g e r ar e po w e r b i t s . No te : MBH To o l is u se d w i th in se r t b i t s on l y. No t to be use d w i th po w e r b i t s .

Fe at u re s:

P hi l l ip s Pt . S i z e 0 & 1

6 0 2 05 I nse r t B i t # 4 # 0 x 1 ” 1 0 1 0 0 0 .1 0 0 # 6 0 2 22 I nse r t B i t # 6 # 1 x 1 ” 1 0 1 0 0 0 .1 0 0 #

6 0 2 24 P ow e r B i t # 6 # 1 x 2 ” 1 0 1 0 0 0 .2 3 0 # 6 0 3 46 P ow e r B i t # 6 # 1 x 3 ” 5 5 0 0 .1 7 0 # 6 0 3 48 P ow e r B i t # 6 # 1 x 4 ” 5 5 0 0 .2 3 6 # 6 0 3 60 P ow e r B i t # 6 # 1 x 6 ” 5 5 0 0 .3 6 0 #


6 0 2 26 I nse r t B i t # 8 -1 0 # 2 x 1 ” 1 0 1 0 0 0 .1 0 0 # 6 0 2 28 P ow e r B i t # 8 -1 0 # 2 x 2 ” 1 0 1 0 0 0 .2 3 0 # 6 0 2 30 P ow e r B i t # 8 -1 0 # 2 x 3 ” 5 5 0 0 .1 7 0 # 6 0 3 62 P ow e r B i t # 8 -1 0 # 2 x 4 ” 5 5 0 0 .2 3 6 # 6 0 3 64 P ow e r B i t # 8 -1 0 # 2 x 6 ” 5 5 0 0 .3 6 0 #


6 0 2 32 I nse r t B i t # 1 2 -1 4 # 3 x 1 ” 1 0 1 0 0 0 .1 0 0 # 6 0 2 34 P ow e r B i t # 1 2 -1 4 # 3 x 2 ” 5 5 0 0 .2 3 0 # 6 0 3 66 P ow e r B i t # 1 2 -1 4 # 3 x 3 ” 5 5 0 0 .1 7 0 # 6 0 3 68 P ow e r B i t # 1 2 -1 4 # 3 x 4 ” 5 5 0 0 .2 3 6 # 6 0 3 70 P ow e r B i t # 1 2 -1 4 # 3 x 6 ” 5 5 0 0 .3 6 0 #

S l o t t ed Pt . S i z e 0 & 1

6 0 2 12 I nse r t B i t # 4 # 0 x 1 ” 1 0 1 0 0 0 .1 0 0 # 6 0 2 14 P ow e r B i t # 6 # 1 x 1 ” 1 0 1 0 0 0 .2 3 0 #





6 0 3 20 I nse r t B i t # 1 2 -1 4 # 3 x 1 ” 1 0 1 0 0 0 .1 0 0 # 6 0 2 00 I nse r t B i t # 1 2 -1 4 # 3 x 1 ” 1 0 1 0 0 0 .1 0 0 # 6 0 3 22 P ow e r B i t # 1 2 -1 4 # 3 x 2 ” 5 5 0 0 .2 3 0 # 6 0 3 24 P ow e r B i t # 1 2 -1 4 # 3 x 3 ” 5 5 0 0 .1 7 0 # 6 0 3 26 P ow e r B i t # 1 2 -1 4 # 3 x 4 ” 5 5 0 0 .2 3 6 #

S q u ar e Pt . 0 & 1

6 0 3 20 I nse r t B i t # 4 # 0 x 1 ” 1 0 1 0 0 0 .1 0 0 # 6 0 2 00 I nse r t B i t # 6 # 1 x 1 ” 1 0 1 0 0 0 .1 0 0 #





1 6 9 43 I nse r t B i t # 1 2 -1 4 # 3 x 1 ” 1 0 1 0 0 0 .1 0 0 # 6 0 3 36 P ow e r B i t # 1 2 -1 4 # 3 x 2 ” 1 0 1 0 0 0 .2 3 0 #

6 0 3 38 P ow e r B i t # 1 2 -1 4 # 3 x 3 ” 5 5 0 0 .1 7 0 # 6 0 3 40 P ow e r B i t # 1 2 -1 4 # 3 x 4 ” 5 5 0 0 .2 3 6 # 6 0 3 42 P ow e r B i t # 1 2 -1 4 # 3 x 6 ” 5 5 0 0 .3 6 0 #

E 2 7F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Tool

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T el e sc op i ng P ol e Tool s P C 4 6 0 7P ro v i de s a sa f e w a y t o r e ach a re a s th a t p re v i o u s ly we r e d a n g e ro u s o r i n a cce ss ib l e t o l a d d e rs , sca f fo l d i n g, an d sc i ssor l i f t s - in c l u d i ng va u l t e d ce i l in g s , o ve r s t a i r we l ls , an d th r o ug h ce i l i n g g r i d . T h e Do t t i e E l e c t r i ca l Te l e sco pi n g P o l e Too l is t he e le c t r i c i a n ’s p o l e t o o l . T he i n te rch a n g a b le h e ad s ma ke i t t h e mo s t e f f i c ie n t t o o l o f i ts k i n d. Use i t t o in s t a l l ce i l i n g w i r e ( Pa g e B 1 0 w i t h H a n ge r S c re ws Pa g e A3 1 ) , ja ck ch a in Pa g e A3 2 ) , th r ea d e d ro d ( Pa g e A2 5 w i th Ro d H a n ge r s P a g e s B 8 -1 0 ) , a n d o ve rh e a d sc r e w o r nu t in s t a l l a t io n s . P o we r t he p o le w i t h a n y 3 / 8 ” o r 1 / 2 ” d r i l l . Do t t i e ’s Po l e t oo l co mes w i t h a l l t h re e i n t e rch a n ga b l e h e a d - W i re , D o u bl e S i d e d S o cket a nd 1 /4 ” H e x D r i ve . T h e Do u b l e S i de d So cke t w i l l a cco mmo d a t e b o th Do t t i e ’s Ro d H a ng i n g S ys t em A n ch or s ( Pa g e s B8 - 10 ) a n d co mp e t i t i ve ro d h a ng i n g a n ch o rs .

