Axial Piston Variable Pump A15VSO

Electric Drives and Controls Hydraulics Linear Motion and Assembly Technologies Pneumatics Service Axial Piston Variable Pump A15VSO RE 92800/03.10 1/32 Datenblatt Data sheet Series 10 Size 280 Nominal pressure 350 bar Peak pressure 420 bar Open circuit Contents Type code for standard program 2 Technical data 5 Power control 10 Displacement control 12 Pressure control 14 Dimensions size 280 18 Dimensions through drive 22 Summary through drive mounting options 27 Combination pumps A15VSO + A15VSO 28 Plugs for solenoids 29 Installation notes 30 General instructions 32 Features Axial piston pump in swashplate design for industrial hydrostatic drives in open circuit operation The flow is proportional to the input drive speed and displacement. By adjusting the swashplate angle it is possible to infinitely vary the the output flow from 0 its maximum value. With the specific control, 100% Mooring function (over centre, operation as a motor) is possible. A wide range of suitable control options with various control and regulating functions for all important applications. The universal through drive is suitable for mounting of gear or axial piston pumps up to the same displacement size i.e. 100 %-through drive capability. Compact design High efficiency High power density Low noise level

2/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Type code for standard program A15VS O / 10 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 Axial piston unit 01 Swash plate design, variable, nominal pressure 350 bar, peak pressure 420 bar A15VS Type of operation 280 02 Pump, open circuit l O Size (NG) 03 Displacement V g max in cm 3 280 Control devices: Basis control 1) 280 Power control fixed setting l LR Override electro-proportional inverse U = 24 V proportional m L4 Displacement control electro-proportional U = 24 V l E2 04 pilot pressure inverse proportional p = 35 bar m H5 Pressure control for one fixed setting l DR side of centre hydraulic remotely operated l DG Pressure control with mooring function 2) fixed setting m MD 05 Additional control: Pressure control 1) (cannot be combined with Basis-pressure control) 3) 280 Without additional control (no code) l Pressure control for one fixed setting l DR side of centre hydraulic remotely operated l DG Additional control: displacement control or unloading 1) (can be combined with Basis-power control only) 280 Without additional displacement control (no code) l 06 Displacement control electro- proportional U = 24 V l E2 pilot pressure inverse proportional p = 35 bar m H5 Additional control: Load-Sensing 1) 3) 280 Without additional Load-Sensing control (no code) l 07 Load-Sensing internal pump pressure fixed setting l S0 = Available m = On request = Not available = Preferred program 1) The Basis control (04) can be combined with at most two additional controls (05, 06, 07) 2) Cannot be combined with E2 and H5 of Additional control: displacement control or unloading (06) 3) Cannot be combined with additional control DR and DG

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 3/32 Type code for standard program A15VS O / 10 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 08 Pressureless initial position and external control pressure supply 4) 280 Maximum swivel angle (V g max ), without external control pressure supply (standard for power and pressure control) Maximum swivel angle (V g max ), with external control pressure supply (integrated shuttle valve) (standard for inverse proportional displacement control) Minimum swivel angle (V g min ), with external control pressure supply (integrated shuttle valve) (standard for proportional displacement control) l l l A B C Plug for solenoids 5) 280 09 Without l 0 HIRSCHMANN-plug l H Swivel angle indicator 280 10 With optical swivel angle indicator l V Series 11 Series 1, index 0 10 Threads for ports and flange connections 280 12 Metric l M 13 Direction of rotation 280 With view on drive shaft clockwise l R counter clockwise m L Seals 280 14 FKM (fluor-caoutchouc) l V Mounting flange 280 15 SAE J744 165-4 (E) l E4 Drive shaft 280 Parallel keyed shaft Ø60 l to DIN 6885 16 Splined shaft W60x2x28x9 l to DIN 5480 B4 A4 Service line connections 280 17 SAE-flange connection A on right side (45 ) l 1 Execution of rotary group 280 18 Optimized for low noise n = 1500 / 1800 rpm (standard) l E = Available m = On request = Not available = Preferred program 4) For description see control devices 5) Plugs for other electric components can deviate

