load handling chart book ltm 1080/ 1 061082 - monsta …s/liebherr ltm1080...stress collective s1...
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Load handling chart book
LTM 1 0 8 0 / 1
0 6 1 0 8 2
EPROM: 3 1 . 0 8 . 2 0 0 9
Load handling chart book LTM 1 0 8 0 / 1
Address
LIEBHERR-WERK EHINGEN GMBH
Postfach 1361
D-89582 Ehingen / Donau
Tel.(07391)502-0
Telex 71763-0 le d
Fax (07391)502-399
Product identification
LIEBHERR-WERK EHINGEN GMBH
LTM 1080/ 1
061082
31. 08 . 2009
Address:
Manufacturer:
Product group:
Type:
Machine number:
EPROM:
Load handling chart book LTM 1080/1
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Contents
I. INFORMATION FOR USING THE LOAD CAPACITYTABLES
DANGER: The specifications contained in the operating instructions are ofvital importance for crane operation. Failure to observe theseinstructions may lead to ACCIDENTS!!
1. Explanations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 2
2. Crane operating mode "Crane supported" . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 2
3. Crane operating mode "Free-standing on tires" . . . . . . . . . . . . . . . . . . . . . . . . page I - 3
4. Crane travel with load . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 3
5. There is a danger of overloading or toppling the crane: . . . . . . . . . . . . . . . . . . page I - 4
6. Telescopic boom . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 4
7. Rope winches. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 5
8. Hoisting rope reeving . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 5
9. Changing between material handling and installation operation . . . . . . . . . . . page I - 6
10. LICCON Overload safety device and Limit switch . . . . . . . . . . . . . . . . . . . . . page I - 7
11. Hook blocks and load hooks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 7
12. Load capacity reduction with folding jib mounted. . . . . . . . . . . . . . . . . . . . . . page I - 8
13. Maximum turning speed of the crane’s superstructure with a nominal load . . page I - 11
14. Explanation of symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 12
Hoisting rope reeving. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 12
Load capacity in metric tons [t] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 12
Operating mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 12
Operating types that can only be operated with accessories! . . . . . . . . . . . page I - 12
Working radius of the telescopic boom . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 13
Working radius of the additional jib . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 13
Telescopic boom length /units of measurement . . . . . . . . . . . . . . . . . . . . . page I - 13
Short code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 13
Hoisting rope reeving. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 13
Extension conditions of the telescopic boom sections. . . . . . . . . . . . . . . . . page I - 13
Counterweight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 13
Crane operations "Crane supported" . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 14
Crane operations "Crane freestanding on tires". . . . . . . . . . . . . . . . . . . . . . page I - 14
Slewing range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 14
Permissible wind speed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 14
15. Observation of wind conditions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page I - 15
II. LOAD CAPACITY TABLES
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1. Explanations
1.1 The load capacity values in the tables are stated in metric tons [t].
1.2 The working radius is the horizontal gravity center distance of the load from the tional axis of the crane superstructure measured at the ground. The radius statevalid under load conditions, i.e. including boom flexure.
1.3 Boom positions differing from those given in the load capacity tables are not persible.
1.4 Even without a load, the boom may only be moved inside those areas for which capacity values are stated, otherwise there is a danger of tilting. In normal operathis hazard is prevented by the overload safety device. After switching to "Assembmode (with the "assembly" key-operated switch), the boom must not be loweredtopped outside the range of the working radius.
1.5 The stated load capacities contain the weights of the load bearing, lifting and slintackle. The possible weight for the load to be lifted is therefore reduced accordinthe weights of the afore-mentioned tackle.
1.6 If the boomnose is mounted on the jib head during crane operation, then the posload is reduced further corresponding the weight of the boomnose. (0,065 t)
2. Crane operating mode "Crane supported"
2.1 Before the crane is raised on its supports, the axle suspension must be blocked
2.2 The sliding arms of the hydraulic support jack must be extended (to a uniform leon both sides) to the extent stated in the applirope load capacity table.
2.3 The sliding arms must be secured by pins.
2.4 It is necessary to place stable underlay material under the support pads of the sjacks over a large surface area according to ground conditions.
2.5 All wheels must be raised clear of the ground.
2.6 The crane must be aligned horizontally with the aid of the level gauges. The hortal crane position must be checked occasionally, and if necessary corrected, durcrane operation.
I - 2 /16
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3. Crane operating mode "Free-standing on tires"
The crane can be operated in this mode if the following instructions are observed
3.1 The telescopic boom may be extended to a maximum length of 17.6 m.
3.2 The ground beneath the crane must be in a position to securely bear the maximoperating weight of the crane supplemented by the weight of the load.
3.3 The ground beneath the crane must be level and not sloping.
3.4 The suspension of all axles must be locked.
3.5 If possible, the sliding arms should be extended and the support jacks, with supppads mounted, lowered to a location slightly above the ground, so that the cranerest on the supports if the ground gives way.
3.6 The air pressure of all tires must conform to the pressure specified for crane opetion:.
DANGER: Failure to comply with these pressures may lead to accidents
4. Crane travel with load
The crane can be driven with a suspended load if the instructions given under poare observed. The following supplementary rules apply:
4.1 The crane must be driven very slowly (1st gear).
4.2 Abrupt travel movements must be avoided.
4.3 The load must be kept close to the ground and safeguarded against pendulum m
Tire equipmentair pressure for
road travelair pressureforcrane operation
14.00-25 10 bar 10 bar
16.00-25 9 bar 10 bar
20.5-25 7 bar 8 bar
I - 3 /16
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5. There is a danger of overloading or toppling the crane:
5.1 if the loads, boom lengths and radius indicated in the appropriate load chart are strictly adhered to;
5.2 if the load begins to swing due to improper control of crane movements;
5.3 if loads are pulled at an angle. Pulling diagonally to the boom's longitudinal axis ismost dangerous movement, and must never be carried out. Pulling at an angle is pbited.
5.4 if there is insufficient distance from trenches, cellars, and holes;
5.5 if in operating condition "crane supported":
5.5.1 the crane is not propeerly supported on all 4 hydraulic supports and the crane isadjusted horizontally;
5.5.2 the sliding outrigger arms are not extended to the exact length stated in the appliload chart (to a uniform length on both sides);
5.5.3 the sliding arms are not secured with pins;
5.5.4 the support pads are not provided with a suitable foundation of stable material inaccordance with the relevant ground conditions;
5.6 if in operating condition "crane freestanding on tires, working over rear":
5.6.1 the telescopic boom is extended to a length of more than 17.6 m;
5.6.2 the axle suspension is not blocked;
5.6.3 the ground is not capable of bearing the max. operating weight of the crane supmented by the weight of the load.
5.6.4 the ground is not level an not without inclination;
5.6.5 the crane is driven too fast with a load suspended, and braking or other movemensudden.
6. Telescopic boom
6.1 The lifting capacity of the telescopic boom with its 5 extendable telescopic sectionlimited. The loads stated in the load capacity tables must not be exceeded.
6.2 The specifications for the telescopic sections to be extended according to load arequired boom length must be observed under all circumstances.
6.3 As a general rule, the boom should first be extended to the required length, andloaded. However, it is possible to extend and retract the boom under partial loadweight of this partial load is dependent on bearing pad lubrication and the availauseable lengths of the telescopic sections.
6.4 Even without a load, the telescopic boom may only be moved within the workingradius ranges for which values are listed in the load capacity table.
DANGER: Failure to observe this regulation may lead to accidents
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7. Rope winches
7.1 Winch 1 (main hoisting gear)Winch 1 is designed for a maximum rope tension of 57 kN. This rope tension mustbe exceeded under any circumstances. Accordingly, the minimum number of hoisrope lines (rope reeving) should be selected according to the weight of the load tlifted (see Table "Hoisting rope reeving" in Chapter II).
7.2 Winch 2 (Auxiliary hoisting gear)Winch 2 is designed for a maximum rope tension of 57 kN. This rope tension mustbe exceeded under any circumstances. Accordingly, the minimum number of hoisrope lines (rope reeving) should be selected according to the weight of the load tlifted (see Table "Hoisting rope reeving" in Chapter II).
7.3 Prevention of rope slack formation:
7.3.1 When retracting the telescopic boom, the winch must be operated in the directiolifting simultaneously, in order to prevent the hook block from descending to theground and creating rope slack. The speed of the hoisting rope movement shouldched to that used for retraction!
7.3.2 The rope guides on the winches must be supervised by a member of the workfowhen additional equipment is being mounted!
8. Hoisting rope reeving
8.1 The hoisting rope must be reeved in between boom head and hook block in accdance with the maximum rope tension of the winch and the weight of the load tolifted.
8.2 If several hoisting rope lines are reeved in, the effeciency of the hook block is redudue to pulley friction and rope flexure.In consequence, with a rope tension of e.g. 57 kN, only 535 kN (53.5 t) can be puwith a 10-fold line reeving, instead of 570 kN (57 t)
8.3 Consult the table "Hoisting rope reeving" in Chapter II of this manual for the maxmum loads in dependence on the number of hoisting rope lines.
8.4 The number of hoisting rope lines reeved must be set on the control and displayof the LICCON overload safety device according to the current hoisting rope reevtotal.
8.5 If the block hook is operated with a higher reeve number than necessary for therespective boom lenght loads, then the block hook weight will not be sufficient ancan slacken the cable when lowering, whitch can lead to damage to the cable.
I - 5 /16
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9. Changing between material handling and installationoperation
9.1 Load carrying capacity of the craneThe load carrying members of the crane have been designed according to the loateria for installation /set up operations (load collective classification = "light" = Q1L1). Stress collective S1 according to DIN 15018 Part 3 and stress margin rangeaccording to DIN 15018 Part 1 or ISO 4301, group A1.If an installaton / set up crane is used material handling, the stress margin rangsincreases. Therefore the loads must be reduced since a higher stress group noapplicable. This is especially true if the calculated loads are limited by strengthvalues.
CAUTION: For crane value calculation, it has been assumed that the crane willbe utilized as an installation crane (load collective classification ="light" = Q1 or L1). If the crane is also used in material handlingapplication, premature wear of all drive sections must be expected,and cracksmay occur in load carrying steel members. We therefo-restronglyrecommend, that if the crane is utilized in materialhandling application, the load values are reduced by 50 %, as com-pared to the data given in the corresponding load carrying capa-city chart.
For details, have material handling data ready and then contact your Liebherr SerDept.
The size of the cables as well as drive sections of hoist gears are configured accoto the load collectives applicable for installation operation (load collective classifition = "light" = Q1 or L1):
ISO 4301/2 or 4308/2Group A1Hoist gears M3Intake gears M2
If an installaton / set up crane is used material handling (load collective classifica= "light" = Q1 or L1), the stress margin range increases, the rope runs must therbe reduced. If this in not assured, then the hoist rope wear out rate will be reachmuch earlier, and / or the hoist gear must be rebuilt / serviced much earlier.
Please refer to the information regarding wear out criteria for ropes according to D15020, part 2 or ISO 4309 in chapter 8.01 "Repeat crane inspections" in the cranOperating Instructions.
NOTE: In order to keep wear out rate of hoist ropes as low as possibleduring material handling operation (load collective classification ="medium" or higher) , we recommend the use of a special lengthrope, so thatduring material handling operation the rope is rolledonto drum of the hoist winch in only one rope layerIf several layers are on the rope drum, the wear rate increases. Inaddition, the winch drive will run cooler, if the crane is operatedwith only one rope layer.
I - 6 /16
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10. LICCON Overload safety device and Limit switch
If the permissible load moment is exceeded, the electronic LICCON overload safdevice shuts down the hoisting, boom topping and boom extension movements. possible to decrease the load by means of movements in the opposite direction.LICCON overload safety device must be checked for correct operation on each osion before operating the crane.
10.1 The LICCON overload safety device must be set to the current equipment mode ocrane by means of function keys or by entering the corresponding 3-digit code .
10.2 The LICCON overload limit switch is a safety device and must not be used as a down device for operating purposes. The crane operator must assure himself of weight of a load before attempting to lift it. The fact that the crane is equipped withe LICCON overload safety device does not free the operator from responsibilitwith regard to operating safety.
10.3 The control and display unit of the LICCON overload safety device indicates amother things the working radius, boom length, pulley height, load and degree of crload utilization. This provides the operator with a constant overview of the workinrange and crane utilization.
10.4 Hoisting limit switches at the head of the telescopic boom and folding fly jib prevthe hook block from running up against the boom head. The hoisting limit switchmust be checked for correct operation on each occasion before the crane is ope
10.5 Gear cam limit switches on the rope winches ensure that 3 safety turns remain orope drums. When the final rope layer is reached, a visual check is also necessaensure that the 3 safety turns are available. If the hoisting gears have been overin the lifting direction, or if the hoisting rope has been changed, then the correspding limit switch must be reset before resuming operation.
10.6 The crane operator must check correct operation of the LICCON overload safetydevice on each occasion before operating the crane. The crane manufacturer wiaccept no liability for damage to the crane and consequential damage resulting fnon-function or disactivation of the LICCON overload safety device.
11. Hook blocks and load hooks
Load[t]
Number of ropepulleys
strings weight[t]
80 7 14 0,430
58 5 10 0,330
38 3 7 0,400
16 1 3 0,235
5,7 - 1 0,110
I - 7 /16
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12. Load capacity reduction with folding jib mounted
12.1 The load capacity values stated for the telescopic boom in the load capacity tabapply to the boom without installation of a folding fly jib for transport or operatingpurposes.
12.2 When operating the crane, the folding jib is mounted at an angle from0 ̊to the tele-scopic jib, the possible load capacities of the telescopic jib are reduced accordinthe chart below. The weight of the hook block for TK operation of 240 kg and 110respectively, must be considered.
