Proportional directional spool valves types PSL,
PSV size 2
Product documentation
D 7700-2
09-2021-1.0en
Series connection
Operating pressure p
max
:
Flow rate (pump) Q
max
:
Flow rate (consumer) Q
max A/B
:
420 bar
100 lpm
60 lpm
© by HAWE Hydraulik SE.
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HAWE Hydraulik respects these legal provisions in all cases.
Printing date / document generated on: 29.09.2021
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Contents
1 Introductory description of proportional directional spool valves types PSL, PSV, size 2.......................................... 4
1.1 Configuration example PSL 2................................................................................................................................. 5
1.2 Configuration example PSL 2 together with PSL 5, PSL 3 and EDL 2............................................................................ 6
2 Available versions, main data............................................................................................................................. 7
2.1 Order coding, overview......................................................................................................................................... 7
2.2 Connection block................................................................................................................................................. 8
2.3 Valve section..................................................................................................................................................... 16
2.3.1 Directional valve section..................................................................................................................................... 18
2.3.2 Ancillary block................................................................................................................................................... 36
2.3.3 Intermediate plate (on the consumer side)............................................................................................................40
2.4 Series intermediate plate.................................................................................................................................... 45
2.5 End plate.......................................................................................................................................................... 50
2.6 Solenoid versions............................................................................................................................................... 53
3 Parameters....................................................................................................................................................... 56
3.1 General and hydraulic......................................................................................................................................... 56
3.2 Characteristic lines............................................................................................................................................. 59
3.3 Electrical parameters...........................................................................................................................................62
3.3.1 Electro-hydraulic actuation with standard solenoid..................................................................................................62
3.3.2 Electro-hydraulic actuation with solenoid for potentially explosive atmospheres.......................................................... 64
3.3.3 Switching position monitoring, displacement transducer......................................................................................... 65
3.3.4 Electric LS relief or LS pressure limitation............................................................................................................. 68
3.3.5 Electric LS relief or LS pressure limitation for potentially explosive atmospheres......................................................... 69
3.3.6 Additional valves................................................................................................................................................69
4 Dimensions...................................................................................................................................................... 70
4.1 Connection block................................................................................................................................................70
4.2 Valve section..................................................................................................................................................... 78
4.2.1 Directional valve section..................................................................................................................................... 78
4.2.2 Ancillary block................................................................................................................................................... 90
4.2.3 Intermediate plate............................................................................................................................................102
4.3 Series intermediate plate...................................................................................................................................107
4.4 End plate.........................................................................................................................................................110
5 Assembly, operation and maintenance recommendations...................................................................................113
5.1 Intended use....................................................................................................................................................113
5.2 Assembly information........................................................................................................................................113
5.2.1 Attachment...................................................................................................................................................... 113
5.2.2 Piping............................................................................................................................................................. 113
5.2.3 Converting the connection block from PSL to PSV.................................................................................................114
5.2.4 Notes on spool valve exchange.......................................................................................................................... 115
5.2.5 Seal kits..........................................................................................................................................................115
5.3 Operating instructions.......................................................................................................................................116
5.4 Maintenance information................................................................................................................................... 116
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1
Introductory description of proportional directional spool valves types PSL,
PSV, size 2
Proportional directional spool valves are a type of directional valve. They control
the direction of movement and the velocity of individual or multiple hydraulic
consumers actuated simultaneously. Control is independent of the load and
continuous.
Features and benets:
Universally usable product for various ow rates and functions
Extensive modular system with many variants and combination options
Compact and lightweight design
Robust and long-lived design for pressures up to 420 bar
Highest energy efficiency thanks to low Sp and low-energy solutions
Intended applications:
Loading cranes
Lifting platforms
Municipal trucks
Construction machines
Drilling equipment
Machines for forestry and agricultural purposes
Proportional directional spool valve type PSL 2
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1.1 Configuration example PSL 2
PSL 31/420-2
- A2 H 25/40 A250 B300 /EA/WA/2 AN275 BN 320
- A2 L 10/16 A150 B150 FP3 /EA/ZVV/2
- A2 L 6/6 A200 B120 S1 /EA/2 AL 180
- E4 - G 24
1
Connection block
2
Valve section or series intermediate plate
3
Intermediate plate
4
Ancillary block
5
End plate
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1.2 Configuration example PSL 2 together with PSL 5, PSL 3 and EDL 2
PSV 51/300-5
- ZPL 55/9
- A2 H 160/160/EA/5
- ZPL 531
- A2 H 80/80/EA/3
- ZPL 32
- A2 H 40/40/EA/2
- DA2 H 40/40/EI/2
- E 1-DT 24
1
PSL 5 connection block
2
Intermediate plate
3
PSL 5 valve section
4
PSL 3 valve section
5
PSL 2 valve section
6
EDL 2 valve section
7
Ancillary block
8
PSL 2 end plate
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2
Available versions, main data
2.1 Order coding, overview
Ordering example:
PSL 31/420-2 - A2 H 25/40 A250 B300 /EA/WA/2 AN 275 BN 320
- A2 L 10/16 A150 B150 FP3 /EA/ZVV/2
- A2 L 6/6 A200 B120 S1 /EA/2 AL 180 - ZPL 22/15/R1 - E4 G 24
End plate and
solenoid version
2.5 "End plate",
Page 50
2.6 "Solenoid
versions",
Page 53
Series intermediate plate 2.4 "Series intermediate plate",
Page 45
Valve sections 2.3 "Valve section", Page 16
Connection block 2.2 "Connection block", Page 8
1
Connection block
2
Valve section or series intermediate plate
3
Ancillary block
4
End plate
5
Solenoid voltage and solenoid version
A manifold can merge up to 14 size 2 valve sections.
This number can be increased by combining with a PSL 5 or PSL 3. In this case, transition plates are used and each size has its own
tension rod.
Limits to the maximum possible number of valve sections result from:
a) tension rod strength
b) internal control oil supply for the electro-hydraulic actuation
c) the available control pressure difference for supply to the rear valve sections
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2.2 Connection block
Connection blocks come in two basic variants:
PSL: Connection block with integrated 3-way controller for use in open centre systems with constant pumps
PSV: Connection block without 3-way controller for use in closed centre systems with variable pumps or for simultaneous supply of
two or more manifolds from a shared constant pump
PSL PSV
Depending on the configuration, the connection blocks contain:
a.
A 3-way controller for open centre systems with constant pump
b.
A pressure-limiting valve to ensure maximum system pressure
c.
An LS pressure-limiting valve to cap or relieve LS pressure
d.
A damping element to attenuate LS signal oscillation
e.
A pressure reducing valve for internal control oil supply to the downstream valve sections
f.
Various additional elements (e.g. idle circulation valve, power-beyond function, P-gallery shut-off, mechanical locking of the 3-way controller)
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Ordering example:
PSL 3 H G 1 F /420 - 2
Size "Table 9"
System pressure limitation "Table 8"
LS relief or LS pressure limitation "Table 7"
Internal control oil supply "Table 6"
LS damping "Table 5"
Additional elements for 3-way controller "Table 4"
Basic type
"Table 1: Basic version"
"Table 2: Connections for P and R"
"Table 3: Connection block basic types"
Table 1 Basic version
Type Description
PSL
Connection block with integrated 3-way controller for use in open centre systems with constant pumps
PSV
Connection block without 3-way controller for use in closed centre systems with variable pumps or for simultaneous
supply of two or more manifolds from a shared constant pump
NOTE
For instructions on how to convert the connection block from PSL to PSV, refer to Chapter 5.2.3
Table 2 Connections
Coding Description of P and R port
3
G 1/2 (ISO 228-1)
4
G 3/4 (ISO 228-1)
5
G 1 (ISO 228-1)
UNF 2
3/4-16UNF 2B or SAE-8 (SAE J 514)
UNF 4
1 1/16-12 UN-2B or SAE-12 (SAE J 514)
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Table 3 Connection block basic types
PSL connection blocks
Coding Description
PSL 3…/D…-2
PSL UNF 2…/D…-2
Standard connection block with integrated 3-way controller.
Pressure-limiting valve: direct actuation
PSL 3U…/…-2
PSL UNF 2U…/…-2
Additional idle circulation valve for automatic reduction of circulation pressure.
The idle circulation valve opens when the current LS pressure drops below 25% of pump pressure. Electro-hydraulic
actuation with internal control oil supply requires a pump ow rate of at least 80 lpm, pilot pressure will otherwise
not sufce to shift the spool valve. Load pressure must be at least 20 bar.
Pressure-limiting valve: pilot-controlled
PSL 3 Z…/D…-2 Additional release valve for quick release of pressure in neutral position.
Once all valve sections signal an LS pressure below around 1/3 of the 3-way controller's spring cavity pressure, the
release valve opens to the reux. The LS pressure in the 3-way controller’s spring cavity is released to R.
Common applications include oscillation-sensitive systems and combinations with load-holding valves.
Pressure-limiting valve: direct actuation
NOTE
A SL2-ZPL 22/7 spacer plate is required afterwards
PSL 3 Y…/…-2 Special version with an additional connection suitable for pressure loads for the 3-way controller's outow (power
beyond function).
You can connect a second manifold to the F port. The rst manifold’s valve sections are prioritised. The downstream
manifold receives the excess volume.
Pressure-limiting valve: direct actuation
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PSV connection blocks
Coding Description
PSV 3…-2
PSV UNF 2…-2
Standard connection block without 3-way controller.
Pressure-limiting valve: without
PSV 3…/D…-2
PSV UNF 2…/D…-2
Standard connection block without 3-way controller.
Pressure-limiting valve: direct actuation
PSV 4N…/…/...-2
PSV UNF 4N…/…/...-2
P-line cut off to safely shut off pump and consumer from one another and prevent undesired movements.
The P channel incorporates a piston controlled by a 2/2-way directional valve. When unpowered, the piston securely
seals the P channel; actuating the 2/2-way directional valve opens the P channel.
PSV 4 N…: 2/2-way directional valve type EM 11 S as per D 7490/1
PSV 4 N M…: with wing bolt for mechanical locking (EM 11 S-…-M)
PSV 4 N P…: with button for manual override (EM 11 ST)
Only possible in conjunction with LS damping "Table 5"
Optionally an additional LS release valve is available to depressurise the LS signal and switch the variable pump to
standby pressure.
PSV (UNF) 4 N…V/…: LS relief, closed when unpowered (EM 11 V as per D 7490/1)
PSV (UNF) 4 N…Z/…: LS relief, open when unpowered (EM 11 S as per D 7490/1)
PSV (UNF) 4 N…ZM/…: LS relief, open when unpowered, with wing bolt for mechanical locking
(EM 11 S-...-M)
PSV (UNF) 4 N…ZP/…: LS relief, open when unpowered, with button for manual override (EM 11 ST)
Ordering example: PSV 4 N B 61ZM/220/200-2
Setting for main pressure-limiting valve: 220 bar
Setting for LS pressure-limiting valve: 200 bar
NOTE
When using a P-line cut off, there is an additional pressure drop in the P channel that can lead to the
downstream sections no longer reaching nominal ow.
Nominal ow undercut depends on
a) control pressure difference in the variable pump’s pump controller,
b) the position of the valve sections in the manifold and
c) ow rate through the P-line cut off.
Nominal ow undercut can reach up to 30% of Q
nominal
, see "Table 15: Flow rate".
PSV 3X…-2 Special version without
Without 3-way controller
Without pressure-limiting valve
Without pressure reducing valve for internal control oil supply (only possible for E0A, E0H, E0Z, E0AR, E0K)
Without interface for LS pressure-limiting valve – or release valve
Only for valve sections with A, P or H actuation
Damping in LS: Standard - none
B4, B5, …: With orice # 0.4, 0.5, … e.g. PSV 3X B5-2
NOTE
No retrotting on electro-hydraulic actuation E.. possible
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Circuit symbols
PSL 3.../D...-2
PSL UNF 2.../D...-2
PSL 3U.../...-2
PSL UNF 2U.../...-2
PSL 3 Z.../D...-2 PSL 3Y.../...-2 PSV 3...-2
PSV UNF 2...-2
PSV 3.../D...-2
PSV UNF 2.../D...-2
PSV 3X...-2 PSV 4 N.../.../...-2
PSV UNF 4 N.../.../...-2
PSV 4 N...Z/.../...-2
PSV UNF 4 N...Z/.../...-2
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Table 4 Additional elements for 3-way controller and add-on
Coding Description
Without coding Standard version
3-way controller with 9 bar circulation pressure
T Special version for mechanical locking of the 3-way controller with 9 bar circulation pressure.