CAT. NO. UP C S TD MS TR W T/ S TDDE S CRI P TI ON

DL M1 2 8 2 2 80 Tr i p l e 4 f t . Te l e sco p in g Po l e To ol 1 5 .9 0 #DL M1 8 8 2 2 81 Tr i p l e 6 f t . Te l e sco p in g Po l e To ol 1 7 .8 0 #

Ac c e s s o r ie sDL MW T 8 3 1 66 W i re & Ch a in P lu g in He a d 1 1 .2 5 #DL MR HD 8 3 1 68 Do u b l e S i de d Ro d H a n ge r H e ad 1 1 .2 5 #DL MH D 8 3 1 67 1 /4 ” B i t & P ow e r B i t H e ad 1 1 .2 5 #

T e l e s c o p i n g P o l e T o o ls

Tools &

Specialty Item

s


P ro fe ss i on a l Gr a d e Sh ov e l s - F i be rgl a ss P C 6 78 0

T h e sho ve l an d gr i p en d s ar e la r ge r to pr o v id e le ve ra g e an d con t ro l wh i le t he cen t e r ta p e rs to he l p you r ha n d s l i d e wh e n “s l in g i n g ” th e ma te r i a l a wa y f r om th e ho l e .

Fe at u re s:

2 4 0 00 # 2 Ro u n d Po i n t 4 8 ” Ha n d le 1 5 5 .0 5 # 2 4 0 05 # 2 Sq u a re Po i n t 4 8 ” Ha n d le 1 5 5 .4 4 # 2 4 0 10 1 4 ” D ra i n Sp a d e 4 8 ” Ha n d le 1 5 4 .8 4 #

2 4 0 25 1 4 ” Sh a rp sh o o te r 2 7 ” ‘D ’ Ha n d le 1 5 3 .7 7 # 2 4 0 15 4 ” Tr e n chi n g 4 8 ” Ha n d le 1 5 4 .3 1 # 2 4 0 20 5 ” Tr e n chi n g 4 8 ” Ha n d le 1 5 5 .2 0 #

2 4 0 40 P os t Ho l e D i g ge r 4 8 ” Ha n d le 1 5 11 . 9 4 #

Sl e d ges & P i c k s - F i be rgl a ss P C 6 78 0

Co mp o s i te con s t ru c t i on con s i s t s o f m i l l i on s of con t i n uo u s pa r a l l e l f ib e rg l a ss s t r an d s cur e d un d e r te n s i o n in a th e rmo se t t i n g re s i n cove r e d b y an en g i n e e r i n g p l a s t ic c la d d i n g fo r s t r en g t h , saf e t y, du r a bi l i t y an d co mf or t . Er go n o mi ca l l y de s i g n e d gr i p f i t s pa l m of ha n d fo r be t t er con t ro l , l o we r e f f o r t an d s t r a i n .

Fe at u re s:

2 4 0 50 2 lb Ha n d Dr i l l in g 1 0 ” Ha n d le 1 2 .4 4 # 2 4 0 55 4 lb Ha n d S l e d g e 1 0 ” Ha n d le 1 5 .4 2 # 2 4 0 60 8 lb S l e d g e 3 2 ” Ha n d le 1 8 .8 2 #

2 4 0 65 1 0 lb S l e d g e 3 2 ” Ha n d le 1 11 . 0 0 # 2 4 0 80 1 2 lb S l e d g e 3 2 ” Ha n d le 1 1 3 .5 5 #

2 4 0 90 5 lb P i ck 3 2 ” Ha n d le 1 8 .3 2 #

Pos t H o leD igge r

D ra i nSpade

Trench i ngStanda r d 48 ”

Leng th

D Handle-SHDSS 27” Length

Squar eR ound

P i ckH and

D r i l l i ngS l edge

C a u l k i ng Gu n s P C 6 6 0 0F o r use w i th a l l typ e s of cau l ks , sea l a n ts an d ad h e s i ve s .

Fe at u re s: 8 4 4 43 Ca u l k i ng Gu n -S kel e t o n 1 2 4 1 .1 0 0 #

4 0 7 70 Ca u l k i ng Gu n 1 2 4 1 .1 0 0 #

S h o v e l s , S le d g e s , P i c k& C a u l ki n g G u n s

E 2 9

Tool

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F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

W i re D i s p e n s e r s , D o l l i e s H a n d To t e s & G ro u n d R o d D r i v e r

W ire D i sp en se rs , D ol l i es & H a nd To tes P C 67 2 5

Gro u nd R od D r i v er P C 6 5 50

I ns t a l l g ro u n d r o d f ro m g ro u n d l e ve l . S L i d in g ac t i o n d r i ve s ro d w i th o u t n e e d o f h a mme r. Dr i ve r w i l l n o t d e f or m en d o f ro d . H ea vy d u ty co n s t r uc t i o n p ro v i d e s ma x i mu m d r iv i n g f o rce s , w h i l e sof t r u bb e r e r go n o mi c g r ip p ro v i d e s u se r co mfo r t . I n t e g ra l i n se r t pr e ve nt s dr i ve r f r om s l i pp i n g o f f g r o u nd ro d ne a r g r ou n d le ve l . Co n ve n i en t re ta i n i ng co l la r h o l d s i n se r t i n t o o l wh e n n ot in u se . Ca n b e u se d o n a l l t ype s o f g ro u n d r o ds : co pp e r b o n d ed , ga l va n ize d , s t a i n l e ss s te e l , e tc .

