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Hydraulic Pilot Operated Proportional Valve 4WRLE

Hydraulic Pilot Operated Proportional Valve 4WRLE

1.Reliable

– proven and robust design

2.Safe

– The control spool of the pilot control valve is in the “fail safe” position when the unit is switched off

– The control spool of the main valve is in the spring centered central position and/or in the offset position

3.High quality – control spool and sleeve of the pilot control valve in servo quality

4.Flexible – suitable for position, velocity and pressurecontrol

5.Precise – high response sensitivity and little hysteresis

Detailed description

1.Reliable – With a proven and robust design, the valve has undergone long-term practical verification in various industrial scenarios, featuring strong structural stability and resistance to wear, vibration and harsh working environments, ensuring stable operation without frequent failures and reducing maintenance costs.

2.Safe – When the unit is switched off, the control spool of the pilot control valve automatically stays in the “fail safe” position, effectively preventing potential safety hazards caused by accidental movement of the system. Meanwhile, the control spool of the main valve is designed to be in the spring centered central position and/or offset position, cutting off the oil circuit or maintaining a safe state to further improve the overall safety of the equipment.

3.High quality – The control spool and sleeve of the pilot control valve adopt servo-level quality materials and precision processing technology, ensuring excellent fit, small friction coefficient and long service life, laying a solid foundation for the stable operation of the valve.

4.Flexible – It is widely suitable for position, velocity and pressure control scenarios, and can be flexibly matched with different hydraulic systems according to actual working requirements, adapting to various complex working conditions.

5.Precise – The valve has high response sensitivity, which can quickly respond to control signals, and has little hysteresis, ensuring accurate control of the system, meeting the requirements of high-precision operation in industrial production.

Ordering code

01	02	03	04	05	06	07	08		09		10	11		12	13	14	15	16
4	WRL	E					J	-	4X	/			/		24			*

4 main ports

Directional control valve, pilot-operated

WRL

With integrated electronics (OBE)

04	Size 10	10
	Size 16	16
	Size 25	25
	Size 27	27
	Size 35	35

Symbols e.g. E, E1-, W6- etc.; possible version see page4

Rated flow (Δp = 5 bar/control edge)

06	-Size 10
	60 l/min (only symbol E, E1-, W6-, W8-, V, V1-)	60
	100 l/min	100
	-Size 16
	200 l/min (only symbol W6- and W8-)	200
	250 l/min (only symbol E, E1-, V, V1- and Q3-)	250
	-Size 25
	350 l/min (only symbol W6- and W8-)	350
	400 l/min (only symbol E,E1-, V, V1- and Q3-)	400
	-Size 27
	430 l/min (only symbol W6- and W8-)	430
	600 l/min (only symbol E, E1-, V, V1- and Q3-)	600
	-Size 35
	1000 l/min (only symbol E, E1-, V, V1-)	1000
	1200 l/min (only symbol W6-and W8-)	1200
	1500 l/min (only symbol E, E1-, V, V1- and Q3-)	1500

Flow characteristic

07	Linear	L
	Linear with fine control range (available for NG 10, other sizes on request)	P
	Progressive with linear fine control (only symbol Q3-)	M

Overlap jump (opening point 5% with covered valve; only symbols E, E1-, W6-, W8-)

Component series 40 ... 49 (40 ... 49: unchanged installation and mounting dimensions)

Seal material (observe compatibility of seals with hydraulic fluid used)

10	NBR seals	M
10	FKM seals	V

Pilot oil flow

11	External pilot oil supply, external pilot oil return	XY
	Internal pilot oil supply, external pilot oil return	PY
	Internal pilot oil supply,internal pilot oil return	PT
	External pilot oil supply, internal pilot oil return	XT

12	Without damping plate	without designation
12	With damping plate	D

Supply voltage 24 V

Interfaces of the control electronics

14	Command value input ±10V	A1
	Command value input 4 ... 20 mA	F1
	IO-Link interface	L1
	Command value ±10 mA, actual value 4 ... 20 mA, release (connector 6+PE)	C6

15	Without electronics protection membrane	without designation
15	With electronics protection membrane	-967

For further details, see the plain text

Technical data(For applications outside these values, please consult us!)

General

Size		NG	10	16	25	27	35
Installation position			Any
Ambient temperature range		℃	-20...+60
Maximum storage time		years	1 (if the storage conditions are observed; refer to the operating instructions 07600-B)
Sine test according to DIN EN 60068-2-6	▶Without damping plate		10 ... 2000 Hz/ maximum of 10 g/10 cycles /3 axes
	▶With damping plate ¹⁾		10 ... 2000 Hz/ maximum of 10 g/10 cycles /3 axes
Noise test according to DIN EN 60068-2-64	▶Without damping plate		20 ... 2000 Hz/10 g_RMS /30 g peak /30 min./3 axes
	▶With damping plate ¹⁾		20 ... 2000 Hz/10 g_RMS /30 g peak /24 h/3 axes
Transport shock according to DIN EN 60068-2-27	▶Without damping plate		15 g/11 ms /3 shocks /3 axes
	▶With damping plate ¹⁾		15 g/11 ms /3 shocks /3 axes
Shock according to DIN EN 60068-2-27	▶With damping plate ¹⁾		35 g/6 ms /1000 shocks /3 axes
Weight		kg	9	12	19	21	80
Maximum relative humidity (no condensation)		％	95
Maximum solenoid surface temperature		℃	120 (individual operation)
MTTFa value according to EN ISO 13849		years	75 (for further details see data sheet 08012)
Conformity			▶CE according to EMC directive 2014/30/EU, tested according to EN 61000-6-2 and EN 61000-6-3 ▶RoHS directive 2015/65/EU ▶REACH ordinance (EC) no. 1907/2006