Can be adjusted using tools.
H Special version
3-way controller with higher circulation pressure of 14 bar
HT Special version for mechanical locking of the 3-way controller with 14 bar circulation pressure.
Can be adjusted using tools.
Table 5 LS damping
Coding Description Circuit symbol
Without coding
For PSL and PSM: as for coding S
For PSV: without LS damping
--
B
#0.8 mm orice
B 4
B 5
B 6
B 7
#0.4 / 0.5 / 0.6 / 0.7 mm orice
B 55
Two #0.5 mm orices in series
S Pre-load and damper valve (pre-load pressure: 25 bar)
W Pre-load and damper valve with increased throttle effect (pre-load pressure: 25 bar)
E Damper valve without pre-load valve
Because there is no pre-load valve, LS relief with all directional spool valves in neutral
position occurs with a slight delay, system pressure drops only slowly.
Common applications include consumers with a tendency to oscillate at low frequencies.
G Damper valve with increased throttle effect without pre-load valve
Because there is no pre-load valve, LS relief with all directional spool valves in neutral
position occurs with a slight delay, system pressure drops only slowly.
Common applications include consumers with a tendency to oscillate at low frequencies.
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Table 6 Internal control oil supply
Coding Description Circuit symbol
Without coding Without internal control oil supply
For valve sections with manual, hydraulic or pneumatic actuation. Or for external control
oil supply (required pilot pressure: 20 to 40 bar).
1, 2 With internal control oil supply
For valve sections with electro-hydraulic actuation. Optionally, a small quantity of control
oil can be siphoned from the Z port to supply externally connected additional valves. In
this case, maximum permissible ow rate is 2 lpm.
1: 20 bar pilot pressure
2: 40 bar pilot pressure
Table 7 LS relief or LS pressure limitation
Coding Description Circuit symbol
Without coding Without LS relief or LS pressure limitation
F * LS relief, open when unpowered (WN 1 F as per D 7470 A/1)
D * LS relief, closed when unpowered (WN 1 D as per D 7470 A/1)
ZA **
ZAM **
ZAP **
LS relief, open when unpowered
ZA: EM 11 S as per D 7490/1
ZAM: with wing bolt for mechanical locking (EM 11 S-…-M)
ZAP: with button for manual override (EM 11 ST)
VA ** LS relief, closed when unpowered (EM 11 V as per D 7490/1)
Z
ZM
ZP
Proportional LS pressure limitation with ascending characteristic line
Z: EM 21 DSE as per D 7490/1 E
ZM: with wing bolt for mechanical locking (EM 21 DSE-…-M)
ZP: with button for manual override (EM 21 DSET)
V Proportional LS pressure limitation with descending characteristic line (EM 21 DE as per
D 7490/1)
NOTE
* Only compatible with connection block PSL 3 Z…/D…-2
** Contains adapter for EM 2.. hole to EM 1….
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Table 8 System pressure limitation
Coding Description
Without coding Without pressure-limiting valve.
/D... With pressure-limiting valve.
Pressure setting in bar (adjustment range 50 to 420 bar).
Directly actuated.
/... With pressure-limiting valve.
Pressure setting in bar (adjustment range 50 to 420 bar).
Pilot control of the 3-way controller via a pilot valve.
/.../... With pressure-limiting valve and LS pressure-limiting valve (only for PSV 4 N and PSV UNF 4 N).
The rst value is the setting for the main pressure-limiting valve, the second value is the setting for the
LS pressure-limiting valve.
Table 9 Size
Coding Description
- 2 Size 2
For size 3 see D 7700-3 and size 5 see D 7700-5
List of available connection block variants and combination options:
PSL connection blocks
Pressure-limiting valveType P and R port as per
ISO 228-1 or SAE J 514
direct actuation pilot-controlled
PSL 3…/D…-2 G 1/2
o
PSL 3U…/…-2 G 1/2
o
PSL 3 Z…/D…-2 G 1/2
o
PSL 3Y…/…-2 G 1/2
o
PSL UNF 2…/D…-2 SAE-6 (3/4-16UNF 2B)
o
PSL UNF 2U…/…-2 SAE-6 (3/4-16UNF 2B)
o
PSV connection blocks
Pressure-limiting valveType P and R port as per
ISO 228-1 or SAE J 514
without direct actuation
PSV 3…-2 G 1/2
o
PSV 3…/D...-2 G 1/2
o
PSV 4N…/.../...-2 G 3/4
o
PSV 3X…-2 G 1/2
o
PSV UNF 2…-2 SAE-6 (3/4-16UNF 2B)
o
PSV UNF 2…/D…-2 SAE-6 (3/4-16UNF 2B)
o
PSV UNF 4N.../…/...-2 SAE-12 (1 1/16-12 UN-2B)
o
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2.3 Valve section
Directional valve section always provided with a ange surface for configuring an ancillary block or an intermediate plate and ancillary
block.
Valve section
with ancillary block
Valve section
with intermediate plate and ancillary
block
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Depending on configuration, the directional valve sections incorporate:
a.
Valve spool for controlling proportional ow rate
b.
2-way controller (pressure compensator) for controlling a constant pressure difference using the valve spool, irrespective of the load pressure and pump
pressure
c.
Fixed LS pressure-limiting valves
d.
Electric LS pressure-limiting valves for relief or electro-proportional limitation of the LS pressure
e.
Additional connections for external LS pressure limitation
f.
LS orice for damping the LS signal
g.
Shuttle valve for linking the LS line to additional valve sections
h.
Actuation for the control piston
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Ordering example:
SL 2 - A R2 H 40/40 A200 B300 F3 X 9 W1 L /EA1 WA /ZDRH /2
Ancillary block Chapter 2.3.2
Intermediate plate Chapter 2.3.3
Switching position
monitoring,
displacement transducer
"Table 24"
Actuation
"Table 22: Actuation"
"Table 23: Additional description for actuation"
Additional functions "Table 21"
Shuttle valve "Table 20"
LS orice "Table 19"
LS pressure limitation
"Table 16: LS pressure limitation"
"Table 17: Electric LS pressure limitation"
"Table 18: LS port for external limitation "
Valve spool
"Table 14: Circuit symbol"
"Table 15: Flow rate"
Basic block
"Table 11: Valve section, 2-way controller"
"Table 12: 2-way controller spring"
"Table 13: 2-way controller damping"
Consumer ports "Table 10"
2.3.1 Directional valve section
Table 10 Consumer ports
Coding Description
A Spool block without integrated thread for combining with an ancillary block (Chapter 2.3.2) or an intermediate plate
(Chapter 2.3.3) and ancillary block
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Table 11 Valve section, 2-way controller
Coding Description Circuit symbol
Without coding Standard 2-way controller
1 Without 2-way controller
--
R 2-way controller with check valve function.
In the event of a shortage in supply, the controller prevents return ow from the load line
(A or B channel) to the P channel.
Only in conjunction with 2-way controller spring coding 2 and 5.
D 2-way controller with release of pressure
The controller prevents pressure creep in the P channel between the 2-way controller and
valve spool.
Common applications include consumers with very low load pressures and without
additional check valves. With standard 2-way controllers , phantom movements may occur
here. The pressure controller prevents this.
In applications with check valves, the pressure controller prevents undesired check valve
intervention.
B 2-way controller with release of pressure and check valve function
Check valve function:
In the event of a shortage in supply, the controller prevents return ow from the load line
(A or B channel) to the P channel.
Release of pressure:
The controller prevents pressure creep in the P channel between the 2-way controller and
valve spool.
Common applications include consumers with very low load pressures and without
additional check valves. With standard 2-way controllers, phantom movements may occur
here. The pressure controller prevents this.
In applications with check valves, the pressure controller prevents undesired check valve
intervention.
Only in conjunction with 2-way controller spring coding 2 and 5 (see "Table 12").
NOTE
2-way controller depicted with applicable LS pressure.
For B and R: LS > P
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Coding Description Circuit symbol
8
81
Pre-selector valve section without 2-way controller.
The pre-selector valve section shuts off the P channel in neutral position. Once the pre-
selector valve activates, it supplies either the downstream valve sections (switching
position b) or a second manifold connected to port A (switching position a).
8: LS signal is signalled from port A (switching position a) and the downstream valve
section (switching position b). Standard configuration if an open centre valve is used
on port A.
81: LS signal is only signalled by downstream valve section (switching position b).
Is used if a closed centre LS valve is connected to port A; the LS signal is then usually
signalled externally to the variable pump.
Common applications include loading cranes, concrete line pumps and lifting platforms. In
these, the pre-selector valve is used to switch between operating the crane or mast and
the outriggers. The pre-selector valve can further also be used as a P-line cut off in safety
functions.
Only in conjunction with
PSL connection block with 3-way controller spring coding H (see "Table 4") or
PSV connection block
Circuit symbol L or H (see "Table 14")
Actuation coding E… (see "Table 22")
NOTE
When using a pre-selector valve, there is an additional pressure drop in the
P channel that can lead to the downstream sections no longer reaching
nominal ow.
Nominal ow undercut depends on
a) the control pressure difference of the 3-way controller (PSL) or variable pump’s
pump controller (PSV),
b) the position of the valve sections in the manifold and
c) the ow rate through the pre-selector valve or P-line cut off.
Nominal ow undercut can reach up to 30 % of Q
nominal
, see "Table 15: Flow rate".
8
81
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Table 12 2-way controller spring
Coding Description
Without coding Without coding for configurations without 2-way controller
(coding 1 or 8 as per "Table 11")
2 Standard version (6 bar spring)
5 Heavy-duty version (9 bar spring)
Only possible in conjunction with PSL connection block with 3-way controller spring coding H ( "Table 4") or
with PSV connection block
7 Heavy-duty version (13 bar spring)
Only possible in conjunction with PSV connection block
Table 13 2-way controller damping
Coding Description Circuit symbol
Without coding Standard version
(damping with #0.4 mm orice)
S Special version with closing damping
Only in conjunction with standard 2-way controller (without designation) see "Table 11"
X Special version without damping
Only in conjunction with standard 2-way controller (without designation) see "Table 11"
NOTE
2-way controller depicted with applicable LS pressure.
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Table 14 Circuit symbol
Coding Description Circuit symbol
L, M, F, H Standard spool valve with low return pressure
L M F H
J, B, R, O Standard spool valve with constant return pressure 20 bar
Common applications:
Stabilising cylinders with dragging loads, especially when
used with load-holding valves or when used without addition-
al check valves.
J B R O
I, Y, V Standard spool valve with high reux at < 1/3 spool valve
elevation and rapid subsequent return pressure drop
Common applications:
Controlled deceleration of winches, slewing gear or other
rotating consumers.
I Y V
1
Circuit symbols L, M, F, H
2
Circuit symbols J, B, R, O
3
Circuit symbols I, Y, V
NOTE
The return pressure is in relation to the nominal ow rate. It may be higher or lower than shown in the diagram depending on
the cylinder ratio or 2-way controller spring.
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Coding Description Circuit symbol
LW, MW, HW, JW, OW Special version with broad tting tolerance.
Advantage: Reduces risk of jamming spool valve in
systems prone to soiling
Drawback: higher spool valve leak rate
LW MW HW JW OW
LB Special version with minimal release of pressure from A and B channel when spool valve in idle position.
Common applications:
Combined with load-holding valves that require closed spool valve in neutral position in line with safety
requirements. The LB spool valve in such a case prevents trapping pressure between spool valve and load-
holding valve and allows the load-holding valve to close reliably.
LB
G 3/3-way directional spool valve for single-acting cylinders
The G spool valve can be combined with any valve section, port B is sealed with a tapped plug when doing
so.
No LS signal is produced when load drops. If used in conjunction with electro-hydraulic actuation and a PSL
connection block with standard 3-way controller spring (see "Table 4"), this can result in the internally
generated pilot pressure not being sufcient to fully shift the spool valve.
Load reduction is throttled using the spool valve’s outow edge. If desired, the maximum reduction rate can
be capped using a separate ow control valve (e.g. type SB as per D 6920).