Fe at u re s:

2 4 1 01 5 ’ D r i ver w i th in se r t fo r 5 / 8 ” G ro u n d R o d 1 2 2 .3 4 # 2 4 1 02 5 ’ D r i ver w i th in se r t fo r 3 / 4 ” G ro u n d R o d 1 2 2 .1 3 #

I n s e r t O n l y 2 4 1 03 I nse r t o n ly f or 5 / 8 ” G r ou n d Ro d 1 5 .7 3 # 2 4 1 04 I nse r t o n ly f or 3 / 4 ” G r ou n d Ro d 1 5 .6 3 #

Ou r se l e c t i o n o f w i r e r o p e d i spe n se r s , d o l l i e s , a nd h a n d t o t e s cove r mo s t co n t ra c t o r ne e d s , wh e t h er f e e d in g w i re f r o m e i g h t o r tw e lve sma l l sp o o ls o n a h an d to t e , o r ca bl e f r o m t wo 2 ,5 0 0 f oo t re e ls o n a d o l l y. Ou r p o r t a b l e cab l e d i sp e n se r fo r R om ex a n d B X i s a t i me save r - i t o p e n s a n d mo u n ts co n ven i e n t l y o n a ne a r by 2 x 4 an d fo l d s f o r e a sy s t o ra g e . Ge n e ra l d u t y d o l l ie s a re a va i l a b l e f o r th e eco n o my m i nd e d . F u se d p o wd e r co a te d ye l l o w fo r d u r ab i l i t y & h ig h v i s ib i l i t y.

2 4 1 79 Ge n e ra l D u ty Do l l y 1 5 6 .0 0 # S up p l i e d w / f i ve 1 5 - 1/ 2 ” a d ju s t a b le / re mo va b le b a rs to a cco mmo d a te Va r i o us s i ze s o f w i r e sp o o l s . L a rg e 1 0 ” se m i -h a rd ru b b e r t i re s f or sm oo t h h a n d l in g . W i l l a cco mmo d a te 65 0 l bs .

2 4 1 78 Ge n e ra l D u ty Do l l y 1 6 1 .0 0 # S up p l i e d w / f i ve 1 5 - 1/ 2 ” a d ju s t a b le / re mo va b le b a rs to a cco mmo d a te var i ou s s i ze s o f w i r e sp o o l s . su p pl i e d w i t h ON E DD 2 05 H T. L a rg e 1 0 ” se m i -h a rd ru b b e r t i r es f or smo o th h a nd l i n g . W i l l a cco mmo d a te 6 5 0 l b s .

2 4 1 77 Ge n e ra l D u ty Do l l y 1 5 4 .0 0 # S up p l i e d w / e i g h t 1 8 -1 / 2 ” re mo va b le b a rs to a ccomm od a t e va r i o u s s i ze s of w i re sp oo l s . H in g e a l l o ws u ni t t o f o l d f la t w h e n t ra n sp or t in g w i re . L a rg e 1 0 ” se m i - ha r d r u bb e r t i r e s f o r smo o th ha n d l i ng . W i l l a cco mmo d a te 6 50 l bs .

H an d T o t e s & C ab l e D i s pe n s e r

2 4 1 74 Ha n d To te (h o l d s 8 sp oo l s ) 1 4 .4 0 # Co n s t ru c t ed o f 5 /8 ” & 1 ” h i g h s t re n g t h r ou n d s te e l

2 4 1 81 Ha n d To te (h o l d s 1 2 spo o l s ) 1 1 2 .0 0 # Co n s t ru c t ed o f 5 /8 ” & 1 ” h i g h s t re n g t h r ou n d s te e l

2 4 1 80 P or ta b l e C a b le D i sp e nse r 1 1 3 .7 5 # Mo u n ts o n a 2 x 4 ” s tu d an d su p po r ts 4 5 p o u n d s .

D D 104E D D 105E D D 106A D D 205H T D D 206H T D D 210R


Tools &

Specialty Item

s

W or k Gl ov es P C 6 7 7 3Ta ke a qu i ck lo o k at ou r l i n e of t r ad i t io n a l wo rk g l o ve s an d you ’ l l see wh y we ’ ve go t you cove r e d. We ha ve a l l th e to p se l l i n g s ty l e s an d ma te r i a l s re p re se n t i n g bo t h th e “ i n du s t ry s ta n d a rd s ” an d th e “u p -a n d -co me rs . ” W h e th e r you ’ re lo o k i n g fo r Sa f e ty Cu f fs , Dr i ve rs , Co t t o n Ch o re , S t r i n g Kn i ts , or La t e x D i p s , we ’ ve go t ‘e m. We ’ ve bu i l t a lo t o f va l u e in t o ou r l i n e so you can be assu r e d of com pe t i t i ve pr i c in g an d gr e a t qu a l i ty t hr o u gh o u t .