4/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Type code for standard program A15VS O / 10 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 19 Through drive Flange ISO 3019-1 (SAE J744) Splined shaft coupler Mounting version Diameter Symbol 6) Designation Diameter Designation 280 Prepared for through drive, closed with pressure tight cover l U000 A1 5/8 in 9T 16/32DP S2 l A1S2 82-2 (A) A2 5/8 in 9T 16/32DP S2 m A2S2 B1 7/8 in 13T 16/32DP S4 l B1S4 B2 7/8 in 13T 16/32DP S4 m B2S4 101-2 (B) 7/8 in 13T 16/32DP S4 m B5S4 B5 1 in 15T 16/32DP S5 m B5S5 1 1/4 in 14T 12/24DP S7 m C1S7 C1 1 1/2 in 17T 12/24DP S9 m C1S9 127-2 (C) 1 1/4 in 14T 12/24DP S7 l C2S7 C2 1 1/2 in 17T 12/24DP S9 m C2S9 152-4 (D) D4 1 3/4 in 13T 8/16DP T1 m D4T1 2 1/4 in 17T 8/16DP T3 m E4T3 165-4 (E) E4 W60x2x28x9 A4 l E4A4 Flange ISO 3019-2 (metric) Mounting version Splined shaft coupler Diameter Symbol 6) Designation Diameter Designation 280 100-2 L5 1 in 15T 16/32DP S5 m L5S5 160-4 P4 1 1/4 in 14T 12/24DP S7 m P4S7 180-4 R4 1 1/2 in 17T 12/24DP S9 m R4S9 1 3/4 in 13T 8/16 DP T1 m R4T1 Pressure sensors and other sensors 280 20 Without l 0 21 Standard-/special version Standard version 0 Special version combined with attachment part or mounted pump Note Short designation X refers to a special version not covered by the ordering code. K S = Available m = On request = Not available = Preferred program 6) Layout of threaded bolt holes viewing on through drive end

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 5/32 Technical data Hydraulic fluid For extensive information on the selection of hydraulic fluids and application conditions consult our data sheet RE 90220 (mineral oil). The variable pump A15VSO has been released for operation on mineral oils. For operation on ecologically acceptable fluids or HF-fluids please consult us. When ordering please state the fluid to be used. Selection diagram -40 1600-20 0 20 40 60 80 100 1600 1000 600 400 Viscosity ν in mm 2 /s 200 100 60 40 20 10 VG 22 VG 32 VG 46 VG 68 VG 100 36 16 ν opt Notes on the selection of hydraulic fluids In order to select the correct fluid, it is necessary to know the operating temperature in relation to the ambient temperature: in an open circuit the tank temperature. The hydraulic fluid should be selected so that within the operating temperature range, the viscosity lies within the optimum range (ν opt ); see shaded section in the selection diagram. We recommend, that the higher viscosity grade is selected in each case. Example: at an ambient temperature of X C the operating temperature in the tank is 60 C. In the optimum viscosity range (ν opt ; shaded area), this corresponds to grades VG 46 or VG 68; select: VG 68. Important The case drain temperature is influenced by pressure and speed, and is always higher than the tank temperature. At no point in the system may the temperature be higher than 110 C, however. For the viscosity conditions in the bearing area, the temperature difference as stated below must be observed. If the above conditions, due to extreme operating parameters cannot be met, please consult us. 5 5-40 -25-10 0 10 30 50 70 90 115 Temperature t in C t min = -40 C Fluid temperature range t max = +115 C Viscosity and temperatue Viscosity [mm 2 /s] Temperature Remark Transport + storage T min -50 C T opt = +5 C to +20 C to 12 months with factory made preservation to 24 months with factory made long-time preservation (Cold) Start 1) n max = 1600 T St -40 C t 3 min, light load (20 bar 50 bar), n 1000 rpm permissible temperature DT 25 K between axial piston unit and fluid difference Warm-up phase n = 1600 to 400 T = -40 C to -25 C at p nom, 0.5 n nom and t 15 min Operating phase Temperature difference DT = ca. 5 K Continuous operation n = 400 to 10 T = -25 C to + 90 C n opt = 16 to 36 Short-time operation n min = 5 T max = +115 C t < 3 min, p < 0.3 p nom Shaft seal FKM 1) T +115 C see page 6 The fluid temperature in the bearing area (influenced by pressure and speed) is approx. 5 K higher than the case drain fluid at port T. no restriction within the permissible data 1) At temperatures below -25 C a NBR shaft seal is necessary (permissible temperature range: -40 C to +90 C)