To obtain pressure-compensated load reduction, you can alternatively also use an N or NX spool valve.
G
X, W
Special spool valve in conjunction with P d A in neutral position
Common applications:
Fan drives, generator drives or other consumers requiring a specic ow rate when unpowered
for safety reasons.
X: 2/2-way directional spool valve
Maximum ow rate in neutral position. By shifting the spool valve to switching position b,
the ow rate can be reduced to zero proportionally.
W: 4/2-way directional spool valve
In neutral position, the maximum ow rate is towards A-side. By shifting the spool valve to
switching position b, the direction is reversed and the ow rate is towards B-side. Decelerat-
ing consumer to zero as well as proportional ow rate control are only possible to a limited
degree. This makes the W spool valve suitable primarily for applications with constant speed.
Available versions:
X 40
W 30/30
X W
NOTE
You can nd instructions on how to replace the valve spool in Chapter 5.2.4, "Notes on spool valve exchange".
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Table 15 Flow rate
Flow rate at maximum spool valve elevation (Q
A/B
in lpm) according to ow rate coding (Q
nominal
)Coding
2-way controller
spring as per "Table
12"
3 6 10 16 25 40
2 3 6 10 16 25 40
5 4 9 14 22 34 54
7 5 10 15 24 37 59
NOTE
The valve spools’ sizes are designed to make actual ow rate slightly higher than Q
nominal
in practice.
You can use stroke limitation to limit the maximum ow rate. Setting values are specied in lpm.
Ordering example: SL 2-A2 L 40/40/EA [35/30]
NOTE
When using a pre-selector valve (coding 8 as per "Table 11: Valve section, 2-way controller") or a P-line cut off (coding PSV 4 N
or PSV UNF 4 N as per "Table 3: Connection block basic types"), there is an additional pressure drop in the P channel that can
lead to the downstream sections no longer reaching nominal ow.
Nominal ow undercut depends on
a) the control pressure difference of the 3-way controller (PSL) or variable pump’s pump controller (PSV),
b) the position of the valve sections in the manifold and
c) the ow rate passing through the pre-selector valve or P-line cut off or intermediate plate to P pressure limitation.
Nominal ow undercut can reach up to 30% of Q
nominal
, see "Table 15: Flow rate".
With valve sections without 2-way controllers (coding 1 or 8 for Q
A...
as per "Table 11"), it is possible to calculate the ow rate using
the following formula:
Q
A/B
= ow rate to port A or B
Q
nominal
= nominal ow rate of valve spool at pressure difference of 6 bar
Sp
controller
= control pressure difference of the 3-way controller (PSL) or variable pump’s pump controller (PSV)
Example:
PSL connection block, standard 3-way controller spring (9 bar)
PSL connection block, 3-way controller with heavy-duty spring (14 bar)
PSV connection block, pump controller with 25 bar standby pressure
NOTE
The calculated values are rough reference values! They apply only to the highest-load consumer. If multiple consumers are being
actuated in parallel, the pressure difference may be considerably greater at the lower-load consumers.
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For spool valves with 2-digit order coding, the rst number indicates nominal ow rate on the A-side (Q
A
) and the second number
indicates nominal ow rate on the B-side (Q
B
). The shape of the spool valve’s two outow edges is dened by the circuit symbol (see
"Table 14").
Ordering example: L 40/25, J 25/16, H 40/40, O 10/10
For J and O spool valves, the outow edge can also be customised. In such a case, the order coding has 4 digits and looks like this:
Q
A
d
R
– Q
P
d
A
/ Q
P
d
B
– Q
B
d
R
. Choosing a lower key gure increases return pressure. A larger key gure reduces return pressure.
Ordering example: J 25-40/25-16, J 16-25/40-25, O 3-6/6-3, O 16-25/25-16
1
Outow edge two sizes smaller
2
Outow edge one size smaller
3
Standard version
4
Outow edge one size larger
NOTE
The return pressure is in relation to the nominal ow rate. It may be higher or lower than shown in the diagram depending on
the cylinder ratio or 2-way controller spring.
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Table 16 LS pressure limitation
Coding Description
Without coding Without LS pressure limitation
--
AB Without LS pressure limitation, but prepared for later conversion to coding A…, B… or A… B…
A... LS pressure limitation for A-side
(Adjustment range: 50 to 400 bar)
B... LS pressure limitation for B-side
(Adjustment range: 50 to 400 bar)
A... B... LS pressure limitation for A and B-side with two separate pressure settings
(Adjustment range: 50 to 400 bar)
Circuit symbols
No designation AB A...
B... A... B...
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Table 17 Electric LS relief or LS pressure limitation
Coding Description
Without coding Without electric LS relief or LS pressure limitation
FP...
FPH...
Electro-proportional LS pressure limitation with ascending characteristic line
Pressure ranges for A and for B-side:
1 = 10 to 100 bar
2 = 15 to 150 bar
4 = 30 to 250 bar
6 = 40 to 350 bar
The rst number applies to A-side. The second number applies to B-side.
Ordering example: FP 14
FPH..: additionally with button for manual override
Only in conjunction with actuation coding E... (see "Table 22")
Circuit symbols
No designation FP..., FPH...
NOTE
Electric LS relief or LS pressure limitation is only possible in conjunction with a 2-way controller (see "Table 11").
NOTE
Even with LS relief, pressure in consumer channel A or B cannot be reduced completely to 0 bar. The residual pressure in A or B
(p
min, A/B
) results from
a)
control pressure in the 2-way controller (Sp
2-way controller
),
b)
internal dynamic pressure in block (Sp
Block
) and
c) return pressure in T channel(p
T
).
p
min, A/B
= Sp
2-way controller
+ Sp
Block
+ p
T
Sp
2-way controller
: see "Table 12"
Sp
Block
= 10 bar with coding FP..., FPH...
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Table 18 LS port for external limitation
Coding Description
Without coding Without LS port for external limitation
S1
S1 UNF
U and W port for connecting external pilot valve
U port = LS
A
W port = LS
B
S1: G 1/8 (ISO 228-1)
S1 UNF: SAE-2 or 5/16-24 UNF-2B
Only in conjunction with
Actuation coding E… (see "Table 22")
Circuit symbols
No designation S1, S1 UNF
NOTE
An LS port for external limitation is only possible in conjunction with a 2-way controller (see "Table 11").
NOTE
Even with LS relief, pressure in consumer channel A or B cannot be reduced completely to 0 bar. The residual pressure in A or B
(p
min, A/B
) results from
a)
control pressure in the 2-way controller (Sp
2-way controller
),
b)
internal dynamic pressure in block (Sp
Block
) and
c) return pressure (p
reux
).
p
min, A/B
= Sp
2-way controller
+ Sp
Block
+ p
reux
Sp
2-way controller
: see "Table 12"
Sp
Block
with coding S1 = 5 bar
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Table 19 LS orice
Coding Description
Without coding
Standard version with #0.6 mm orice
Table 20 Shuttle valve
Coding Description Circuit symbol
Without coding Standard version
W3 Special version without ball
Only useful in manifold’s nal valve section in case the downstream LS gallery is not
relieved by the end plate.
Table 21 Additional functions
Coding Description Circuit symbol
L Valve section with additional LS port facing ancillary block.
The LS signal is picked up upstream of the LS orice.
FL Valve section with additional 1-, 2-, X- and Z-port facing ancillary block
The Z port can be used to realise additional functions for an ancillary block or intermedi-
ate plate.
The LS signal is picked up downstream of the LS orice.
NOTE
HAWE does not currently have any intermediate plates (see Chapter 2.3.3) or
ancillary blocks (see Chapter 2.3.2) available for this function
Only with return pressure < 10 bar (similar to end plate E4)
There are around 2 lpm available for Z; it must be ensured that there is
sufcient oil available for the actuation
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Table 22 Actuation
The different actuation types can be combined with one another.
Coding Description Circuit symbol
Electro-hydraulically prepared
E0 Prepared for electro-hydraulic actuation --
Manual actuation
A Manual operation with spring return
Only in conjunction with actuation variants:
EA
EACAN(L)
EMA
EMACAN(L)
E0A
E0ZA
E0HA
EHA
EHACAN
E0ZMA
EAR
E0AR
C Manual actuation with stepless detent.
Only in conjunction with actuation variants:
E0C
R Actuation add-on with 3-step detent in neutral position, a or b.
With spring return.
Without stroke limitation.
No ow rate setting possible.
Only in conjunction with actuation variants:
EAR
ER
E0AR
K Joystick actuation
Combination manual operation for two adjacent sections with shared
dual-axis actuation.
Only in conjunction with actuation variants:
E0K
E0A E0C E0AR
E0K
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Coding Description Circuit symbol
Electro-hydraulic actuation
E
EI
EM
EM UNF
Electro-hydraulic actuation.
E: with stroke limitation
El: no stroke limitation
EM: with measurement tting, with stroke limitation
EM: G 1/8 (ISO 228-1)
EM UNF: SAE-2 or 5/16-24 UNF-2B
Only in conjunction with actuation variants:
E
ECAN(L)
EI
EICAN(L)
EA
EACAN(L)
EMA
EMACAN(L)
EHA
EHACAN
ER
EAR
E EA EI
ER EM
CAN actuation
CAN
CANL
Directly mounted CAN controls.
Only in conjunction with actuation variants:
ECAN(L)
EICAN(L)
EACAN(L)
EMACAN(L)
EHACAN
EACAN ECANL
Hydraulic actuation
HA
HA UNF
Combination of hydraulic and manual actuation with control pressure
connections on the spring housing and lever housing.
With stroke limitation.
Ports 1 and 2 parallel to spool valve axis.
HA: G 1/8 (ISO 228-1)
HA UNF: SAE-2 or 5/16-24 UNF-2B
Only in conjunction with actuation variants:
E0HA
EHA
EHACAN
EHA
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Coding Description Circuit symbol
Z
Z UNF
Hydraulic actuation with control pressure connections in the spool
block beneath spring housing.
Z: G 1/8 (ISO 228-1)
Z UNF: SAE-2 or 5/16-24 UNF-2B
Only in conjunction with actuation variants:
E0Z
E0ZI
E0ZA
E0ZA UNF
E0ZMA
E0ZMA UNF
E0Z E0ZMA
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Table 23 Additional elements for actuation
Coding Description
Without coding Standard version
Hand lever straight approx. 122 mm
1
2
3
4
005
015
025
030
Add-on for manual actuation A
1: without lever arm
2: Hand lever straight approx. 78 mm
3: Hand lever straight approx. 174 mm
4: Hand lever straight approx. 92 mm
005: Hand lever 5° curved approx. 122 mm
015: Hand lever 15° curved approx. 120 mm
025: Hand lever 25° curved approx. 115 mm
030: Hand lever 30° curved approx. 114 mm
S Reinforced version of spring housing made from steel (seaworthy version).
7 Spring package from actuation A
8 Spring package from actuation E
9 Spring package from actuation H
BE... Add-on for actuation E0Z, E0ZA
With restrictor check valve as per D 7555 B in the ports
Ordering example: SL 2 A2 H16/16/E0Z BE0606
00
04
05
06
07
Add-on for actuation E
Additional damping in the electro-hydraulic pilot control.
Without coding - 0.8 mm orice
Coding 00 - no orice (open)
Coding 04 - 0.4 mm orice
Coding 05 - 0.5 mm orice
Coding 06 - 0.6 mm orice
Coding 07 - 0.7 mm orice
Ordering
example:
SL 2 A2 H16/16/E0Z 07
(if A and B are equal, here 0.7 mm orice)
SL 2 A2 H16/16/E0Z 0705
(if A and B are different, here 0.7 mm orice for A and 0.5 mm orice for B)
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Table 24 Switching position monitoring and displacement transducer
Coding Description Circuit symbol
U Comparator for monitoring switching position.
In neutral position: A and B on
P d A: A on, B off
P d B: A off, B on
Voltage U: 10 – 32 V DC
Connector types: X
Ordering example: SL 2 A2 H16/16/EAU
Only in conjunction with
Actuation coding E, EI, EA, E0Z, E0ZI, E0ZA, E0A, E0C and E0K (see "Table 22")
WA Integrated displacement transducer (Hall sensor) for spool valve position monitoring with
analogue output signal.
