auxiliary machine room
DESCRIPTION
Auxiliary Machine Room for a Container-Vessel (CMA-CGM)TRANSCRIPT
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1 2 3 4 5 6 7 8
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RECE
PTAC
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RANE
AUX
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PREH
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Q 3
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SUPP
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AUX
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Q 8
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2
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L e i s t u n g K WS t r o m AS c h a l t e r T y pA u s l s e rQ u e r s c h n i t t m mK l e m m eK a b e l m mK a b e l N r .W e r f t P o s .
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4 5 0 V 6 0 H z
L 1 L 2 L 3E i n s p e i s u n g v o n H a t aF E E D I N G F R O M M S B
1 0 Q 1 2( L ) M 2 X H 3 x 5 0
1 7 7 - 0 0 1
C U 3 0 x 5
P O W E RC U R R E N TS W I T C H
C R O S S S E C T .T E R M I N A LC A B L EC A B L E N O .Y A R D P O S .
R E L E A S E
1 8 1 82 4 2 4 2 4
1 8
7 1 2 3 / 0 7 7 1 2 3 / 0 8 7 1 2 3 / 0 9
( L ) M 2 X H 3 x 6 ( L ) M 2 X H 3 x 6 ( L ) M 2 X H 3 x 6 ( L ) M 2 X C H 4 x 1 , 5 ( L ) M 2 X C H 4 x 1 , 5 ( L ) M 2 X C H 4 x 1 , 5
1 , 5 1 , 5 1 , 53 , 5 3 , 5 3 , 5
N S 8 0 H N S 8 0 H N S 8 0 H G V 2 - P 1 6 G V 2 - P 1 6 G V 2 - P 1 6 G V 2 - P 1 6M A 5 0 M A 5 0 M A 5 0 9 - 1 4 A 9 - 1 4 A 9 - 1 4 A 9 - 1 4 A
N S 8 0 HM A 5 0
G V 2 - P 1 69 - 1 4 A
1 7 7 - 0 0 3 1 7 7 - 0 0 4 1 7 7 - 0 0 5 1 3 8 - 1 1 2 1 3 8 - 2 1 2 1 3 8 - 3 1 2
1 , 1
( L ) M 2 X H 4 x 1 , 51 7 7 - 0 0 97 8 2 1 / 0 2
0 , 5 50 , 9 6
4 2 5 - 0 0 2( L ) M 2 X H 3 x 1 , 5
R E V .
A
C H A N G E D A T E N A M E
A P P R .
C H E C K
D R A W N
D A T E PROJECT C L I E N T
J O B - N 0 .
Q8 M O D . 1 1 . 0 8 . 0 4
2 7 . 0 2 . 0 4W I A R D S
D B 7 P O W E R D I S T R I B U T I O NG L N b . 3 7 9W I A R D SW A G E N E R
A U X . E N G . R O O M
K r a f t v e r t e i l u n g H i l f s d i e s e l r a u m
E m s s t r . 4 2 6 6 0 3 A u r i c hE L E K T R O T E C H N . W E R K ER O L F J A N S S E N G m b HR O L F J A N S S E N G m b H
SH .
A M O D . 1 5 . 0 6 . 0 4 W i a r d sK B .
S 3 2 . 4 7 9 / 1 0 1 7PL o t - D a t u m : 1 1 . 1 1 . 0 4 F 3 2 . 4 7 9 / 1 0 1 7
M P C - H D W
D R W G . - N O . S H .
=+
1
3 7 9 - 3 3 1 2 - 0 9 7 1 1 - 0 0 7 S PHD W - D R W G . - N O .