6/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Technical data Filtration The finer the filtration, the better the achieved cleanliness of the fluid and the longer the life of the axial piston unit. In order to guarantee a reliable function of the axial piston unit it is necessary to carry out a gravimetric evaluation of the fluid to determine the particle contamination and the cleanliness class to ISO 4406. A minimum cleanliness class of 20/18/15 is necessary. At very high fluid temperatures (90 C to maximum 115 C) a cleanliness class of at least 19/17/14 to ISO 4406 is required. Case drain pressure The case drain pressure at ports T 1 to T 3 may not be higher than max. 1.2 bar above the inlet pressure at port S, however in any case not higher than p L abs. max 4 bar. A case drain line to the tank is required. Temperature range of the shaft seal The FKM (fluor-caoutchouc) shaft seal is permissible for fluid temperatures of -25 C to +115 C. Note For applications below -25 C a NBR (nitrile rubber) shaft seal is required (permissible temperature range: -40 C to +90 C). Please state in clear text NBR shaft seal when ordering. Please consult us.

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 7/32 Technical data Operating pressure range Pressure at port A for service line Nominal pressure p nom 350 bar absolute Peak pressure p max 420 bar absolute Individual operating period 10 s Total operating period 300 h Minimum pressure (at outlet pressure side)_15 bar absolute For lower pressures please consult us. Rate of pressure change R A 16000 bar/s Pressure p p nom Dp Dt Definition Nominal pressure p nom The nominal pressure corresponds to the maximum design pressure. Peak pressure p max The peak pressure corresponds to the maximum operating pressure within the individual operating periods. The sum of all individual operating periods may not exceed the total operating period. Minimum pressure (outlet pressure side) Minimum pressure at pressure port A, necessary to avoid damage to the axial piston unit. Rate of pressure change R A Maximum permissible rate of pressure increase and decrease during a change of pressure over the total pressure range (R A = p / t) Time t Pressure p t 2 Individual operating period t 1 t n Peak pressure p max Nominal pressure p nom Pressure at port S (inflow) Minimum inlet pressure p S min 0.8 bar absolute Maximum inlet pressure p S max 30 bar absolute Maximum permissible speed (speed limit) Permissible speed through increase of inlet pressure p abs at the inlet port S or through V g V g max Speed n / nnom 1.2 1.1 1.0 0.9 0.6 0.7 0.8 0.9 1.0 1.2 1.0 0.8 Inlet pressure pabs [bar] Minimum pressure (at outlet pressure side) Total operating period = t 1 + t 2 +... + t n Time t Displacement V g / V g max Minimum inlet pressure In order to avoid damage to the axial piston pump, it must be assured, that there is a minimum inlet pressure at the suction port S. This minimum inlet pressure depends on the displacement and drive speed of the axial piston pump.

