4/3-way servo solenoid directional control valves, pilot operated
Transcription
4/3-way servo solenoid directional control valves, pilot operated
4/3-way servo solenoid directional control valves, pilot operated, with electrical position feedback and on-board electronics (OBE) RE 29088/10.10 Replaces: 01.09 1/18 Type 4WRLE 10...35, symbols V/V1 Sizes (NG) 10, 16, 25, 27, 35 Unit series 3X Maximum working pressure P, A, B 350 bar (NG27: 280 bar) Nominal flow 40…1000 l/min (Δp = 10 bar) Type 4WRLE 10...35 List of contents Features Contents Page Features 1 Ordering data 2 – Pilot operated 4/3-way servo solenoid directional control valves NG10 to NG35 – Pilot valve NG6, with control piston and sleeve in servo quality, actuated on one side, 4/4 fail-safe position when switched off Symbols 3 Testing and service equipment 3 Function, sectional diagram 4 – Control solenoid with electric position feedback and on-board electronics (OBE), calibrated at the factory Control oil supply 5 – Main stage in servo quality with position feedback Technical data 6 and 7 Electric connection 8 Technical notes on the cable 8 On-board electronics 9 and 10 Characteristic curves 11 and 12 Unit dimensions 13 to 16 For information regarding the available spare parts see: www.boschrexroth.com/spc – Flow characteristic • M = Progressive with fine metering notch • P = Non-linear curve • L = Linear – Electrical connection 6P+PE Signal input of differential amplifier with interface A1 ±10 V, or interface F1 4...20 mA (Rsh = 200 Ω) 2/18 Bosch Rexroth AG Hydraulics 4WRLE 10...35 RE 29088/10.10 Ordering data 4WRL With on-board electronics 3X G24 M * Further information in plain text = 10 = 16 = 25 = 27 1) = 35 2) Control spool symbols M= AB a 0 A1 = F1 = b PT Interface for trigger electronics Setpoint input ±10 V Setpoint input 4…20 mA Electrical connection without plug-in connector, with plug to DIN 43563-AM6 Order plug-in connector separately B → T: Qv/2 A → T: Qv Nominal flow rate at 10 bar valve pressure difference (5 bar per metering notch) NG10 40 l/min 3) 55 l/min 4) 70 l/min 3) 85 l/min 4) NG16 90 l/min 3) 120 l/min 4) 150 l/min 3) 200 l/min 4) NG25 300 l/min 3) 370 l/min 4) NG27 430 l/min 1) 4) NG35 1000 l/min 2) 4) Seal material NBR seals, suitable for mineral oils (HL, HLP) to DIN 51524 K0 = = V, V1 With V1: P → A: Qv P → B: Qv/2 K0 =E Sizes 4/3-way version E No desig. = E= ET = T= = 40 = 55 = 70 = 85 = 90 = 120 = 150 = 200 = 300 = 370 = 430 = 1000 G24 = 3X = M= P= L= 1) Control oil inlet “x” control oil return “y” “x” = external “y” = external “x” = internal “y” = external “x” = internal “y” = internal “x” = external “y” = internal Power supply of trigger electronics +24 V DC Unit series 30 to 39 (installation and connection dimensions unchanged) Flow characteristic Progressive with linear fine metering Non-linear curve, linear (kink at 40 %) Linear NG27 is a high-flow version of NG25, ports P, A, B and T have ∅ 32 mm in the main stage. Contrary to standard ISO 4401-08-08-0-05, ports P, A, B and T may be drilled to max. ∅ 30 mm in the control block. These valves therefore offer higher flow rates QA : QB 2) NG35 is a high-flow version of NG32, ports P, A, B and T have ∅ 50 mm in the main stage. Contrary to standard ISO 