W o r k G l o v e s & Lat e x G l o v e s

084298205439 Me d i um E con o my Sp l i t Co wh i d e Dr i ve r 1 1 2 0 .3 2 # 084298205446 L a rg e E con o my Sp l i t Co wh i d e Dr i ve r 1 1 2 0 .3 4 # 084298205453 E x t r a La r g e E con o my Sp l i t Co wh i d e Dr i ve r 1 1 2 0 .3 5 # 084298205866 Me d i um To p Gra i n Co wh i d e Dr i ve r 1 1 2 0 .2 4 # 084298205842 L a rg e To p Gra i n Co wh i d e Dr i ve r 1 1 2 0 .2 5 # 084298205859 E x t r a La r g e To p Gra i n Co wh i d e Dr i ve r 1 1 2 0 .2 6 # 084298206337 Me d i um To p Gra i n De e rsk i n Dr i ve r 1 1 2 0 .2 5 # 084298206344 L a rg e To p Gra i n De e rsk i n Dr i ve r 1 1 2 0 .2 6 # 084298206351 E x t r a La r g e To p Gra i n De e rsk i n Dr i ve r 1 1 2 0 .3 3 # 084298206535 Me d i um To p Gra i n Co wh i d e Dr i ve r 1 1 2 0 .2 6 # 084298206542 L a rg e To p Gra i n Co wh i d e Dr i ve r 1 1 2 0 .2 7 # 084298206559 E x t r a La r g e To p Gra i n Co wh i d e Dr i ve r 1 1 2 0 .2 8 # 084298206931 Me d i um To p Gra i n P i g sk i n Dr i ve r 1 1 2 0 .2 0 # 084298206948 L a rg e To p Gra i n P i g sk i n Dr i ve r 1 1 2 0 .2 2 # 084298206955 E x t r a La r g e To p Gra i n P i g sk i n Dr i ve r 1 1 2 0 .2 3 # 084298204036 Me d i um S pl i t Co wh i d e Sa f e ty Cu f f 1 1 2 0 .4 8 # 084298204005 L a rg e S pl i t Co wh i d e Sa f e ty Cu f f 1 1 2 0 .4 8 # 084298204043 E x t r a La r g e S pl i t Co wh i d e Sa f e ty Cu f f 1 1 2 0 .4 8 # 084298205637 Me d i um S pl i t Co wh i d e Wi n t er G l ove s 1 1 2 0 .5 5 # 084298205606 L a rg e S pl i t Co wh i d e Wi n t er G l ove s 1 1 2 0 .5 8 # 084298205651 E x t r a La r g e S pl i t Co wh i d e Wi n t er G l ove s 1 1 2 0 .6 1 # 084298202933 Me d i um S t r in g Kn i t G l ove s w i th B l u e D i p 1 1 2 0 .1 2 # 084298202940 L a rg e S t r in g Kn i t G l ove s w i th B l u e D i p 1 1 2 0 .1 2 # 084298202957 E x t r a La r g e S t r in g Kn i t G l ove s w i th B l u e D i p 1 1 2 0 .1 3 # 084298203093 Me d i um L a te x Gr i p p e r G l ove s 1 1 2 0 .1 7 # 084298203077 L a rg e L a te x Gr i p p e r G l ove s 1 1 2 0 .1 8 # 084298203053 E x t r a La r g e L a te x Gr i p p e r G l ove s 1 1 2 0 .2 0 #

084298203038 Me d i um L a te x Gr i p p e r G l ove s - (3 pa i r / p a ck ) 1 1 2 0 .6 5 # 084298203084 L a rg e L a te x Gr i p p e r G l ove s - (3 pa i r / p a ck ) 1 1 2 0 .6 8 # 084298203052 E x t r a La r g e L a te x Gr i p p e r G l ove s - (3 pa i r / p a ck ) 1 1 2 0 .7 0 #

084298203831 Me d i um T-To u ch TM Te ch n ica l Sa f e ty G l ove 1 1 2 0 .11 # 084298203848 L a rg e T-To u ch TM Te ch n ica l Sa f e ty G l ove 1 1 2 0 .1 2 # 084298203855 E x t r a La r g e T-To u ch TM Te ch n ica l Sa f e ty G l ove 1 1 2 0 .1 3 #

084298200403 One Size Fits All Co t to n Ca n va s G l ove s w i th Kn i t Wr i s t 1 1 2 0 .1 5 # 084298200601 One Size Fits All Co t to n Ca n va s G l ove s w i th Gr i p p e r Do ts 1 1 2 0 .1 7 #

084298201004 One Size Fits All E con o my Co t t o n /P o l y S t r i n g Kn i t 1 1 2 0 .11 #

084298232244 L a rg e Nitr i le Disposable Non-Powdered - (100 ea./box) 1 1 2 1 .7 5 # 084298232251 E x t r a La r g e Nitr i le Disposable Non-Powdered - (100 ea./box) 1 1 2 1 .7 5 # 084298232343 L a rg e 5 Mil. Nitr ile Dispos. Non-Powdered - (50 ea./box) 1 1 2 1 .1 0 # 084298232541 One Size Fits All TuffsterTM Nitr ile Disposable Gloves (50 ea./box) 1 1 2 1 .3 5 #

2054 2058 2063 2065 2069 2040 2056

2029 2030 P2030 2038 2004 2006 2008

2010 2013 2322 2323 2325 LG1 00 La tex Gl ove

E 3 1F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

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F l ex Gr i p H ig h D e xt er it y Gl ov es P C 6 7 7 4

CL C F l e x Gr i p g l o ve s de l i ve r an un ma t ch e d b l e n d of s ty l e , fu n c t io n an d q u a l i t y. T h ey ’ r e fo rm - f i t t ed fo r ad d e d de x t e r i t y an d re d u ced fa t ig u e . We u se qu a l i ty ma te r i a l s an d t i me - t e s te d con s t ru c t i on me th o d s to ma ke th i s d yn a mica l l y s t i l e d l i n e th e be s t -o f - t h e -b e s t in h i g h de x t e r i t y g l o ve s . Ou r S ynt re x TM synt h e t i c pa l m ma te r i a l pr o v id e s in c r ea se d ab r a s io n re s i s ta n ce f or be t t er we a r. An d ou r S t re t ch -F i t TM th u mb fe a t ur e an d spa n d e x ba ck co mb i ne fo r a be t t er f i t t i n g g l o ve w i th gr e a te r f l e x i b i l i t y.