8/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Technical data Table of values (theoretical values, without considering efficiencies and tolerances; values rounded) Size NG 280 Displacement V g max cm 3 280.0 Speed V g min cm 3 0 1) maximum at V g max 2) n nom rpm 1800 maximum at V g V g max 3) n max rpm 2300 Flow at n nom and V g max q v max L/min 504 Power at n nom, V g max and Dp = 350 bar P max kw 294 Torque at V g max and p = 350 bar T max Nm 1560 Torsional stiffness Drive shaft A4 c knm/rad 664 Drive Shaft B4 c knm/rad 620 Moment of inertia rotary group J TW kgm 2 0.097 Angular acceleration maximum 4) a rad/s 2 4200 Case volume V L 6.5 Weight (approx.) m kg 143 1) Mooring function (over centre operation) is possible up to -100% of V g max 2) Nominal speed in self priming condition at an absolute pressure (p abs ) of 1.0 bar at inlet port S and mineral operating medium with a density of 0.88 kg/l. 3) The values are valid for V g V g max or increase of inlet pressure p abs at the inlet port S (see diagram page 7) 4) The range of validity lies between the minimum required and the maximum permissible drive speed. Valid for external excitation (eg. 2- to 8-fold rotary frequency, cardan shaft 2-fold rotary frequency). The limiting value is only valid for a single pump. The loading capacity of the connecting parts must be considered. Note Exceeding the maximum values or falling below the minimum permissible values can lead to a loss of function, a reduction in operational service life or total destruction of the axial piston unit. We recommend to check the loads through tests or calculation / simulation and comparison with the permissible values. Determination of operating characteristics Flow q v = Torque T = Power P = V g n η v 1000 V g Δp 20 π η mh [L/min] [Nm] 2 π T n = q v Δp [kw] 60000 600 η t V g = Displacement per revolution in cm 3 Δp = Differential pressure in bar n = Speed in rpm η v = Volumetric efficiency η mh = Mechanical-hydraulic efficiency η t = Overall efficiency (n t = n v n mh )

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 9/32 Technical data Permissible radial and axial forces on the drive shaft The stated values represent the maximum forces and are not permitted for a continuous operation Size NG 280 280 Drive shaft ø60 W60 Radial force, max. at distance a (from shaft collar) a F q Fq max N 20000 17500 a mm 52.5 29 Axial force max. + + F ax max N F ax - F ax max N ± 1000 Please note: Driving the pump with a belt requires special conditions. Please consult us. The influence of the direction of the force: + F ax max = Increase of bearing life F ax max = Decrease of bearing life (avoid) Permissible input and through drive torques Size NG 280 Torque at V g max and Dp = 350 bar) 1) T Max Nm 1560 Input torque for drive shaft, maximum 2) B4 ø60 T E Max Nm 2800 A4 W60x2x28x9 T E Max Nm 3500 Through drive torque maximum T D Max Nm 1950 1) Without considering efficiency 2) For drive shafts without radial load Distribution of torques T A1 T A2 T E 1st pump 2nd pump T D

10/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Power control LR Power control The power control adjusts the pump displacement in relation to the operating pressure in such a manner, that a given drive power at constant drive speed is not exceeded. p B = Operating pressure p B V g = konstant V g = Displacement This precise control along the hyperbolic control characteristic permits an optimum utilisation of drive power. The operating pressure acts on a lever mechanism via the measuring spool, which moves along with the displacement control mechanism. It is offset by an externally set spring force which determines the power setting. The pressureless initial position is V g max. When the operating pressure exceeds the set spring force, the power control pilot valve is actuated via the lever mechanism and the pump swivels from the initial position V g max back to a smaller displacement V g min. This in turn reduces the effective moment on the lever mechanism and the operating pressure can increase in the same ratio by which the pump displacement is reduced (p B V g = constant). The hydraulic output power (control curve LR) is influenced by pump efficiency. Please state in clear text when ordering: Drive power P in kw Drive speed n in rpm Max. flow qv max in L/min After clarification of the details we can compute a suitable power control characteristic. Schematic LR LR M A A P S M S M T 1 T 2 T 3 Characteristic: LR 350 bar Operating pressure pb [bar] Setting range of control begin 50 bar V g min displacement V g max

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 11/32 S M S M T 1 T 2 T 3 Power control L4 Electro-proportional override (inverse proportional) A control current signal acts via a proportional solenoid against the spring setting of the power control. The mechanically set power level can be changed by reducing the control current to the solenoid. Increasing control current = power decrease. For control of the proportional solenoid the following control units and amplifiers are available. See also in the internet under www.boschrexroth.com/industrial-hydraulics-catalog/ Recommended amplifiers for industrial applications: Analog amplifier VT-VSPA1-1 RE 30111 Digital amplifier VT-VSPD-1 RE 30523 Technical data solenoid Schematic L4 M A A P L3/4 L4 Voltage 24 V (±20 %) Control current in the proportional control range Beginning of control 200 ma End of control = Nominal current 600 ma Current limit 0.77 A Nom. resistance (at 20 C) 22.7 Ω PWM 1) frequency 100 Hz Duty cycle 100 % Type of protection see plug details page 29 1) Pulse width modulation Please state in clear text when ordering: Drive power P in kw at beginning of control Drive speed n in rpm Max. flow qv max in L/min Change of control begin in bar with variation of control current from minimum to maximum. Size p control begin in the adjustment range of 200 ma to 600 ma 280 198 bar Note Operating conditions without current: Control begin +50 bar Overview of power curves through overriding currents Effect of power override through current increase operating pressure pb [bar] 50 S M S M T 1 T 2 T 3 V g min displacement V g max I L4