4401-10-09-0-05, ports P, A, B and T may be drilled to max. ∅ 48 mm in the control block. These valves therefore offer higher flow rates QA : QB 3) Q : Flow characteristic “P” N 4) Q : Flow characteristic “M” or “L” N RE 29088/10.10 4WRLE 10...35 Hydraulics 3/18 Bosch Rexroth AG Symbols AB a 0 b PT M: Progressive with fine metering P: Non-linear, linear (40 %) Q Q 20% Ds 20% Testing and service equipment – Service case type VT-VETSY-1 with test device, see data sheet 29685 – Measuring adapter 6P+PE type VT-PA-2, see data sheet 30068 Q 40% 40% L: Linear Ds Ds 4/18 Bosch Rexroth AG Hydraulics 4WRLE 10...35 RE 29088/10.10 Function, sectional diagram Construction The valve consists of three main assemblies: – Pilot valve (1) with control spool and sleeve, return springs, control solenoid and inductive position transducer – Main stage (2) with centering springs and position feedback – On-board trigger electronics (3) 3 1 Pilot valve 1 2 Main stage 3 Trigger electronics 2 T X A P Y B Functional description Power failure When the control solenoid is not actuated, the control spool is held by springs in the fail-safe position, and the main stage spool remains in spring-centered offset position at 1…6 % of the stroke in the direction P-B/A-T. In the on-board electronics, the pre-defined setpoint is compared with the actual value for the position of the main stage control spool. In the event of an error signal, the control solenoid is actuated, and the pilot spool is moved as the magnetic force changes. The flow released through the control cross-sections causes the main control spool to move. The stroke/control cross-section of the main control spool is controlled proportionately to the setpoint. If the input setpoint is 0 V, the electronics move the main stage control spool to mid position. The control oil is conveyed to the pilot valve either internally via port P or externally via port X. The oil returns to the tank internally via port T or externally via port Y. In the event of a power failure or an open circuit, the on-board electronics cut off the electricity to the control solenoid and the pilot spool moves to the fail-safe position, relieving the control oil chambers of the main stage. The main stage control spool is held by springs in the offset position. RE 29088/10.10 4WRLE 10...35 Hydraulics Bosch Rexroth AG 5/18 Control oil supply The pilot valve can be supplied both via ports X and Y (externally) and via the main flow channels P and T. NG16 NG10, 25, 27, 35 Pv Tv X Y Tv Pv Y X T P P Type...–3X... Symbol in detail (external control oil inlet and outlet) G G A B P X b a P T Type...–3X...E... a G b T P AB b a P T Main valve PT A B Type...–3X...ET... 0 Y T G AB Y X G B A Pilot valve b a Y G PT G G A B b a P T Type...–3X...T... G G A B a b P T No designation = E= ET = T= “x” = external “x” = internal “x” = internal “x” = external X “y” = external “y” = external “y” = internal “y” = internal Important Hydraulic symbols are largely derived from the symbols of the switching valves. 4/3-way servo solenoid directional control valves (pilot operated) do not have a closed mid position when switched off! They only perform their function in an active, closed control loop, even if the pilot valve features a fail-safe 4th position. See technical data for details on “switch-off behavior”. 