Fl e x G r i p & H y b r i d G l o v e s

0 8 4 29 8 8 1 2 3 3 0 Me d i um Wo rkR i gh t TM OC 1 1 2 0 .1 7 # 0 8 4 29 8 8 1 2 3 6 1 L a rg e Wo rkR i gh t TM OC 1 1 2 0 .1 7 # 0 8 4 29 8 8 1 2 3 7 8 X -L a rg e Wo rkR i gh t TM OC 1 1 2 0 .1 8 #

0 8 4 29 8 8 1 2 3 4 6 L a rg e Wo rkR i gh t Wi n t er TM 1 1 2 0 .2 1 # 0 8 4 29 8 8 1 2 3 5 3 X -L a rg e Wo rkR i gh t Wi n t er TM 1 1 2 0 .2 2 #

0 8 4 29 8 8 1 2 4 3 9 Me d i um Wo rkR i gh t TM 1 1 2 0 .1 9 # 0 8 4 29 8 8 1 2 4 4 6 L a rg e Wo rkR i gh t TM 1 1 2 0 .1 9 # 0 8 4 29 8 8 1 2 4 5 3 X -L a rg e Wo rkR i gh t TM 1 1 2 0 .1 9 # 0 8 4 29 8 8 1 3 0 3 0 Me d i um S ub co n t ra c t or TM 1 1 2 0 .2 2 # 0 8 4 29 8 8 1 3 0 4 7 L a rg e S ub co n t ra c t or TM 1 1 2 0 .2 3 # 0 8 4 29 8 8 1 3 0 5 4 X -L a rg e S ub co n t ra c t or TM 1 1 2 0 .2 4 #

0 8 4 29 8 8 1 3 0 6 1 X X- La r g e S ub co n t ra c t or TM 1 1 2 0 .2 5 # 0 8 4 29 8 8 1 3 3 3 5 Me d i um B ox e r TM 1 1 2 0 .2 2 # 0 8 4 29 8 8 1 3 3 4 2 L a rg e B ox e r TM 1 1 2 0 .2 3 # 0 8 4 29 8 8 1 3 3 5 9 X -L a rg e B ox e r TM 1 1 2 0 .2 4 # 0 8 4 29 8 8 1 4 5 3 2 Me d i um P ro Fr a me r XC TM 1 1 2 0 .2 5 # 0 8 4 29 8 8 1 4 5 4 9 L a rg e P ro Fr a me r XC TM 1 1 2 0 .2 6 # 0 8 4 29 8 8 1 4 5 5 6 X -L a rg e P ro Fr a me r XC TM 1 1 2 0 .2 7 #

Fe at u re s:

H yb r i d Gl ov es P C 6 7 7 4

T h e du r a bi l i t y o f t ra d i t i o n al le a t h er wo rk g l o ve s com bi n e d w i th th e ad va n ce d ma te r i a l s o f h i g h pe r fo r ma nce de x t e r i t y g l o ve s .

Fe at u re s:

0 8 4 29 8 8 2 6 0 3 0 Me d i um S ue d e Pa l m w/ Kn i t Wr i s t 1 1 2 0 .3 6 # 0 8 4 29 8 8 2 6 0 4 7 L a rg e S ue d e Pa l m w/ Kn i t Wr i s t 1 1 2 0 .3 6 # 0 8 4 29 8 8 2 6 0 5 4 X -L a rg e S ue d e Pa l m w/ Kn i t Wr i s t 1 1 2 0 .3 6 # 0 8 4 29 8 8 2 7 0 3 7 Me d i um To p Gra i n Go a tsk i n w / Sa f e ty Cu f f 1 1 2 0 .4 9 # 0 8 4 29 8 8 2 7 0 4 4 L a rg e To p Gra i n Go a tsk i n w / Sa f e ty Cu f f 1 1 2 0 .4 9 # 0 8 4 29 8 8 2 7 0 5 1 X -L a rg e To p Gra i n Go a tsk i n w / Sa f e ty Cu f f 1 1 2 0 .4 9 # 0 8 4 29 8 8 2 8 5 3 9 Me d i um To p Gra i n De e rsk i n w / Wr i s t C l o sur e 1 1 2 0 .3 8 # 0 8 4 29 8 8 2 8 5 4 6 L a rg e To p Gra i n De e rsk i n w / Wr i s t C l o sur e 1 1 2 0 .3 8 # 0 8 4 29 8 8 2 8 5 5 3 X -L a rg e To p Gra i n De e rsk i n w / Wr i s t C l o sur e 1 1 2 0 .3 8 #

123 L123 124 130 135 140

260 270 285

Tools &

Specialty Item

s


To o l B e lt & P o u c h e s

Tool B elt P C 6 77 0

Fe at u re s:

0 8 4 29 8 5 6 0 9 0 3 2 0 Po cke t - 3 P i e ce Ba l l is t i c Po l y 1 3 3 .0 0 # E le c t r i ca l Co mb o F i t s wa i s t s ize s 29 ” - 46 ” (F o r la r ge r be l t , #5 6 2 5 X L, pa g e E3 5 )

Tool P o u c he s P C 6 77 0We ’ve got you covered wi th our offer ing of heavy-duty fabric , too l pouches in mult iple conf igurations to satis fy the needs of just about any elect r ic ian, maintenance technic ian, drywal ler, or al l -around handyman. Pockets and s leeves are r ight -s ize designed to f i t the too ls you use most. So keep the too ls o f your trade r ight at hand, organizezd, and ready to go. Our power dis t r ibutor features a surge protector that dis t r ibutes power to 4 plug out le ts for convenient charg ing and connect ing.