Position of thefolding jib
[m]T-
10.8T-
14.2T-
17.6T-
21.1T-
24.5T-
27.9
Entire foldingjib sideways
on the jibpivoting sec-
tion
[t] 0.8 0.6 0.5 0.4 0.3 0.3
K- 10.5 m onthe jib head,
the rest on thejib pivoting
sectionk
[t] 1.9 2.9 2.1 1.9 1.7 1.7
K- 19.0 m onthe jib head
[t] 2.6 4.6 3.2 2.6 2.4 2.4
Position of thefolding jib
[m]T-
31.3T-
34.8T-
38.2T-
41.6T-
45.0T-
48.0
Entire foldingjib sideways
on the jibpivoting sec-
tion
[t] 0.3 0.2 0.2 0.2 0.2 0.2
K- 10.5 m onthe jib head,
the rest on thejib pivoting
sectionk
[t] 1.7 1.6 1.6 1.6 1.6 1.5
K- 19.0 m onthe jib head
[t] 2.4 2.1 2.1 2.1 2.1 1.9
I - 8 /16
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g tokg
12.3 When operating the crane, the folding jib is mounted at an angle from20 ̊to the tele-scopic jib, the possible load capacities of the telescopic jib are reduced accordinthe chart below. The weight of the hook block for TK operation of 240 kg and 110respectively, must be considere.
Position of thefolding jib
[m]T-
10.8T-
14.2T-
17.6T-
21.1T-
24.5T-
27.9
K- 10.5m onthe jib head,
the rest on thejib pivoting
section
[t] 1.9 2.9 2.3 2.0 1.9 1.9
K- 19.0 m onthe jib head
[t] 2.9 4.8 3.9 3.3 3.0 3.0
Position of thefolding jib
[m]T-
31.3T-
34.8T-
38.2T-
41.6T-
45.0T-
48.0
K- 10.5 m onthe jib head,
the rest on thejib pivoting
section
[t] 1.9 1.7 1.7 1.7 1.7 1.6
K- 19.0 m onthe jib head
[t] 3.0 2.6 2.6 2.6 2.6 2.3
I - 9 /16
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g tokg
12.4 When operating the crane, the folding jib is mounted at an angle from40 ̊to the tele-scopic jib, the possible load capacities of the telescopic jib are reduced accordinthe chart below. The weight of the hook block for TK operation of 240 kg and 110respectively, must be considered.
Position of thefolding jib
[m]T-
10.8T-
14.2T-
17.6T-
21.1T-
24.5T-
27.9
K- 10.5 m onthe jib head,
the rest on thejib pivoting
section
[t] 2.2 3.5 3.1 2.6 2.4 2.4
K- 19.0 m onthe jib head
[t] 3.5 6.1 5.4 4.4 3.9 3.9
Position of thefolding jib
[m]T-
31.3T-
34.8T-
38.2T-
41.6T-
45.0T-
48.0
K- 10.5 m onthe jib head,
the rest on thejib pivoting
section
[t] 2.4 2.1 2.1 2.1 2.1 1.8
K- 19.0 m onthe jib head
[t] 3.9 3.2 3.2 3.2 3.2 2.8
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13. Maximum turning speed of the crane’s superstructurewith a nominal load
Boom[m]
permissibleslewing speed inpercentage of themaximumslewing
speed
permissibleslewing speed in
T-10.8 45 0.90
T-14.2 45 0.90
T-17.6 30 0.60
T-21.1 30 0.60
T-24.5 30 0.60
T-27.9 30 0.60
T-31.3 30 0.60
T-34.8 30 0.60
T-38.2 15 0.30
T-41.6 15 0.30
T-45.0 15 0.30
T-48.0 15 0.30
TK-operation 15 0.30
for 85 % liftingcapacity tables
15 0.30
1min----------
I - 11 /16
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-- 48 m T
K 0˚
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48 m T
-- 48 m T
14.00
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80 t T
0˚ 7.0 m
48 m T K 2.5m
14. Explanation of symbols
Hoisting rope reevingThis symbol appears on the hoisting rope reeving table (1st table of chapter II) aindicates the required number of hoisting rope reevings to achieve a certain loadcapacity.
Load capacity in metric tons [t]This symbol appears on the hoisting rope reeving table (1st table of chapter II) aindicates the max. permissible load capacity depending on hoisting rope reevin
Operating mode2part symbolleft side = Main boom modeexample:- Length of the main boom ex. : 48 m- Main boom type ex.: T=Telescopic boom
right side = Additional jib modeexample:- Additional jib type ex.: K=folding fly jib- Angle of the additional jib ex.: 0˚ = 0 deg. offset from main boom- Additional jib length ex.: 10.5 m
- Additional jib type ex.: K 2.5 m = Optional jib type- Additional jib length ex.: 2.5 m
In some additional jib modes of operation, additional imformation is displayed in tleft half of the symbol- Indication of the tire dimensions ex.: 14.00 = 14.00 R 25
Operating types that can only be operated with accessories!- Length of the main boom ex.: 10.8 m- Max. load capacity ex.: 80 t- Working range ex.: 0˚ = working range over rear- Support base ex.: 8.2 m x 7.0 m
I - 12 /16
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Working radius of the telescopic boomThe working radius is the horizontal distance of the center of gravity of the load the slewing axis of the crane superstructure as measured from the ground beneaload.
Working radius of the additional jibThe working radius is the horizontal distance of the center of gravity of the load the slewing axis of the crane superstructure as measured from the ground beneaload.
Telescopic boom length /units of measurementIn the row beneath this symbol the different boom length of the crane are indicatecolumns. The letters next to the symbol indicate the units of measurement in theactual load chart, par example “ m> <t“ means that all lengths are given in metersand all weights are given in metric tons [t]. Other possible units of measurementfeet [ft] and pounds [lbs] (lifting capacities in [kips] = 1000 lbs)
Short code3-digit short code; can be directly entered into the LICCON overload safety deviceorder to call up the corresponding load chart.
Hoisting rope reevingAppears in the load charts as a line below the load capacity values. Indicates theber of hoisting rope reevings required to hoist the maximum load in the correspoding load chart column. If a load capacity value in the column exceeds the load whcan be lifted with the maximum reeving, then an exclamation mark ( ! ) is next to treeving number to signify that special equipment is required to lift this load.- Loads over 53 t with auxiliary pulley- Loads over 63 t with additional pulley block- Loads over 71 t with additional device
Extension conditions of the telescopic boom sectionsIndications i percent for the individual telescopic sections (Tele 1 / Tele 2 / Tele Tele 4 / Tele 5 ). Indication 0 = completely retracted, 100 = completely extendedExtension conditions other than those specified in the load charts are prohibitedA + symbol after a percentage entry means that the corresponding telescope parpinned down.The status indicator "-" next to the extension condition in percentages means thacorresponding telescopic section can be telescoped out under load to the extencondition value shown in percentages (according to the load capacity chart).
CounterweightIn this symbol, the size of the counterweight is indicated in metric tons [t] whichmust be on the crane superstructure in order to achieve the values of the given chart.
I - 13 /16
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Crane operations "Crane supported"Indication of the support base (ex.: 8.2 m x 7.0 m = length x width). The hydraulsupports of the crane must be extended to the dimensions specified in this symbopinned when the corresponding load chart is being worked with.
Crane operations "Crane freestanding on tires"- Indication of the tire dimensions ex.: 16.00 = 16.00-25- Indication of required tire pressure ex.: 10 = 10 bar
Slewing rangeSlewing range data of the crane superstructure for the corresponding load capatable:- 360˚ = unlimited slewing permissible- ! 0˚ = working range to the rear- 0˚ = working range to the rearThe appearance of ! 0˚ indicates that a load chart also exists for the 360˚ workinrange for the same equipment mode. If the slewing platform locking is not engagthe LICCON automatically switches to the weaker load chart for the 360˚ workinrange. The displayed abbreviated code is different for the ! 0˚ working range and360˚ working range. If 0˚ appears, this means that there is no corresponding 36load capacity table. In this case, if the slewing platform lock is not engaged, cranoperation is not possible.
Permissible wind speedIndication of wind speed in [m/s] up to which crane operation is permissible depding on boom length. If the wind speed exceeds the indicated value, crane operamust be terminated, and if necessary, equipment must be removed from the cra
I - 14 /16
Load handling chart book LTM 1080/1
bltm1080_1.ab
able
to
r
15. Observation of wind conditions
15.1 Crane operation is permissible up to the wind velocity stated in the load capacity tcorresponding to the current boom length.
DANGER : The crane operator must consult the local meterological office forinformation on the expected wind velocity prior to commencingoperations. If unacceptable wind velocities are forecast, it is notpermissible to lift a load. Failure to observe this precaution mayresult in accidents.
15.2 The wind surface AW of the load must not exceed certain values. These values arestated in Diagram 1 (see next page).If the wind surface of the load exceeds the diagram values, the wind velocity up which crane operation is permissible is reduced correspondingly (note examplebelow).