12/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Displacement control E2 Electro proportional override The electric displacement control with a proportional solenoid adjusts the pump displacement stepless and proportional to the current via the solenoid force. Initial position without current signal is V g min ; this corresponds with the mechanical pressureless initial position V g min (see type code 08). Adjustment with increasing current signal from V g min to V g max With increasing control current the pump swivels to a larger displacement. The necessary control fluid is taken out of the pump outlet pressure side or from an external control pressure supply to port P. In order to bring the pump at low output pressure out of it s initial center position it is necessary to supply an external control pressure of at least 30 bar, but not more than 50 bar to port P. Note: Without the supply of external control pressure to P it is necessary to order the execution "Maximum swivel angle (V g max ), without external control pressure supply (see type code pos. 08, A). Important: Mounting of a pump with E.-control inside the reservoir is only permitted when using mineral hydraulic fluid with a temperature of maximum 80 C. For control of the proportional solenoid the following control units and amplifiers are available. See also in the internet under www.boschrexroth.com/industrial-hydraulics-catalog/ Recommended amplifier for industrial applications: Analog amplifier VT-VSPA1-1 RE 30111 Digital amplifier VT-VSPD-1 RE 30523 Technical data, solenoid E2 Voltage 24 V (±20 %) Control current Beginning of control at V g min End of control at V g max Current limit Nom. voltage (at 20 C) PWM 1) frequency 200 ma 600 ma 0.77 A 22.7 Ω 100 Hz Duty cycle 100 % Type of protection see plug details page 29 1) Pulse width modulation Characteristic E2 Control current I [ma] 770 600 400 200 Schematic E2 Note M A 0 0.5 1.0 V g min Displacement V g max A P S M S M T 1 T 2 T 3 The spring return feature in the controller is not a safety device The spool valve inside the control can get stuck in a non defined position (fluid contamination, wear particles or contamination from system components). Through this, the pump flow will not follow the operator commands anymore. Make sure to install an effective emergency overriding device (eg. emergency stop). When ordering please state in clear text: Drive speed in rpm Max. flow qv max in L/min

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 13/32 Displacement control H5 Inverse proportional override of pilot pressure dependent displacement control The pilot pressure dependent control adjusts the pump displacement stepless and inverse proportionally to the pilot pressure at port H5. Initial position without pilot pressure signal is V g max ; this corresponds with the mechanical pressureless initial position V g max (see type code pos. 08). Maximum permissible pilot pressure p St max = 100 bar Schematic H5 H5 Adjustment takes place from V g max to V g min With increasing pilot pressure the pump swivels to a smaller displacement. When ordering state beginning of control in clear text. The necessary control fluid is taken out of the pump outlet pressure side or from an external control pressure supply to port P. In order to bring the pump at low output pressure out of it s initial center position it is necessary to supply an external control pressure of at least 30 bar, but not more than 50 bar to port P. Note Without an external control pressure to port P the pump version without shuttle valve must be ordered (see type code pos. 08, A). Characteristic: H5 (inverse proportional) Pilot pressure curve V g max to V g min p = 35 bar Pilot pressure pst [bar] 45 40 35 30 25 20 15 10 4 Note M A A P S M S M T 1 T 2 T 3 The spring return feature in the controller is not a safety device The spool valve inside the control can get stuck in a non defined position (fluid contamination, wear particles or contamination from system components). Through this, the pump flow will not follow the operator commands anymore. Make sure to install an effective emergency overriding device (eg. emergency stop). 0 0.5 1.0 Displacement V g min When ordering state in clear text: Drive speed n in rpm Max. flow qv max in L/min V g max