-
1 2 3 4 5 6 7 8
- K 1 1
1
2
3
4
5
6
- X 1
1L1
1L2
1L3
2 - L 1 / 3 . 12 - L 2 / 3 . 12 - L 3 / 3 . 1
- T 1
F 3 F 4
F 1 F 2 S A K S 1
S A K S 1
2 A
M 8 5 b
1 2 0 V A
4 5 0 V
2 3 0 V
2 A
- K 1 2A 1
A 2
- K 1 1A 1
A 2
- K 1 2
1 6 1 8
1 5
- K 2 2
2 2
2 1
- K 2 1
1
2
3
4
5
6
- T 2
F 4 F 3
F 2 F 1 S A K S 1
S A K S 1
2 A
M 8 5 b
1 2 0 V A
4 5 0 V
2 3 0 V
2 A
- K 2 1A 1
A 2
- K 2 2A 1
A 2
- K 2 2
1 6 1 8
1 5
- K 1 2
2 2
2 1
1Q9_
L1/1
.71Q
9_L2
/1.7
1Q9_
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- K 2 3A 1
A 2
- K 1 3A 1
A 2
9 8
- X 1 2
9 7
- X 1 1
1 0 0
- X 1 4
9 9
- X 1 3
- X 1
1 2 3 4
- H 1X 1
X 2L E D
g r
- H 2X 1
X 2L E D
g r
4
1 2
3 4. 1
. 1
. 15 6
1 3 1 4
2 1 2 2
3 1 3 2
4 3 4 4
1 51 6
1 8
. 4
2 12 2
2 4
. 6
3
36
1 51 6
1 8
. 5
2 12 2
2 4
. 3
6
5
1 2
3 4. 7
. 7
. 75 6
1 3 1 4
2 1 2 2
3 1 3 2
4 3 4 4
1 3 1 4
2 1 2 2
3 1 3 2
4 3 4 4
1 3 1 4
2 1 2 2
3 1 3 2
4 3 4 4
1 0s w
4 5 0 V 6 0 H z
Not a / E S B= 3 - Q 2 5
( L ) M 2 X H 3 x 61 7 7 - 0 0 2
W D U 1 0
1 , 0s w
ERS 3 R T 1 0 3 5 - 1 A l 2 4
1 0s w
1 , 0s w
3 R T 1 0 3 5 - 1 A l 2 4 E R S
3 "
I N T E R N
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1 0s w
2 "
3 R H 1 1 2 2 - 1 A P 0 0
E S D
EMER
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EMER
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OWN
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AD Q
UART
ER(L
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H 5x
1,5
177-
014
R E V . C H A N G E D A T E N A M E
A P P R .
C H E C K
D R A W N
D A T E PROJECT C L I E N T
J O B - N 0 .
2 7 . 0 2 . 0 4W I A R D S
D B 7 P O W E R D I S T R I B U T I O NG L N b . 3 7 9W I A R D SW A G E N E R
A U X . E N G . R O O M
K r a f t v e r t e i l u n g H i l f s d i e s e l r a u m
E m s s t r . 4 2 6 6 0 3 A u r i c hE L E K T R O T E C H N . W E R K ER O L F J A N S S E N G m b HR O L F J A N S S E N G m b H
SH .
A M O D . 1 5 . 0 6 . 0 4 K B .
S 3 2 . 4 7 9 / 1 0 1 7PL o t - D a t u m : 1 1 . 1 1 . 0 4 F 3 2 . 4 7 9 / 1 0 1 7
M P C - H D W
D R W G . - N O . S H .
=+
0
2
3 7 9 - 3 3 1 2 - 0 9 7 1 1 - 0 0 7 S PHD W - D R W G . - N O .
-
1 2 3 4 5 6 7 8
2 - L 1 / 4 . 12 - L 2 / 4 . 12 - L 3 / 4 . 1
2 - L 1 / 2 . 82 - L 2 / 2 . 82 - L 3 / 2 . 8
- X 1 1
U V W
- K 1A 1
A 2
- S 2
1 3
1 4
g n
- K 1
1 3
1 4
- S 1
2 1
2 2
r t
- T 1
F 3 F 4
F 1 F 2 S A K S 1
S A K S 1
2 A
M 8 5 b
1 2 0 V A
4 5 0 V
2 3 0 V
2 A- K 1
1
2
3
4
5
6
- Q 1
1
2
3
4
5
6
PREL
UB.O
IL P
UMP
AUX.
ENG.
12 11 3
1 4 2 2G V 2 - P 1 4G V 2 - A E 1 1
6 - 1 0 A
- K 2A 1
A 2
U V W P E
M3 ~
- Q 1
1 3
1 4
- P 1 h
- 9 4 0 5 . 2 n
- X 1 5 4 3
- X 1 1 1
- X 1 1 2
- X 1 5 4 2
7 8
- K 2
1 3
1 4
- S 32 / 4
31
K 1 B 0 1 1 U
- X 1 1
1 2- H 1X 1
X 2L E D
g n
A / 4 . 7
1 2
3 4. 1
. 1
. 1
. 4
5 6
1 3 1 4
4
4
.3
1
1 3 1 4. 7
2 1 2 2
3 1 3 2
4 3 4 4
3
4 5 0 V 6 0 H z
1 , 0s w
M A K
S T A R T
Ein
ON
S T O P
1 , 5
3 R H 1 1 2 2 - 1 A P 0 0
3 k W / 7 , 5 A( L ) M 2 X H 3 x 1 , 5
1 7 7 - 0 1 17 1 4 2 / 0 4
9 4 0 5 . 2 D r e h z a h l s c h a l t g e r t E i n s c h u b A 2 / K 3 S P E E D S W I T C H G E A R I N P R I N T E D C I R C U I T C A R D A 2 / K 3
D r e h z a h l < m i n" S t a r t V o r s c h m i e r p u m p e "S P E E D < M I N" S T A R T P R E L U B R I C A T I O N P U M P "
M A I NS W I T C H B O A R D
3 R T 1 0 1 7 - 1 A P 0 1
Alar
manl
age
ALAR
M PL
ANT
AVT-
7 AU
X.E.