6/18 Bosch Rexroth AG Hydraulics 4WRLE 10...35 RE 29088/10.10 Technical data General Construction Spool type valve, pilot operated Actuation Servo solenoid directional control valve NG6 OBE, with position controller for pilot valve and main stage Type of mounting Subplate, mounting hole configuration NG10...35 to ISO 4401-... Installation position Optional Ambient temperature range °C –20...+50 Weight kg NG10 Vibration resistance, test condition 8.7 NG16 10.6 NG25 18.4 NG27 18.4 NG35 81 Max. 25 g, shaken in 3 dimensions (24 h) Hydraulic (measured with HLP 46, Pressure fluid oil = 40 °C ±5 °C) Hydraulic oil to DIN 51524…535, other fluids after prior consultation Viscosity range recommended mm2/s 20...100 max. permitted mm2/s 10...800 Pressure fluid temperature range °C –20...+70 Maximum permissible degree of contamination of pressure fluid Purity class to ISO 4406 (c) Class 18/16/13 1) Flow direction See symbol NG10 Nominal flow at Δp = 5 bar per notch 2) NG16 l/min 40 55 70 85 90 120 150 200 Ports P, A, B Max. working External control oil inlet pressure Ports P, A, B Internal control oil inlet Ports T, X, Y Min. control oil pressure in “pilot stage” bar 350 350 NG25 300 370 350 bar 250 bar 250 bar 10 NG27 NG35 430 1000 280 350 Qmax l/min 170 450 900 1000 3500 QN pilot valve l/min 4 12 24 24 40 < 180 < 300 < 500 < 500 < 900 < 1000 < 1000 < 1000 < 6000 32 32 90 Nominal flow of pilot valve at 100 bar cm3/min Nominal flow of main stage at 100 bar cm3/min < 400 < 600 Static/Dynamic Hysteresis % < 0.1, scarcely measurable Manufacturing tolerance for Qmax % ≦ 10 Response time for signal change (at X = 100 bar) 0...100 % 25 26 0...10 % 14 15 18 18 40 Response time for signal change (at X = 10 bar) 0...100 % 85 80 120 120 350 50 30 50 50 150 Switch-off behavior 0...10 % After electrical switch-off: Pilot valve in fail-safe Main stage moves to spring-centered “offset position”: 1…6% P-B/A-T Thermal drift Zero point displacement < 1 % at ΔT = 40 °C Zero adjustment Factory-set ±1 % 1) The purity classes stated for the components must be complied with in hydraulic systems. Effective filtration prevents problems and also extends the service life of components. For a selection of filters, see www.boschrexroth.com/filter. Δpx 2) Flow rate at a different Δp Q = Q x nom • 35 RE 29088/10.10 4WRLE 10...35 Hydraulics Bosch Rexroth AG 7/18 Technical data Electric pilot valve NG6, trigger electronics integrated in the valve Cyclic duration factor % 100 ED Degree of protection IP 65 to EN 60529 and IEC 14434/5 Connection Plug-in connector 6P+PE, DIN 43563 Power supply Terminal A: Terminal B: 0 V 24 V DCnom min. 21 V DC/max. 40 V DC Ripple max. 2 V DC Max. power consumption 40 VA External fuse 2,5 AF Input, “Standard” version Terminal D: UE Terminal E: Differential amplifier, Ri = 100 kΩ 0... ±10 V 0V Input, “mA signal” version Terminal D: ID–E Terminal E: ID–E Burden, Rsh = 200 Ω 4...(12)...20 mA Current loop ID–E feedback Max. differential input voltage at 0 V D→B E→B Test signal, “Standard” version Terminal F: UTest Terminal C: LVDT 0...