Connector types: X, G, DT, C
Ordering example: SL 2 A2 H16/16/EAWA
NOTE
Not possible in the rst valve section if an LS pressure limitation or LS release
valve with coding V, Z or ZM is selected in the connection block. The electric
eld of the solenoid inuences the displacement transducer.
Only in conjunction with
Actuation coding E (see "Table 22") is the stroke limitation only possible for consumer
A.
VCHO
VCHO2K
Contact switch for monitoring the switching position.
Direction detection:
Direction A (S2) as normally open contact
Direction B (S1) as normally open contact
VCHO: With connector, without cable
VCHO2K: With connector and 2-m cable
Ordering example: SL 2 A2 H16/16/EAVCHO
Only in conjunction with
Actuation coding EA, EAR, ER, E0ZA, E0A, E0C and E0AR (see "Table 22")
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Coding Description Circuit symbol
VCHC
VCHC2K
Contact switch for monitoring the switching position.
Direction detection:
Direction A (S2) as N/C contact
Direction B (S1) as N/C contact
VCHC: With connector, without cable
VCHC2K: With connector and 2-m cable
Ordering example: SL 2 A2 H16/16/EAVCHC
Only in conjunction with
Actuation coding EA, EAR, ER, E0ZA, E0A, E0C and E0AR (see "Table 22")
VCHOC
VCHOC2K
Contact switch for monitoring the switching position.
Direction detection:
Direction A (S2) as normally open contact
Direction B (S1) as N/C contact
VCHOC: With connector, without cable
VCHOC2K: With connector and 2-m cable
Ordering example: SL 2 A2 H16/16/EAVCHOC
Only in conjunction with
Actuation coding EA, EAR, ER, E0ZA, E0A, E0C and E0AR (see "Table 22")
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2.3.2 Ancillary block
Depending on their version, the ancillary blocks comprise different kinds of additional valves (e.g. shock valves, releasable check valves,
load-holding valves or electrically actuated 2/2-way directional seated valves). They can be ange-mounted either on a valve section
with ange surface (coding A as per "Table10: Consumer ports") or on an intermediate plate (Chapter 2.3.3).
Ports A and B as per ISO 228-1 or SAE J 514 or JIS B 2351:
/2: G 3/8
/22: G 3/8 (more distance between consumer ports A and B)
/3: G 1/2
/4: G 3/4
/UNF 1: 7/16-20 UNF-2B (SAE-4)
/UNF 12: 9/16-18 UNF-2B (SAE-6)
/UNF 2: 3/4-16 UNF-2B (SAE-8)
/JIS 2: JIS G 3/8
/M 222: M22x1.5 and G 3/8
Table 25 Ancillary block
Coding Description Circuit symbol
/2
/22
/3
/UNF 1
/UNF 12
/UNF 2
/JIS 2
No additional function
/2 M
/UNF 2 M
Additional measurement ttings a and b G 1/4.
/2 M-.. Connection A - B via orice.
Additional measurement ttings a and b G 1/4.
Ordering example: SL 2-/ M-06
/M 222 Consumer ports A and B in M22x1.5 mm.
Additional A and B ports laterally G 3/8.
/2 AS.. BS..
/22 AS.. BS..
/UNF 2 AS.. BS..
Fixed shock valve in A and B.
(Adjustment range: 40 to 420 bar)
The shock valves are each connected to their opposite side.
/2 AS..R BS..R Adjustable shock valve in A and B.
(Adjustment range: 40 to 420 bar)
The shock valves are each connected to their opposite side.
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Coding Description Circuit symbol
/2 AN.. BN..
/22 AN.. BN..
/UNF 2 AN.. BN..
Fixed shock and anti-cavitation valves in A and B.
(Adjustment range: 40 to 420 bar)
The shock and anti-cavitation valves are each connected to the reux.
Common applications:
Pressure safeguard in hydraulic cylinders.
/22 AN.. BN..: Greater distance between consumer ports A and B than for coding /2
/22 AN..
/UNF 2 AN..
Fixed shock valve in A and anti-cavitation valves B.
/22 AN..: Greater distance between consumer ports A and B
/22 BN..
/UNF 2 BN..
Fixed shock valve in B and anti-cavitation valves A.
/22 AN..: Greater distance between consumer ports A and B
/2 A HN Manual short-circuit valve for connection A to B.
Manual drain valve A to R.
/2 B HN Manual short-circuit valve for connection A to B.
Manual drain valve B to R.
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Coding Description Circuit symbol
/2 AL-0-..-BL-0-..
/2 ALX-0-..-BLX-0-..
/UNF 2 AL-0-..-
BL-0-..
/UNF 2 ALX-0-..-
BLX-0-..
/2 AL-0-..
/2 ALX-0-..
/UNF 2 AL-0-..
/UNF 2 ALX-0-..
/2 BL-0-..
/2 BLX-0-..
/UNF 2 BL-0-..
/UNF 2 BLX-0-..
Load-holding valve (type LHT 20 as per D 7918).
/2 AL-0-..-BL-0-..: Load-holding valves in A and B
/2 AL-0-..: Load-holding valve in A
/3 BL-0-..: Load-holding valve in B
AL or BL: Pressure setting adjustable from the outside using a tool
ALX or BLX: xed
/(UNF) 2 AL-0..BL-0-..
/(UNF) 2 ALX-0-..-BLX-0-..
/(UNF) 2 AL-0-..
/(UNF) 2 ALX-0-..
/(UNF) 2 BL-0-..
/(UNF) 2 BLX-0-..
Ordering example:
/2 AL - 0 - A 8 - 400
Pressure setting in bar
Geometric pilot ratio
Flow rate
Geometric pilot ratio:
- 1: (coding 0)
- 1:4 (coding 4)
- 1:8 (coding 8)
Coding 4, 8 Coding 0
For coding 0, the load pressure has no effect, and the load-holding valve is opened by the pilot pressure alone.
In this case, the load-holding valve does not have an overpressure function.
The set pressure corresponds to the pilot pressure.
Flow rate:
Coding A AB B C D E
Q
max
(lpm) 28 20 14 10 6 3
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Coding Description Circuit symbol
/2 DRH
/UNF 2 DRH
/2 DRH A
/UNF 2 DRH A
/2 DRH B
/UNF 2 DRH B
Releasable check valves (type DRH 2 as per D 6110)
/2 DRH: releasable check valves in A and B
/2 DRH A: releasable check valves in A
/2 DRH B: releasable check valves in B
Pressure required for releasing:
0.4-fold of checked pressure + 3 bar
/3 AVT
/3 AVPT
/3 AVT
/3 AVPT
/3 BVT
/3 BVPT
Electrically actuated 2/2-way directional seated valve closed in neutral position.
(Type according to D 7490/1)
With manual override function.
On/off actuated (with type EM 22 V)
/3 AVT: Check valve in A
/3 BVT: Check valve in B
Proportional (with type EMP 21 V)
/3 AVPT: Check valve in A
/3 BVPT: Check valve in B
NOTE
The actuation of the override function is only possible up to approx. 100 bar.
/3 BVT
/3 BVPT
/32 DFA
/32 DFB
Differential function.
The differential circuit (regeneration function) makes it possible to reach considerably
greater cylinder extension speeds at the same pump ow rate.
At the same time, however, the force available becomes lower because the pressure applied
on the cylinder’s piston and rod side is identical; only the effective areas differ.
This makes the differential function unsuitable for loads that drag on the cylinder.
/32 DFA: cylinder’s piston side on A-side, rod side on B-side
/32 DFB: cylinder’s piston side on B-side, rod side on A-side
Formula for calculating the required pump ow rate (Q
pump
) as a function of desired ow
rate for cylinder extension (Q
piston
) and cylinder ratio (9):
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2.3.3 Intermediate plate (on the consumer side)
Table 26 Intermediate plate
Coding Description Circuit symbol
/Z 20 Connection of A and B via 3 orices (2 mm, 1.2 mm, 2 mm)
/Z 40 Spacer plate, height 40 mm, for compensating height differences between adjacent valve
sections.
/Z2A BVE 1 R B..
/Z2A BVE 1 S B..
/Z2B BVE 1 R B..
/Z2B BVE 1 S B..
Additional port S in A or B.
/Z2A BVE 1 R B.. and /Z2B BVE 1 R B..: closed when unpowered
/Z2A BVE 1 S B.. and /Z2B BVE 1 S B..: open when unpowered
Selectable orices for volume limitation:
- #d: 0.4 / 0.5 / 0.6 / 0.7 / 0.8 / 0.9 / 1.0 / 1.2 / 1.5 mm
- Q
max
= 15 lpm
Ordering example: /Z2A BVE 1 R B 0.8
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Coding Description
/Z AL.. BL..
/Z ALX.. BLX..
/Z AL-..
/Z ALX-..
/Z BL-...
/Z BLX-..
Load-holding valve (type LHT 20 as per D 7918).
/Z AL.. BL..: Load-holding valves in A and B
/Z AL-..: Load-holding valve in A
/Z BL-..: Load-holding valve in B
/Z AL or /Z BL: Pressure setting adjustable from the
outside using a tool
/Z ALX or /Z BLX: xed
/Z AL.. BL.. /Z AL.. /Z BL..
Ordering example:
/ZAL - 0 - A 8 - 400
Pressure setting in bar
Geometric pilot ratio
Flow rate
Bypass orice
Inow orice D1:
- # 0.4 mm
Bypass orice D2:
- 0 = sealed
- # 0.3 / 0.4 / 0.5 / 0.6 / 0.7 mm
Geometric pilot ratio:
- 1: (coding 0)
- 1:4 (coding 4)
- 1:8 (coding 8)
Coding 7 Coding 0
For coding 0, the load pressure has no effect, and the load-holding valve is opened by the pilot pressure alone.
In this case, the load-holding valve does not have an overpressure function.
The set pressure corresponds to the pilot pressure.
Actual pilot ratio depends on bypass orice:
Coding 0 3 4 5 6 7
Bypass orice #(mm)
sealed 0.3 0.4 0.5 0.6 0.7
at 1:4 1:4 1:3.04 1:2.0 1:1.16 1:0.66 1:0.39Actual pilot ratio
at 1:8 1:8 1:6.08 1:4.0 1:2.32 1:0.77 1:0.47
Flow rate:
Coding A AB B C D E
Q
max
(lpm) 28 20 14 10 6 3
Anti-cavitation valve in A and B.
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Coding Description Circuit symbol
/ZDR
/ZDS
Electrically actuated 2/2-way directional seated valve as short-circuit valve.
Q
max
= 20 lpm
/ZDR: closed in neutral position (type BV 1 R)
/ZDR: open in neutral position (type BV 1 S)
Not in conjunction with ancillary block types /(UNF)(2)2 AS…BS…,
/2 AS…R BS…R, /(UNF)(2)2 AN…BN…, /(UNF 2) 22 AN…, /(UNF 2) 22 BN…,
/(UNF) 2 AL-0-…-BL-0-…, /(UNF) 2 ALX-0-…-BLX-0-…, /(UNF) 2 AL-0-…,
/(UNF) 2 ALX-0-…, /(UNF) 2 BL-0-…, /(UNF) 2 BLX-0-…
/ZDRH Releasable check valves in A and B. (Type DRH 2 as per D 6110)
Pressure required for releasing:
0.4-fold of checked pressure + 3 bar
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Coding Description Circuit symbol
/ZN..
/ZNX..
Shock and anti-cavitation valves with electrically adjustable pressure limitation.
The opening pressure of the shock valve can be congured using the electric LS pressure limitation.
It opens upon the selected shock valve minimum pressure and congured LS pressure limitation (EM 21 D...).
/ZN /ZNA /ZNB
1
LS pressure limitation
2
Pressure limitation
3
Shock valve
Ordering example:
/ZN A 250 PV 15
Shock valve minimum pressure
LS pressure limitation
Pressure limitation
Protected against shock
LS signal hole
LS signal hole to the valve
- : open
X: sealed
Protection against shock
- : Shock protection in A and B
A: Shock protection in A
B: Shock protection in B
LS pressure limitation
max. 400 bar
xed
LS pressure limitation
PV: closed when unpowered (EM 21 DE)
PZ: open when unpowered (EM 21 DSE)
PV PZ
Shock valve minimum pressure
10, 15, 20, 25 or 30 bar: xed
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Coding Description Circuit symbol
/ZVV
/ZSS
Electrically actuated 2/2-way directional seated valve as check valve from A to R or B to R.