0 8 4 29 8 0 1 5 0 4 5 9 Po cke t Po l y Mu l t i -P ur p o se “Ca r y -A l l ” To o l Po u ch 1 3 0 .5 8 # 0 8 4 29 8 0 1 5 0 9 0 2 1 Po cke t Z i p p e re d Pr of e ss i o na l E l e c t r i c ia n ’s 1 3 2 .6 7 #

To o l Po u ch 0 8 4 29 8 0 1 5 2 3 6 S ma l l Po l y Z i p to p TM U t i l i t y Po u ch 1 3 0 .5 7 # 0 8 4 29 8 0 1 5 2 4 3 Me d i um Po l y Z i p to p TM U t i l i t y Po u ch 1 3 0 .9 2 # 0 8 4 29 8 5 5 0 5 0 8 1 2 Po cke t Ba l l is t i c Po l y Pr of e ss i o na l E l e c t r i c ia n ’s 1 3 0 .9 2 #

To o l Po u ch 0 8 4 29 8 5 5 0 8 0 5 2 0 Po cke t Ba l l is t i c Po l y Pr of e ss i o na l E l e c t r i c ia n ’s 1 3 1 .9 2 #

To o l Po u ch

1504 1509 1523 1524 5505 5508

C u t L e v el 5 Gl ov es P C 6 77 3The Cut Level 5 Glove is an engineered kni t glove for except ional cut and impact protect ion. The combi-nation of HDPE, Fiberg lass, Nylon, Sandy Ni tr i le coat ing, and TPR pads offers the next leve l of ul t imate hand safety and durabi l i ty.

Fe at u re s:

084298210532 Me d i um Cu t Re s i s ta n t Po l yu re t ha n e D i p G l ove s 1 1 2 0 .2 0 # 084298210549 L a rg e Cu t Re s i s ta n t Po l yu re t ha n e D i p G l ove s 1 1 2 0 .2 0 # 084298210556 X -L a rg e Cu t Re s i s ta n t Po l yu re t ha n e D i p G l ove s 1 1 2 0 .2 0 # 084298211539 Me d i um Cu t an d Imp a c t Re s i s ta n t N i t r i l e D i p G l ove s 1 1 2 0 .4 5 # 084298211546 L a rg e Cu t an d Imp a c t Re s i s ta n t N i t r i l e D i p G l ove s 1 1 2 0 .4 5 # 084298211553 X -L a rg e Cu t an d Imp a c t Re s i s ta n t N i t r i l e D i p G l ove s 1 1 2 0 .4 5 #

2105 2115

E 3 3

Tool

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Spe

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ty It

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F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Tool H ol d er s , Orga n iz er s & A c c es sor i es P C 6 77 0

Fe at u re s:

0 8 4 29 8 0 11 0 0 9 3 Po l y Mu l t i -P ur p o se , C l ip - On , Z i p p e re d Ba g s 1 3 0 .2 9 # 0 8 4 29 8 0 11 0 4 7 4 Po cke t Po l y Mu l t i -P ur p o se To o l Ho l de r 1 3 0 .1 9 # 0 8 4 29 8 0 5 0 2 1 3 P ol y Imp a c t Dr i ve r Ho l s te r 1 3 0 .1 6 # 0 8 4 29 8 0 5 0 2 3 7 De l u x e Co rd l e ss Po l y Dr i l l Ho l s te r 1 3 0 .5 8 # 0 8 4 29 8 0 5 1 2 4 1 Ce l l Ph o n e Ho l de r 1 3 0 .1 7 # 0 8 4 29 8 0 5 1 2 7 2 L a rg e Ce l l Ph o n e Ho l s te r 1 3 0 .2 1 #

T ec h Ge a r TM B a gs P C 6 77 0

I n t ro d u c i n g ou r Te ch Ge a r TM l i n e . We ’ve ad d e d an o t h e r le ve l o f in n o va t i o n to sof t s id e to o l ca r r ie r s by in t e g ra t i n g , an d sou n d fo r you r d i g i ta l mu s ic p l aye r. Ou r LE D l i g h t sys te m he l p s you see in t o you r ba g or f i n i sh a pr o je c t wh e n na t u ra l l ig h t is scar ce . An d ou r au d i o ba g le t s you en j o y you r mu s ic w i th o u t th e iso l a t i o n of h e a dp h o n e s , or th e ad d e d ha ss l e of ha u l i n g ar o u nd a sep a r at e spe a ke r de v i ce .