±10 V Reference 0 V Test signal, “mA signal” version Terminal F: IF–C Terminal C: IF–C LVDT signal 4...20 mA at external load 200...500 Ω max. 4...20 mA output Current loop IF–C feedback Protective conductor and screen See pin assignment (CE-compliant installation) Calibration Calibrated at the factory, see valve characteristic curve Electromagnetic compatibility tested according to EN 61000-6-2: 2005-08 EN 61000-6-3: 2007-01 } max. 18 V DC Version A1: Standard Supply Signal LVDT signal 24 V = 0... 10 V 0... 10 V Version F1: mA signal Logic 1 or 2 LVDT Sign. Stage 10 V 10 V NG6/10 Supply 24 V = Signal 4...20 mA LVDT 4...20 mA signal NG6/10 Volt to mA Stroke 10 V Stroke II sign. Mainstage Logic 1 or 2 Stage II sign. Mainstage P-A P-A Stroke P-B –10 V…0…+10 V II sign. DC/DC LVDT signal: ±10 V Important Pilot operated 4/3-way servo solenoid directional control valves only perform their function in an active closed control loop and do not have a fail-safe position when switched off. For this reason, many applications require the use of “external check valves”, which must be taken into account during the On/Off switching sequence. Stroke P-B 4...12...20 mA II sign. DC/DC LVDT signal: ±10 V 8/18 Bosch Rexroth AG Hydraulics 4WRLE 10...35 RE 29088/10.10 Electric connection For electrical data, see page 7 3 1 4 APBT 24 V= 2 1 2 3 4 5 6 5 6 Control Provided by customer Plug-in connector Valve Connecting surface Provided by Rexroth Technical notes on the cable Version: – Multi-wire cable – Extra-finely stranded wire to VDE 0295, Class 6 – Protective conductor, green/yellow – Cu braided screen Types: – e.g. Ölflex-FD 855 CP (from Lappkabel company) No. of wires: – Determined by type of valve, plug types and signal assignment Cable Ø: – 0.75 mm2 to 20 m length 1.0 mm2 to 40 m length Outside Ø: – 9.4...11.8 mm – Pg11 12.7...13.5 mm – Pg16 Note Voltage supply 24 V DCnom., if voltage drops below 18 V DC, rapid shutdown resembling “Enable OFF” takes place internally. In addition, with the “mA signal” version: ID–E ≧ 3 mA – valve is active ID–E ≦ 2 mA – valve is deactivated. Electrical signals emitted via the trigger electronics (e.g. actual values) must not be used to shut down safetyrelevant machine functions! (See European Standard, “Technical Safety Requirements for Fluid-Powered Systems and Components – Hydraulics”, EN 982.) RE 29088/10.10 4WRLE 10...35 Hydraulics Bosch Rexroth AG 9/18 On-board electronics Block diagram/pin assignment Version A1: UD–E ±10 V 2.5 A F +UB +15 V – 15 V DC DC Differential amplifier A B C D 100k E 100k F 10k +24 V= Power supply 0 V Supply zero Reference zero* UD–E 0… + – 10 V Setpoint 0… + – 10 V Actual value Logics Protective conductor Screen +UB –15 V= 1 ref. 0 2 +15 V= 3 Signal 4 + – + – PD PID Main stage 0… + – 10 V * Do not connect to supply zero! Pilot stage Signal UD–E 0...+10 V U U PT AB UD–E 0V s s 4/3-way servo solenoid directional control valve AB UD–E 0...–10 V 4/3-way servo solenoid directional control valve PT AB PT Pin assignment 6P+PE Version A1: UD–E ±10 V (Ri = 100 kΩ) Valve UB +24 V = A + 24 V = 0V B 0V C 0 V 0 V internal (reference zero) 10 V (Signal) Test UE 0 V (Signal) D E F Protective conductor SL 100 k Differential amplifier 100 k 10 k 10 V LVDT signal 10/18 Bosch Rexroth AG Hydraulics 4WRLE 10...35 RE 29088/10.10 On-board electronics Block diagram/pin assignment Version F1: ID–E 4...12...20 mA 2.5 A F + 24 V = Power supply A B C D Rsh 200 V E F 4…20 mA +UB DC +15 V – 15 V DC Differential amplifier Logics 0 V Supply zero IF–C Loop ID–E 4…20 mA IF–C 4…20 mA Test mA Protective conductor V Screen +UB –15 V= 1 ref. 0 2 +15 V= 3 Signal 4 + – + – PD PID Pilot stage Main stage 0…+–10 V Signal ID–E 12...20 mA U ID–E 4...