(EM 21 V and EM 21 S to D 7490/1).
/ZVV: Check valve A d R and B d R closed in neutral position
/ZSS: Check valve A d R and B d R open in neutral position
/ZVX
/ZVPX
/ZXV
/ZXVP
Electrically actuated 2/2-way directional seated valve closed in neutral position as check
valve in A or B (EM 22 V or EMP 22 V20 as per D 7490/1).
/ZVX: Check valves in A and B
/ZVPX: check valve in A that switches proportionally
/ZXV: Check valve in B
/ZXPX: check valve in B that switches proportionally
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2.4 Series intermediate plate
Table 27 Intermediate plate
Coding Description
ZPL 22/7
ZPL 22/15
ZPL 22
Spacer plate.
ZPL 22/7: 7 mm
ZPL 22/15: 15 mm
ZPL 22: 39.3 mm
ZPL 22/7 EX Spacer plate, 7 mm.
If used with solenoid "Table 30"
G.. M2FP..
G.. TEX455FM
this intermediate plate has to be applied upstream and downstream of the valve section for mechanical protection
purposes.
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Coding Description
ZPL 22/7/XRT Locks the R channel and the T channel.
ZPL 22/15/R1
ZPL 22/15/R2
Check valve in R channel.
Q
max
in R: 20 lpm
ZPL 22/15/R1: Locking direction from connection block toward end plate
ZPL 22/15/R2: Locking direction from end plate toward connection block
ZPL 22/15/R1 ZPL 22/15/R2
ZPL 22/15/XR Locks the R channel
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Coding Description
ZPL 2-SWS2
ZPL 2-SWS2/RB
Transition plate to SWS as per D 7951.
ZPL 2-SWS2 ZPL 2-SWS2/RB
ZPL 2 P3R3 Additional P and R ports.
Ports P and R: G 1/2 (ISO 228-1)
ZPL 2-Z2 P channel interruption and P port for additional pump circuit.
G 3/8 (ISO 228-1)
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Coding Description
A1 RR…/…/… Intermediate plate with 2/2-way directional seated valves (type EM 31… / EMP 31… as per D 7490/1) for lifting and
lowering single acting cylinders.
Ordering example:
A1 RR PV/PV /3
Connecting thread of ancillary block
/3: G 1/2
/4: G 3/4
Directional seated valve (lifting/lowering)
/V: EM 31 V
/S: EM 31 S
/PV: EMP 31 V
/PV70: EMP 31 V70
/PV80: EMP 31 V80
Designation
A interface for ancillary block
1- without 2-way controller
A1 RR PVPV/3
Sp P d H (lifting) Sp H d P (lowering)
Cannot be combined with ancillary blocks as per "Table 25".
NOTE
If a valve section with manual operation A is to be installed downstream of this ZPL, a -ZPL 22/7 must be
installed so that there are no collisions.
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Coding Description
ZPL LS/… LS limitation for downstream spool valve sections.
Additional LS port: G 1/4 ( ISO 228-1)
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2.5 End plate
Table 28 End plate
Coding Description
E 1, E 1 UNF
E 17, E 17 UNF
T port for external recirculation of control oil to tank.
E 17: with additional P and R port
E 2, E 2 UNF
E 18, E 18 UNF
With additional Y port for connecting a downstream manifold’s LS signal.
T port for external recirculation of control oil to tank.
E 18: with additional P and R port
E 4, E 4 UNF
E 19, E 19 UNF
T channel internally linked with R channel for internal recirculation of control oil through R line.
E 19: with additional P and R port
E 5, E 5 UNF
E 20, E 20 UNF
With additional Y port for connecting a downstream manifold’s LS signal.
T channel internally linked with R channel for internal recirculation of control oil through R line.
E 20: with additional P and R port
E 3
E 6
With integrated 3/2 directional valve (WN 1 H as per D 7470 A/1) to switch P to LS when required and shut off the PSL
connection block’s unpressurised circulation.
E 3: T port for external recirculation of control oil to tank
E 6: T channel internally linked with R channel for internal recirculation of control oil through R line
NOTE
Internal control oil recirculation through R line is permissible only for return pressures < 10 bar.
E 1 (UNF) E 2 (UNF) E 3 E 4 (UNF) E 5 (UNF)
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E 6 E 17 (UNF) E 18 (UNF) E 19 (UNF) E 20 (UNF)
Coding Description
E 4 PMZ1-…-… Like E 4 but with a mounted proportional pressure reducing valve (type PMZ 1 as per D 7625) up to approx 30
bar.
Typical application is for supply to a brake.
Ordering example: Circuit symbol:
E 4 PMZ1 - 30 - AM K 4P 24
Solenoid version and solenoid voltage
Coding PM - round insert assembly (Type PM 1 as per
D 7625)
Designation
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Coding Description
E 19 UNF-...-ADM 22 P...-... T channel internally linked with R channel for internal recirculation of control oil through R line.
With additional P and R port.
The mounted pressure reducing valve ADM 22 P as per D 7120 is upstream of two optional valves type NBVP 16
as per D 7765 N.
This means the pressure can be set for consumers A and B.
p
max
A, B: 250 bar
O
max
A, B: 20 lpm
Combination:
Z Y X
Ordering example: Circuit symbol:
E 19 UNF - Z X - ADM 22 P 150 - DT 12
Solenoid version
Pressure setting ADM 22 P
Pressure reducing valve
Seated valve NBVP 16 - consumer B
Seated valve NBVP 16 - consumer A
Designation / basic version
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2.6 Solenoid versions
Table 29 Standard solenoid versions
Can be combined with
certain additional valves
Coding Electrical connection Nominal
voltage
Protection
class
(IEC 60529)
Valve section with
electro-hydraulic actuation
(EI, EA, EH, EHA etc.)
WN BVE
EM,
EMP
FP,
FPH
AMP 12 K 4
AMP 24 K 4
12 V DC
24 V DC
4-pin, connector position front
o o o
AMP 12 K
AMP 24 K
AMP Junior Timer
12 V DC
24 V DC
IP 67
3-pin, connector position front
o o o
DT 12
DT 24
12 V DC
24 V DC
4-pin, connector position side
(bottom)
o o o
DT 12 T
DT 24 T
12 V DC
24 V DC
4-pin, connector position side
(bottom), with override
o o o
DT 12 TH
DT 24 TH
German
(DT 04-4P)
12 V DC
24 V DC
IP 69k
4-pin, connector position side
(bottom), with override button
o o o
S 12 T
S 24 T
Bayonet coupling PA6
Schlemmer
12 V DC
24 V DC
IP 67 3-pin, connector position front,
with manual override
o o o o
G 12
G 24
12 V DC
24 V DC
o o o o
X 12
X 24
12 V DC
24 V DC
o o o o
L 12
L 24
12 V DC
24 V DC
o o o o
L5K 12
L5K 24
12 V DC
24 V DC
o o o o
L10K 12
L10K 24
12 V DC
24 V DC
3-pin, connector position side
(bottom)
o o o o
G 12 T
G 24 T
12 V DC
24 V DC
o o o o
X 12 T
X 24 T
12 V DC
24 V DC
o o o o
L 12 T
L 24 T
12 V DC
24 V DC
o o o o
L5K 12 T
L5K 24 T
12 V DC
24 V DC
o o o o
L10K 12 T
L10K 24 T
DIN EN 175 301-803 A
G: with male connector
(MSD 3-309 as per D 7163)
X: without male connector
L: with male connector with
LED (SVS 296365 as per
D 7163)
L5K: with male connector with
LED and 5-m cable
(L5K-VZP as per
D 7163 Erg. 78/1)
L10K: with male connector
with LED and 10-m cable
(L10K-VZP as per
D 7163 Erg. 78/1)
12 V DC
24 V DC
IP 65
3-pin, connector position side
(bottom), with override
o o o o
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Can be combined with
certain additional valves
Coding Electrical connection Nominal
voltage
Protection
class
(IEC 60529)
Valve section with
electro-hydraulic actuation
(EI, EA, EH, EHA etc.)
WN BVE
EM,
EMP
FP,
FPH
G 12 TH
G 24 TH
12 V DC
24 V DC
o o o o
X 12 TH
X 24 TH
12 V DC
24 V DC
o o o o
L 12 TH
L 24 TH
12 V DC
24 V DC
o o o o
L5K 12 TH
L5K 24 TH
12 V DC
24 V DC
o o o o
L10K 12 TH
L10K 24 TH
DIN EN 175 301-803 A
G: with male connector
(MSD 3-309 as per D 7163)
X: without male connector
L: with male connector with
LED (SVS 296365 as per
D 7163)
L5K: with male connector with
LED and 5-m cable
(L5K-VZP as per
D 7163 Erg. 78/1)
L10K: with male connector
with LED and 10-m cable
(L10K-VZP as per
D 7163 Erg. 78/1)
12 V DC
24 V DC
IP 65 3-pin, connector position side
(bottom), with override button
o o o o
X 12 C
X 24 C
12 V DC
24 V DC
3-pin, connector position front
X 12 C 4
X 24 C 4
DIN EN 175 301-803 C
12 V DC
24 V DC
IP 65
4-pin, connector position front
DTL 12
DTL 24
12 V DC
24 V DC
4-pin, connector position side
(bottom)
o
DTL 12 T
DTL 24 T
MIL-DTL-38999 series III
12 V DC
24 V DC
4-pin, connector position side
(bottom), with manual override
o
ITT 12
ITT 24
VG 95234 MIL 12 V DC
24 V DC
IP 67
4-pin, connector position side
(bottom)
o
Electrical connection for additional valves:
WN: see D 7470 A/1
BVE: see D 7921
EM 21: see D 7490/1 E
EM 31, EMP 31: see D 7490/1
SWS: see D 7951
PM 1, PMZ1: see D 7625
Different connector designs (e.g. EA actuation with AMP 24 K 4 and WN valve with G 24) are available upon request.
Electrical connection for electro-proportional LS pressure limitation coding FP.., FPH..:
Only twin solenoids with manual override (coding -...T or -...TH) are possible.
If a twin solenoid without manual override was chosen for the valve section’s electro-hydraulic actuation, the same twin solenoid type is
automatically used for the LS pressure limitation’s electro-proportional actuation, but with additional manual override.
If the twin solenoid type is not possible with manual override, coding -G...T is used by default.
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Table 30 Solenoid versions for potentially explosive atmospheres
Coding Description
G 24 TEX 4 55 FM
G 24 TEX 4 55 FM-10 m
G 12 M2FP
G 12 M2FP-10 m
G 24 M2FP
G 24 M2FP-10 m
Explosion-proof solenoid with cable
No additional specification: with 3-m cable
10 m: with 10-m cable
In the case of PSL valve banks, ZPL 22/7 EX are also required as mechanical protection plates.
They are inserted downstream of the connection block and upstream of the end plate.
A ZPL 52 (D 7700-5) or ZPL 32 (D 7700-3) replaces the protection plate on size combinations.
For additional details, see operating instructions B ATEX
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3
Parameters
3.1 General and hydraulic
General information
Designation Proportional directional spool valve PSL/PSV/PSM
Design Manifold with up to 14 valve sections
Material Steel, nitrided surfaces, internal function parts tempered and polished, solenoids’ surfaces
galvanised
Attachment Mounting thread M8, see Chapter 4, "Dimensions"
Installation position any
Ports P Pump
R Reux
A, B Consumer
LS, DW, U,W,
X, XH, Y
Load pressure signal
M Pressure gauge connection for pump pressure
a, b Pressure gauge connection for consumer pressure
Z Pilot pressure
T Tank line for control oil
Connecting thread:
P, R, A, B: as per type designation
M, LS, DW, Y, Z, T: G 1/4 (ISO 228-1) or SAE-4, or 7/16-20 UNF-2B (SAE J 514)
U, W, X, XH: G 1/8 (ISO 228-1)
a, b: G 1/4 or G 1/8 (ISO 228-1)
Hydraulic uid Hydraulic uid: equivalent to part 1 to 3;
ISO VG 10 to 68 as per DIN ISO 3448
Viscosity limits: min. approx. 4, max. approx. 1500 mm
2
/s
opt. operation approx. 10... 500 mm
2
/s.