0 8 4 29 8 1 3 2 3 3 9 3 9 Po cke t - Te ch Ge a r TM w / 1 3 5 .5 0 # 1 8 ” Me ga Mo u t h TM To o l Ba g

0 8 4 29 8 1 2 2 3 0 9 2 9 Po cke t - Te ch Ge a r TM w / 1 3 3 .6 0 # 1 4 ” B i g Mo u th TM To o l Ba g

0 8 4 29 8 1 2 2 3 2 3 4 5 Po cke t - Te ch Ge a r TM w / 1 3 3 .1 4 # 1 8 ” B i g Mo u th TM To o l Ba g

0 8 4 29 8 1 2 2 3 4 7 2 2 Po cke t - Te ch Ge a r TM w / 1 3 4 .4 0 # 1 5 ” Op e n To p To o l Ca r r ie r

0 8 4 29 8 1 2 2 3 8 5 4 7 Po cke t - Te ch Ge a r TM w / 1 3 5 .3 0 # 1 4 ” Op e n To p To o l Ca r r ie r

0 8 4 29 8 1 2 2 4 5 3 5 6 Po cke t - Te ch Ge a r TM w / 1 3 8 .1 5 # 1 8 ” Du a l Co mp a r t me n t To o l Ca r r ie r

0 8 4 29 8 1 2 2 5 8 3 1 7 Po cke t - L i g h t Ha n d le 17 ” Ro l le r Ba g 1 3 9 .3 5 #

0 8 4 29 8 1 2 2 3 5 3 1 8 ” Po we r D i s t r ib u t i on To o l Ba g 1 3 4 .6 5 #

1100 1104 5021 5023 5124 5127

A233 L230 L232

L234 L238 L245

Innovative!Built-In

Stereo

Speaker System

To o l H o ld e r s , T e c h G e a r TM & A c c e s s o r i e s

L258

L235


Tools &

Specialty Item

s

To o l H o l d e r s & O rg a n iz e r s

So ft s i d e Tool C a rr ie r s P C 6 77 0

1132 1134 1137 1139 1148 1165

1526 1528 1529 1530 1534 1535

1537 1570 1578 1579

0 8 4 29 8 0 11 3 2 0 7 5 Po cke t - To o l Ba ckp a ck 1 3 4 .8 3 # 7 ” x 5 ” Mu l t i - co mp a r t me n t p l a s t ic t r ay in c l u d e d. 1 3 ”W x 17 - 1 /2 ” H x 9 ” D

0 8 4 29 8 0 11 3 4 4 4 8 Po cke t - To o l Ba ckp a ck 1 3 5 .0 0 # 1 3 -1 / 4 ” W x 16 ” H x 6 ” D

0 8 4 29 8 0 11 3 7 5 1 4 Po cke t - Tr a y to t e TM Ba g 1 3 3 .8 3 # 1 2 ”L x 8 ” W x 12 ” H

0 8 4 29 8 0 11 3 9 9 1 2 Po cke t - La r g e Tr a y to t e TM Ba g 1 3 3 .5 0 # 1 5 ”L x 19 ” W x 12 ” H

0 8 4 29 8 0 11 4 8 1 2 2 Po cke t - Dra w s t r in g Bu cke t Ba g 1 3 1 .0 0 # 1 0 ” D i a me te r x 7 ” H i g h

0 8 4 29 8 0 11 6 5 8 2 2 Po cke t - 16 ” B i g Mo u th TM Ba g 1 3 3 .0 8 # 1 6 ”L x 8- 1 /2 ” W x 10 ” H

0 8 4 29 8 0 1 5 2 6 7 2 3 Po cke t - E l e c t r i ca l & Ma in t e na n ce 1 3 2 .7 5 # To o l Ca r r ie r ; 8 ” L x 8 ” W x 17 ” H

0 8 4 29 8 0 1 5 2 8 1 2 3 Po cke t - La r g e E l e c t r i ca l & Ma in t e na n ce 1 3 5 .5 0 # To o l Ca r r ie r ; 11 ”L x 10 ” W x 19 ” H

0 8 4 29 8 0 1 5 3 0 4 1 6 Po cke t - 16 ” Ce n te r Tr a y To o l Ba g 1 3 2 .5 0 # 1 6 ”L x 9 ” W x 9 ” H

0 8 4 29 8 0 1 5 3 0 4 4 3 Po cke t - E l e c t r i ca l & Ma in t e na n ce 1 3 3 .2 0 # To o l Ca r r ie r ; 23 ” L x 12 ” W x 15 ” H

0 8 4 29 8 0 1 5 3 4 2 2 3 Po cke t - 16 ” To te Ba g w i th To p -S id e 1 3 4 .0 0 # P la t i c Tr a y ; 16 ” L x 12 ” W x 11 ”H

0 8 4 29 8 0 1 5 3 5 9 3 7 Po cke t - 18 ” To te Ba g w i th To p -S id e 1 3 5 .1 7 # P la s t i c t r ay ; 18 ” L x 11 ”W x 11 ”H

0 8 4 29 8 0 1 5 3 7 1 3 3 Po cke t - 13 ” Mu l t i -Co mp a r tme n t 1 3 4 .0 0 # To o l Ca r r ie r ; 13 ” L x 7 ” W x 13 ” H

0 8 4 29 8 0 1 5 7 0 0 2 0 Po cke t - 12 ” So f ts i d e d To o l Bo x 1 3 4 .6 7 # 1 2 ”L x 8- 1 /2 ” W x 14 ” H

0 8 4 29 8 0 1 5 7 8 6 2 1 Po cke t - 14 ” Op e n To p So f ts i d e d To o l Bo x 1 3 5 .5 0 # 1 4 ”L x 11 ”W x 11 ”H

0 8 4 29 8 0 1 5 7 9 3 2 7 Po cke t - 20 ” Op e n To p So f ts i d e d To o l Bo x 1 3 7 .0 0 # 2 0 ”L x 11 ”W x 11 ”H

E 3 5F :3 2 3- 7 2 1- 0 0 0 0P :3 2 3- 7 25 - 10 0 0L HD O T T I E . CO M

Tool

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Spec

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A c c e s s o r i e s & We b S t r a p s

