BOSCH REXROTH
R901159344
$17,719.63 USD
- BOSCH REXROTH
- Material:R901159344
- Model:4WSE3E16V300D2X/VXY9/24K31A1
Quantity in stock: 0
The Bosch Rexroth 4WSE3E16V300D2X/VXY9/24K31A1 (R901159344) is a highly sophisticated directional servo valve designed to manage position, force, pressure, and velocity in various applications. This valve features a three-stage design that includes a size 6 pilot control valve with exceptional dynamics and a main stage equipped with an inductive position transducer for accurate control spool positioning. The integrated control electronics ensure precise comparison of the transducer signal with the command value, allowing for immediate correction of any control deviations. Equipped with a high-performance torque motor and hydraulic amplifier based on the nozzle flapper plate principle, this servo valve delivers proportional flow control relative to the electrical input signal. The main control spool's movement is directly influenced by the pilot valve, which itself is governed by electric currents interacting with a permanent magnet to generate precise movements. Notably, this model offers an externally accessible potentiometer for zero-point adjustment and comes factory-set with a dither frequency to optimize performance. Maintenance requirements are minimal as the first-stage filter can be easily replaced from outside, while other servicing tasks should be performed exclusively by Bosch Rexroth specialists to prevent system damage. The 4WSE3E16V300D2X/VXY9/24K31A1 can be mounted on subplates following the ISO pattern and has versatile use as either a 4-way or 3-way version. It boasts gap seals in pressure chambers to reduce wear on O-rings. With its maximum operating pressure of 315 bar and maximum flow rate of up to 300 liters per minute, this servo valve stands out for its high response sensitivity, minimal hysteresis, and stable zero-point operation. Whether used with internal or external pilot oil supplies, this Bosch Rexroth servo valve ensures optimized control loops for demanding hydraulic systems.
Valves of type 4WSE3E... are electrically operated, 3-stage directional servo valves. They are mainly used to control position, force or pressure and velocity.
These valves consist of a 2-stage pilot control valve of type 4WS2EM 6 (1), a main stage with a main control spool in a sleeve (2), an inductive position transducer (3), and the integrated control electronics (4).
The pilot control valve (1) consists of an electro-mechanical converter (torque motor), a hydraulic amplifier (nozzle flapper plate principle) and a pilot spool in a sleeve, which is connected to the torque motor via a mechanical feedback.
Electric currents in the coils of the torque motor generate a force by means of a permanent magnet which acts on the armature, and in connection with a torque tube results in a torque. This causes the flapper plate which is connected to the torque tube via a bolt to move from the central position between the two control nozzles, and a pressure differential is created across the front sides of the pilot control spool. The pressure differential results in the control spool changing its position, which results in the pressure port being connected to one actuator port and, at the same time, the other actuator port being connected to the return flow port.
The pilot control spool is connected to the flapper plate or the torque motor by means of a bending spring (mechanical feedback). The position of the control spool is changed until the flapper plate position and hence the pressure differential across the nozzle flapper plate system becomes zero due to the feedback torque, which acts via the bending spring against the electro-magnetic torque of the torque motor.
In doing so, the stroke of the pilot control spool and hence the flow of the pilot control valve is controlled proportionally to the electrical input signal.
In the main stage, the main control spool (2) is operated by the pilot control valve and its position is sensed by an inductive position transducer (3). The position transducer signal is compared to the command value by integrated control electronics (4). Any possible control deviation is amplified electrically and fed to the pilot control valve as control signal. The pilot control valve starts to move and the main control spool is re-positioned.
The stroke of the main control spool and consequently the flow of the servo valve are controlled proportionally to the command value. It must be noted that the flow depends on the valve pressure differential.
The valve zero point can be adjusted by means of an externally accessible potentiometer.
The valves are set at the factory with a dither default setting with the constant frequency of 400 Hz.
Notice!
Changes in the zero point and/or the dither amplitude may result in damage to the system and may only be implemented by instructed specialists.
The pilot control valve may only be maintained by Bosch Rexroth employees. An exception to this is the replacement of the filter element.