Also suitable for biologically degradable hydraulic uids type HEPG (polyalkylene glycol) and
HEES (synthetic ester) at operating temperatures up to approx. +70°C.
Not suitable for HETG such as rapeseed oil and water-glycol solutions such as HFA or HFC.
Cleanliness level
ISO 4406
20/17/14
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Temperatures Environment: approx. -40 ... +80°C, hydraulic uid: -25 ... +80°C, note viscosity range.
Start temperature: down to -40°C is permissible (observe start viscosities!), as long as the
steady-state temperature is at least 20K higher during subsequent operation.
Biologically degradable hydraulic uids: note manufacturer specifications. With consideration
for the seal compatibility, not above +70°C.
NOTE
Note restrictions on explosion-proof solenoid.
Pressure and ow rate
Operating pressure
p
max
= 420 bar (ports P, P1, P2, A, B, LS, M, Y)
Pilot pressure Ò 40 bar (port Z)
Return pressure Ò 50 bar (ports R, R1, T) for high return pressures, T port should be routed
to the tank separately
(see end plate E 1, E 2, E 3 etc. as per "Table 28")
Flow rate
Q
max
connection block: see Chapter 3.2, "Characteristic lines"
Q
max
consumer: see "Table 15: Flow rate"
Weight
Connection block Type
PSV 3 = 1.7 kg
PSV 4 =2.0 kg
PSL 3 = 1.7 kg
PSL 3 Z = 2.0 kg
For additional functions:
Z... (see "Table 7") = 0.6 kg
Directional valve section Valve section with actuation
Coding
A, E, E0A = 1.6 kg
EA = 1.9 kg
EHA = 1.8 kg
HA = 2.2 kg
For additional functions:
A..B..FP(H) 1(2, 3), S1 = + 0.4 kg
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Ancillary block Coding
/(UNF) 2 = 0.25 kg
/(UNF) 2 AS.. BS.., /3 = 0.3 kg
/(UNF) 2 AN.. BN.. = 0.4 kg
/(UNF) 2 AL-0-.. BL-0-.. = 0.6 kg
/(UNF) 2 ALX-0-.. BLX-0-.. = 0.6 kg
/(UNF) 2 DRH, /ZDRH = 0.3 kg
/ZSS, /ZVV, /3 AVT, /3 BVT = 1.0 kg
/ZDR, /ZDS, /Z 2 A(B).. = 1.0 kg
/32 DFA, /32 DFB = 0.6 kg
/Z 40 = 0.5 kg
/Z AL.. BL.. = 0.6 kg
End plates Coding
E 1(UNF), E 2(UNF), E 4(UNF), E 5(UNF) = 0.5 kg
E 3, E 6 = 1.1 kg
E 17(UNF), E 18(UNF), E 19(UNF), E 20(UNF) = 1.0 kg
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3.2 Characteristic lines
Oil viscosity approx. 60 mm
2
/s
Connection block
Pressure-limiting valve (P d R)
PSL 3../D..-2
PSL UNF 2../D..-2
PSV 3../D..-2
PSV UNF 2../D..-2
PSV 4 N...
PSL 3 U…/…-2
PSL UNF 2 U…/…-2
Circulation pressure (P d R) in PSL connection blocks
Circulation pressure
(electro-proportional LS pressure limitation as per "Table 7")
Coding V, Z, ZM
1
PSL 3H/..., PSL UNF 2H...
2
PSL 3..., PSL UNF 2...
3
PSL 3U/..., PSL UNF 2U...
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Directional valve section
Pressure difference P d A/B and A/B d R
1
1 P d A/B for valve section with 2-way controller
(see "Table 11: Valve section", without coding)
2
2 P d A/B for valve section without 2-way controller
(see "Table 11: Valve section", coding 1)
3
3 A/B d R in spool valve coding L, M, F, H
(see "Table 14: Circuit symbol")
Control characteristic line consumer/ow rate as per "Table 15"
(reference values measured with 2-way controller and standard 2-way controller spring)
p
h
= pilot pressure for hydraulic actuation
p
p
= pilot pressure for pneumatic actuation
Switching angle (°) for manual actuation with hand lever
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2-way controller as per "Table 11" LS pressure limiting valves as per "Table 16"
Electro-proportional LS pressure limitation as per "Table 17"
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3.3 Electrical parameters
3.3.1 Electro-hydraulic actuation with standard solenoid
Electric version and certification as per DIN VDE 0580
Twin solenoid with anchor chambers sealed on the outside and connected to the tank channel. The anchors in the anchor chambers are
thereby lubricated by the hydraulic oil and protected against corrosion without the need for maintenance.
Nominal voltage U
N
12 V DC 24 V DC
Resistance R
20
6.7 Ω 28.0 Ω
Current, cold I
20
1.8 A 0.86 A
Limit current I
G
1.16 A 0.58 A
Limit power P
G
13.9 W 13.9 W
Duty cycle S1 (100%)
Dither frequency 40 to 70Hz (recommended value: 55 Hz)
Dither amplitude
20% A
D
50%
I stroke characteristic curves
Ports
Specifications for A and B
see Table “Electrical connection”, “Connection” column
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Electrical connection
Coding Specification Connection Plug
AMP 12 (24) K AMP Junior Timer
3-pin
IP 67 (IEC 60529)
AMP 12 (24) K 4 AMP Junior Timer
4-pin
IP 67 (IEC 60529)
DT 12 (24)
DT 12 (24) T
German (DT04 – 4p)
4-pin
IP 69k (IEC 60529)
S 12 (24)
S 12 (24) T
Bayonet coupling PA6 Schlemmer
3-pin
IP 67 (IEC 60529)
X 12 (24)
G 12 (24)
L 12 (24)
X 12 (24) T
G 12 (24) T
L 12 (24) T
X 12 (24) TH
G 12 (24) TH
L 12 (24) TH
DIN EN 175 301-803 A
3-pin
IP 65 (IEC 60529)
X 12 (24) C
G 12 (24) C
DIN EN 175 301-803 C
3-pin
IP 65 (IEC 60529)
X 12 (24) C4
G 12 (24) C4
DIN EN 175 301-803 C
3-pin
IP 65 (IEC 60529)
ITT 12 (24) VG95234 MIL
4-pin
IP 67 (IEC 60529)
DTL 12 (24)
DTL 12 (24) T
MIL-DTL 38999 series III
4-pin
IP 67 (IEC 60529)
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3.3.2 Electro-hydraulic actuation with solenoid for potentially explosive atmospheres
NOTE
When using solenoids for potentially explosive atmospheres, it is essential to observe the operating instructions B ATEX and the
separate operating instructions for the respective solenoid.
Refer to the applicable operating instructions for operating thresholds, classifications, electrical parameters and electrical
connections.
Coding Operating instructions with declaration of conformity
G 24 TEX 4 55 FM
G 24 TEX 4 55 FM-10 m
B ATEX
B 28/2012 (EX04)
G 24 M2FP
G 24 M2FP-10 m
B ATEX
B 25/2012 (EX03)
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3.3.3 Switching position monitoring, displacement transducer
Coding VCHO, VCHC, VCHOC
Connector Hirschmann type G 4 W 1 F (4-pin)
Resistance load at 30 V DC 5 A
Inductive load 3 A
Protection class IP 65 (IEC 60529)
Labelling
VCHO: NO
VCHC: NC
VCHOC: NOC
VCHO VCHC VCHOC
Direction detection:
Direction A – contact switch S2
Direction B – contact switch S1
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Coding WA
Coding Electrical connection Protection class (IEC 60529)
WA DIN EN 175 301-803 A IP 65
WA-AMP AMP Junior Timer IP 67
WA-DT German (DT 04-4P) IP 69k
WA-C DIN EN 175 301-803 C IP 65
Pin assignment: Sensor assignment:
1 = U
output
2 = +U
B
(5 to 10 V)
3 = GND
Earth = not assigned
WA WA-AMP WA-DT WA-C
x = spool stroke
U
B
= signal voltage
U
B max
= 76%
U
B min
= 24%
Accuracy +/- 9% (of U
B
)
Use stabilised, smoothed DC voltage only.
NOTE
The displacement transducer will be destroyed by strong magnetic elds.
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Coding U
Protection class IP 65 (IEC 60529)
Pin assignment
Pin Signal Description
1 OUTA PNP positive-switching
2 OUTB PNP positive-switching
3 +U
B
10 ... 32 V DC
GND 0 V DC
Open-Collector:
I
max
= 10 mA
short-circuit-proof
Status table
Signal outputs PNP transistor with open collector:Running no. Spool valve action
OUTA OUTB
1 Neutral position in centre ON ON
2
P dB
OFF ON
3
PdA
ON OFF
U
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3.3.4 Electric LS relief or LS pressure limitation
Electric LS relief coding FP.., FPH..
Nominal voltage U
N
12 V DC 24 V DC
Resistance R
20
6.7 Ω 28.0 Ω
Current, cold I
20
1.8 A 0.86 A
Limit current I
G
1.16 A 0.58 A
Limit power P
G
13.9 W 13.9 W
Duty cycle S1 (100%)
Dither frequency 40 to 70Hz (recommended value: 55 Hz)
Dither amplitude
20% A
D
50%
Electrical connection
Coding Specification Connection Plug
DT 12 (24) T German (DT04 – 4p)
4-pin
IP 69k (IEC 60529)
S 12 (24) T Bayonet coupling PA6 Schlemmer
3-pin
IP 67 (IEC 60529)
X 12 (24) T
G 12 (24) T
L 12 (24) T
X 12 (24) TH
G 12 (24) TH
L 12 (24) TH
DIN EN 175 301-803 A
3-pin
IP 65 (IEC 60529)
DTL 12 (24) T MIL-DTL 38999 series III
4-pin
IP 67 (IEC 60529)
NOTE
Duty cycle applies separately for a single twin solenoid coil. If both coils are powered simultaneously, only half that time is
permitted duty cycle.
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NOTE
Only twin solenoids with manual override (coding -...T or -...TH) are possible.
If a twin solenoid without manual override was chosen for the valve section’s electro-hydraulic actuation, the same twin
solenoid type is automatically used for the LS pressure limitation’s electro-proportional actuation, but with additional manual
override.
If the twin solenoid type is not possible with manual override, coding -G...T is used by default.
3.3.5 Electric LS relief or LS pressure limitation for potentially explosive atmospheres
NOTE
When using solenoids for potentially explosive atmospheres, it is essential to observe the operating instructions B ATEX and the
separate operating instructions for the respective solenoid.
Refer to the applicable operating instructions for operating thresholds, classifications, electrical parameters and electrical
connections.
Coding Operating instructions with declaration of conformity
G 24 TEX 4 55 FM
G 24 TEX 4 55 FM-10 m
B ATEX
B 28/2012 (EX04)
G 24 M2FP
G 24 M2FP-10 m
B ATEX
B 25/2012 (EX03)
3.3.6 Additional valves
The types of plugs available are described in Chapter 2.6, "Solenoid versions". Refer to the respective additional valve’s data sheet for
electrical parameters.
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4
Dimensions
All dimensions in mm, subject to change.
