A - 13
Appendix
SS
_5V (
1X
1_
9)
/1.8
9
+
K
B1
X1
-1
X1
b
+12V
_EIN
(1X
1_
28
)
/1.8
28
GN
D (
1X
1_2
9)
/1.8
29
+12
VFU
TER
MI (
1X
1_
14
)
/1.8
14
GND T
ERM
I (
1X
1_
15
)
/1.8
15
GN
D_L (
1X
1_8
)
/7.5
8
GN
D_
L (1X
1_3
7)
/7.6
37
+
K
B1
X1
-1
X1
b
GND_
DIG
_2
(1X
1_
23
)
/4.3
23
+
K
B1
X1
-1
X1
b
GND_
DIG
_3
(1X
1_
25
)
/4.4
25
12
3
15
29
30
31
16
1
7
32
18
45
19
33
34
67
20
35
21
8
22
36
37
9
23
10
11
24
38
39
25
12
13
26
40
41
27
14
28
42
X 1
EINGÄ
NGE
AUSG
ÄN
GE
Ve
r s
orgu
ng
SS_5
V
+12V
_E
IN
+12V
FU
_TE
R M
I
GND_
L
GND_
L
GND_
L
+8V
AN
A
+8V
AN
A
GND_
AN
A
GND_
AN
A
CAN_
1-H
CAN_
1-L
CAN_
2-H
CAN_
2-H
CAN_
2-L
CAN_
2-L
TER
MI_
2
Schal
ts
pann
ungse
in
gang
Ver
sor
gung üb
er F
U6 (
30A
)
Ana
log
sp
annung
Ana
log
sp
annung
GN
DA
nalogs
enso
re
n
GN
D A
nal
ogs
ensor
en
Ve
r s
orgu
ng A
na
log
se
ns
ore
n
CAN 1
CAN 2
Ve
r s
orgu
ng D
ig
ita
ls
en
so
re
n
GND_
L
GND
GND_
L
DIG
_G
N D_
1
DIG
_G
N D_
6
DIG
_G
N D_
2
DIG
_G
N D_
3
DIG
_G
N D_
7
DIG
_G
N D_
10
DIG
_G
N D_
11
Digi
ta
lse
ns
or 1
Digi
ta
lse
ns
or 2
Digi
ta
lse
ns
or 3
Digi
ta
lse
ns
or 6
Digi
ta
lse
nso
r 7
Digi
ta
lse
ns
or 10
Digi
ta
lse
ns
or 11
Mas
se
12V V
ers
orgun
g
Mas
se
12V V
ers
orgung
Mas
se
12V V
ers
orgun
g
Mas
se
12V V
ers
orgun
g
Mas
se
12V V
ers
orgun
g
Mas
se
12V V
ers
orgun
g
+12V
Ver
sor
gung T
ER
MI
X1_9
X1_2
8
X1_2
9
X1_1
4
X1_1
5
X1_8
X1_2
6
X1_2
7
X1_3
7
X1_1
1
X1_2
3
X1_2
5
X1_1
3
X1_2
1
X1_1
7
X1_1
9
X1_3
1
X1_3
4
X1_3
2
X1_3
5
X1_5
X1_6
X1_2
X1_3
8
X1_3
X1_3
9
X1_4
X1_1
0
DIG
_1_H
FR
Q
X1_1
2
DIG
_6_H
FR
Q
X1_2
0
DIG
_7_F
RQ
X1_1
6
axl
e loc
ke
d
DIG
_10_
FR
Q
/4.
6
X1_1
8
t ai
lg
ate
DIG
_11_
FR
Q
/4.
5
X1_2
2
aut
omat
ic l
oader
DI G
_2
/4.
3
X1_2
4
f lo
or c
onv
eyor
c
uto
ff
DI G
_3
/4.
4
X1_3
0
AN
A_1_
HF
RQ
X1_3
3
AN
A_2_
HF
RQ
X1_4
1
GN
D s
ila
ge m
ate
ria
l
G_S
TR
OM
_1
/7.
7
X1_1
HBPW
MS
TR
_1
X1_4
2
HBPW
MS
TR
_2
X1_4
0
sila
ge m
ate
ria
l
PWM
LA_
1
/7.
7
X1_7
rap
id m
otion
PWM
LA_
8
/7.
5
X1_3
6
lig
htin
g
LA_1
/7.