–12 mA AB PT AB PT ID–E ≦ 2 mA: valve inactive 4/3-way servo solenoid directional control valve U PT ID–E 12 mA s s 4/3-way servo solenoid directional control valve AB Pin assignment 6P+PE Version F1: ID–E 4...12...20 mA (Rsh = 200 Ω) Valve UB +24 V = A 0V B C Test I = 4…20 mA Rsh = 200 Ω (max. 500 Ω) IN D OUT E F Protective conductor SL SL +24 V = 0V 10 V Rsh = 200 V 4…20 mA Voltage LVDT signal RE 29088/10.10 4WRLE 10...35 Hydraulics Characteristic curves (measured with HLP 46, Flow rate – signal function oil Bosch Rexroth AG 11/18 = 40 °C ±5 °C) Q = f (UD–E) Q = f (ID–E) Flow characteristic M Flow characteristic P Q (%) 100 P-A B-T(1:1) 80 60 B-T(2:1) Q (%) 100 Calibrated ±1 % 1% 60 40 40 20 -UD–E (V) -10 -8 -6 -4 -2 20 -UD–E (V) -10 -8 -6 -4 -2 2 -20 4 6 8 10 UD–E (V) B-T(2:1) 10% QN 2 -20 10% QN -40 -40 -60 -60 -80 -80 -100 Q (%) -100 Q (%) Version off 2 mA 4 P-A B-T(1:1) 80 20 ID–E (mA) 12 4 6 8 10 UD–E (V) Version off 2 mA 4 20 ID–E (mA) 12 Flow characteristic L Q (%) 100 80 P-A B-T(1:1) 60 B-T(2:1) 40 20 -UD–E (V) -10 -8 -6 -4 -2 2 -20 4 6 8 10 UD–E (V) -40 -60 -80 -100 Q (%) Version off 2 mA 4 20 ID–E (mA) 12 D pB 100 Pressure gain D pA A (%pP) 80 B 60 40 G 20 G A B UD–E (%) –4 –3 a P T Y X b –2 UE –1 1 –20 –40 –60 pP –80 D pB –100 A (%pP) 2 3 4 UD–E (%) 12/18 Bosch Rexroth AG Hydraulics 4WRLE 10...35 Characteristic curves (measured with HLP 46, RE 29088/10.10 = 40 °C ±5 °C) oil Bode diagram w 1 100% Amplitude Phase 20 NG35 A dB B pS = 100 bar w w 5% 100 % Amplitude Phase 20 pS = 100 bar 5% 10 2 0 –2 –4 –6 –8 –10 0% 10 1 200 180 160 140 120 100 80 60 40 20 0 40 60 80 100 200 300 f (Hz) 5% % 100 2 0 –2 –4 –6 –8 –10 10 200 180 160 140 120 100 80 60 40 20 0 40 60 80 100 200 300 f (Hz) Amplitude Phase NG25/27 A dB B w 5% 20 pS = 100 bar % 100 10 5% 1 200 180 160 140 120 100 80 60 40 20 0 40 60 80 100 200 300 f (Hz) 2 0 –2 –4 –6 –8 –10 100 % pS = 100 bar 0% 10 2 0 –2 –4 –6 –8 –10 A dB B 5% A dB B NG16 5% NG10 5% 0% 10 1 10 Amplitude Phase 20 200 180 160 140 120 100 80 60 40 20 0 40 60 80 100 200 300 f (Hz) RE 29088/10.10 4WRLE 10...35 Hydraulics 13/18 Bosch Rexroth AG Unit dimensions NG10 (dimensions in mm) 1 3 2 9 41 46 197 49 210 30 39 81 ø6,6 105 24 X T A P B 33 T Y 102 77 8 167 5 8 7 70 6 5 4 0,01/100 Rzmax 4 10 104 Required surface quality of valve mounting face 72 13 25 F1 A X F2 P B T Y T1 F4 F3 1 Pilot valve 2 O-ring 9.25 x 1.78 (ports P, A, B, T) 3 On-board electronics 4 Main valve 5 Inductive position transducer (main valve) 6 Nameplate 9 Plug-in connector not included in delivery, see data sheet 08008 (order separately) 10 Machined valve contact surface, mounting hole configuration according to ISO 4401-05-05-0-05 Deviates from standard: Ports P, A, B, T, T1 ∅ 10.5 mm Minimum thread depth: Ferrous metal 1.5 x ∅ Non-ferrous 2 x ∅ Subplates, see data sheet 45055 (order separately) Valve fastening bolts (order separately) The following valve fastening bolts