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01 |
02 |
03 |
04 |
05 |
06 |
07 |
08 |
09 |
10 |
11 |
12 |
13 |
14 |
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4WSE3E |
16 |
- |
2X |
/ |
/ |
K31 |
* |
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01 |
3-stage servo valve |
4WSE3E |
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02 |
Size 16 |
16 |
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03 |
Symbols; for the possible version, see "Symbols/Circuit diagrams" |
V, V1 |
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Control spool position in de-energized state |
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04 |
Not defined |
no code |
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100 % P→A / B→T |
P |
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Rated flow at 70 bar valve pressure differential |
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05 |
105 l/min |
100 |
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150 l/min |
150 |
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200 l/min |
200 |
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260 l/min |
300 |
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Control spool overlap |
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06 |
0 ... 0,5 % positiv |
D |
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0 ... 0,5% negativ |
E |
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07 |
Component series 20 ... 29 (20 ... 29: unchanged installation and connection dimensions) - Size 6 |
2X |
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Seal material |
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08 |
FKM seals |
V |
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NBR seals |
M |
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Pilot flow |
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09 |
External pilot oil supply, external pilot oil return |
XY |
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External pilot oil supply, internal pilot oil return |
XT |
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Internal pilot oil supply, external pilot oil return |
PY |
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Pilot oil supply internal, pilot oil return internal |
PT |
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Pressure rating |
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10 |
7 |
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315 bar |
9 |
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Power supply |
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11 |
±15 V |
15 |
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+24 V |
24 |
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Electrical connection |
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12 |
6+PE, ohne Leitungsdose |
K31 |
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Electrical interface |
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13 |
0 ... 10 V |
A1 |
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0 ... 10 mA |
C1 |
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4 ... 20 mA |
F1 1) |
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14 |
Further details in the plain text |
* |
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1) |
Only with +24V supply voltage |
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For applications outside these parameters, please consult us!
general
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Type |
4WSE3E | |
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Size |
16 | |
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Component series |
2X | |
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Porting pattern |
according to ISO 4401 | |
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Installation position |
any - if it is ensured that the pilot control is supplied with sufficient pressure (> 10 bar) during start-up of the system. In case of insufficient pressure supply, the control spool of the servo valve can take any position. This may result in channel P being connected to the actuator and the pressure build-up being delayed. This may be prevented by providing an external pressure supply at port X. | |
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Storage temperature range |
°C |
-20 … +80 |
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Weight |
kg |
9.5 |
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Ambient temperature range |
°C |
-20 … +60 |
hydraulic
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Type |
4WSE3E | |||
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Maximum operating pressure |
bar |
350 | ||
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Maximum operating pressure |
Port A |
Internal pilot oil |
bar |
315 |
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Port B |
Internal pilot oil |
bar |
315 | |
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Port P |
Internal pilot oil |
bar |
315 | |
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Port A |
External pilot oil |
bar |
350 | |
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Port B |
External pilot oil |
bar |
350 | |
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Port P |
External pilot oil |
bar |
350 | |
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Operating pressure range |
Pilot control stage |
Pilot oil supply |
bar |
10 ... 210 bar bzw. 10 ... 315 bar (je nach Druckstufe) |
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Maximum return flow pressure |
Port T |
Pilot oil return, external |
bar |
250 |
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Pilot oil return, internal |
bar |
Pressure peaks < 100, static < 10 | ||
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Port Y |
bar |
Pressure peaks < 100, static < 10 | ||
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Rated flows qv nom at 70 bar valve pressure differential (35 bar/control edge) 1) |
l/min |
105 | ||
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Zero flow |
See characteristic curves | |||
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Hydraulic fluid |
see table | |||
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Hydraulic fluid temperature range |
°C |
-20 … +80 | ||
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preferably |
°C |
+40 … +50 | ||
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Hysteresis (dither-optimized) |
% |
≤ 0.1 | ||
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Range of inversion (dither-optimized) |
% |
≤ 0.05 | ||
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Response sensitivity (dither-optimized) |
% |
≤ 0.05 | ||
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Pressure amplification 2) |
% |
≥ 90 | ||
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Zero shift upon change of |
Hydraulic fluid temperature |
%/10 K |
≤ 0.3 | |
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Ambient temperature |
%/10 K |
≤ 0.3 | ||
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Operating pressure 80 … 120 % of pP |
%/100 bar |
≤ 0.3 | ||
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Return flow pressure 0 … 10 % of pP |
%/100 bar |
≤ 0.3 | ||
| 1) | Tolerance ±10 % with valve pressure differential Δp = 70 bar |
| 2) | of pp with 1 % spool stroke change (from the hydraulic zero point) |
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Hydraulic fluid |
Classification |
Suitable sealing materials |
Standards |
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Mineral oils and related hydrocarbons |
HL, HLP |
NBR / FKM |
DIN 51524 |
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Flame-resistant - containing water |
HFC
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NBR |
ISO 12922 |
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Important information on hydraulic fluids: For more information and data on the use of other hydraulic fluids please contact us. There may be limitations regarding the technical valve data (temperature, pressure range, life cycle, maintenance intervals, etc.).