S MS M T 1 T 2 T 3 S M S M T 1 T 2 T 3 14/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Pressure control DR Pressure control L3/4 The pressure control limits the maximum pump output pressure within the control range of the pump. This maximum pressure level can be set at the integrated control valve. When reaching this preset pressure level, the pump destrokes and supplies only the amount of fluid as needed by the hydraulic users (actuators). Initial position in pressureless condition: V g max Setting range from 50 to 350 bar. Schematic DR DR Characteristic: M DR A A P Operating pressure pb [bar] max 350 Setting range S M S M T 1 T 2 T 3 50 min 0 V g min Displacement V g max M A A P S M S M T 1 T 2 T 3 Hydraulic V g min -stop: when reaching a minimum position, the hydr. V g min -stop opens the valve outlet to the case leakage drain area and thus dampens the pressure controller. This reduces a possible overshoot When ordering please state in clear text: Pressure setting p in bar Drive speed n in rpm Max. flow qv max in L/min

CR PR CR PR RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 15/32 Pressure control DRS0 Pressure control with Load-Sensing The Load-Sensing controller operates as a load pressure independent flow control and adapts the pump displacement to the actual required M A A Pflow at the consumer. The pump flow depends here on the cross section of a measuring orifice (1), installed between pump and hydraulic consumer. Below the pressure control setting and within the control range of the pump the flow is independent of the load pressure. The measuring orifice is normally a Load-Sensing directional valve (Valve block). The valve spool position determines the size of the cross section opening and thereby the pump flow. S M S M T 1 T 2 T 3 The Load-Sensing-controller compares the pressures upstream and downstream of the measuring orifice and keeps the pressure drop (differential pressure p) and thus the corresponding flow constant. An increase of the differential pressure p at the measuring orifice causes the pump to destroke DR (towards V g min ), and a decrease of the p causes the pump to swivel to a higher displacement (towards V g max ), till the balance at the measuring orifice has been restored. p measuring orifice = p pump p consumer Setting range for p 14 to 30 bar (please state in clear text). Standard setting 14 bar The stand-by pressue at pump center position (measuring orifice closed) is a bit higher than the p-setting. Hydraulic MV Ag A min P-stop: when reaching a minimum position, the hydr. V g min -stop opens the valve outlet to the case leakage drain area and thus dampens the pressure controller. This reduces a possible overshoot. When ordering please state in clear text: Pressure control setting Vg DR max Load-Sensing differential pressure Dp in bar S M S M T 1 T 2 T 3 Drive speed in rpm Max. flow qv max in L/min Characteristic: DRS0 Operating pressure pb [bar] 350 max M A A P 50 14 min 0 S M S M T 1 T 2 T 3 V g min Displacement V g max Schematic DRS0 (1) M A A P DRS0 S M S M T 1 T 2 T 3 (1) The measuring orifice (control valve block) is not included in the supply of the pump. X M A

16/32 Bosch Rexroth AG PR A15VSO L5 Series 10 RE 92800/03.10 PR L5 Pressure control DG Pressure control hydraulic, remotely operated The remotely operated pressure control has a fixed Dp setting. Via a separate pilot pressure relief valve (1), connected to port X, the pressure control can be remotely operated. Setting range Dp M A Afrom14 P to 25 bar. Recommended setting 20 bar Control fluid flow at X: approx. 1.6 l/min Vg (static) min at Dp 20 bar By energizing an additional separately mounted 2/2 direction valve (2) it is also possible to start the pump at low outlet pressure (stand-by pressure). Both functions can be used either separately or in conjunction with each other (see S M S schematic). M T 1 T 2 T 3 The external valves are not included in the pump supply. As a separate pressure relief valve (1) we recommend: DBD.6 see RE 25402 Hydraulic V g min -stop: DRS0 when reaching a minimum position, the hydr. V g min -stop opens X the valve outlet to the case leakage drain area and thus dampens the pressure controller. This reduces a possible overshoot When ordering please state in clear text: Operating pressure p in bar (test pressure DG) Differential pressure Dp in bar Drive speed n in rpm Max. flow qv max in L/min Note to the setting M A A P of the remotely operated pressure control The overall value of the pressure control Vg level min is the sum of the relief valve setting plus the setting of the differential pressure. Example: External pressure relief valve 330 bar Differential pressure controller 20 bar S M S M T 1 T 2 T 3 results in a pressure control level 330 + 20 = 350 bar Characteristic: DG Operating pressure pb [bar] max. 350 Setting range M A A P 20 Dp pressure controller 0 V g min Displacement V g max Function and S description M S of pressure M Tcontrol 1 T 2 T 3 DR see page14. Schematic DG M A A P (2) (1) X S M S M T 1 T 2 T 3 M A A P S M S