are recommended: 4 cheese-head bolts ISO 4762-M6x40-10.9-N67F821 70 (galvanized in accordance with Bosch standard N67F821 70) 7 O-ring 12 x 2 (ports P, A, B, T, T1) Tightening torque MA = 11+3 Nm 8 O-ring 10 x 2 (ports X, Y) Material no. 2910151209 14/18 Bosch Rexroth AG Hydraulics 4WRLE 10...35 RE 29088/10.10 Unit dimensions NG16 (dimensions in mm) 1 3 210 46 B Y 35 34 95 119 A 212 49 17 2 9 ø3 30 3 25 94 150 77 225 302 5 8 7 6 4 Rzmax 4 10 152 0,01/100 26 13 Required surface quality of valve mounting face G1 F5 F2 F1 P 9 Plug-in connector not included in delivery, see data sheet 08008 (order separately) X 10 Machined valve contact surface, mounting hole configuration according to ISO 4401-07-07-0-05 96 T A F4 G2 B F6 Y F3 Deviates from standard: Ports P, A, B, T ∅ 20 mm Minimum thread depth: Ferrous metal 1.5 x ∅ Non-ferrous 2 x ∅ Subplates, see data sheet 45057 (order separately) 1 Pilot valve 2 O-ring 9.25 x 1.78 (ports P, A, B, T) 3 On-board electronics 4 Main valve 5 Inductive position transducer (main valve) Valve fastening bolts (order separately) The following valve fastening bolts are recommended: 2 cheese-head bolts ISO 4762-M6x45-10.9-N67F821 70 (galvanized in accordance with Bosch standard N67F821 70) Tightening torque MA = 11+3 Nm Material no. 2910151211 7 O-ring 23 x 2.5 (ports P, A, B, T) 4 cheese-head bolts ISO 4762-M10x50-10.9-N67F821 70 (galvanized in accordance with Bosch standard N67F821 70) Tightening torque MA = 50+10 Nm 8 O-ring 9 x 2 (ports X, Y) Material no. 2910151301 6 Nameplate RE 29088/10.10 4WRLE 10...35 Hydraulics Bosch Rexroth AG 15/18 Unit dimensions NG25/27 (dimensions in mm) 1 2 9 3 210 46 B 149 A 43 45 125 X 242 49 64 ø6 6 ø13 18 118 57 190 305 77 382 5 8 7 6 4 10 194 0,01/100 20 Rzmax 4 G1 13 F5 Required surface quality of valve mounting face F2 F1 Y P 118 T X F4 A G2 B F6 1 Pilot valve 2 O-ring 9.25 x 1.78 (ports P, A, B, T) 3 On-board electronics 4 Main valve 5 Inductive position transducer (main valve) 6 Nameplate F3 9 Plug-in connector not included in delivery, see data sheet 08008 (order separately) 10 Machined valve contact surface, mounting hole configuration according to ISO 4401-08-08-0-05 Deviates from standard: NG25: Ports P, A, B, T ∅ 25 mm NG27: Ports P, A, B, T ∅ 32 mm Minimum thread depth: Ferrous metal 1.5 x ∅ Non-ferrous 2 x ∅ Subplates, see data sheet 45059 (order separately) Valve fastening bolts (order separately) The following valve fastening bolts are recommended: 7 O-ring (ports P, A, B, T) NG25: 28 x 3 NG27: 34.6 x 2.62 6 cheese-head bolts ISO 4762-M12x60-10.9-N67F821 70 (galvanized in accordance with Bosch standard N67F821 70) Tightening torque NG25 MA = 90+30 Nm, NG27 MA = 90±15 Nm 8 O-ring 15 x 2.5 (ports X, Y) Material no. 2910151354 16/18 Bosch Rexroth AG Hydraulics 4WRLE 10...35 RE 29088/10.10 Unit dimensions NG35 (dimensions in mm) 1 2 9 3 210 X 370 29 49 60 B 225 A ø21 5 60 90 43,2 ø6 77 69 320 458 8 5 200 7 6 4 324 10 45 0,01/100 22 Rzmax 4 F1 F2 F5 G1 Y P 203 T Required surface quality of valve mounting face A 9 Plug-in connector not included in delivery, see data sheet 08008 (order separately) B X F4 G2 F6 1 Pilot valve 2 O-ring 9.25 x 1.78 (ports P, A, B, T) 3 On-board electronics 4 Main valve 5 Inductive position transducer (main