DANGER : Even if the wind surface of the load is smaller than the referencesurface, it is prohibited to operate the crane if wind velocityexceeds the limits stated in the load capacity tables! Failure toobserve this rule will lead to risk of accidents
15.3 Example:
- Weight of load to be lifted m = 50.0 t
- Permissible wind velocity acc. to load capacity table v = 9.0 m/s
- Actual wind surface of load: AWr = 100.0 m2
- Permiss. load wind surface acc. to Diag. 1 AWz = 55.0 m2
- Diagram 2 yields for v = 9 m/s the impact pressure p = 50.0 N/m2
Hence a load with the permissible wind surface AWz = 55 m2 is influenced by a forceF:
F = impact pressure p x Windfläche AWz = 50 N/m2 x 55 m2 = 2750 N
For the actual wind surface AWr = 100 m2, a permissible impact pressure p results fothe same force F:
For p = 27.5 N/m2, Diagram 2 yields a maximum permissible wind velocity of v = 6.7m/s
p F AWr÷ 2750N 100m2÷ 27 5N m
2⁄,== =
I - 15 /16
Load handling chart book LTM 1080/1
bltm1080_1.ab
I - 16 /16
Diagramm 1
300
250
200
150
100
50
00 50 100 150 200
m[t]
AW[m2]
55
Diagramm 2
200
150
100
50
04 6 8 10 12
p[N/m2]
v[m/s]
14 16 18
Beaufort3 4 5 6 7 8
6,7 9
2
48 m T
14.00
--
3
II - 1
48 m T
--
7
t
1 5,72 11,43 16,94 22,45 27,86 33,17 38,38 43,59 48,5
10 53,0
II - 2
> < CODE > .x(x)
/s
* n *
%
061082
B106 200020.03
026 <
48 m T
48 m T
14.00
14.00
--
--
6,6
14.00 1014.00 10 0 °
66% NENISO DIN
TAB 106197
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,0
10,8
11,910,5
9,48,47,66,25,04,1
3
0+ 0+ 0+ 0+ 0+
14,3
14,2
11,810,5
9,48,47,56,15,04,03,32,61,6
3
0+ 46+ 0+ 0+ 0+
14,3
14,2
12,511,210,1
9,18,26,85,74,84,03,42,4
3
0+ 0+ 0+ 0+ 46+
14,3
17,6
11,510,2
9,18,17,25,84,63,72,92,2
3
46+ 46+ 0+ 0+ 0+
14,3
17,6
12,711,410,29,38,47,05,95,04,23,62,51,8
3
0+ 0+ 0+ 46+ 46+
14,3
17,6
12,811,510,49,48,67,26,15,24,43,72,72,0
3
0+ 0+ 0+ 0+ 92+
14,3
II - 3
> < CODE > .x(x)
/s
* n *
%
061082
B106 200020.03
025 <
48 m T
48 m T
14.00
14.00
--
--
8,5
14.00 1014.00 10 0 °
66% NENISO DIN
TAB 106196
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,0
10,8
11,910,5
9,48,47,66,25,04,1
3
0+ 0+ 0+ 0+ 0+
14,3
14,2
11,810,5
9,48,47,56,15,04,03,32,61,6
3
0+ 46+ 0+ 0+ 0+
14,3
14,2
12,511,210,1
9,18,26,85,74,84,03,42,4
3
0+ 0+ 0+ 0+ 46+
14,3
17,6
11,510,2
9,18,17,25,84,63,72,92,2
3
46+ 46+ 0+ 0+ 0+
14,3
17,6
12,711,410,29,38,47,05,95,04,23,62,51,8
3
0+ 0+ 0+ 46+ 46+
14,3
17,6
12,811,510,49,48,67,26,15,24,43,72,72,0
3
0+ 0+ 0+ 0+ 92+
14,3
II - 4
> < CODE > .x(x)
/s
* n *
%
061082
B106 200020.03
024 <
48 m T
48 m T
14.00
14.00
--
--
12,8
14.00 1014.00 10 0 °
66% NENISO DIN
TAB 106195
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,0
10,8
11,910,6
9,48,47,66,25,04,1
3
0+ 0+ 0+ 0+ 0+
14,3
14,2
11,810,5
9,48,47,56,15,04,03,32,61,6
3
0+ 46+ 0+ 0+ 0+
14,3
14,2
12,511,210,1
9,18,26,85,74,84,03,42,4
3
0+ 0+ 0+ 0+ 46+
14,3
17,6
11,510,2
9,18,17,25,84,63,72,92,2
3
46+ 46+ 0+ 0+ 0+
14,3
17,6
12,711,410,29,38,47,05,95,04,23,62,51,8
3
0+ 0+ 0+ 46+ 46+
14,3
17,6
12,811,510,49,48,67,26,15,24,43,82,72,0
3
0+ 0+ 0+ 0+ 92+
14,3
II - 5
> < CODE > .x(x)
/s
* n *
%
061082
B106 200020.03
023 <
48 m T
48 m T
14.00
14.00
--
--
16,1
14.00 1014.00 10 0 °
66% NENISO DIN
TAB 106194
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,0
10,8
11,910,6
9,48,47,66,25,04,1
3
0+ 0+ 0+ 0+ 0+
14,3
14,2
11,810,5
9,48,47,56,15,04,03,32,61,6
3
0+ 46+ 0+ 0+ 0+
14,3
14,2
12,511,210,1
9,18,26,85,74,84,03,42,4
3
0+ 0+ 0+ 0+ 46+
14,3
17,6
11,510,2
9,18,17,25,84,63,72,92,2
3
46+ 46+ 0+ 0+ 0+
14,3
17,6
12,711,410,29,38,47,05,95,04,23,62,51,8
3
0+ 0+ 0+ 46+ 46+
14,3
17,6
12,811,510,49,48,67,26,15,24,43,82,72,0
3
0+ 0+ 0+ 0+ 92+
14,3
II - 6
> < CODE > .x(x)
/s
* n *
%
061082
B106 010020.02
004 <
48 m T
48 m T
--
--
6,6
8,2
2,5
m 360°
ISO DIN
TAB 106222
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,0
10,8
22,718,615,613,311,4
8,76,75,4
5
0+ 0+ 0+ 0+ 0+
14,3
14,2
0
0+ 46+ 0+ 0+ 0+
14,3
14,2
0
0+ 0+ 0+ 0+ 46+
14,3
17,6
0
46+ 46+ 0+ 0+ 0+
14,3
17,6
0
0+ 0+ 0+ 46+ 46+
14,3
17,6
0
0+ 0+ 0+ 0+ 92+
14,3
21,1
0
92+ 46+ 0+ 0+ 0+
12,8
21,1
0
0+ 0+ 0+ 92+ 46+
12,8
21,1
0
0+ 0+ 0+ 46+ 92+
12,8
24,5
0
92+ 92+ 0+ 0+ 0+
12,8
24,5
0
0+ 0+ 92+ 46+ 46+
12,8
24,5
0
0+ 0+ 0+ 92+ 92+
12,8
27,9
0
92+ 92+ 46+ 0+ 0+
12,8
27,9
0
0+ 0+ 92+ 92+ 46+
12,8
II - 7
> < CODE > .x(x)
/s
* n *
%
061082
B106 010020.02
004 <
48 m T
48 m T
--
--
6,6
8,2
2,5
m 360°
ISO DIN
TAB 106222
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,0
27,9
0
0+ 0+ 46+ 92+ 92+
12,8
31,3
0
92+ 92+ 46+ 46+ 0+
11,1
31,3
0
0+ 92+ 92+ 46+ 46+
11,1
31,3
0
0+ 0+ 92+ 92+ 92+
11,1
34,8
0
92+ 92+ 92+ 46+ 0+
11,1
34,8
0
0+ 92+ 92+ 92+ 46+
11,1
34,8
0
0+ 46+ 92+ 92+ 92+
11,1
38,2
0
92+ 92+ 92+ 46+ 46+
11,1
38,2
0
0+ 92+ 92+ 92+ 92+
11,1
41,6
0
92+ 92+ 92+ 92+ 46+
11,1
41,6
0
46+ 92+ 92+ 92+ 92+
11,1
45,0
0
92+ 92+ 92+ 92+ 92+
11,1
48,0
0
100+100+100+100+100+
11,1
14,2
0
0+ 46- 0+ 0+ 0+
14,3
II - 8
> < CODE > .x(x)
/s
* n *
%
061082
B106 010020.02
004 <
48 m T
48 m T
--
--
6,6
8,2
2,5
m 360°
ISO DIN
TAB 106222
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,0
17,6
0
46- 46+ 0+ 0+ 0+
14,3
21,1
0
92- 46+ 0+ 0+ 0+
12,8
24,5
0
92- 92- 0+ 0+ 0+
12,8
27,9
0
92- 92- 46- 0+ 0+
12,8
31,3
0
92- 92- 46- 46- 0+
11,1
34,8
0
92- 92- 92- 46- 0+
11,1
14,2
0
0+ 0+ 0+ 0+ 46-
14,3
17,6
0
0+ 0+ 0+ 46- 46+
12,8
24,5
0
0+ 0+ 92- 46+ 46+
12,8
31,3
0
0+ 92- 92+ 46+ 46+
11,1
38,2
0
92- 92+ 92+ 46+ 46+
11,1
21,1
0
0+ 0+ 0+ 92- 46+
12,8
27,9
0
0+ 0+ 92- 92+ 46+
12,8
34,8
0
0+ 92- 92+ 92+ 46+
11,1
II - 9
> < CODE > .x(x)
/s
* n *
%
061082
B106 010020.02
004 <
48 m T
48 m T
--
--
6,6
8,2
2,5
m 360°
ISO DIN
TAB 106222
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,0
41,6
0
92- 92+ 92+ 92+ 46+
11,1
17,6
0
0+ 0+ 0+ 0+ 92-
14,3
21,1
0
0+ 0+ 0+ 46- 92+
12,8
24,5
0
0+ 0+ 0+ 92- 92+
12,8
27,9
0
0+ 0+ 46- 92+ 92+
12,8
31,3
0
0+ 0+ 92- 92+ 92+
11,1
34,8
0
0+ 46- 92+ 92+ 92+
11,1
38,2
0
0+ 92- 92+ 92+ 92+
11,1
41,6
0
46- 92+ 92+ 92+ 92+
11,1
45,0
0
92- 92+ 92+ 92+ 92+
11,1
48,0
0
100-100-100-100-100-
11,1
II - 10
> < CODE > .x(x)
/s
* n *
%
061082
B106 020020.02
006 <
48 m T
48 m T
--
--
8,5
8,2
2,5
m 360°
ISO DIN
TAB 106221
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,0
10,8
25,421,017,615,113,010,0
7,96,4
5
0+ 0+ 0+ 0+ 0+
14,3
14,2
0
0+ 46+ 0+ 0+ 0+
14,3
14,2
0
0+ 0+ 0+ 0+ 46+
14,3
17,6
0
46+ 46+ 0+ 0+ 0+
14,3
17,6
0
0+ 0+ 0+ 46+ 46+
14,3
17,6
0
0+ 0+ 0+ 0+ 92+
14,3
21,1
0
92+ 46+ 0+ 0+ 0+
12,8
21,1
0
0+ 0+ 0+ 92+ 46+
12,8
21,1
0
0+ 0+ 0+ 46+ 92+
12,8
24,5
0
92+ 92+ 0+ 0+ 0+
12,8
24,5
0
0+ 0+ 92+ 46+ 46+
12,8
24,5
0
0+ 0+ 0+ 92+ 92+
12,8
27,9
0
92+ 92+ 46+ 0+ 0+
12,8
27,9
0
0+ 0+ 92+ 92+ 46+
12,8
II - 11
> < CODE > .x(x)
/s
* n *
%
061082
B106 020020.02
006 <
48 m T
48 m T
--
--
8,5
8,2
2,5
m 360°
ISO DIN
TAB 106221
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,0
27,9
0
0+ 0+ 46+ 92+ 92+
12,8
31,3
0
92+ 92+ 46+ 46+ 0+
11,1
31,3
0
0+ 92+ 92+ 46+ 46+
11,1
31,3
0
0+ 0+ 92+ 92+ 92+
11,1
34,8
0
92+ 92+ 92+ 46+ 0+
11,1
34,8
0
0+ 92+ 92+ 92+ 46+
11,1
34,8
0
0+ 46+ 92+ 92+ 92+
11,1
38,2
0
92+ 92+ 92+ 46+ 46+
11,1
38,2
0
0+ 92+ 92+ 92+ 92+
11,1
41,6
0
92+ 92+ 92+ 92+ 46+
11,1
41,6
0
46+ 92+ 92+ 92+ 92+
11,1
45,0
0
92+ 92+ 92+ 92+ 92+
11,1
48,0
0
100+100+100+100+100+
11,1
14,2
0
0+ 46- 0+ 0+ 0+
14,3
II - 12
> < CODE > .x(x)
/s
* n *
%
061082
B106 020020.02
006 <
48 m T
48 m T
--
--
8,5
8,2
2,5
m 360°
ISO DIN
TAB 106221
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,0
17,6
0
46- 46+ 0+ 0+ 0+
14,3
21,1
0
92- 46+ 0+ 0+ 0+
12,8
24,5
0
92- 92- 0+ 0+ 0+
12,8
27,9
0
92- 92- 46- 0+ 0+
12,8
31,3
0
92- 92- 46- 46- 0+
11,1
34,8
0
92- 92- 92- 46- 0+
11,1
14,2
0
0+ 0+ 0+ 0+ 46-
14,3
17,6
0
0+ 0+ 0+ 46- 46+
12,8
24,5
0
0+ 0+ 92- 46+ 46+
12,8
31,3
0
0+ 92- 92+ 46+ 46+
11,1
38,2
0
92- 92+ 92+ 46+ 46+
11,1
21,1
0
0+ 0+ 0+ 92- 46+
12,8
27,9
0
0+ 0+ 92- 92+ 46+
12,8
34,8
0
0+ 92- 92+ 92+ 46+
11,1
II - 13
> < CODE > .x(x)
/s
* n *
%
061082
B106 020020.02
006 <
48 m T
48 m T
--
--
8,5
8,2
2,5
m 360°
ISO DIN
TAB 106221
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,0
41,6
0
92- 92+ 92+ 92+ 46+
11,1
17,6
0
0+ 0+ 0+ 0+ 92-
14,3
21,1
0
0+ 0+ 0+ 46- 92+
12,8
24,5
0
0+ 0+ 0+ 92- 92+
12,8
27,9
0
0+ 0+ 46- 92+ 92+
12,8
31,3
0
0+ 0+ 92- 92+ 92+
11,1
34,8
0
0+ 46- 92+ 92+ 92+
11,1
38,2
0
0+ 92- 92+ 92+ 92+
11,1
41,6
0
46- 92+ 92+ 92+ 92+
11,1
45,0
0
92- 92+ 92+ 92+ 92+
11,1
48,0
0
100-100-100-100-100-
11,1
II - 14
> < CODE > .x(x)
/s
* n *
%
061082
B106 030020.02
007 <
48 m T
48 m T
--
--
12,8
8,2
2,5
m 360°
ISO DIN
TAB 106152
12345
m
m
m
t
t
3,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,0
10,8
25,022,219,116,713,110,5
8,5
5
0+ 0+ 0+ 0+ 0+
14,3
14,2
22,520,017,315,211,9
9,67,86,45,43,7
5
0+ 46+ 0+ 0+ 0+
14,3
14,2
18,716,513,110,7
8,97,56,44,6
4
0+ 0+ 0+ 0+ 46+
14,3
17,6
20,717,815,413,510,5
8,46,75,44,42,91,8
4
46+ 46+ 0+ 0+ 0+
14,3
17,6
17,215,612,610,48,77,36,34,63,4
4
0+ 0+ 0+ 46+ 46+
14,3