¹⁾Not recommended for applications with mainly low-frequency excitation < 300 Hz

Hydraulic

Size		NG	10		16		25		27		35
Maximum operating pressure	▶Ports A, B, P
	- External pilot oil supply	bar	350						270		350
	- Internal pilot oil supply	bar	280						270		280
	▶Port X	bar	280						270		280
	▶Ports T, Y	bar	250						210		250
Minimum pilot pressure (pilot control valve)		bar	10
Maximum flow		l/min	300		800		1250		1850		4700
Rated flow (Δp = 5 bar/control edge) ²⁾		l/min	60/100		200/250		350/400		430/600		1000/1200/1500
Pilot oil flow³⁾	▶Symbol E, W	l/min	2.4		3.5		7.5				23
	▶Symbol V, Q3-	l/min	4.5		11.5		22				29
Maximum leakage flow (inlet pressure 100 bar)	▶Symbol E, E1- - Main valve	l/min	0.06		0.13		0.17				0.61
	- Main valve + pilot control valve	l/min	0.14		0.28		0.42				1.01
	▶Symbol w6-, W8- - Main valve	l/min	0.12		0.26		0.35				1.23
	- Main valve + pilot control valve	l/min	0.2		0.41		0.6				1.63
Maximum zero flow (inlet pressure 100 bar)	▶Symbol V, V1- - Main valve	l/min	1.7		2.3		2.8		3.3		7.2
	- Main valve + pilot control valve	l/min	1.85		2.6		3.2		3.7		7.65
	▶Symbol Q3- - Main valve	l/min	0.4		1.6		1.8		2.2		1.6
	- Main valve + pilot control valve	l/min	0.55		1.9		2.2		2.6		2.05
Flow unloading central position Δp = 5 bar/control edge			A→T	B→T	A→T	B→T	A→T	B→T	A→T	B→T	A→T	B→T
	▶Symbol W6-	l/min	2.8	2.8	4	4	6	6	6	6	25	25
	▶Symbol W8-	l/min	2.8	1.4	4	2	6	3	6	3	25	12.5
Pilot oil volume	0...100%	cm³	1.3		2.9		6.8		6.8		33..2
Hydraulic fluid			See table
Viscosity range	▶Recommended	mm²/s	20...100
	▶Maximum	mm²/s	10...800
Hydraulic fluid temperature range (flown-through)		℃	-20...+70
Maximum admissible degree of contamination of the hydraulic fluid; cleanliness class according to ISO 4406 (c)			Class 18/16/13⁴⁾

2)Flow for deviating Δp (control edge):q_x=q_Vnom×√(Δp_x/5)

3)At port X and Y with stepped input signal from 0 ... 100% (pilot pressure 100 bar)

4)The cleanliness classes specified for the components must be adhered to in hydraulic systems. Effective filtration prevents faults and simultaneously increases the life cycle of the components.

Hydraulic fluid		Classification	Suitable sealing materials	Standards	Data sheet
Mineral oils		HL,HLP	NBR,FKM	DIN 51524	90220
Bio-degradable	▶Insoluble in water	HETG	FKM	ISO 15380	90221
	▶Insoluble in water	HEES	FKM	ISO 15380
	▶Soluble in water	HEPG	FKM	ISO 15380
Flame-resistant	▶Water-free	HFDU(glycol base)	FKM	ISO 12922	90222
		HFDU(ester base)	FKM
		HFDR	FKM
	▶Containing water	HFC (Fuchs: Hydrotherm 46M, Renosafe 500; Petrofer: Ultra Safe 620; Houghton: Safe 620; Union: Carbide HP5046)	NBR	ISO 12922	90223
Important notices on hydraulic fluids: ▶For further information and data on the use of other hydraulic fluids, please refer to the data sheets above or contact us. ▶There may be limitations regarding the technical valve data(temperature, pressure range, life cycle, maintenance intervals,etc.). ▶The ignition temperature of the hydraulic fluid used must be 50 K higher than the maximum surface temperature. ▶Bio-degradable and flame-resistant-containing water: If components with galvanic zinc coating(e.g. version "J3" or "J5")or parts containing zinc are used, small amounts of dissolved zinc may get into the hydraulic system and cause accelerated aging of the hydraulic fluid. Zinc soap may form as a chemical reaction product, which may clog filters,nozzles and solenoid valves - particularly in connection with local heat in put. ▶Flame-resistant-containing water: －Due to the increased cavitation tendency with HFC hydraulic fluids, the life cycle of the component may be reduced by up to 30 % as compared to the use with mineral oil HLP. In order to reduce the cavitation effect, it is recommended .if possible specific to the installation · to back up the return flow pressure in ports T to approx. 20 % of the pressure differential at the component. －Dependent on the hydraulic fluid used, the maximum ambient and hydraulic fluid temperature must not exceed 50 ℃.In order to reduce the heat input into the component, the command value profile is to be adjusted for proportional and high-response valves.

