0
708
.GB
B 4
Hydraulic system:
All hydraulic movements are controlled by a maintenance-free AC motor with a
flanged low emission gear pump. Oil is distributed via magnetic switch valves. The
varying oil requirements are controlled by the speed of the motor. During a lowering
operation the hydraulic pump drives the motor which then acts as a generator
(regenerative lowering). The energy produced is then fed back to the battery.
Electrical System:
Service laptop connection interface:
– To configure all the key truck data (limit position damping, lift cutout, retardation
and acceleration patterns, cut-outs etc.) rapidly and reliably.
– To read off the error log to analyse fault causes.
– To simulate and analyse program operations.
– Simple functional extension by releasing code numbers.
The controller is fitted with a CAN Bus and a continually measuring sensor system.
The controller provide smooth start-up and braking of the load in all limit positions
through limit position and intermediate cushioning.
Highly efficient threephase technology with energy retention for the drive and lift
motors provides high travel and lift speeds and better use of energy.
The MOSFET threephase controller provides smooth starting for all movements.
For drive battery options see chapter D.
3
Standard Version Specifications
Z
Technical data specified in accordance with VDI 2198.
Technical modifications and additions reserved.
3.1
Performance data
Description
EKS
410
EKS
513
EKS
515k/515
Q Capacity (where C = 600 mm)
1000
1250
1500
kg
c
Load centre of gravity distance
600
600
600
mm
Travel speed without load (RG)
9
10,5
10,5
km/h
Travel speed with load (RG)
9
10,5
10,5
km/h
Travel speed without load (IG)
7
9
9
km/h
Travel speed with load (IG)
7
9
9
km/h
Lift speed without load
0,40
0,45
0,47
m/s
Lift speed with load
0,36
0,40
0,42
m/s
Lowering speed w / w.o. load
0,40
0,40
0,40
m/s
0
708
.GB
B 4
Hydraulic system:
All hydraulic movements are controlled by a maintenance-free AC motor with a
flanged low emission gear pump. Oil is distributed via magnetic switch valves. The
varying oil requirements are controlled by the speed of the motor. During a lowering
operation the hydraulic pump drives the motor which then acts as a generator
(regenerative lowering). The energy produced is then fed back to the battery.
Electrical System:
Service laptop connection interface:
– To configure all the key truck data (limit position damping, lift cutout, retardation
and acceleration patterns, cut-outs etc.) rapidly and reliably.
– To read off the error log to analyse fault causes.
– To simulate and analyse program operations.
– Simple functional extension by releasing code numbers.
The controller is fitted with a CAN Bus and a continually measuring sensor system.
The controller provide smooth start-up and braking of the load in all limit positions
through limit position and intermediate cushioning.
Highly efficient threephase technology with energy retention for the drive and lift
motors provides high travel and lift speeds and better use of energy.
The MOSFET threephase controller provides smooth starting for all movements.
For drive battery options see chapter D.
3
Standard Version Specifications
Z
Technical data specified in accordance with VDI 2198.
Technical modifications and additions reserved.
3.1
Performance data
Description
EKS
410
EKS
513
EKS
515k/515
Q Capacity (where C = 600 mm)
1000
1250
1500
kg
c
Load centre of gravity distance
600
600
600
mm
Travel speed without load (RG)
9
10,5
10,5
km/h
Travel speed with load (RG)
9
10,5
10,5
km/h
Travel speed without load (IG)
7
9
9
km/h
Travel speed with load (IG)
7
9
9
km/h
Lift speed without load
0,40
0,45
0,47
m/s
Lift speed with load
0,36
0,40
0,42
m/s
Lowering speed w / w.o. load
0,40
0,40
0,40
m/s
Summary of Contents for EKS 410
Page 1: ...EKS 513 515 EKS 410 Operating instructions 52025221 EKS 410 513 515k 515 G 12 03 07 08...
Page 3: ...0108 GB...
Page 7: ...0708 GB I 4...
Page 9: ...0506 GB 2...
Page 11: ...1004 GB A 2...
Page 16: ...B 5 0708 GB Ast Wa h15 h10 h3 h9 h7 h6 h1 h4 b2 l1 l2 m2 R b5 l...
Page 23: ...0708 GB B 12...
Page 35: ...1004 GB D 6 21 23 22 25 24 19 18 20 20 24 22...
Page 37: ...1004 GB D 8...
Page 67: ...0206 GB E 30...
Page 87: ...0708 GB F 20...