17,6
15,912,910,68,97,66,54,83,6
3
0+ 0+ 0+ 0+ 92+
14,3
21,1
16,214,112,49,77,76,24,94,02,5
3
92+ 46+ 0+ 0+ 0+
12,8
21,1
15,112,310,28,67,46,34,83,62,82,2
3
0+ 0+ 0+ 92+ 46+
12,8
21,1
12,710,69,07,76,75,13,93,12,5
3
0+ 0+ 0+ 46+ 92+
12,8
24,5
13,311,79,27,46,04,83,92,4
3
92+ 92+ 0+ 0+ 0+
12,8
24,5
14,011,59,68,16,95,94,43,32,51,91,41,0
3
0+ 0+ 92+ 46+ 46+
12,8
24,5
10,18,67,46,55,03,93,02,41,91,5
2
0+ 0+ 0+ 92+ 92+
12,8
27,9
11,39,17,36,04,94,02,61,6
2
92+ 92+ 46+ 0+ 0+
12,8
27,9
9,48,06,85,94,53,42,62,01,51,1
2
0+ 0+ 92+ 92+ 46+
12,8
II - 15
> < CODE > .x(x)
/s
* n *
%
061082
B106 030020.02
007 <
48 m T
48 m T
--
--
12,8
8,2
2,5
m 360°
ISO DIN
TAB 106152
12345
m
m
m
t
t
3,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,0
27,9
9,98,47,36,44,93,93,02,41,91,51,2
2
0+ 0+ 46+ 92+ 92+
12,8
31,3
8,97,36,05,04,12,81,8
2
92+ 92+ 46+ 46+ 0+
11,1
31,3
10,18,47,16,15,23,82,82,11,5
2
0+ 92+ 92+ 46+ 46+
11,1
31,3
9,38,06,96,04,63,62,82,21,71,31,0
2
0+ 0+ 92+ 92+ 92+
11,1
34,8
7,15,94,94,12,81,9
2
92+ 92+ 92+ 46+ 0+
11,1
34,8
8,37,16,15,23,92,92,21,6
2
0+ 92+ 92+ 92+ 46+
11,1
34,8
8,87,66,65,74,43,42,72,11,61,2
2
0+ 46+ 92+ 92+ 92+
11,1
38,2
6,15,14,33,12,21,4
2
92+ 92+ 92+ 46+ 46+
11,1
38,2
7,06,15,34,03,12,31,71,3
2
0+ 92+ 92+ 92+ 92+
11,1
41,6
6,05,14,33,12,21,5
2
92+ 92+ 92+ 92+ 46+
11,1
41,6
6,65,75,03,82,82,11,61,1
2
46+ 92+ 92+ 92+ 92+
11,1
45,0
5,24,43,32,41,71,2
1
92+ 92+ 92+ 92+ 92+
11,1
48,0
5,04,33,22,31,7
1
100+100+100+100+100+
11,1
14,2
15,815,815,815,211,99,67,86,45,43,7
3
0+ 46- 0+ 0+ 0+
14,3
II - 16
> < CODE > .x(x)
/s
* n *
%
061082
B106 030020.02
007 <
48 m T
48 m T
--
--
12,8
8,2
2,5
m 360°
ISO DIN
TAB 106152
12345
m
m
m
t
t
3,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,0
17,6
14,013,913,813,510,5
8,46,75,44,42,91,8
3
46- 46+ 0+ 0+ 0+
14,3
21,1
9,79,59,28,87,76,24,94,02,5
2
92- 46+ 0+ 0+ 0+
12,8
24,5
9,18,88,37,46,04,83,92,4
2
92- 92- 0+ 0+ 0+
12,8
27,9
8,58,07,36,04,94,02,61,6
2
92- 92- 46- 0+ 0+
12,8
31,3
7,97,36,05,04,12,81,8
2
92- 92- 46- 46- 0+
11,1
34,8
7,15,94,94,12,81,9
2
92- 92- 92- 46- 0+
11,1
14,2
18,716,513,110,78,97,56,44,6
4
0+ 0+ 0+ 0+ 46-
14,3
17,6
17,515,612,610,48,77,36,34,63,5
4
0+ 0+ 0+ 46- 46+
12,8
24,5
10,510,09,58,16,95,94,43,32,51,91,41,0
2
0+ 0+ 92- 46+ 46+
12,8
31,3
8,88,37,16,15,23,82,82,11,5
2
0+ 92- 92+ 46+ 46+
11,1
38,2
6,15,14,33,12,21,4
2
92- 92+ 92+ 46+ 46+
11,1
21,1
12,311,810,28,67,46,34,83,62,82,2
3
0+ 0+ 0+ 92- 46+
12,8
27,9
9,28,06,85,94,53,42,62,01,51,1
2
0+ 0+ 92- 92+ 46+
12,8
34,8
8,17,16,15,23,92,92,21,6
2
0+ 92- 92+ 92+ 46+
11,1
II - 17
> < CODE > .x(x)
/s
* n *
%
061082
B106 030020.02
007 <
48 m T
48 m T
--
--
12,8
8,2
2,5
m 360°
ISO DIN
TAB 106152
12345
m
m
m
t
t
3,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,0
41,6
6,05,14,33,12,21,5
2
92- 92+ 92+ 92+ 46+
11,1
17,6
13,612,910,6
8,97,66,54,83,6
3
0+ 0+ 0+ 0+ 92-
14,3
21,1
12,710,6
9,07,76,75,13,93,12,5
3
0+ 0+ 0+ 46- 92+
12,8
24,5
10,18,67,46,55,03,93,02,41,91,5
2
0+ 0+ 0+ 92- 92+
12,8
27,9
9,98,47,36,44,93,93,02,41,91,51,2
2
0+ 0+ 46- 92+ 92+
12,8
31,3
9,08,06,96,04,63,62,82,21,71,31,0
2
0+ 0+ 92- 92+ 92+
11,1
34,8
8,87,66,65,74,43,42,72,11,61,2
2
0+ 46- 92+ 92+ 92+
11,1
38,2
7,06,15,34,03,12,31,71,3
2
0+ 92- 92+ 92+ 92+
11,1
41,6
6,65,75,03,82,82,11,61,1
2
46- 92+ 92+ 92+ 92+
11,1
45,0
5,24,43,32,41,71,2
1
92- 92+ 92+ 92+ 92+
11,1
48,0
4,44,13,22,31,7
1
100-100-100-100-100-
11,1
II - 18
> < CODE > .x(x)
/s
* n *
%
061082
B106 060020.02
011 <
48 m T
48 m T
--
--
6,6
8,2
5,0
m 360°
ISO DIN
TAB 106149
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,0
10,8
53,047,543,036,531,023,318,114,1
10
0+ 0+ 0+ 0+ 0+
14,3
14,2
53,047,539,032,527,821,116,713,611,3
9,36,5
10
0+ 46+ 0+ 0+ 0+
14,3
14,2
37,535,533,030,528,822,618,114,912,310,2
7,4
7
0+ 0+ 0+ 0+ 46+
14,3
17,6
52,041,534,028,724,618,814,912,110,0
8,35,94,0
10
46+ 46+ 0+ 0+ 0+
14,3
17,6
30,528,526,424,422,520,017,314,412,110,47,65,8
6
0+ 0+ 0+ 46+ 46+
14,3
17,6
26,825,023,421,920,518,316,614,712,410,77,86,0
5
0+ 0+ 0+ 0+ 92+
14,3
21,1
36,530,526,022,517,313,811,29,27,65,43,72,61,7
7
92+ 46+ 0+ 0+ 0+
12,8
21,1
23,522,020,719,416,915,313,912,010,37,96,14,63,7
5
0+ 0+ 0+ 92+ 46+
12,8
21,1
23,522,020,719,417,015,313,912,410,78,36,45,04,1
5
0+ 0+ 0+ 46+ 92+
12,8
24,5
24,221,016,413,110,78,97,45,23,72,61,7
5
92+ 92+ 0+ 0+ 0+
12,8
24,5
24,022,719,115,713,211,39,77,45,84,43,52,82,2
5
0+ 0+ 92+ 46+ 46+
12,8
24,5
17,416,414,613,111,610,79,88,06,44,94,03,32,7
4
0+ 0+ 0+ 92+ 92+
12,8
27,9
20,015,812,810,68,87,45,33,82,71,91,2
4
92+ 92+ 46+ 0+ 0+
12,8
27,9
19,017,315,212,911,19,67,45,94,53,62,92,31,9
4
0+ 0+ 92+ 92+ 46+
12,8
II - 19
> < CODE > .x(x)
/s
* n *
%
061082
B106 060020.02
011 <
48 m T
48 m T
--
--
6,6
8,2
5,0
m 360°
ISO DIN
TAB 106149
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,0
27,9
16,515,013,712,511,610,1
7,96,35,04,03,32,72,3
3
0+ 0+ 46+ 92+ 92+
12,8
31,3
15,412,610,5
8,87,55,54,03,02,11,4
3
92+ 92+ 46+ 46+ 0+
11,1
31,3
16,813,911,710,0
8,76,65,14,03,12,51,91,51,1
3
0+ 92+ 92+ 46+ 46+
11,1
31,3
14,613,612,611,0
9,67,56,04,83,83,12,62,11,71,4
3
0+ 0+ 92+ 92+ 92+
11,1
34,8
12,210,28,77,45,54,13,02,21,5
3
92+ 92+ 92+ 46+ 0+
11,1
34,8
13,511,59,98,66,65,24,13,32,62,01,61,20,9
3
0+ 92+ 92+ 92+ 46+
11,1
34,8
13,312,110,59,27,25,74,63,73,02,42,01,61,31,00,8
3
0+ 46+ 92+ 92+ 92+
11,1
38,2
10,28,77,55,74,33,32,51,81,3
2
92+ 92+ 92+ 46+ 46+
11,1
38,2
11,39,88,66,75,34,33,42,72,21,71,41,00,8
2
0+ 92+ 92+ 92+ 92+
11,1
41,6
10,08,67,45,74,33,42,61,91,41,0
2
92+ 92+ 92+ 92+ 46+
11,1
41,6
10,79,38,16,35,04,03,22,52,01,51,20,9
2
46+ 92+ 92+ 92+ 92+
11,1
45,0
8,67,55,84,53,52,82,11,61,2
2
92+ 92+ 92+ 92+ 92+
11,1
48,0
8,37,35,64,43,42,72,11,61,1
2
100+100+100+100+100+
11,1
14,2
15,815,815,815,815,815,815,813,611,39,36,5
3
0+ 46- 0+ 0+ 0+
14,3
II - 20
> < CODE > .x(x)
/s
* n *
%
061082
B106 060020.02
011 <
48 m T
48 m T
--
--
6,6
8,2
5,0
m 360°
ISO DIN
TAB 106149
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,0
17,6
14,114,013,913,813,713,613,512,110,0
8,35,94,0
3
46- 46+ 0+ 0+ 0+
14,3
21,1
10,09,79,59,28,88,48,17,87,65,43,72,61,7
2
92- 46+ 0+ 0+ 0+
12,8
24,5
9,18,88,37,97,57,16,85,23,72,61,7
2
92- 92- 0+ 0+ 0+
12,8
27,9
8,58,07,67,16,86,45,33,82,71,91,2
2
92- 92- 46- 0+ 0+
12,8
31,3
7,97,47,06,66,24,94,03,02,11,4
2
92- 92- 46- 46- 0+
11,1
34,8
7,36,86,46,04,74,13,02,21,5
2
92- 92- 92- 46- 0+
11,1
14,2
19,319,219,219,219,219,218,114,912,310,27,4
4
0+ 0+ 0+ 0+ 46-
14,3
17,6
17,917,817,717,517,417,317,214,412,110,47,65,8
4
0+ 0+ 0+ 46- 46+
12,8
24,5
11,610,510,09,59,18,88,57,45,84,43,52,82,2
3
0+ 0+ 92- 46+ 46+
12,8
31,3
8,88,37,97,57,16,55,14,03,12,51,91,51,1
2
0+ 92- 92+ 46+ 46+
11,1
38,2
6,86,46,04,74,23,32,51,81,3
2
92- 92+ 92+ 46+ 46+
11,1
21,1
13,212,912,612,311,811,310,29,99,67,96,14,63,7
3
0+ 0+ 0+ 92- 46+
12,8
27,9
10,29,69,28,78,48,07,45,94,53,62,92,31,9
2
0+ 0+ 92- 92+ 46+
12,8
34,8
8,17,77,36,96,35,24,13,32,62,01,61,20,9
2
0+ 92- 92+ 92+ 46+
11,1
II - 21
> < CODE > .x(x)
/s
* n *
%
061082
B106 060020.02
011 <
48 m T
48 m T
--
--
6,6
8,2
5,0
m 360°
ISO DIN
TAB 106149
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,0
41,6
6,76,35,94,64,23,42,61,91,41,0
2
92- 92+ 92+ 92+ 46+
11,1
17,6
14,714,414,113,813,613,212,812,512,210,7
7,86,0
3
0+ 0+ 0+ 0+ 92-
14,3
21,1
17,417,217,016,815,715,313,912,410,7
8,36,45,04,1
4
0+ 0+ 0+ 46- 92+
12,8
24,5
12,111,810,510,1
9,69,38,98,06,44,94,03,32,7
3
0+ 0+ 0+ 92- 92+
12,8
27,9
14,714,313,712,511,610,17,96,35,04,03,32,72,3
3
0+ 0+ 46- 92+ 92+
12,8
31,3
9,59,08,58,17,87,16,04,83,83,12,62,11,71,4
2
0+ 0+ 92- 92+ 92+
11,1
34,8
12,812,110,59,27,25,74,63,73,02,42,01,61,31,00,8
3
0+ 46- 92+ 92+ 92+
11,1
38,2
7,67,26,86,24,94,33,42,72,21,71,41,00,8
2
0+ 92- 92+ 92+ 92+
11,1
41,6
10,39,38,16,35,04,03,22,52,01,51,20,9
2
46- 92+ 92+ 92+ 92+
11,1
45,0
6,35,94,64,23,52,82,11,61,2
2
92- 92+ 92+ 92+ 92+
11,1
48,0
4,44,13,53,12,72,42,11,61,1
1
100-100-100-100-100-
11,1
II - 22
> < CODE > .x(x)
/s
* n *
%
061082
B106 070020.02
012 <
48 m T
48 m T
--
--
8,5
8,2
5,0
m 360°
ISO DIN
TAB 106148
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,0
10,8
53,048,043,539,534,025,619,915,5
10
0+ 0+ 0+ 0+ 0+
14,3
14,2
53,047,542,535,530,523,218,515,112,510,3
7,3
10
0+ 46+ 0+ 0+ 0+
14,3
14,2
37,535,533,030,528,824,719,916,513,511,3
8,2
7
0+ 0+ 0+ 0+ 46+
14,3
17,6
53,045,537,531,527,120,816,613,511,2
9,46,84,8
10
46+ 46+ 0+ 0+ 0+
14,3
17,6
30,528,526,424,422,520,017,815,813,411,58,56,5
6
0+ 0+ 0+ 46+ 46+
14,3
17,6
26,825,023,421,920,518,316,615,113,711,88,76,6
5
0+ 0+ 0+ 0+ 92+
14,3
21,1
40,033,528,624,719,215,312,510,48,76,34,53,22,2
8
92+ 46+ 0+ 0+ 0+
12,8
21,1
23,522,020,719,416,915,313,912,711,48,86,85,34,3
5
0+ 0+ 0+ 92+ 46+
12,8
21,1
23,522,020,719,417,015,313,912,611,59,17,15,64,6
5
0+ 0+ 0+ 46+ 92+
12,8
24,5
26,623,218,214,712,110,18,56,14,43,22,31,60,9
5
92+ 92+ 0+ 0+ 0+
12,8
24,5
24,022,720,317,214,512,410,88,36,65,14,03,32,7