4.1 Connection block
PSL 3…/D…-2, PSV 3…/D…-2
PSL UNF 2…/D…-2, PSV UNF 2…/D...-2
1
Internal control oil supply coding 1 or without designation
2
Internal control oil supply coding 2
3
LS damping
4
Pressure-limiting valve
5
optional ZM
6
Valve section
7
End plate
Coding a
Without coding 6.5
1 6.5
2 18.4
Ports as per ISO 228-1 or SAE J 514Type
P, R LS, M Z
PSL 3../D..-2
PSV 3../D..-2
G 1/2 G 1/4 G 1/8
PSL UNF 2../D..-2
PSV UNF 2../D..-2
3/4-16 UNF-2B 7/16-20 UNF-2B 7/16-20 UNF-2B
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PSV 3…-2
PSV UNF 2…-2
1
Internal control oil supply coding 1 or without designation
2
Internal control oil supply coding 2
3
LS damping
4
Valve section
5
End plate
Coding a
Without coding 6.5
1 6.5
2 18.4
Ports as per ISO 228-1 or SAE J 514Type
P, R LS, M Z
PSV 3…-2 G 1/2 G 1/4 G 1/8
PSV UNF 2…-2 3/4-16 UNF-2B 7/16-20 UNF-2B 7/16-20 UNF-2B
© HAWE Hydraulik SE
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PSL 3U…/…-2
PSL UNF 2U…/…-2
1
Internal control oil supply coding 1 or without designation
2
Internal control oil supply coding 2
3
LS damping
4
Pressure-limiting valve
5
Valve section
6
End plate
Coding a
Without coding 6.5
1 6.5
2 18.4
Ports as per ISO 228-1 or SAE J 514Type
P, R LS, M Z
PSL 3U…/…-2 G 1/2 G 1/4 G 1/8
PSL UNF 2U…/…-2 3/4-16 UNF-2B 7/16-20 UNF-2B 7/16-20 UNF-2B
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PSL 3 Z…/D…-2
1
Internal control oil supply coding 1 or without designation
2
Internal control oil supply coding 2
3
LS damping
4
Pressure-limiting valve
5
3-way controller’s spring housing
6
Valve section
7
End plate
Coding a
Without coding 6.5
1 6.5
2 18.4
Ports as per ISO 228-1Type
P, R LS, M, Z
PSL 3 Z…/D…-2 G 1/2 G 1/4
3-way controller’s spring housing 3-way controller’s spring housing with locking tapped plug
No designation Coding H Coding T Coding HT
© HAWE Hydraulik SE
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PSL 3Y…/…-2
1
Internal control oil supply coding 1 or without designation
2
Internal control oil supply coding 2
3
LS damping
4
Pressure-limiting valve
5
Valve section
6
End plate
Coding a
Without coding 6.5
1 6.5
2 18.4
Ports as per ISO 228-1Type
P, R, F LS, M
PSL 3Y…/…-2 G 1/2 G 1/4
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PSV 4N…/…/…-2
PSV UNF 4N…/…/…-2
1
Internal control oil supply coding 1 or without designation
2
Internal control oil supply coding 2
3
LS damping
4
Pressure-limiting valve
5
Valve section
6
End plate
Coding a
Without coding 6.5
1 6.5
2 18.4
Ports as per ISO 228-1 or SAE J 514Type
P, R LS, M Z
PSV 4N…/…/…-2 G 3/4 G 1/4 G 1/8
PSV UNF 4N…/…/…-2 11/16-12 UNF-2B 7/16-20 UNF-2B 7/16-20 UNF-2B
© HAWE Hydraulik SE
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PSV 3X…-2
1
LS damping
2
Valve section
3
End plate
Ports as per ISO 228-1Type
P, R LS, M
PSV 3X…-2 G 1/2 G 1/4
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Additional valves for LS relief or LS pressure limitation on connection block
as per "Table 7: LS relief or LS pressure limitation"
Without coding Coding VA, ZA Coding ZAM Coding ZAP
Coding V, Z Coding ZM Coding ZP
Only for PSL 3 Z…/D…-2:
Without coding Coding F, D
© HAWE Hydraulik SE
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4.2 Valve section
4.2.1 Directional valve section
Directional valve section without integrated threads for combining with an ancillary block
(Coding - A… as per "Table 10: Consumer ports")
Pre-selector directional valve section with integrated ports
(Coding - 8… as per "Table 11: Valve section, 2-way controller")
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Directional valve section with manual actuation
Actuation E0A, E0C
1
Switching position 0, a and b
2
Alternative mounting position for hand lever (thread M6, 8.5 mm deep)
3
Travel stop for ow limitation at A (adjustable via grub screw M5)
4
Intermediate sheet to act as stop for stroke limitation
5
Travel stop for ow limitation at B (adjustable via grub screw M5)
6
Ancillary blocks
© HAWE Hydraulik SE
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Lever straight Lever for angle
Coding a
Without coding 122
1 --
2 78
3 174
4 92
Coding a b
1
005 31 122
015 31 120 15°
025 31 115 25°
030 49 114 30°
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Actuation E0AR Actuation E0K
1
Switching position 0, a and b
2
Alternative mounting position for hand lever (thread M6, 8.5 mm deep)
3
Travel stop for ow limitation at A (adjustable via grub screw M5)
4
Intermediate sheet to act as stop for stroke limitation
5
Travel stop for ow limitation at B (adjustable via grub screw M5)
6
Ancillary blocks
1
Ancillary blocks
© HAWE Hydraulik SE
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Directional valve section with electro-hydraulic actuation
Actuation EA
1
Switching position 0, a and b
2
Alternative mounting position for hand lever (thread M6, 8.5 mm deep)
3
Travel stop for ow limitation at A (adjustable via grub screw M5)
4
Intermediate sheet to act as stop for stroke limitation
5
Travel stop for ow limitation at B (adjustable via grub screw M5)
6
Ancillary blocks
7
Male connector can be mounted offset by 180°
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Actuation E Actuation EI
1
Travel stop for ow limitation at A
2
Travel stop for ow limitation at B
3
Ancillary blocks
4
Male connector can be mounted offset by 180°
1
Ancillary blocks
2
Male connector can be mounted offset by 180°
© HAWE Hydraulik SE
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Solenoid version drawings
Coding AMP 12(24) K4 Coding DT 12(24) Coding DT 12(24) T
Coding S 12(24) Coding G(X) 12(24) Coding G(X) 12(24) T
Coding G(X) 24 C4 Coding DTL 12(24) Coding DTL 12(24) T
Coding ITT 12(24) Coding G 24 MP2F Coding G 24 TEX 4 55FM
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Directional valve section with hydraulic actuation
Actuation E0HA (UNF) Actuation EHA (UNF)
1
Switching position 0, a and b
2
Alternative mounting position for hand lever (thread M6, 8.5 mm deep)
3
Travel stop for ow limitation at A (adjustable via grub screw M5)
4
Intermediate sheet to act as stop for stroke limitation
5
Travel stop for ow limitation at B (adjustable via grub screw M5)
6
Ancillary blocks
Coding a
E0HA, EHA 34.5
E0HA UNF, EHA UNF 39.5
Ports as per ISO 228-1 or SAE J 514Coding
1, 2
E0HA, EHA G 1/8
E0HA UNF, EHA UNF SAE-2 (5/16-24 UNF-2B)
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Actuation E0Z (UNF)
1
Travel stop for ow limitation at A
2
Travel stop for ow limitation at B
3
Ancillary blocks
4
Port W/1
5
Port U/2
Ports as per ISO 228-1 or SAE J 514Coding
W/1, U/2
E0Z G 1/8
E0Z UNF SAE-2 (5/16-24 UNF-2B)
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Directional valve section withpneumatic actuation
Actuation P
1
Ancillary blocks
Ports as per ISO 228-1Coding
1, 2
P G 1/8
Switching position monitoring, displacement transducer
Coding VC
Coding WA Coding U
© HAWE Hydraulik SE
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Directional valve section with LS pressure limitation
Coding A.., B.., A.. B..
Directional valve section with electric LS relief or LS pressure limitation
Coding FP
Coding FPH
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Directional valve section with LS port for external limitation
Coding S1
Ports as per ISO 228-1Coding
U/1, W/2
S1 G 1/8
© HAWE Hydraulik SE
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4.2.2 Ancillary block
as per Chapter 2.3.2, "Ancillary block"
/2, /22, /3
/UNF 1, /UNF 12, /UNF 2
/JIS 2
1
Directional valve section
2
Cylinder screws ISO 4762-M6x g -A2-70
Coding H L a b c e f g
/2 15.5 63 17.5 17.75 21.5 42.25 8.25 16
/22 24.5 68 21 13 18 55 5.25 25
/3 28 80 17.5 28.5 17.5 56 -- 28
/UNF 1
/UNF 22
/UNF 2
16 63 17.5 17.75 21.5 45.25 8.25 16
/JIS 2 25 80 17.5 26.25 21.5 53.75 -- 25
Ports as per ISO 228-1 or SAE J 514 or JIS B 2351
A, B
/2, /22
G 3/8
/3
G 1/2
/UNF 1
7/16-20 UNF-2B (SAE-4)
/UNF 22
9/16-18 UNF-2B (SAE-6)
/UNF 2
3/4-16 UNF-2B (SAE-8)
/JIS 2
JIS G 3/8
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/2 M
/UNF 2 M
1
Directional valve section
2
Cylinder screws ISO 4762-M6x 24 -A2-70
Ports as per ISO 228-1 or SAE J 514Coding
A, B
/2 M
G 3/8
/UNF 2 M
3/4-16 UNF-2B (SAE-8)
/M 222
1
Directional valve section
2
Cylinder screws ISO 4762-M6x 35 -A2-70
PortsCoding
A, B
/M 222
M22x1.5
© HAWE Hydraulik SE
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/2(22) AS..BS.., /UNF 2 AS..BS..
/2(22) AN..BN.., /UNF 2 AN..BN..
1
Directional valve section
2
Cylinder screws ISO 4762-M6x g -A2-70
Coding H L a b c e f g
/2 AS.. BS..
/UNF 2 AS..BS..
39.5 83 17.5 27.5 21.5 55.25 1.75 40
/22 AS..BS.. 39 105 20.2 22.5 19.5 83.5 1.75 39
/2 AN..BN..
/UNF 2 AN..BN..
29.5 103 17.5 37.75 21.5 65.25 11.75 40
Ports as per ISO 228-1 or SAE J 514
A, B
/2 AS..BS..
/22 AS..BS..
/2 AN..BN..
G 3/8
/UNF 2 AS..BS..
/UNF 2 AN..BN..
3/4-16 UNF-2B (SAE-8)
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/22 AN..BN..
1
Directional valve section
2
Cylinder screws ISO 4762-M6x 45 -A2-70
Ports as per ISO 228-1Coding
A, B
/22 AN..BN..
G 3/8
© HAWE Hydraulik SE
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/22 AN..
/UNF 2 AN..
/22 BN..
/UNF 2 BN..
1
Directional valve section
2
Cylinder screws ISO 4762-M6x g -A2-70
Coding H L a b c e f g
/22 AN.. 39 110 19.5 13.75 21 74.25 19.5 39
/22 BN.. 39 110 18 35.75 19.5 96.25 11 39
/UNF 2 AN..
/UNF 2 BN..
39.5 103 17.5 37.75 21.5 65.25 11.75 40
Ports as per ISO 228-1 or SAE J 514
A, B
/22 AN..
/22 BN..
G 3/8
/UNF 2 AN..
/UNF 2 BN..
3/4-16 UNF-2B (SAE-8)
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/2 AS..R BS..R
1
Directional valve section
2
Cylinder screws ISO 4762-M6x 40 -A2-70
Ports as per ISO 228-1Coding
A, B
/2 AS..R BS..R
G 3/8
/2 A HN /2 B HN
1
Directional valve section
2
Cylinder screws ISO 4762-M6x 25 -A2-70
3
Drain screw
Ports as per ISO 228-1Coding
A, B
/2 A HN
/2 B HN
G 3/8
© HAWE Hydraulik SE
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/2 AL-0.. - BL-0..
/UNF 2 AL-0.. - BL-0..
/2 ALX-0.. - BLX-0..
/UNF 2 ALX-0.. - BLX-0..
1
Directional valve section
2
Cylinder screws ISO 4762-M6x g -A2-70
Coding H b e g
/2 AL-0.. - BL-0..
/2 ALX-0.. - BLX-0..
39.5 25.25 51.75 40
/UNF 2 AL-0.. - BL-0..
/UNF 2 ALX-0.. - BLX-0..
44.5 23.5 52.5 45
Ports as per ISO 228-1 or SAE J 514
A, B
/2 AL-0.. - BL-0..
/2 ALX-0.. - BLX-0..
G 3/8
/UNF 2 AL-0.. - BL-0..
/UNF 2 ALX-0.. - BLX-0..
3/4-16 UNF-2B (SAE-8)
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/2 AL-0..
/UNF 2 AL-0..
/2 BL-0..
/UNF 2 BL-0..
1
Directional valve section
2
Cylinder screws ISO 4762-M6x g -A2-70
Coding H b e g
/2 AL-0..
/2 BL-0..
39.5 25.25 51.75 40
/UNF 2 AL-0..
/UNF 2 BL-0..
44.5 23.5 52.5 45
Ports as per ISO 228-1 or SAE J 514
A, B
/2 AL-0..