6
+K
MC
1-
X
1
GN
D_
DIG
_1
0 (
1X
1_1
7)
/4.6
17
+
K
B1
X1
-1
X1
b
GN
D_
DIG
_11
(1X
1_1
9)
/4.5
19
CAN 1
-H (
1X
1_
5)
/1.8
5
+
K
B1
X1
-1
X1
b
CAN 1
-L (
1X
1_
6)
/1.8
6
123
15
29
30
31
16
17
32
18
45
19
33
34
67
20
35
21
8
22
36
37
9
23
10
11
24
38
39
25
12
13
26
40
41
27
14
28
42
X 2
EINGÄ
NGE
AUSG
ÄN
GE
Ve
r s
orgu
ng
+12V
3FU
_L
GND_
L
+8V
AN
A
+8V
AN
A
GND_
AN
A
GND_
AN
A
CAN_
1-H
CAN_
1-L
Ana
log
sp
annung 0,
1A
Anal
ogspa
nnung 0
,1A
GN
D A
nalo
gs
enso
re
n
GN
D A
nal
ogs
ensor
en
Ve
r s
orgu
ng A
na
log
se
ns
ore
n
CAN 1
Ve
r s
orgu
ng D
ig
ita
ls
en
so
re
n
GND
GND_
L
GND_
L
DIG
_G
N D_
4
DIG
_G
N D_
9
DIG
_G
N D_
5
DIG
_G
N D_
8
DIG
_G
N D_
12
DIG
_G
N D_
14
DIG
_G
N D_
16
Digi
t al
sen
so
r 4
Digi
t al
sen
so
r 5
Digi
t al
sen
so
r 8
Digi
t al
sen
so
r 9
Digi
t al
sen
so
r 12
Digi
t al
sen
so
r 14
Digi
t al
sen
so
r 16
Mas
se
12V V
ers
orgun
g
Mas
se
12V V
ers
orgun
g
Mas
se 1
2V
Ver
sor
gung
Mas
se
12V V
ers
orgun
g
+12V
2FU
_L
Ver
so
rgun
g über
FU
2 (25A
)
Ve
rsor
gun
g 3A
(P
oly
)
Digi
tal
sen
so
r 1
7
DIG
_G
N D_
17
Digi
t al
sen
so
r 18
Digi
t al
sen
so
r 19
Digi
t al
sen
so
r 21
DIG
_G
N D_
18
DIG
_G
N D_
19
DIG
_G
N D_
21
GN
D
Mas
se
12V
Ver
sor
gung
GN
D_L
Mas
se
12V
Ver
sor
gung
X2_2
8
X2_2
5
X2_1
4
X2_1
5
X2_2
1
X2_2
9
X2_3
2
X2_1
7
X2_3
6
X2_3
8
X2_3
4
X2_3
X2_2
0
X2_2
7
X2_7
X2_9
X2_1
1
X2_1
3
X2_3
1
X2_2
3
X2_4
0
X2_2
4
X2_4
1
X2_5
X2_6
X2_3
5
signa
l o
utp
ut ax
le s
usp
ensio
n
DIG
_4_H
FR
Q
X2_3
7
DIG
_5_H
FR
Q
X2_3
3
DIG
_8_F
RQ
X2_2
DIG
_9_F
RQ
X2_1
9
DIG
_12_
FR
Q
X2_2
6
DIG
_14_
FR
Q
X2_4
DIG
_16
X2_8
DIG
_17
X2_1
0
DIG
_18
X2_1
2
DIG
_19
X2_3
0
DIG
_21
X2_3
9
MUL
TI_
1
X2_2
2
AN
A_3_
HF
RQ
X2_4
2
lift
wa
gon
HBPW
MS
TR
_3
X2_1
lowe
r wa
gon
HBPW
MS
TR
_4
X2_1
8
aut
omat
ic on
PWM
LA_
4
X2_
16
PW
MLA
_10
+K
MC
1-
X
2
job c
o
m
put
er
(
p
lug X
1,
X
2)
2/
7
2
15
01000
90 000
00
K
loep
per
19.
09.
20
05
1
2
3
4
5
6
7
8
K
lo
epp
er
1
2
3
4
5
6
7
8
T
IT
AN-
S
E
R
IE
S
G
L
CO
M
F
O
R
T
10
.0
9.
2
0
03
R
epl
. by
R
ep
l. fo
r
Pl
a
n
t
Sh
ee
t N
o.
Sh
. o
f N
o.
O
rig
in
M
od
ifi
ca
tio
n
Do
c
-No
.:
D2
4
B
C
cr
e
at
e
d
AD
at
e
la
st
m
o
di
fic
ati
on
re
vi
si
o
n
Lo
c
at
io
n
Содержание Titan 6/50 GL
Страница 4: ...Foreword ...
Страница 8: ...Contents A1 3 Assembling the superstructure A 7 A2 Electrical circuit diagram A 10 ...
Страница 12: ...I 4 General information ...
Страница 17: ...II 5 Safety ...
Страница 20: ...II 8 Safety TR200022 1 7 7 4 2 9 5 3 6 TR200020 3 3 7 4 9 8 5 6 7 LinkeMaschinenseite RechteMaschinenseite ...
Страница 24: ...II 12 Safety ...
Страница 41: ...III 17 Operation KDW03210 1 Arrest the short cut loading wagon by applying the parkingbrake 1 ...
Страница 42: ...III 18 Operation ...
Страница 80: ...IV 38 Comfort Control Unit ...
Страница 86: ...VI 4 Hydraulic system 6 2 3 Hydraulic unit standard ...
Страница 87: ...VI 5 Hydraulic system 6 2 4 Hydraulic unit operator friendly ...
Страница 90: ...VI 8 Hydraulic system ...
Страница 110: ...VIII 2 Overwintering ...
Страница 112: ...IX 2 Recommissioning ...
Страница 114: ...X 2 Faults causes and removal ...
Страница 133: ...A 19 Appendix ...