valve) F3 10 Machined valve contact surface, mounting hole configuration according to ISO 4401-10-09-0-05 Deviates from standard: Ports P, A, B, T ∅ 48 mm Minimum thread depth: Ferrous metal 1.5 x ∅ Non-ferrous 2 x ∅ Subplates, see data sheet 45060 (order separately) Valve fastening bolts (order separately) The following valve fastening bolts are recommended: 7 O-ring 53.57 x 3.53 (ports P, A, B, T) 6 cheese-head bolts ISO 4762-M20x90-10.9-N67F821 70 (galvanized in accordance with Bosch standard N67F821 70) Tightening torque MA = 450+110 Nm 8 O-ring 15 x 2.5 (ports X, Y) Material no. 2910151532 6 Nameplate RE 29088/10.10 Notes 4WRLE 10...35 Hydraulics Bosch Rexroth AG 17/18 18/18 Bosch Rexroth AG Hydraulics 4WRLE 10...35 RE 29088/10.10 Notes Bosch Rexroth AG Hydraulics Zum Eisengießer 1 97816 Lohr am Main, Germany Telefon +49 (0) 93 52 / 18-0 Telefax +49 (0) 93 52 / 18-23 58 documentation@boschrexroth.de www.boschrexroth.de © This document, as well as the data, specifications and other information set forth in it, are the exclusive property of Bosch Rexroth AG. It may not be reproduced or given to third parties without its consent. The data specified above only serve to describe the product. No statements concerning a certain condition or suitability for a certain application can be derived from our information. The information given does not release the user from the obligation of own judgment and verification. It must be remembered that our products are subject to a natural process of wear and aging. RE 29088/10.10 4WRLE 10...35 Hydraulics Bosch Rexroth AG Notes Bosch Rexroth AG Hydraulics Zum Eisengießer 1 97816 Lohr am Main, Germany Telefon +49 (0) 93 52 / 18-0 Telefax +49 (0) 93 52 / 18-23 58 documentation@boschrexroth.de www.boschrexroth.de © This document, as well as the data, specifications and other information set forth in it, are the exclusive property of Bosch Rexroth AG. It may not be reproduced or given to third parties without its consent. The data specified above only serve to describe the product. No statements concerning a certain condition or suitability for a certain application can be derived from our information. The information given does not release the user from the obligation of own judgment and verification. It must be remembered that our products are subject to a natural process of wear and aging. Bosch Rexroth AG Hydraulics 4WRLE 10...35 RE 29088/10.10 Notes Bosch Rexroth AG Hydraulics Zum Eisengießer 1 97816 Lohr am Main, Germany Telefon +49 (0) 93 52 / 18-0 Telefax +49 (0) 93 52 / 18-23 58 documentation@boschrexroth.de www.boschrexroth.de © This document, as well as the data, specifications and other information set forth in it, are the exclusive property of Bosch Rexroth AG. It may not be reproduced or given to third parties without its consent. The data specified above only serve to describe the product. No statements concerning a certain condition or suitability for a certain application can be derived from our information. The information given does not release the user from the obligation of own judgment and verification. It must be remembered that our products are subject to a natural process of wear and aging.
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