Static/dynamic

Size		NG	10	16	25	27	35
Hysteresis		%	<0.1
Response sensitivity		%	<0.05
Range of inversion		%	<0.08
Manufacturing tolerance qVmax		%	≤10
Actuating time for 0 ... 100% at X=210 bar	▶Symbols E, E1-, W6-, W8.	ms	25	37	36	36	55
Switch-off behavior(after electricshut-off)	▶Symbols E,E1-, W6-, W8-		Pilot control valve in fail-safe position, main valve movesto overlapped spring-centered central position
	▶Symbol V, V1-		Pilot control valve in fail-safe position, main valve moves to spring-centered "offset position" (approx.6%, P→B/A→T)
	▶Symbol Q3		Pilot control valve in fail-safe position, main valve moves to spring-centered "offset position" (P blocked, A/B to port T open)
Temperature drift (temperature range 20℃ ... 80℃)		%/10℃	Zero shift <0.25
Zero compensation			Ex plant +1%

Electrical,integrated electronics (OBE)- Interface “A1” and “F1”

Relative duty cycle		%	100(continuous operation)
Protection class according to EN 60529			IP 65 with mounted and locked plug-in connectors
Supply voltage		VDC	24
	▶Terminal A	VDC	min.19/max.36
	▶Terminal B	VDC	0
Maximum admissible residual ripple		Vpp	2.5
Maximum power consumption		VA	40
Fuse protection, external		AT	2.5 (time-lag)
Input, version "A1"			Differential amplifier, Ri= 100 kΩ
	▶Terminal D (UE)	VDC	0...±10
	▶Terminal E	VDC	0
Input, version "F1"			Load,Rsh=200Ω
	▶Terminal D (ID-E)	mA	4...20
	▶Terminal E (ID-E)		Current loop ID-E feedback
Maximum voltage of the differential inputs against 0 V			D→B;E→B(max.18 V)
Test signal, version "A1"			LVDT
	▶Terminal F(UTest)	V	0 ... ±10
	▶Terminal C		Reference 0 V
Test signal, version "F1"			LVDT signal 4 .. 20 mA on external load 200 ... 500 0 maximum
	▶Terminal F(IF-C)	mA	4...20
	▶Terminal C(IF-C)		Current loop IF-C feedback
Functional ground and screening			(EMC-compliant installation)
Adjustment			Calibrated in the plant, see valve characteristic curves

Electrical,integrated electronics(OBE)-Interface “L1”

Relative duty cycle		%	100(continuous operation)
Protection class according to EN 60529			IP 65 with mounted and locked plug-in connectors
Supply voltage	▶Valve amplifier	VDC	24
	- Pin 2	VDC	min.18/max.30
	- Pin 5	VDC	0
	▶IO-Link interface	VDC	24
	- Pin 1	VDC	min.18/max.30
	- Pin 3	VDC	0
Maximum current consumption	▶Valve amplifier	A	2
Maximum current consumption	▶IO-Link interface	mA	50
Maximum residual ripple		Vpp	1.3
Maximum current consumption		mA	50
Minimum process cycle time		ms	0.6
Bit rate COM3		kBaud (kbit/s)	230.4
Required master port class			Class B
Resolution	▶A/D transformer	bit	12 (110% valve opening)
Resolution	▶D/A transformer	bit	12 (110% valve opening)
Functionalground			Provide via valve block
Adjustment			Calibrated in the plant
Directive			10-Link Interface and System Specification Version 1.1.2

Electrical,integrated control electronics (OBE)- Interface “C6”

Relative duty cycle		%	100(continuous operation)
Protection class according to EN 60529			IP 65 with mounted and locked plug-in connectors
Supply voltage		VDC	24
	▶Terminal A	VDC	min.19/max.36
	▶Terminal B	VDC	0
Maximum admissible residual ripple		Vpp	2.5
Maximum power consumption		VA	40
Fuse protection, external		A_T	2.5 (time-lag)
Input			Load, R_sh=200Ω
	▶Terminal D (I_D-E)	mA	0...±10
	▶Terminal E (I_D-E)		Current loop I_D-E feedback
Test signal			LVDT signal 4 ... 20 mA on external load 200 ... 500Ω maximum
	▶Terminal F(I_F-B)	mA	4 ... 20
	▶Terminal B(I_F-B)		Current loop lrsfeedback
Functional ground and screening			(EMC-compliant installation)
Adjustment			Calibrated in the plant, see valve characteristic curves