5
0+ 0+ 92+ 46+ 46+
12,8
24,5
17,416,414,613,111,610,79,88,47,15,64,53,73,1
4
0+ 0+ 0+ 92+ 92+
12,8
27,9
22,017,514,311,89,98,46,24,63,32,41,71,1
4
92+ 92+ 46+ 0+ 0+
12,8
27,9
19,017,315,714,212,210,68,36,65,24,13,42,82,3
4
0+ 0+ 92+ 92+ 46+
12,8
II - 23
> < CODE > .x(x)
/s
* n *
%
061082
B106 070020.02
012 <
48 m T
48 m T
--
--
8,5
8,2
5,0
m 360°
ISO DIN
TAB 106148
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,0
27,9
16,515,013,712,511,610,7
8,87,15,64,53,73,12,7
3
0+ 0+ 46+ 92+ 92+
12,8
31,3
17,014,011,7
9,98,56,34,83,62,72,01,4
4
92+ 92+ 46+ 46+ 0+
11,1
31,3
18,415,313,011,1
9,77,55,94,73,72,92,31,81,41,1
4
0+ 92+ 92+ 46+ 46+
11,1
31,3
14,613,612,611,710,6
8,36,75,54,43,63,02,52,11,7
3
0+ 0+ 92+ 92+ 92+
11,1
34,8
13,511,49,78,36,34,83,62,72,01,51,0
3
92+ 92+ 92+ 46+ 0+
11,1
34,8
14,812,711,09,67,45,94,83,83,02,42,01,61,20,9
3
0+ 92+ 92+ 92+ 46+
11,1
34,8
13,312,511,510,18,06,45,34,23,52,92,42,01,61,31,1
3
0+ 46+ 92+ 92+ 92+
11,1
38,2
11,49,88,56,55,03,93,02,31,71,3
2
92+ 92+ 92+ 46+ 46+
11,1
38,2
11,910,89,57,56,04,93,93,22,62,11,71,41,10,8
3
0+ 92+ 92+ 92+ 92+
11,1
41,6
11,19,68,36,45,03,93,12,41,81,41,0
2
92+ 92+ 92+ 92+ 46+
11,1
41,6
11,410,39,17,15,74,63,73,02,41,91,51,20,9
2
46+ 92+ 92+ 92+ 92+
11,1
45,0
9,68,46,55,24,13,32,62,01,61,20,9
2
92+ 92+ 92+ 92+ 92+
11,1
48,0
8,78,16,45,04,03,22,62,01,51,10,8
2
100+100+100+100+100+
11,1
14,2
15,815,815,815,815,815,815,815,112,510,37,3
3
0+ 46- 0+ 0+ 0+
14,3
II - 24
> < CODE > .x(x)
/s
* n *
%
061082
B106 070020.02
012 <
48 m T
48 m T
--
--
8,5
8,2
5,0
m 360°
ISO DIN
TAB 106148
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,0
17,6
14,114,013,913,813,713,613,513,511,2
9,46,84,8
3
46- 46+ 0+ 0+ 0+
14,3
21,1
10,09,79,59,28,88,48,17,87,66,34,53,22,2
2
92- 46+ 0+ 0+ 0+
12,8
24,5
9,18,88,37,97,57,16,86,14,43,22,31,60,9
2
92- 92- 0+ 0+ 0+
12,8
27,9
8,58,07,67,16,86,45,84,63,32,41,71,1
2
92- 92- 46- 0+ 0+
12,8
31,3
7,97,47,06,66,24,94,43,62,72,01,4
2
92- 92- 46- 46- 0+
11,1
34,8
7,36,86,46,04,74,33,62,72,01,51,0
2
92- 92- 92- 46- 0+
11,1
14,2
19,319,219,219,219,219,219,216,513,511,38,2
4
0+ 0+ 0+ 0+ 46-
14,3
17,6
17,917,817,717,517,417,317,215,813,411,58,56,5
4
0+ 0+ 0+ 46- 46+
12,8
24,5
11,610,510,09,59,18,88,57,96,65,14,03,32,7
3
0+ 0+ 92- 46+ 46+
12,8
31,3
8,88,37,97,57,16,55,94,73,72,92,31,81,41,1
2
0+ 92- 92+ 46+ 46+
11,1
38,2
6,86,46,04,74,23,93,02,31,71,3
2
92- 92+ 92+ 46+ 46+
11,1
21,1
13,212,912,612,311,811,310,29,99,68,86,85,34,3
3
0+ 0+ 0+ 92- 46+
12,8
27,9
10,29,69,28,78,48,07,46,65,24,13,42,82,3
2
0+ 0+ 92- 92+ 46+
12,8
34,8
8,17,77,36,96,35,74,73,83,02,42,01,61,20,9
2
0+ 92- 92+ 92+ 46+
11,1
II - 25
> < CODE > .x(x)
/s
* n *
%
061082
B106 070020.02
012 <
48 m T
48 m T
--
--
8,5
8,2
5,0
m 360°
ISO DIN
TAB 106148
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,0
41,6
6,76,35,94,64,23,83,12,41,81,41,0
2
92- 92+ 92+ 92+ 46+
11,1
17,6
14,714,414,113,813,613,212,812,512,211,8
8,76,6
3
0+ 0+ 0+ 0+ 92-
14,3
21,1
17,417,217,016,815,715,313,912,611,5
9,17,15,64,6
4
0+ 0+ 0+ 46- 92+
12,8
24,5
12,111,810,510,1
9,69,38,98,47,15,64,53,73,1
3
0+ 0+ 0+ 92- 92+
12,8
27,9
14,714,313,712,511,610,78,87,15,64,53,73,12,7
3
0+ 0+ 46- 92+ 92+
12,8
31,3
9,59,08,58,17,87,16,65,54,43,63,02,52,11,7
2
0+ 0+ 92- 92+ 92+
11,1
34,8
12,812,411,510,18,06,45,34,23,52,92,42,01,61,31,1
3
0+ 46- 92+ 92+ 92+
11,1
38,2
7,67,26,86,24,94,63,93,22,62,11,71,41,10,8
2
0+ 92- 92+ 92+ 92+
11,1
41,6
10,310,09,17,15,74,63,73,02,41,91,51,20,9
2
46- 92+ 92+ 92+ 92+
11,1
45,0
6,35,94,64,23,83,32,62,01,61,20,9
2
92- 92+ 92+ 92+ 92+
11,1
48,0
4,44,13,53,12,72,42,11,81,51,10,8
1
100-100-100-100-100-
11,1
II - 26
> < CODE > .x(x)
/s
* n *
%
061082
B106 080020.02
013 <
48 m T
48 m T
--
--
12,8
8,2
5,0
m 360°
ISO DIN
TAB 106147
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,0
10,8
54,048,544,040,037,030,523,818,8
10!
0+ 0+ 0+ 0+ 0+
14,3
14,2
54,048,544,040,036,527,922,418,515,212,7
9,2
10!
0+ 46+ 0+ 0+ 0+
14,3
14,2
37,535,533,030,528,825,723,119,816,213,610,1
7
0+ 0+ 0+ 0+ 46+
14,3
17,6
53,048,043,537,532,525,220,316,714,112,0
8,76,5
10
46+ 46+ 0+ 0+ 0+
14,3
17,6
30,528,526,424,422,520,017,816,014,412,910,38,0
6
0+ 0+ 0+ 46+ 46+
14,3
17,6
26,825,023,421,920,518,316,615,113,712,510,58,2
5
0+ 0+ 0+ 0+ 92+
14,3
21,1
46,040,034,529,923,418,915,613,111,28,36,34,63,5
9
92+ 46+ 0+ 0+ 0+
12,8
21,1
23,522,020,719,416,915,313,912,711,69,78,36,75,4
5
0+ 0+ 0+ 92+ 46+
12,8
21,1
23,522,020,719,417,015,313,912,611,59,58,36,95,7
5
0+ 0+ 0+ 46+ 92+
12,8
24,5
32,028,022,118,115,012,710,88,16,14,53,52,61,9
6
92+ 92+ 0+ 0+ 0+
12,8
24,5
24,022,720,318,216,315,013,110,38,26,65,34,33,6
5
0+ 0+ 92+ 46+ 46+
12,8
24,5
17,416,414,613,111,610,79,88,47,26,25,64,84,1
4
0+ 0+ 0+ 92+ 92+
12,8
27,9
26,621,317,514,712,510,78,16,24,73,62,82,11,5
5
92+ 92+ 46+ 0+ 0+
12,8
27,9
19,017,315,714,313,112,110,28,26,75,44,43,73,2
4
0+ 0+ 92+ 92+ 46+
12,8
II - 27
> < CODE > .x(x)
/s
* n *
%
061082
B106 080020.02
013 <
48 m T
48 m T
--
--
12,8
8,2
5,0
m 360°
ISO DIN
TAB 106147
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,0
27,9
16,515,013,712,511,610,7
9,38,17,15,94,84,13,5
3
0+ 0+ 46+ 92+ 92+
12,8
31,3
20,617,114,512,410,7
8,26,45,03,93,12,41,81,30,9
4
92+ 92+ 46+ 46+ 0+
11,1
31,3
18,817,315,713,611,9
9,37,56,14,94,03,32,72,21,8
4
0+ 92+ 92+ 46+ 46+
11,1
31,3
14,613,612,611,710,7
9,38,16,95,84,63,93,32,92,5
3
0+ 0+ 92+ 92+ 92+
11,1
34,8
16,514,112,110,58,16,35,04,03,12,51,91,51,1
3
92+ 92+ 92+ 46+ 0+
11,1
34,8
14,813,912,911,79,37,56,15,14,13,42,82,32,01,61,3
3
0+ 92+ 92+ 92+ 46+
11,1
34,8
13,312,511,811,19,88,06,65,54,53,83,22,82,42,01,7
3
0+ 46+ 92+ 92+ 92+
11,1
38,2
14,012,110,68,26,55,34,23,42,72,21,71,31,0
3
92+ 92+ 92+ 46+ 46+
11,1
38,2
11,911,310,79,37,56,25,24,23,53,02,52,11,81,51,2
3
0+ 92+ 92+ 92+ 92+
11,1
41,6
12,811,810,48,26,55,34,33,52,82,31,81,41,10,8
3
92+ 92+ 92+ 92+ 46+
11,1
41,6
11,411,010,68,87,25,94,94,03,32,82,31,91,61,31,10,8
2
46+ 92+ 92+ 92+ 92+
11,1
45,0
10,810,48,26,75,44,53,73,02,42,01,61,31,0
2
92+ 92+ 92+ 92+ 92+
11,1
48,0
8,78,47,76,55,34,43,62,92,41,91,51,20,9
2
100+100+100+100+100+
11,1
14,2
15,815,815,815,815,815,815,815,815,212,79,2
3
0+ 46- 0+ 0+ 0+
14,3
II - 28
> < CODE > .x(x)
/s
* n *
%
061082
B106 080020.02
013 <
48 m T
48 m T
--
--
12,8
8,2
5,0
m 360°
ISO DIN
TAB 106147
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,0
17,6
14,114,013,913,813,713,613,513,513,512,0
8,76,5
3
46- 46+ 0+ 0+ 0+
14,3
21,1
10,09,79,59,28,88,48,17,87,67,26,34,63,5
2
92- 46+ 0+ 0+ 0+
12,8
24,5
9,18,88,37,97,57,16,86,35,84,53,52,61,9
2
92- 92- 0+ 0+ 0+
12,8
27,9
8,58,07,67,16,86,45,84,64,33,62,82,11,5
2
92- 92- 46- 0+ 0+
12,8
31,3
7,97,47,06,66,24,94,44,13,83,12,41,81,30,9
2
92- 92- 46- 46- 0+
11,1
34,8
7,36,86,46,04,74,33,93,63,12,51,91,51,1
2
92- 92- 92- 46- 0+
11,1
14,2
19,319,219,219,219,219,219,219,216,213,610,1
4
0+ 0+ 0+ 0+ 46-
14,3
17,6
17,917,817,717,517,417,317,216,014,412,910,38,0
4
0+ 0+ 0+ 46- 46+
12,8
24,5
11,610,510,09,59,18,88,57,97,56,65,34,33,6
3
0+ 0+ 92- 46+ 46+
12,8
31,3
8,88,37,97,57,16,56,04,94,54,03,32,72,21,8
2
0+ 92- 92+ 46+ 46+
11,1
38,2
6,86,46,04,74,23,93,53,22,72,21,71,31,0
2
92- 92+ 92+ 46+ 46+
11,1
21,1
13,212,912,612,311,811,310,29,99,69,18,36,75,4
3
0+ 0+ 0+ 92- 46+
12,8
27,9
10,29,69,28,78,48,07,46,96,55,44,43,73,2
2
0+ 0+ 92- 92+ 46+
12,8
34,8
8,17,77,36,96,35,74,74,34,13,42,82,32,01,61,3
2
0+ 92- 92+ 92+ 46+
11,1
II - 29
> < CODE > .x(x)
/s
* n *
%
061082
B106 080020.02
013 <
48 m T
48 m T
--
--
12,8
8,2
5,0
m 360°
ISO DIN
TAB 106147
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,0
41,6
6,76,35,94,64,23,83,43,12,82,31,81,41,10,8
2
92- 92+ 92+ 92+ 46+
11,1
17,6
14,714,414,113,813,613,212,812,512,212,010,5
8,2
3
0+ 0+ 0+ 0+ 92-
14,3
21,1
17,417,217,016,815,715,313,912,611,5
9,58,36,95,7
4
0+ 0+ 0+ 46- 92+
12,8
24,5
12,111,810,510,1
9,69,38,98,47,26,25,64,84,1
3
0+ 0+ 0+ 92- 92+
12,8
27,9
14,714,313,712,511,610,79,38,17,15,94,84,13,5
3
0+ 0+ 46- 92+ 92+
12,8
31,3
9,59,08,58,17,87,16,66,15,84,63,93,32,92,5
2
0+ 0+ 92- 92+ 92+
11,1
34,8
12,812,411,811,19,88,06,65,54,53,83,22,82,42,01,7
3
0+ 46- 92+ 92+ 92+
11,1
38,2
7,67,26,86,24,94,64,23,93,53,02,52,11,81,51,2
2
0+ 92- 92+ 92+ 92+
11,1
41,6
10,310,09,88,87,25,94,94,03,32,82,31,91,61,31,10,8
2
46- 92+ 92+ 92+ 92+
11,1
45,0
6,35,94,64,23,83,53,22,92,42,01,61,31,0
2
92- 92+ 92+ 92+ 92+
11,1
48,0
4,44,13,53,12,72,42,11,81,61,41,21,00,9
1
100-100-100-100-100-
11,1
II - 30
> < CODE > .x(x)
/s
* n *
%
061082
B106 090020.02
014 <
48 m T
48 m T
--
--
16,1
8,2
5,0
m 360°
ISO DIN
TAB 106146
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
10,8
55,049,044,540,537,532,026,821,2
10!
0+ 0+ 0+ 0+ 0+
14,3
14,2
55,049,044,540,537,031,525,521,217,314,510,6
10!
0+ 46+ 0+ 0+ 0+
14,3
14,2
37,535,533,030,528,825,723,120,718,315,411,5
7
0+ 0+ 0+ 0+ 46+
14,3
17,6
54,048,544,040,037,028,723,219,216,313,910,2
7,7
10!