Flame-resistant – containing water: |
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electrical
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Type |
4WSE3E | |
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Size |
16 | |
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Protection class according to EN 60529 |
IP65 (with mating connector mounted and locked) | |
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Type of signal |
analog | |
(measured with HLP46, ϑOil = 40 ±5 °C)
Flow/load function with maximum valve opening (tolerance ±10 %)
Summated edge Δpv = 70 bar
Single edge Δpv = 35 bar (tolerance ±5 %)
Pressure-signal characteristic curve
Zero flow, total, with “D” overlap (pilot control valve and main stage), tolerance ±20 %
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Zero flow Data valid for overlap "E" |
Pilot control valve L1 |
l/min |
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Complete valve qV |
l/min |
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qvnom |
Rated flow (complete valve) in l/min |
105, 150, 200, 260 |
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pp |
Operating pressure in bar |
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Δp |
Valve pressure differential in bar |
70 |
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qv |
l/min |
100, 150, 200, 300 |
Transition function with pressure rating 210 bar
Frequency response with pp = 210 bar - measured with pressure rating 210 bar
Dependency of the frequency f at -90° of the pilot pressure - measured with 210 bar pressure rating
Transition function with pressure rating 315 bar
Frequency response with pp = 315 bar - measured with pressure rating 315 barbar
Dependency of the frequency f at -90° of the pilot pressure - measured with 315 bar pressure rating
Type 4WSE3E...
Symbol
With control spool symbol V, the following applies:
P → A: qVmax; B → T: qVmax
P → B: qVmax; A → T: qVmax
With control spool symbol V1-, the following applies:
P → A: qVmax; B → T: qV /2
P → B: qV /2; A → T: qVmax
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Electrical interface Pin |
A1 |
C1 |
F1 |
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Current consumption at the mating connector port |
A |
< ±150 mA with ±15 V < 200 mA with 24 V |
< 200 mA with 24 V |
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B |
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D |
0 ... ±0,05 mA |
0 ... ±10 mA |
4 ... 20 mA |
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E |
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Pin assignment |
Contact |
Supply voltage 15 |
Supply voltage 24 |
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Interface |
A1 |
C1 |
A1 |
C1 |
F1 |
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Power supply |
A |
+ 15 VDC |
+ 24 VDC |
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B |
- 15 VDC |
0 VDC |
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M0 |
C |
Reference to A, B 0 VDC |
not assigned |
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Differential command value input |
D |
0 ... ± 10 V; Re > 100 kΩ |
0 ... ± 10 mA; Re = 100 Ω |
0 ... ± 10 V; Re > 100 kΩ |
0 ... ± 10 mA; Re = 100 Ω |
4 ... 20 mA; Re = 100 Ω |
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E |
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Actual value Reference with +24 V is pin B Reference with ±15 V is pin C |
F |
0 ... ± 10 V; Ri ≈ 1 kΩ |
0 ... ±10 mA; load max. 1 kΩ |
0 ... ± 10 V; Ri ≈ 1 kΩ |
0 ... ±10 mA; load max. 1 kΩ |
4 ... 20 mA; load max. 500 Ω |
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Protective earthing conductor |
PE |
connected to valve housing |
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One end of the shield must be connected to the control! |
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Supply voltage:
±15 V ±3 %, residual ripple < 1 %
+24 VDC / 18 ... 35 V; full bridge rectification with smoothing capacitor 2200 μF = Imax = 230 mA
Command value: A1, C1:
Reference potential at E and positive command value at D result in flow from P → A and B → T.