K n eep a ds , Be lt s & Su sp e nd e rs P C 6 7 70

0 8 4 29 8 0 0 3 0 2 8 Me d i um I n du s t r i a l K n e el i n g Ma t ( 1 4 ” x 2 1 ” ) 1 3 2 .0 8 # 0 8 4 29 8 0 0 3 0 3 5 L a rg e I n d u s t r ia l Kn e e l in g Ma t (2 8 ” x 16 ” ) 1 3 2 .8 3 # 0 8 4 29 8 0 0 3 4 5 5 P ro fe ss i o n a l K ne e p a d s 1 3 1 .9 3 # 0 8 4 29 8 0 0 3 6 1 5 U l t ra f le x No n -S k i d K n ee p a d s 1 3 1 .6 0 #

0 8 4 29 8 5 1 2 1 0 0 P ad d e d Wo rk Su sp e n de r s 1 3 0 .6 5 # 0 8 4 29 8 5 1 2 2 0 9 P ad d e d Co n s t r u c t i o n S u sp en d e r 1 3 0 .6 5 # 0 8 4 29 8 5 6 2 5 1 8 5 ” W id e Pa d d e d C o mfo r t Be l t ( 29 ” -4 6 ” ) 1 3 0 .9 5 #

0 8 4 29 8 5 6 2 5 3 2 5 ” W id e Pa d d e d C o mfo r t Be l t - X L (4 7 ” -5 6 ” ) 1 3 0 .9 5 #

302C LC 5625361C LC 5121345C LC

K ne e pa ds & A c c es s o r ie s

B e lt s & S us p en d er s

Web St r ap s ( T i e D ow n ) P C 67 7 5

Fe at u re s:

– Co u n t er M er ch a nd i se r w / S t r ap s A ssor te d 1 6 .8 0 # 2 4 1 60 2 ’ Ny l o n Ti e D o wn w/ Bu ck l e Re d 1 2 1 4 4 2 .0 5 # 2 4 1 61 4 ’ Ny l o n Ti e D o wn w/ Bu ck l e Yel l o w 1 2 1 4 4 2 .4 5 # 2 4 1 62 6 ’ Ny l o n Ti e D o wn w/ Bu ck l e Gr e en 1 2 1 4 4 2 .9 0 # 2 4 1 63 8 ’ Ny l o n Ti e D o wn w/ Bu ck l e P ur p le 1 2 1 4 4 3 .3 5 # 2 4 1 64 1 0 ’ Ny l o n Ti e D o wn w /B u ck l e B lu e 1 2 1 4 4 3 .7 5 # 2 4 1 65 1 2 ’ Ny l o n Ti e D o wn w /B u ck l e B la ck 1 2 1 4 4 4 .0 5 #

S t r ap - I t 2 P c Ha n g - up D is p l ay Pa c k

5 8 2 11 2 ’ Ny l o n Ti e D o wn w/ Bu ck l e Re d 1 1 2 2 .0 5 # 5 8 2 12 4 ’ Ny l o n Ti e D o wn w/ Bu ck l e Yel l o w 1 1 2 2 .4 5 # 5 8 2 13 6 ’ Ny l o n Ti e D o wn w/ Bu ck l e Gr e en 1 1 2 2 .9 0 # 5 8 2 14 8 ’ Ny l o n Ti e D o wn w/ Bu ck l e P ur p le 1 1 2 3 .3 5 # 5 8 2 15 1 0 ’ Ny l o n Ti e D o wn w /B u ck l e B lu e 1 1 2 3 .7 5 # 5 8 2 16 1 2 ’ Ny l o n Ti e D o wn w /B u ck l e B la ck 1 1 2 4 .0 5 #

Heavy -use S t rap- i t t ie -down st r aps a re now ava i l ab le in 6 popu la r co lo r -coded l eng ths.

W S0 0 Co n ta i n s : 3 6 W eb S t r ap s (6 o f Ea . L e n g t h)

Tools &

Specialty Item

s


D o t t ie P i p e S u p p o rt

D ot t i e P i p e Su p p ort P C 5 39 0

T h e Do t t i e P i p e Su p p o r t is th e f i r s t an d on l y p i p e sup p o r t in th e in d u s t ry. T h is ne w an d in n o va t i ve pr o d uc t fe a t ur e s Du a l Ch a n ne l te ch n o lo g y, an d is con s t ru c t e d o f h i g h s t r en g t h po l yme rs AB S an d AE S fo r in c r ea se d s t r uc t u ra l sup p o r t an d UV re s i s t an ce . Du a l cha n n e l te ch n o lo g y c re a te s th e

. S t ru t c la mp s can be fa s t e ne d to th e la r ge cha n n e l wh i le con d u i t h a n ge r s an d le ve l i ng sys te ms can be fa s t e ne d to th e sma l l e r cha n n e l . T h e Do t t i e P i p e su p p or t com es at a s ta n d a rd le n g t h of 4 fe e t , an d is ea s i l y cut to re q u i r e d sp e c i f i ca t i o n s . L i g h t we i gh t an d h i g h l y re s i s ta n t ma te r i a l gu a r an t e e an ex t re me l y d u ra b l e pr o d uc t . A s in g l e 4 ” sup p o r t ha s a lo a d re s i s ta n ce of 52 2 Lb s . Do t t i e ’s cut t o le n g t h p i p e sup p o r t s .

DP S 8 4 9 32 Do t t i e 4 f t P i p e Su p p o r t 1 3 .9 0 #

Fe at u re s:

M 1

M e rc ha n d is i n g

M 2

M e rc ha n d is i n g

M 3

I n d e x - n u m e r ic

M 4

I n d e x - n u m e r ic / A l p h a b e t i c

M 5

I n d e x - A lp h a be t ic

M 6

I n d e x - A lp h a be t i c

catalog 31

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