46+ 46+ 0+ 0+ 0+
14,3
17,6
30,528,526,424,422,520,017,816,014,412,911,09,2
6
0+ 0+ 0+ 46+ 46+
14,3
17,6
26,825,023,421,920,518,316,615,113,712,510,99,4
5
0+ 0+ 0+ 0+ 92+
14,3
21,1
46,044,039,034,026,621,618,015,213,19,97,65,84,4
9
92+ 46+ 0+ 0+ 0+
12,8
21,1
23,522,020,719,416,915,313,912,711,69,78,57,56,3
5
0+ 0+ 0+ 92+ 46+
12,8
21,1
23,522,020,719,417,015,313,912,611,59,58,37,36,4
5
0+ 0+ 0+ 46+ 92+
12,8
24,5
35,031,525,220,717,314,712,79,67,55,84,43,42,6
7
92+ 92+ 0+ 0+ 0+
12,8
24,5
24,022,720,318,216,315,013,811,89,47,66,25,24,4
5
0+ 0+ 92+ 46+ 46+
12,8
24,5
17,416,414,613,111,610,79,88,47,26,25,65,04,5
4
0+ 0+ 0+ 92+ 92+
12,8
27,9
27,924,220,016,914,412,59,67,55,94,53,62,82,2
6
92+ 92+ 46+ 0+ 0+
12,8
27,9
19,017,315,714,313,112,110,49,07,76,45,34,43,8
4
0+ 0+ 92+ 92+ 46+
12,8
II - 31
> < CODE > .x(x)
/s
* n *
%
061082
B106 090020.02
014 <
48 m T
48 m T
--
--
16,1
8,2
5,0
m 360°
ISO DIN
TAB 106146
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
27,9
16,515,013,712,511,610,7
9,38,17,16,45,74,94,2
3
0+ 0+ 46+ 92+ 92+
12,8
31,3
22,619,516,614,312,4
9,67,66,14,93,93,12,52,01,5
5
92+ 92+ 46+ 46+ 0+
11,1
31,3
18,817,315,914,613,410,8
8,77,26,04,84,03,42,82,4
4
0+ 92+ 92+ 46+ 46+
11,1
31,3
14,613,612,611,710,7
9,38,17,16,25,64,74,03,53,0
3
0+ 0+ 92+ 92+ 92+
11,1
34,8
18,216,113,912,29,57,66,14,93,93,22,62,11,61,20,9
4
92+ 92+ 92+ 46+ 0+
11,1
34,8
14,813,912,912,110,58,77,26,05,04,13,52,92,52,11,8
3
0+ 92+ 92+ 92+ 46+
11,1
34,8
13,312,511,811,19,88,77,76,55,44,53,93,42,92,52,2
3
0+ 46+ 92+ 92+ 92+
11,1
38,2
15,013,912,29,67,76,35,24,23,42,82,31,91,51,20,9
3
92+ 92+ 92+ 46+ 46+
11,1
38,2
11,911,310,79,68,57,36,15,14,33,63,12,62,32,01,7
3
0+ 92+ 92+ 92+ 92+
11,1
41,6
12,812,311,89,57,76,35,24,33,52,92,42,01,61,31,0
3
92+ 92+ 92+ 92+ 46+
11,1
41,6
11,411,010,69,88,47,05,94,94,13,42,92,52,11,81,51,21,0
2
46+ 92+ 92+ 92+ 92+
11,1
45,0
10,810,59,67,86,55,44,53,73,12,62,11,81,51,21,0
2
92+ 92+ 92+ 92+ 92+
11,1
48,0
8,78,47,77,26,35,34,43,63,02,52,11,71,41,10,9
2
100+100+100+100+100+
11,1
14,2
15,815,815,815,815,815,815,815,815,814,510,6
3
0+ 46- 0+ 0+ 0+
14,3
II - 32
> < CODE > .x(x)
/s
* n *
%
061082
B106 090020.02
014 <
48 m T
48 m T
--
--
16,1
8,2
5,0
m 360°
ISO DIN
TAB 106146
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
17,6
14,114,013,913,813,713,613,513,513,513,510,2
7,7
3
46- 46+ 0+ 0+ 0+
14,3
21,1
10,09,79,59,28,88,48,17,87,67,26,95,84,4
2
92- 46+ 0+ 0+ 0+
12,8
24,5
9,18,88,37,97,57,16,86,35,84,84,43,42,6
2
92- 92- 0+ 0+ 0+
12,8
27,9
8,58,07,67,16,86,45,84,64,34,03,62,82,2
2
92- 92- 46- 0+ 0+
12,8
31,3
7,97,47,06,66,24,94,44,13,83,53,12,52,01,5
2
92- 92- 46- 46- 0+
11,1
34,8
7,36,86,46,04,74,33,93,63,33,02,62,11,61,20,9
2
92- 92- 92- 46- 0+
11,1
14,2
19,319,219,219,219,219,219,219,218,315,411,5
4
0+ 0+ 0+ 0+ 46-
14,3
17,6
17,917,817,717,517,417,317,216,014,412,911,09,2
4
0+ 0+ 0+ 46- 46+
12,8
24,5
11,610,510,09,59,18,88,57,97,57,16,25,24,4
3
0+ 0+ 92- 46+ 46+
12,8
31,3
8,88,37,97,57,16,56,04,94,54,34,03,42,82,4
2
0+ 92- 92+ 46+ 46+
11,1
38,2
6,86,46,04,74,23,93,53,23,02,82,31,91,51,20,9
2
92- 92+ 92+ 46+ 46+
11,1
21,1
13,212,912,612,311,811,310,29,99,69,18,57,56,3
3
0+ 0+ 0+ 92- 46+
12,8
27,9
10,29,69,28,78,48,07,46,96,56,15,34,43,8
2
0+ 0+ 92- 92+ 46+
12,8
34,8
8,17,77,36,96,35,74,74,34,13,83,52,92,52,11,8
2
0+ 92- 92+ 92+ 46+
11,1
II - 33
> < CODE > .x(x)
/s
* n *
%
061082
B106 090020.02
014 <
48 m T
48 m T
--
--
16,1
8,2
5,0
m 360°
ISO DIN
TAB 106146
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
41,6
6,76,35,94,64,23,83,43,12,92,62,42,01,61,31,0
2
92- 92+ 92+ 92+ 46+
11,1
17,6
14,714,414,113,813,613,212,812,512,212,010,9
9,4
3
0+ 0+ 0+ 0+ 92-
14,3
21,1
17,417,217,016,815,715,313,912,611,5
9,58,37,36,4
4
0+ 0+ 0+ 46- 92+
12,8
24,5
12,111,810,510,1
9,69,38,98,47,26,25,65,04,5
3
0+ 0+ 0+ 92- 92+
12,8
27,9
14,714,313,712,511,610,79,38,17,16,45,74,94,2
3
0+ 0+ 46- 92+ 92+
12,8
31,3
9,59,08,58,17,87,16,66,15,84,84,64,03,53,0
2
0+ 0+ 92- 92+ 92+
11,1
34,8
12,812,411,811,19,88,77,76,55,44,53,93,42,92,52,2
3
0+ 46- 92+ 92+ 92+
11,1
38,2
7,67,26,86,24,94,64,23,93,73,53,12,62,32,01,7
2
0+ 92- 92+ 92+ 92+
11,1
41,6
10,310,09,89,38,47,05,94,94,13,42,92,52,11,81,51,21,0
2
46- 92+ 92+ 92+ 92+
11,1
45,0
6,35,94,64,23,83,53,22,92,72,42,11,81,51,21,0
2
92- 92+ 92+ 92+ 92+
11,1
48,0
4,44,13,53,12,72,42,11,81,61,41,21,00,90,8
1
100-100-100-100-100-
11,1
II - 34
> < CODE > .x(x)
/s
* n *
%
061082
B106 110020.02
017 <
48 m T
48 m T
--
--
6,6
8,2
7,0
m 360°
ISO DIN
TAB 106143
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
10,8
61,056,051,046,542,535,530,023,6
10!
0+ 0+ 0+ 0+ 0+
14,3
14,2
61,056,051,046,542,535,528,823,619,115,711,1
10!
0+ 46+ 0+ 0+ 0+
14,3
14,2
37,535,533,030,528,825,723,120,719,116,812,1
7
0+ 0+ 0+ 0+ 46+
14,3
17,6
57,053,049,546,042,032,526,121,417,714,910,6
7,8
10!
46+ 46+ 0+ 0+ 0+
14,3
17,6
30,528,526,424,422,520,017,816,014,412,911,09,4
6
0+ 0+ 0+ 46+ 46+
14,3
17,6
26,825,023,421,920,518,316,615,113,712,510,99,6
5
0+ 0+ 0+ 0+ 92+
14,3
21,1
46,044,042,039,030,024,319,816,513,910,27,75,74,2
9
92+ 46+ 0+ 0+ 0+
12,8
21,1
23,522,020,719,416,915,313,912,711,69,78,57,56,3
5
0+ 0+ 0+ 92+ 46+
12,8
21,1
23,522,020,719,417,015,313,912,611,59,58,37,36,4
5
0+ 0+ 0+ 46+ 92+
12,8
24,5
35,033,528,523,219,015,813,49,97,55,84,23,22,4
7
92+ 92+ 0+ 0+ 0+
12,8
24,5
24,022,720,318,216,315,013,811,99,77,66,25,14,2
5
0+ 0+ 92+ 46+ 46+
12,8
24,5
17,416,414,613,111,610,79,88,47,26,25,65,04,5
4
0+ 0+ 0+ 92+ 92+
12,8
27,9
27,926,122,318,415,513,29,87,65,94,43,42,62,0
6
92+ 92+ 46+ 0+ 0+
12,8
27,9
19,017,315,714,313,112,110,49,07,76,45,24,33,7
4
0+ 0+ 92+ 92+ 46+
12,8
II - 35
> < CODE > .x(x)
/s
* n *
%
061082
B106 110020.02
017 <
48 m T
48 m T
--
--
6,6
8,2
7,0
m 360°
ISO DIN
TAB 106143
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
27,9
16,515,013,712,511,610,7
9,38,17,16,45,74,74,1
3
0+ 0+ 46+ 92+ 92+
12,8
31,3
22,621,218,015,213,1
9,97,76,14,83,72,92,31,81,3
5
92+ 92+ 46+ 46+ 0+
11,1
31,3
18,817,315,914,613,411,1
8,97,25,94,73,83,22,72,2
4
0+ 92+ 92+ 46+ 46+
11,1
31,3
14,613,612,611,710,7
9,38,17,16,25,54,53,93,32,9
3
0+ 0+ 92+ 92+ 92+
11,1
34,8
18,217,314,812,89,87,66,14,83,83,02,41,91,41,0
4
92+ 92+ 92+ 46+ 0+
11,1
34,8
14,813,912,912,110,58,97,36,04,84,03,32,82,31,91,6
3
0+ 92+ 92+ 92+ 46+
11,1
34,8
13,312,511,811,19,88,77,76,55,34,43,73,22,82,42,0
3
0+ 46+ 92+ 92+ 92+
11,1
38,2
15,014,312,89,97,86,35,14,13,32,62,11,71,31,0
3
92+ 92+ 92+ 46+ 46+
11,1
38,2
11,911,310,79,68,57,36,15,04,13,52,92,52,11,81,5
3
0+ 92+ 92+ 92+ 92+
11,1
41,6
12,812,311,89,87,86,35,24,13,42,72,21,81,41,10,8
3
92+ 92+ 92+ 92+ 46+
11,1
41,6
11,411,010,69,88,57,05,84,83,93,32,72,31,91,61,31,10,8
2
46+ 92+ 92+ 92+ 92+
11,1
45,0
10,810,59,67,96,45,34,33,52,92,42,01,61,31,00,8
2
92+ 92+ 92+ 92+ 92+
11,1
48,0
8,78,47,77,26,35,24,33,52,92,31,91,51,21,0
2
100+100+100+100+100+
11,1
14,2
15,815,815,815,815,815,815,815,815,815,711,1
3
0+ 46- 0+ 0+ 0+
14,3
II - 36
> < CODE > .x(x)
/s
* n *
%
061082
B106 110020.02
017 <
48 m T
48 m T
--
--
6,6
8,2
7,0
m 360°
ISO DIN
TAB 106143
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
17,6
14,114,013,913,813,713,613,513,513,513,510,6
7,8
3
46- 46+ 0+ 0+ 0+
14,3
21,1
10,09,79,59,28,88,48,17,87,67,26,95,74,2
2
92- 46+ 0+ 0+ 0+
12,8
24,5
9,18,88,37,97,57,16,86,35,84,84,23,22,4
2
92- 92- 0+ 0+ 0+
12,8
27,9
8,58,07,67,16,86,45,84,64,34,03,42,62,0
2
92- 92- 46- 0+ 0+
12,8
31,3
7,97,47,06,66,24,94,44,13,83,52,92,31,81,3
2
92- 92- 46- 46- 0+
11,1
34,8
7,36,86,46,04,74,33,93,63,33,02,41,91,41,0
2
92- 92- 92- 46- 0+
11,1
14,2
19,319,219,219,219,219,219,219,219,116,812,1
4
0+ 0+ 0+ 0+ 46-
14,3
17,6
17,917,817,717,517,417,317,216,014,412,911,09,4
4
0+ 0+ 0+ 46- 46+
12,8
24,5
11,610,510,09,59,18,88,57,97,57,16,25,14,2
3
0+ 0+ 92- 46+ 46+
12,8
31,3
8,88,37,97,57,16,56,04,94,54,33,83,22,72,2
2
0+ 92- 92+ 46+ 46+
11,1
38,2
6,86,46,04,74,23,93,53,23,02,62,11,71,31,0
2
92- 92+ 92+ 46+ 46+
11,1
21,1
13,212,912,612,311,811,310,29,99,69,18,57,56,3
3
0+ 0+ 0+ 92- 46+
12,8
27,9
10,29,69,28,78,48,07,46,96,56,15,24,33,7
2
0+ 0+ 92- 92+ 46+
12,8
34,8
8,17,77,36,96,35,74,74,34,13,83,32,82,31,91,6
2
0+ 92- 92+ 92+ 46+
11,1
II - 37
> < CODE > .x(x)
/s
* n *
%
061082
B106 110020.02
017 <
48 m T
48 m T
--
--
6,6
8,2
7,0
m 360°
ISO DIN
TAB 106143
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
41,6
6,76,35,94,64,23,83,43,12,92,62,21,81,41,10,8
2
92- 92+ 92+ 92+ 46+
11,1
17,6
14,714,414,113,813,613,212,812,512,212,010,9
9,6
3
0+ 0+ 0+ 0+ 92-
14,3
21,1
17,417,217,016,815,715,313,912,611,5
9,58,37,36,4
4
0+ 0+ 0+ 46- 92+
12,8
24,5
12,111,810,510,1
9,69,38,98,47,26,25,65,04,5
3
0+ 0+ 0+ 92- 92+
12,8
27,9
14,714,313,712,511,610,79,38,17,16,45,74,74,1
3
0+ 0+ 46- 92+ 92+
12,8
31,3
9,59,08,58,17,87,16,66,15,84,84,53,93,32,9
2
0+ 0+ 92- 92+ 92+
11,1
34,8
12,812,411,811,19,88,77,76,55,34,43,73,22,82,42,0
3
0+ 46- 92+ 92+ 92+
11,1
38,2
7,67,26,86,24,94,64,23,93,73,52,92,52,11,81,5
2
0+ 92- 92+ 92+ 92+
11,1
41,6
10,310,09,89,38,57,05,84,83,93,32,72,31,91,61,31,10,8
2
46- 92+ 92+ 92+ 92+
11,1
45,0
6,35,94,64,23,83,53,22,92,72,42,01,61,31,00,8
2
92- 92+ 92+ 92+ 92+
11,1
48,0
4,44,13,53,12,72,42,11,81,61,41,21,00,90,8
1
100-100-100-100-100-
11,1
II - 38
> < CODE > .x(x)
/s
* n *
%
061082
B106 120020.02
018 <
48 m T
48 m T
--
--
8,5
8,2
7,0
m 360°
ISO DIN
TAB 106142
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
10,8
61,056,051,047,043,036,530,525,3
10!