Reference potential at E and negative command value at D result in flow from P → B and A → T.
F1:
Reference potential at E and signal 12 to 20 mA at D result in flow from P → A and B → T.
Reference potential at E and signal 12 to 4 mA at D result in flow from P → B and A → T.
Actual value / measuring output:
The voltage / current signal is proportional to the control spool stroke and has the same sign as the command value.
Connection cable:
Recommendation:
up to 25 m line length: Type LiYCY 7 x 0.75 mm2 up to 50 m line length: Type LiYCY 7 x 1.0 mm2Connect shield to ⊥ only on the supply side.
Notice:
Electrical signals provided via valve electronics (e.g. actual value) must not be used to switch off safety-relevant machine functions!
Block diagram / pin assignment
Dimensions in mm
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1 |
Name plate complete valve |
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2 |
Name plate pilot control valve |
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3 |
Mating connector, separate order |
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4 |
Space required to remove the mating connector |
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5 |
PVC cable not resistant when in contact with HFD-R fluid |
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6 |
Locating pin (2x) G1 and G2 |
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7 |
Cover plate (for transport only) |
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8 |
Pilot control valve (2-stage) |
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9 |
Main stage (3rd stage) |
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10 |
Integrated electronics (OBE) |
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11 |
Identical seal rings for ports A, B, P, and T |
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12 |
Identical seal rings for ports X and Y The ports X and Y are also pressurized in the case of "internal" pilot oil supply |
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13 |
Machined valve contact surface; Porting pattern according to ISO 4401-07-07-0-05 |
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14 |
Exchangeable filter element with seals |
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15 |
Valve mounting screws (included in the scope of delivery): |
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16 |
Hexagon nuts (for transport only) |
Flushing plate with porting pattern according to ISO 4401-07-07-0-05
Dimensions in mm
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1 |
R-ring 10 x 2 x 2 (ports L, X, Y) included in scope of delivery |
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2 |
R-ring 22.53 x 2.30 x 2.62 (ports P, T, A, B) included in scope of delivery |
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3 |
Mounting screws (included in the scope of delivery):2 hexagon socket head cap screws ISO 4762 - M6 x 70- 10.9-flZn-240h-L, MA = 15.5 Nm ± 20 % |
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4 |
Mounting screws (included in the scope of delivery):4 hexagon socket head cap screws ISO 4762 - M10 x 70- 10.9-flZn-240h-L, MA = 75 Nm ± 20 % |
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5 |
2 locating pins 3 x 8 - A2C DIN EN 28741 |
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6 |
Name plate |
To ensure proper operation of the servo valves, it is necessary to flush the system before commissioning.
The following values are guidelines for the flushing time per system: t ≥ V : QV x 5
t = flushing time in h
V = tank capacity in l
QV = Pump flow in l/min
When replenishing more than 10% of the tank capacity, the flushing procedure must be repeated.
The use of a directional valve with port according to ISO 4401-07-07-0-05 is suited better than a flushing plate. With this valve, you can also flush the actuator ports.
Symbol
| 1) | with FKM seals |
| 2) | Material no. R900959376 (without fig.) |
| 3) | Weight: 4.5 kg |
Mating connectors for valves with round connector, 6-pole + PE
7P Z31
Mating connectors for valves with round connector, 6-pole + PE
7P Z31
For valves with round connector according to EN 175201-804, 6-pole + PE as well as 6-pole, compatible with VG 95328Data sheet
Spare parts & repair