/2 BL-0..
G 3/8
/UNF 2 AL-0..
/UNF 2 BL-0..
3/4-16 UNF-2B (SAE-8)
© HAWE Hydraulik SE
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/2 ALX-0..
/UNF 2 ALX-0..
/2 BLX-0..
/UNF 2 BLX-0..
1
Directional valve section
2
Cylinder screws ISO 4762-M6x g -A2-70
Coding H b e g
/2 ALX-0..
/2 BLX-0..
39.5 25.25 51.75 40
/UNF 2 ALX-0..
/UNF 2 BLX-0..
44.5 23.5 52.5 45
Ports as per ISO 228-1 or SAE J 514
A, B
/2 ALX-0..
/2 BLX-0..
G 3/8
/UNF 2 ALX-0..
/UNF 2 BLX-0..
3/4-16 UNF-2B (SAE-8)
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/2 DRH, /2 DRH A, /2 DRH B
/UNF 2 DRH, /UNF 2 DRH A, /UNF 2 DRH B
1
Directional valve section
2
Cylinder screws ISO 4762-M6x 46 -A2-70
Coding a c e
/2 ALX-0..
/2 BLX-0..
22 17 76
/UNF 2 ALX-0..
/UNF 2 BLX-0..
21.5 17.5 73.5
Ports as per ISO 228-1 or SAE J 514
A, B
/2 DRH
/2 DRH A
/2 DRH B
G 3/8
/UNF 2 DRH
/UNF 2 DRH A
/UNF 2 DRH B
3/4-16 UNF-2B (SAE-8)
© HAWE Hydraulik SE
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/3 AVT
/3 AVPT
/3 BVT
/3 BVPT
1
Directional valve section
2
Cylinder screws ISO 4762-M6x 55 -A2-70
Coding h
/3 AVT
/3 BVT
70.5
/3 AVPT
/3 BVPT
74
Ports as per ISO 228-1
A, B
/3 AVT
/3 AVPT
/3 BVT
/3 BVPT
G 1/2
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/32 DFA /32 DFB
1
Directional valve section
2
Cylinder screws ISO 4762-M6x 60 -A2-70
Ports as per ISO 228-1Coding
A B
/32 DFA
G 1/2
G 3/8
/32 DFB
G 3/8
G 1/2
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4.2.3 Intermediate plate
as per Chapter 2.3.3, "Intermediate plate (on the consumer side)"
/Z20 /Z40
1
Ancillary block
2
Directional valve section
/Z2A BVE 1 R(S) B /Z2B BVE 1 R(S) B
1
Ancillary block
2
Directional valve section
Ports as per ISO 228-1Coding
S
/Z2A BVE 1 R(S) B
/Z2B BVE 1 R(S) B
G 3/8
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/Z AL...BL... /Z ALX...BLX...
1
Ancillary block
2
Directional valve section
/Z AL-... /Z BL-...
1
Ancillary block
2
Directional valve section
© HAWE Hydraulik SE
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/Z ALX-... /Z BLX-...
1
Ancillary block
2
Directional valve section
/ZDR
/ZDS
/ZDRH
1
Ancillary block
2
Directional valve section
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/ZN...
/ZNX...
1
Ancillary block
2
Directional valve section
/ZSS
/ZVV
/ZVX
/ZVPX
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/ZXV
/ZXVP
1
Ancillary block
2
Directional valve section
Coding a
EM 22 12
EMP 22 15
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4.3 Series intermediate plate
as per Chapter 2.4, "Series intermediate plate"
ZPL 22
ZPL 22/7
ZPL 22/15
Coding a
ZPL 22 39.5
ZPL 22/7 7
ZPL 22/15 14.5
ZPL 22/7 EX ZPL 22/7/XRT
ZPL 22/15/R1
ZPL 22/15/R2
ZPL 22/15/XR
© HAWE Hydraulik SE
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ZPL 2-SWS 2
ZPL 2-SWS 2/RB
ZPL LS/...
ZPL 2 P3R3 ZPL 2-Z2
Ports as per ISO 228-1Coding
T LS R, P P2
ZPL 2-SWS 2
ZPL 2-SWS 2/RB
G 1/8 -- -- --
ZPL LS/... -- G 1/4 -- --
ZPL 2 P3R3 -- -- G 1/2 --
ZPL 2-Z2 -- -- -- G 3/8
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A1 RR ../../3
A1 RR ../../4
1
Drain screw
Ports as per ISO 228-1Coding
H, R
A1 RR ../../3 G 1/2
A1 RR ../../4 G 3/4
© HAWE Hydraulik SE
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4.4 End plate
as per Chapter 2.5, "End plate"
E 1, E 1 UNF E 2, E 2 UNF
E 4, E 4 UNF E 5, E 5 UNF
E 1 (UNF): T - open, Y - sealed
E 2 (UNF): T - open, Y - open
E 4 (UNF): T - sealed, Y - sealed
E 5 (UNF): T - sealed, Y - open
Ports as per ISO 228-1 or SAE J 514Coding
T and Y
E 1, E 2, E 4, E 5 G 1/8
E 1 UNF, E 2 UNF,
E 4 UNF, E 5 UNF
SAE-4 (7/16-UNF-2B)
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E 3 E 6
E 3: T - open
E 6: T - sealed
Ports as per ISO 228-1Coding
T
E 3, E 6 G 1/8
© HAWE Hydraulik SE
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E 17, E 17 UNF E 18, E 18 UNF
E 19, E 19 UNF E 20, E 20 UNF
Coding a
E 17, E 18, E 19, E 20 12.5
E 17 UNF, E 18 UNF,
E 19 UNF, E 20 UNF
16
E 17 (UNF): T - open, Y - sealed, P - open, R - open
E 18 (UNF): T - open, Y - open, P - open, R - open
E 19 (UNF): T - sealed, Y - sealed, P - open, R - open
E 20 (UNF): T - sealed, Y - open, P - open, R - open
Ports as per ISO 228-1 or SAE J 514Coding
T and Y P and R
E 17, E 18, E 19, E 20 G 1/8 G 3/8
E 17 UNF, E 18 UNF,
E 19 UNF, E 20 UNF
SAE-4 (7/16-UNF-2B)
SAE-8 (3/4-16 UNF-2B)
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5
Assembly, operation and maintenance recommendations
5.1 Intended use
This valve isintended exclusively for use in hydraulic applications in uid technology.
The user must observe the safety measures and warnings in this documentation.
Essential requirements for the product to function correctly and safely:
All information in this documentation must be observed.
The product must only be assembled and put into operation by qualied personnel.
The product must only be operated within the specied technical parameters. The technical parameters are described in detail in this
documentation.
All components must be suitable for the operating conditions in the event of application in an assembly.
The operating and maintenance manual of the components, assemblies and the specic complete system must also always be
observed.
If the product can no longer be operated safely:
1. Remove the product from operation and mark it accordingly.
It is then not permitted to continue using or operating the product.
5.2 Assembly information
The product must only be installed in the complete system with standard and compliant connection components (screw ttings, hoses,
pipes, xtures etc.).
The product must be shut down correctly prior to disassembly (in particular in combination with hydraulic accumulators).
DANGER
Risk to life caused by sudden movement of the hydraulic drives when dismantled incorrectly!
Risk of serious injury or death.
Depressurise the hydraulic system.
Perform safety measures in preparation for maintenance.
5.2.1 Attachment
The valve bank must be mounted to the frame or base of the machine in such a way that no stress is induced. Three screws and elastic
washers between the bank and the frame are recommended for mounting.
Round bearing A 2510 55WR (M8x20), manufacturer ® Co. FREUDENBERG Germany, item no. 509067
5.2.2 Piping
All ttings used must utilise deformable seals. The recommended torque values must not be exceeded.
© HAWE Hydraulik SE
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5.2.3 Converting the connection block from PSL to PSV
The connection block type PSL 3../D...-2 or PSL UNF 2../ D...-2 can be converted at any time to a connection block for control pump
systems (correct type then type PSV 3 S../D...-2 or PSV UNF 3 S../D..-2). To do so, change or swap the parts listed below.
PSL .../D...-2 PSV ...S/D...-2
1
Dampening screw 7778 301
2
Screw 7997 019
1
Screw 7997 019
NOTE
The screws, grub screw or orice are stuck in with
threadlocker uid. During the conversion process, secure
the parts against coming loose again. If type PSV is to
be converted to type PSL, the existing tapped plug must
also be exchanged for dampening screw S (7778 301) (not
applicable for types PSV 3 S./..-2 or PSV UNF 3 S./..-2, as
there is already one there).
Cut C - C
1
Filter screw 7700 794
2
Screw 7997 019
1
Filter screw 7700 794
Cut D - D
1
Dampening screw 7778 301
2
Tapped plug G 1/8 A NBR
1
Tapped plug G 1/4 A NBR
1
Screw 7997 019
2
Dampening screw 7778 301
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© HAWE Hydraulik SE
5.2.4 Notes on spool valve exchange
The valve spools are not specially adapted to a spool block. This means that spool valves can be exchanged at any time to bring them in
line with any changes in consumer requirements.
In doing so, the following must be observed:
1
End plate side
2
Connection block side
3
Metering ports
Notes on exchanging the valve spool
1 Unscrew screws 1 (ISO 4762-M4x12-8.8-A2-70), take off spring housing
2 Unscrew screw 2 M4x30
3 Take off spring package with spring plates 3
4 Unscrew screws 4 (ISO 4762-M4x35-8.8-A2-70)
5 Pull the lever housing out of the spool block together with the valve spool 5, 6
6 Remove retaining washer DIN 6799-2.3 and bolt 7, 8
7 Proceed in reverse order to reassemble with (new) valve spool
NOTE
When assembled, the valve spool’s metering ports must always face towards the end plate!
Exception: Valve spools with coding 40 do not have metering ports and can be installed any way around.
5.2.5 Seal kits
Connection block: DS 7700-21
Valve section: DS 7700-22
© HAWE Hydraulik SE
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5.3 Operating instructions
Note product configuration and pressure / ow rate
The statements and technical parameters in this documentation must be strictly observed.
The instructions for the complete technical system must also always be followed.
NOTE
Read the documentation carefully before usage.
The documentation must be accessible to the operating and maintenance staff at all times.
Keep documentation up to date after every addition or update.
CAUTION
Risk of injury on overloading components due to incorrect pressure settings!
Risk of minor injury.
Pay attention to the maximum operating pressure of the pump and the valves.
Always monitor the pressure gauge when setting and changing the pressure.
Purity and ltering of the hydraulic uid
Fine contamination can significantly impair the function of the hydraulic component. Contamination can cause irreparable damage.
Examples of ne contamination include:
Metal chips
Rubber particles from hoses and seals
Dirt due to assembly and maintenance
Mechanical debris
Chemical ageing of the hydraulic uid
NOTE
New hydraulic uid from the manufacturer does not necessarily have the required level of purity.
The hydraulic uid must be ltered during lling.
Pay attention to the cleanliness level of the hydraulic uid to maintain faultless operation.
(Also see cleanliness level in Chapter 3, "Parameters").
Additionally applicable document: D 5488/1 Oil recommendations
5.4 Maintenance information
Conduct a visual inspection at regular intervals, but at least once per year, to check if the hydraulic connections are damaged. If
external leakages are found, shut down and repair the system.
Clean the device surface of dust deposits and dirt at regular intervals, but at least once per year.
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Further information
Additional versions
Proportional directional spool valves types PSL/PSV/PSM, size 3: D 7700-3
Proportional directional spool valve, type PSL, PSM and PSV size 5: D 7700-5
Proportional directional spool valve type PSLF, PSVF and SLF: D 7700-F
Proportional directional spool valve banks type PSLF and PSVF size 7: D 7700-7F
Actuation for proportional directional spool valves type PSL/PSV: D 7700 CAN
Proportional directional spool valve type EDL: D 8086
Directional spool valve banks type CWS: D 7951 CWS
D 7700-2 - 09-2021-1.0
HAWE Hydraulik SE
Einsteinring 17 | 85609 Aschheim/Munich | Postfach 11 55 | 85605 Aschheim | Germany
Tel +49 89 379100-1000 | Fax +49 89 379100-91000 | info@hawe.de | www.hawe.com