0+ 0+ 0+ 0+ 0+
14,3
14,2
61,056,051,046,543,036,530,525,320,517,012,2
10!
0+ 46+ 0+ 0+ 0+
14,3
14,2
37,535,533,030,528,825,723,120,719,117,813,1
7
0+ 0+ 0+ 0+ 46+
14,3
17,6
57,053,049,546,042,535,028,023,119,416,411,7
8,7
10!
46+ 46+ 0+ 0+ 0+
14,3
17,6
30,528,526,424,422,520,017,816,014,412,911,09,5
6
0+ 0+ 0+ 46+ 46+
14,3
17,6
26,825,023,421,920,518,316,615,113,712,510,99,6
5
0+ 0+ 0+ 0+ 92+
14,3
21,1
46,044,042,040,032,526,121,718,115,311,48,66,54,9
9
92+ 46+ 0+ 0+ 0+
12,8
21,1
23,522,020,719,416,915,313,912,711,69,78,57,56,6
5
0+ 0+ 0+ 92+ 46+
12,8
21,1
23,522,020,719,417,015,313,912,611,59,58,37,36,4
5
0+ 0+ 0+ 46+ 92+
12,8
24,5
35,033,530,524,920,817,414,811,08,56,54,93,83,0
7
92+ 92+ 0+ 0+ 0+
12,8
24,5
24,022,720,318,216,315,013,811,910,28,46,85,74,8
5
0+ 0+ 92+ 46+ 46+
12,8
24,5
17,416,414,613,111,610,79,88,47,26,25,65,04,5
4
0+ 0+ 0+ 92+ 92+
12,8
27,9
27,926,124,020,117,014,511,08,56,75,14,03,12,5
6
92+ 92+ 46+ 0+ 0+
12,8
27,9
19,017,315,714,313,112,110,49,07,76,95,94,94,1
4
0+ 0+ 92+ 92+ 46+
12,8
II - 39
> < CODE > .x(x)
/s
* n *
%
061082
B106 120020.02
018 <
48 m T
48 m T
--
--
8,5
8,2
7,0
m 360°
ISO DIN
TAB 106142
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
27,9
16,515,013,712,511,610,7
9,38,17,16,45,95,34,5
3
0+ 0+ 46+ 92+ 92+
12,8
31,3
22,621,219,616,714,411,0
8,66,95,54,33,42,82,21,7
5
92+ 92+ 46+ 46+ 0+
11,1
31,3
18,817,315,914,613,411,6
9,88,06,65,34,43,73,12,6
4
0+ 92+ 92+ 46+ 46+
11,1
31,3
14,613,612,611,710,7
9,38,17,16,25,65,14,43,83,3
3
0+ 0+ 92+ 92+ 92+
11,1
34,8
18,217,316,214,010,88,56,85,54,43,52,82,31,81,41,0
4
92+ 92+ 92+ 46+ 0+
11,1
34,8
14,813,912,912,110,59,28,06,75,54,53,83,22,72,31,9
3
0+ 92+ 92+ 92+ 46+
11,1
34,8
13,312,511,811,19,88,77,76,96,15,04,23,63,22,72,4
3
0+ 46+ 92+ 92+ 92+
11,1
38,2
15,014,313,710,98,77,15,84,63,83,12,52,11,71,31,0
3
92+ 92+ 92+ 46+ 46+
11,1
38,2
11,911,310,79,68,57,56,75,74,63,93,42,92,52,11,8
3
0+ 92+ 92+ 92+ 92+
11,1
41,6
12,812,311,810,88,67,15,84,83,93,22,62,21,81,41,20,9
3
92+ 92+ 92+ 92+ 46+
11,1
41,6
11,411,010,69,88,77,76,55,44,43,73,22,72,31,91,71,41,1
2
46+ 92+ 92+ 92+ 92+
11,1
45,0
10,810,59,68,67,26,05,04,13,42,82,42,01,61,31,10,8
2
92+ 92+ 92+ 92+ 92+
11,1
48,0
8,78,47,77,26,55,94,94,03,32,82,31,91,61,31,00,8
2
100+100+100+100+100+
11,1
14,2
15,815,815,815,815,815,815,815,815,815,812,2
3
0+ 46- 0+ 0+ 0+
14,3
II - 40
> < CODE > .x(x)
/s
* n *
%
061082
B106 120020.02
018 <
48 m T
48 m T
--
--
8,5
8,2
7,0
m 360°
ISO DIN
TAB 106142
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
17,6
14,114,013,913,813,713,613,513,513,513,511,7
8,7
3
46- 46+ 0+ 0+ 0+
14,3
21,1
10,09,79,59,28,88,48,17,87,67,26,96,54,9
2
92- 46+ 0+ 0+ 0+
12,8
24,5
9,18,88,37,97,57,16,86,35,84,84,63,83,0
2
92- 92- 0+ 0+ 0+
12,8
27,9
8,58,07,67,16,86,45,84,64,34,03,83,12,5
2
92- 92- 46- 0+ 0+
12,8
31,3
7,97,47,06,66,24,94,44,13,83,53,32,82,21,7
2
92- 92- 46- 46- 0+
11,1
34,8
7,36,86,46,04,74,33,93,63,33,02,82,31,81,41,0
2
92- 92- 92- 46- 0+
11,1
14,2
19,319,219,219,219,219,219,219,219,117,813,1
4
0+ 0+ 0+ 0+ 46-
14,3
17,6
17,917,817,717,517,417,317,216,014,412,911,09,5
4
0+ 0+ 0+ 46- 46+
12,8
24,5
11,610,510,09,59,18,88,57,97,57,16,85,74,8
3
0+ 0+ 92- 46+ 46+
12,8
31,3
8,88,37,97,57,16,56,04,94,54,34,13,73,12,6
2
0+ 92- 92+ 46+ 46+
11,1
38,2
6,86,46,04,74,23,93,53,23,02,82,52,11,71,31,0
2
92- 92+ 92+ 46+ 46+
11,1
21,1
13,212,912,612,311,811,310,29,99,69,18,57,56,6
3
0+ 0+ 0+ 92- 46+
12,8
27,9
10,29,69,28,78,48,07,46,96,56,15,84,94,1
2
0+ 0+ 92- 92+ 46+
12,8
34,8
8,17,77,36,96,35,74,74,34,13,83,63,22,72,31,9
2
0+ 92- 92+ 92+ 46+
11,1
II - 41
> < CODE > .x(x)
/s
* n *
%
061082
B106 120020.02
018 <
48 m T
48 m T
--
--
8,5
8,2
7,0
m 360°
ISO DIN
TAB 106142
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,0
41,6
6,76,35,94,64,23,83,43,12,92,62,42,21,81,41,20,9
2
92- 92+ 92+ 92+ 46+
11,1
17,6
14,714,414,113,813,613,212,812,512,212,010,9
9,6
3
0+ 0+ 0+ 0+ 92-
14,3
21,1
17,417,217,016,815,715,313,912,611,5
9,58,37,36,4
4
0+ 0+ 0+ 46- 92+
12,8
24,5
12,111,810,510,1
9,69,38,98,47,26,25,65,04,5
3
0+ 0+ 0+ 92- 92+
12,8
27,9
14,714,313,712,511,610,79,38,17,16,45,95,34,5
3
0+ 0+ 46- 92+ 92+
12,8
31,3
9,59,08,58,17,87,16,66,15,84,84,64,43,83,3
2
0+ 0+ 92- 92+ 92+
11,1
34,8
12,812,411,811,19,88,77,76,96,15,04,23,63,22,72,4
3
0+ 46- 92+ 92+ 92+
11,1
38,2
7,67,26,86,24,94,64,23,93,73,53,32,92,52,11,8
2
0+ 92- 92+ 92+ 92+
11,1
41,6
10,310,09,89,38,77,76,55,44,43,73,22,72,31,91,71,41,1
2
46- 92+ 92+ 92+ 92+
11,1
45,0
6,35,94,64,23,83,53,22,92,72,42,32,01,61,31,10,8
2
92- 92+ 92+ 92+ 92+
11,1
48,0
4,44,13,53,12,72,42,11,81,61,41,21,00,90,8
1
100-100-100-100-100-
11,1
II - 42
> < CODE > .x(x)
/s
* n *
%
061082
B106 130020.02
019 <
48 m T
48 m T
--
--
12,8
8,2
7,0
m 360°
ISO DIN
TAB 106141
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,040,042,044,0
10,8
62,056,051,047,543,537,532,027,5
10!
0+ 0+ 0+ 0+ 0+
14,3
14,2
62,056,051,047,043,537,032,027,323,619,714,5
10!
0+ 46+ 0+ 0+ 0+
14,3
14,2
37,535,533,030,528,825,723,120,719,117,815,4
7
0+ 0+ 0+ 0+ 46+
14,3
17,6
57,053,049,546,043,036,531,526,822,719,214,010,6
10!