ROOM
FM2X
CH 4
x2x0
,75
177-
015
1w s
F A I L U R EP R E L U B . P U M P 1
M A N . A U T O M .
=6-X
15:4
3
Dreh
zahl
scha
ltge
rt
Eins
chub
A2/
K3Ha
ta F
eld
6(L
)M2X
CH 3
x1,5
138-
124
=6-X
15:4
2
1 2
R E V . C H A N G E D A T E N A M E
A P P R .
C H E C K
D R A W N
D A T E PROJECT C L I E N T
J O B - N 0 .
2 7 . 0 2 . 0 4W I A R D S
V o r s c h m i e r l p u m p e H i d i 1G L N b . 3 7 9W I A R D SW A G E N E R
P R E L U B . O I L P U M P A U X . E N G . 1E m s s t r . 4 2 6 6 0 3 A u r i c hE L E K T R O T E C H N . W E R K ER O L F J A N S S E N G m b HR O L F J A N S S E N G m b H
SH .
A M O D . 1 5 . 0 6 . 0 4 K B .
S 3 2 . 4 7 9 / 1 0 1 7PL o t - D a t u m : 1 1 . 1 1 . 0 4 F 3 2 . 4 7 9 / 1 0 1 7
M P C - H D W
D R W G . - N O . S H .
=+
1 . 1
3
3 7 9 - 3 3 1 2 - 0 9 7 1 1 - 0 0 7 S PHD W - D R W G . - N O .
-
1 2 3 4 5 6 7 8
2 - L 1 / 3 . 82 - L 2 / 3 . 82 - L 3 / 3 . 8
2 - L 1 / 5 . 12 - L 2 / 5 . 12 - L 3 / 5 . 1
- X 1 2
U V W
- K 1
1
2
3
4
5
6
- Q 1
1
2
3
4
5
6
PREL
UB.O
IL P
UMP
AUX.
ENG.
22 11 3
1 4 2 2G V 2 - P 1 4G V 2 - A E 1 1
6 - 1 0 A
U V W P E
M3 ~
- T 1
F 3 F 4
F 1 F 2 S A K S 1
S A K S 1
2 A
M 8 5 b
1 2 0 V A
4 5 0 V
2 3 0 V
2 A
- Q 1
1 3
1 4
- K 2A 1
A 2
- K 1A 1
A 2
- S 2
1 3
1 4
g n
- K 1
1 3
1 4
- S 1
2 1
2 2
r t
- P 1 h
- X 1 2 1
- 9 4 0 5 . 2 n
= 9 - X 1 5 4 3
- X 1 2 2
= 9 - X 1 5 4 2
7 8
A / 5 . 7A / 3 . 7
- K 2
1 3
1 4
- S 32 / 4
31
K 1 B 0 1 1 U
- X 1 2
1 2- H 1X 1
X 2L E D
g n
4
1 2
3 4. 1
. 1
. 1
. 4
5 6
1 3 1 4
4
.3
1
1 3 1 4. 7
2 1 2 2
3 1 3 2
4 3 4 4
3
4 5 0 V 6 0 H z
1 , 5
3 k W / 7 , 5 A( L ) M 2 X H 3 x 1 , 5
1 7 7 - 0 1 27 1 4 2 / 0 5
1 , 0s w
3 R H 1 1 2 2 - 1 A P 0 0 3 R T 1 0 1 7 - 1 A P 0 1
S T A R T
Ein
ON
S T O P
A U T O M .
M A K
D r e h z a h l < m i n" S t a r t V o r s c h m i e r p u m p e "S P E E D < M I N" S T A R T P R E L U B R I C A T I O N P U M P "
M A I NS W I T C H B O A R D
9 4 0 5 . 2 D r e h z a h l s c h a l t g e r t E i n s c h u b A 2 / K 3 S P E E D S W I T C H G E A R I N P R I N T E D C I R C U I T C A R D A 2 / K 3
1w s
F A I L U R EP R E L U B . P U M P 2
M A N .
Dreh
zahl
scha
ltge
rt
Eins
chub
A2/
K3Ha
ta F
eld
9(L
)M2X
CH 3
x1,5
138-
224
=9-X
15:4
3
=9-X
15:4
2
3 4
R E V . C H A N G E D A T E N A M E
A P P R .
C H E C K
D R A W N
D A T E PROJECT C L I E N T
J O B - N 0 .
2 7 . 0 2 . 0 4W I A R D S
V o r s c h m i e r l p u m p e H i d i 2G L N b . 3 7 9W I A R D SW A G E N E R
P R E L U B . O I L P U M P A U X . E N G . 2E m s s t r . 4 2 6 6 0 3 A u r i c hE L E K T R O T E C H N . W E R K ER O L F J A N S S E N G m b HR O L F J A N S S E N G m b H
SH .
A M O D . 1 5 . 0 6 . 0 4 K B .
S 3 2 . 4 7 9 / 1 0 1 7PL o t - D a t u m : 1 1 . 1 1 . 0 4 F 3 2 . 4 7 9 / 1 0 1 7
M P C - H D W
D R W G . - N O . S H .
=+
1 . 2
4
3 7 9 - 3 3 1 2 - 0 9 7 1 1 - 0 0 7 S PHD W - D R W G . - N O .
-
1 2 3 4 5 6 7 8
2 - L 1 / 4 . 82 - L 2 / 4 . 82 - L 3 / 4 . 8
- K 1
1
2
3
4
5
6
- Q 1
1
2
3
4
5
6
PREL
UB.O
IL P
UMP
AUX.
ENG.
32 11 3
1 4 2 2G V 2 - P 1 4G V 2 - A E 1 1
6 - 1 0 A
- X 1 3
U V W
U V W P E
M3 ~
- T 1
F 3 F 4
F 1 F 2 S A K S 1
S A K S 1
2 A
M 8 5 b
1 2 0 V A
4 5 0 V
2 3 0 V
2 A
- Q 1
1 3
1 4
- K 2A 1
A 2
- K 1A 1
A 2
- S 2
1 3
1 4
g n
- K 1
1 3
1 4
- S 1
2 1
2 2
r t
- S 32 / 4
31
K 1 B 0 1 1 U
- P 1 h
- S 4 0 5 . 3 n
= 1 2 - X 1 5 4 3
- X 1 3 2
= 1 2 - X 1 5 4 2
- X 1 3 1
7 8
A / 4 . 7
- K 2
1 3
1 4
- X 1 3
1 2- H 1X 1
X 2L E D
g n
4
1 2
3 4. 1
. 1
. 1
. 4
5 6
1 3 1 4
4
.3
1
1 3 1 4. 7
2 1 2 2
3 1 3 2
4 3 4 4
3
4 5 0 V 6 0 H z
1 , 5
3 k W / 7 , 5 A( L ) M 2 X H 3 x 1 , 5
1 7 7 - 0 1 37 1 4 2 / 0 6
1 , 0s w
3 R H 1 1 2 2 - 1 A P 0 0 3 R T 1 0 1 7 - 1 A P 0 1
S T A R T
Ein
ON
S T O P
M A N .
M A K
D r e h z a h l < m i n" S t a r t V o r s c h m i e r p u m p e "S P E E D < M I N" S T A R T P R E L U B R I C A T I O N P U M P "
M A I NS W I T C H B O A R D
9 4 0 5 . 2 D r e h z a h l s c h a l t g e r t E i n s c h u b A 2 / K 3 S P E E D S W I T C H G E A R I N P R I N T E D C I R C U I T C A R D A 2 / K 3
A U T O M .
1w s
F A I L U R EP R E L U B . P U M P 3
Dreh
zahl
scha
ltge
rt
Eins
chub
A2/
K3Ha
ta F
eld
9(L
)M2X
CH 3
x1,5
138-
324
=12-
X15:
43
=12-
X15:
42
5 6
R E V . C H A N G E D A T E N A M E
A P P R .
C H E C K
D R A W N
D A T E PROJECT C L I E N T
J O B - N 0 .
2 7 . 0 2 . 0 4W I A R D S
V o r s c h m i e r l p u m p e H i d i 3G L N b . 3 7 9W I A R D SW A G E N E R
P R E L U B . O I L P U M P A U X . E N G . 3E m s s t r . 4 2 6 6 0 3 A u r i c hE L E K T R O T E C H N . W E R K ER O L F J A N S S E N G m b HR O L F J A N S S E N G m b H
SH .
A M O D . 1 5 . 0 6 . 0 4 K B .
S 3 2 . 4 7 9 / 1 0 1 7PL o t - D a t u m : 1 1 . 1 1 . 0 4 F 3 2 . 4 7 9 / 1 0 1 7
M P C - H D W
D R W G . - N O . S H .
=+
1 . 3
5
3 7 9 - 3 3 1 2 - 0 9 7 1 1 - 0 0 7 S PHD W - D R W G . - N O .
F32479_1017.pdfF32479_1017 / Graphische Bltter[ ]1 / Kraftverteilung Hilfsdieselraum
02 / Kraftverteilung Hilfsdieselraum
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