46+ 46+ 0+ 0+ 0+
14,3
17,6
30,528,526,424,422,520,017,816,014,412,911,09,5
6
0+ 0+ 0+ 46+ 46+
14,3
17,6
26,825,023,421,920,518,316,615,113,712,510,99,6
5
0+ 0+ 0+ 0+ 92+
14,3
21,1
46,044,042,040,036,530,525,221,418,413,910,58,26,4
9
92+ 46+ 0+ 0+ 0+
12,8
21,1
23,522,020,719,416,915,313,912,711,69,78,57,56,6
5
0+ 0+ 0+ 92+ 46+
12,8
21,1
23,522,020,719,417,015,313,912,611,59,58,37,36,4
5
0+ 0+ 0+ 46+ 92+
12,8
24,5
35,033,530,528,024,220,617,813,610,78,36,65,24,2
7
92+ 92+ 0+ 0+ 0+
12,8
24,5
24,022,720,318,216,315,013,811,910,28,97,96,95,9
5
0+ 0+ 92+ 46+ 46+
12,8
24,5
17,416,414,613,111,610,79,88,47,26,25,65,04,5
4
0+ 0+ 0+ 92+ 92+
12,8
27,9
27,926,124,522,920,117,513,410,68,56,85,44,33,6
6
92+ 92+ 46+ 0+ 0+
12,8
27,9
19,017,315,714,313,112,110,49,07,76,96,25,65,0
4
0+ 0+ 92+ 92+ 46+
12,8
II - 43
> < CODE > .x(x)
/s
* n *
%
061082
B106 130020.02
019 <
48 m T
48 m T
--
--
12,8
8,2
7,0
m 360°
ISO DIN
TAB 106141
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,040,042,044,0
27,9
16,515,013,712,511,610,7
9,38,17,16,45,95,34,9
3
0+ 0+ 46+ 92+ 92+
12,8
31,3
22,621,219,918,717,313,410,7
8,77,15,84,63,83,22,6
5
92+ 92+ 46+ 46+ 0+
11,1
31,3
18,817,315,914,613,411,610,1
8,87,76,75,74,84,13,5
4
0+ 92+ 92+ 46+ 46+
11,1
31,3
14,613,612,611,710,7
9,38,17,16,25,65,14,74,23,8
3
0+ 0+ 92+ 92+ 92+
11,1
34,8
18,217,316,515,813,210,58,67,15,94,73,93,32,72,21,8
4
92+ 92+ 92+ 46+ 0+
11,1
34,8
14,813,912,912,110,59,28,17,16,25,74,94,23,63,22,7
3
0+ 92+ 92+ 92+ 46+
11,1
34,8
13,312,511,811,19,88,77,76,96,15,65,24,64,03,63,1
3
0+ 46+ 92+ 92+ 92+
11,1
38,2
15,014,313,712,410,78,87,36,25,04,23,53,02,52,11,7
3
92+ 92+ 92+ 46+ 46+
11,1
38,2
11,911,310,79,68,57,56,75,95,24,84,33,83,32,92,5
3
0+ 92+ 92+ 92+ 92+
11,1
41,6
12,812,311,810,99,88,77,36,25,14,33,63,12,62,21,91,61,3
3
92+ 92+ 92+ 92+ 46+
11,1
41,6
11,411,010,69,88,77,87,16,45,74,84,13,63,12,72,42,11,8
2
46+ 92+ 92+ 92+ 92+
11,1
45,0
10,810,59,68,67,87,16,45,34,43,83,22,82,42,01,71,51,21,0
2
92+ 92+ 92+ 92+ 92+
11,1
48,0
8,78,47,77,26,56,05,55,14,43,73,22,72,32,01,71,41,21,00,8
2
100+100+100+100+100+
11,1
14,2
15,815,815,815,815,815,815,815,815,815,814,5
3
0+ 46- 0+ 0+ 0+
14,3
II - 44
> < CODE > .x(x)
/s
* n *
%
061082
B106 130020.02
019 <
48 m T
48 m T
--
--
12,8
8,2
7,0
m 360°
ISO DIN
TAB 106141
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,040,042,044,0
17,6
14,114,013,913,813,713,613,513,513,513,513,510,6
3
46- 46+ 0+ 0+ 0+
14,3
21,1
10,09,79,59,28,88,48,17,87,67,26,96,86,4
2
92- 46+ 0+ 0+ 0+
12,8
24,5
9,18,88,37,97,57,16,86,35,84,84,64,64,2
2
92- 92- 0+ 0+ 0+
12,8
27,9
8,58,07,67,16,86,45,84,64,34,03,83,73,6
2
92- 92- 46- 0+ 0+
12,8
31,3
7,97,47,06,66,24,94,44,13,83,53,33,23,12,6
2
92- 92- 46- 46- 0+
11,1
34,8
7,36,86,46,04,74,33,93,63,33,02,82,72,52,21,8
2
92- 92- 92- 46- 0+
11,1
14,2
19,319,219,219,219,219,219,219,219,117,815,4
4
0+ 0+ 0+ 0+ 46-
14,3
17,6
17,917,817,717,517,417,317,216,014,412,911,09,5
4
0+ 0+ 0+ 46- 46+
12,8
24,5
11,610,510,09,59,18,88,57,97,57,16,96,85,9
3
0+ 0+ 92- 46+ 46+
12,8
31,3
8,88,37,97,57,16,56,04,94,54,34,13,93,83,5
2
0+ 92- 92+ 46+ 46+
11,1
38,2
6,86,46,04,74,23,93,53,23,02,82,62,42,32,11,7
2
92- 92+ 92+ 46+ 46+
11,1
21,1
13,212,912,612,311,811,310,29,99,69,18,57,56,6
3
0+ 0+ 0+ 92- 46+
12,8
27,9
10,29,69,28,78,48,07,46,96,56,15,85,05,0
2
0+ 0+ 92- 92+ 46+
12,8
34,8
8,17,77,36,96,35,74,74,34,13,83,63,43,33,22,7
2
0+ 92- 92+ 92+ 46+
11,1
II - 45
> < CODE > .x(x)
/s
* n *
%
061082
B106 130020.02
019 <
48 m T
48 m T
--
--
12,8
8,2
7,0
m 360°
ISO DIN
TAB 106141
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,040,042,044,0
41,6
6,76,35,94,64,23,83,43,12,92,62,42,32,12,01,91,61,3
2
92- 92+ 92+ 92+ 46+
11,1
17,6
14,714,414,113,813,613,212,812,512,212,010,9
9,6
3
0+ 0+ 0+ 0+ 92-
14,3
21,1
17,417,217,016,815,715,313,912,611,5
9,58,37,36,4
4
0+ 0+ 0+ 46- 92+
12,8
24,5
12,111,810,510,1
9,69,38,98,47,26,25,65,04,5
3
0+ 0+ 0+ 92- 92+
12,8
27,9
14,714,313,712,511,610,79,38,17,16,45,95,34,9
3
0+ 0+ 46- 92+ 92+
12,8
31,3
9,59,08,58,17,87,16,66,15,84,84,64,54,23,8
2
0+ 0+ 92- 92+ 92+
11,1
34,8
12,812,411,811,19,88,77,76,96,15,65,24,64,03,63,1
3
0+ 46- 92+ 92+ 92+
11,1
38,2
7,67,26,86,24,94,64,23,93,73,53,33,13,02,92,5
2
0+ 92- 92+ 92+ 92+
11,1
41,6
10,310,09,89,38,77,87,16,45,74,84,13,63,12,72,42,11,8
2
46- 92+ 92+ 92+ 92+
11,1
45,0
6,35,94,64,23,83,53,22,92,72,42,32,12,01,81,71,51,21,0
2
92- 92+ 92+ 92+ 92+
11,1
48,0
4,44,13,53,12,72,42,11,81,61,41,21,00,90,8
1
100-100-100-100-100-
11,1
II - 46
> < CODE > .x(x)
/s
* n *
%
061082
B106 140020.02
020 <
48 m T
48 m T
--
--
16,1
8,2
7,0
m 360°
ISO DIN
TAB 106140
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,040,042,044,0
10,8
62,056,052,047,544,038,033,028,5
10!
0+ 0+ 0+ 0+ 0+
14,3
14,2
62,056,052,047,544,037,532,528,324,621,616,1
10!
0+ 46+ 0+ 0+ 0+
14,3
14,2
37,535,533,030,528,825,723,120,719,117,815,4
7
0+ 0+ 0+ 0+ 46+
14,3
17,6
57,053,049,546,043,037,032,527,724,121,115,712,1
10!
46+ 46+ 0+ 0+ 0+
14,3
17,6
30,528,526,424,422,520,017,816,014,412,911,09,5
6
0+ 0+ 0+ 46+ 46+
14,3
17,6
26,825,023,421,920,518,316,615,113,712,510,99,6
5
0+ 0+ 0+ 0+ 92+
14,3
21,1
46,044,042,040,036,532,027,523,820,615,512,09,47,6
9
92+ 46+ 0+ 0+ 0+
12,8
21,1
23,522,020,719,416,915,313,912,711,69,78,57,56,6
5
0+ 0+ 0+ 92+ 46+
12,8
21,1
23,522,020,719,417,015,313,912,611,59,58,37,36,4
5
0+ 0+ 0+ 46+ 92+
12,8
24,5
35,033,530,528,025,622,919,915,512,19,67,76,35,1
7
92+ 92+ 0+ 0+ 0+
12,8
24,5
24,022,720,318,216,315,013,811,910,28,97,97,16,3
5
0+ 0+ 92+ 46+ 46+
12,8
24,5
17,416,414,613,111,610,79,88,47,26,25,65,04,5
4
0+ 0+ 0+ 92+ 92+
12,8
27,9
27,926,124,522,921,019,515,312,29,98,06,55,34,4
6
92+ 92+ 46+ 0+ 0+
12,8
27,9
19,017,315,714,313,112,110,49,07,76,96,25,65,0
4
0+ 0+ 92+ 92+ 46+
12,8
II - 47
> < CODE > .x(x)
/s
* n *
%
061082
B106 140020.02
020 <
48 m T
48 m T
--
--
16,1
8,2
7,0
m 360°
ISO DIN
TAB 106140
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,040,042,044,0
27,9
16,515,013,712,511,610,7
9,38,17,16,45,95,34,9
3
0+ 0+ 46+ 92+ 92+
12,8
31,3
22,621,219,918,717,515,212,310,1
8,36,95,74,63,93,3
5
92+ 92+ 46+ 46+ 0+
11,1
31,3
18,817,315,914,613,411,610,1
8,87,76,96,35,64,94,2
4
0+ 92+ 92+ 46+ 46+
11,1
31,3
14,613,612,611,710,7
9,38,17,16,25,65,14,74,23,8
3
0+ 0+ 92+ 92+ 92+
11,1
34,8
18,217,316,515,813,812,110,08,37,05,84,84,03,42,92,4
4
92+ 92+ 92+ 46+ 0+
11,1
34,8
14,813,912,912,110,59,28,17,16,25,75,24,74,33,83,3
3
0+ 92+ 92+ 92+ 46+
11,1
34,8
13,312,511,811,19,88,77,76,96,15,65,24,84,44,13,7
3
0+ 46+ 92+ 92+ 92+
11,1
38,2
15,014,313,712,411,110,08,57,26,15,04,23,63,12,72,3
3
92+ 92+ 92+ 46+ 46+
11,1
38,2
11,911,310,79,68,57,56,75,95,24,84,54,13,83,53,1
3
0+ 92+ 92+ 92+ 92+
11,1
41,6
12,812,311,810,99,88,88,07,26,25,14,33,73,22,82,42,11,8
3
92+ 92+ 92+ 92+ 46+
11,1
41,6
11,411,010,69,88,77,87,16,45,75,24,84,33,73,32,92,62,3
2
46+ 92+ 92+ 92+ 92+
11,1
45,0
10,810,59,68,67,87,16,55,95,44,53,93,43,02,62,32,01,71,4
2
92+ 92+ 92+ 92+ 92+
11,1
48,0
8,78,47,77,26,56,05,55,14,74,43,93,42,92,52,21,91,71,41,2
2
100+100+100+100+100+
11,1
14,2
15,815,815,815,815,815,815,815,815,815,815,8
3
0+ 46- 0+ 0+ 0+
14,3
II - 48
> < CODE > .x(x)
/s
* n *
%
061082
B106 140020.02
020 <
48 m T
48 m T
--
--
16,1
8,2
7,0
m 360°
ISO DIN
TAB 106140
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,040,042,044,0
17,6
14,114,013,913,813,713,613,513,513,513,513,512,1
3
46- 46+ 0+ 0+ 0+
14,3
21,1
10,09,79,59,28,88,48,17,87,67,26,96,86,8
2
92- 46+ 0+ 0+ 0+
12,8
24,5
9,18,88,37,97,57,16,86,35,84,84,64,64,6
2
92- 92- 0+ 0+ 0+
12,8
27,9
8,58,07,67,16,86,45,84,64,34,03,83,73,7
2
92- 92- 46- 0+ 0+
12,8
31,3
7,97,47,06,66,24,94,44,13,83,53,33,23,13,1
2
92- 92- 46- 46- 0+
11,1
34,8
7,36,86,46,04,74,33,93,63,33,02,82,72,52,52,4
2
92- 92- 92- 46- 0+
11,1
14,2
19,319,219,219,219,219,219,219,219,117,815,4
4
0+ 0+ 0+ 0+ 46-
14,3
17,6
17,917,817,717,517,417,317,216,014,412,911,09,5
4
0+ 0+ 0+ 46- 46+
12,8
24,5
11,610,510,09,59,18,88,57,97,57,16,96,86,3
3
0+ 0+ 92- 46+ 46+
12,8
31,3
8,88,37,97,57,16,56,04,94,54,34,13,93,83,8
2
0+ 92- 92+ 46+ 46+
11,1
38,2
6,86,46,04,74,23,93,53,23,02,82,62,42,32,22,2
2
92- 92+ 92+ 46+ 46+
11,1
21,1
13,212,912,612,311,811,310,29,99,69,18,57,56,6
3
0+ 0+ 0+ 92- 46+
12,8
27,9
10,29,69,28,78,48,07,46,96,56,15,85,05,0
2
0+ 0+ 92- 92+ 46+
12,8
34,8
8,17,77,36,96,35,74,74,34,13,83,63,43,33,23,2
2
0+ 92- 92+ 92+ 46+
11,1
II - 49
> < CODE > .x(x)
/s
* n *
%
061082
B106 140020.02
020 <
48 m T
48 m T
--
--
16,1
8,2
7,0
m 360°
ISO DIN
TAB 106140
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,09,0
10,012,014,016,018,020,022,024,026,028,030,032,034,036,038,040,042,044,0
41,6
6,76,35,94,64,23,83,43,12,92,62,42,32,12,01,91,81,8
2
92- 92+ 92+ 92+ 46+
11,1
17,6
14,714,414,113,813,613,212,812,512,212,010,9
9,6
3
0+ 0+ 0+ 0+ 92-
14,3
21,1
17,417,217,016,815,715,313,912,611,5
9,58,37,36,4
4
0+ 0+ 0+ 46- 92+
12,8
24,5
12,111,810,510,1
9,69,38,98,47,26,25,65,04,5
3
0+ 0+ 0+ 92- 92+
12,8
27,9
14,714,313,712,511,610,79,38,17,16,45,95,34,9
3
0+ 0+ 46- 92+ 92+
12,8
31,3
9,59,08,58,17,87,16,66,15,84,84,64,54,23,8
2
0+ 0+ 92- 92+ 92+
11,1
34,8
12,812,411,811,19,88,77,76,96,15,65,24,84,44,13,7
3
0+ 46- 92+ 92+ 92+
11,1
38,2
7,67,26,86,24,94,64,23,93,73,53,33,13,02,92,8
2
0+ 92- 92+ 92+ 92+
11,1
41,6
10,310,09,89,38,77,87,16,45,75,24,84,33,73,32,92,62,3
2
46- 92+ 92+ 92+ 92+
11,1
45,0
6,35,94,64,23,83,53,22,92,72,42,32,12,01,81,71,61,61,3
2
92- 92+ 92+ 92+ 92+
11,1
48,0
4,44,13,53,12,72,42,11,81,61,41,21,00,90,8
1
100-100-100-100-100-
11,1
II - 50
> < CODE > .x(x)
/s
* n *
%
061082
B106 150020.02
021 <
48 m T
48 m T
--
--
12,8
8,2
7,0
m 0 °
ISO DIN
TAB 106138
12345
m
m
m
t
t
3,03,54,04,55,06,07,08,0
10,8
70,062,056,051,046,038,032,527,9
10!
0+ 0+ 0+ 0+ 0+
14,3
II - 51
> < CODE > .x(x)
/s
* n *
%
061082
B106 160020.02
022 <
48 m T
48 m T
--
--
16,1
8,2
7,0
m 0 °
ISO DIN
TAB 106137
12345
m
m
m
t
t
2,53,03,54,04,55,06,07,08,0
10,8
80,071,063,057,052,047,039,033,528,9
10!
0+ 0+ 0+ 0+ 0+
14,3
II - 52
Load handling chart book LTM 1080/1