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 17/32

18/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Dimensions size 280 LRDRS0, clockwise rotation Power control with pressure control and Load-Sensing Before finalizing your design, request a binding installation drawing. Dimensions in mm. 34 1 165 +1 3.4 1) T1 208.3 156.4 140 8.1 1) Z 262.5 224.5 10 20.6 45 193.1 1) T2 324 S 224.5 262.5 387 332 261.4 Partial view X S 69.9 +0.2 0.2 165.1-0.05 15.9-0.5 154.5 150 X T3 80 122 141.5 M12; 22 22 deep tief Partial view W 36.5 +0.2 0.2 ø90 A 120.7 +0.2 0.2 MS 66 140 T1 A ø38 317 79.4 +0.2 0.2 Partial view Z Thread for eye bolt W 15 A MA 144 142 P 45 121 162 +0.2 0.2 135 Optical swivel angle indicator M 62 5 50 X S 1) Centre of gravity

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 19/32 Dimensions size 280 Drive shafts Before finalizing your design, request a binding installation drawing. Dimensions in mm. B4 Parallel keyed shaft to DIN 6885 A4 Splined shaft DIN 5480 W60x2x28x9 ø90.4 64 ø60 m6 M20x2.5 1) 2) 15 42 105 ø70 h9 ø90.4 M20x2.5 1 ) 2 ) 15 42 58 ø70 h9 112.9 47 66 Ports Designation Port for Standard Size 1) Peak pressure State [bar] 2) A Service line SAE J518 3) 1 1/2 in 420 O Fixing thread DIN 13 M16 x 2; 24 deep O S Suction SAE J518 3) 3 1/2 in 30 O Fixing thread DIN 13 M16 x 2; 24 deep O T 1 Tank ISO 6149 4) M42 x 2; 19.5 deep 10 O 5) T 2 Tank ISO 6149 4) M42 x 2; 19.5 deep 10 X 5) T 3 Tank ISO 6149 4) M42 x 2; 19.5 deep 10 X 5) H 5 (only with H 5 ) ISO 6149 4) M14x1.5; 11.5 deep 100 O M Measuring control pressure ISO 6149 4) M14 x 1.5; 11.5 deep 420 X M A Measuring pressure A ISO 6149 4) M14 x 1.5; 11.5 deep 420 X M S Measuring inlet (suction) pressure ISO 6149 4) M14 x 1.5; 11.5 deep 30 X P Control pressure (type code B, C with external pressure ISO 6149 4) M14 x 1.5; 11.5 deep 420 O supply) Control pressure (type code A without external pressure ISO 6149 4) M14 x 1.5; 11.5 deep 420 X supply) X Pilot signal ISO 6149 4) M14 x 1.5; 11.5 deep 420 O Z Pilot signal ISO 6149 4) M14 x 1.5; 11.5 deep 40 O 1) For the maximum tightenig torques the general information on page 32 must be observed 2) Dependent on the application momentary pressure spikes can occur. Take this into consideration when selecting the measuring devices or fittings. 3) Metric fixing thread deviates from standard 4) The spot face can be deeper than specified in the appropriate standard. 5) Depending on the mounting position, T 1 or T 2 must be connected (see also page 30, 31) O = Must be connected (closed on delivery) X = Closed (under normal operation)

20/32 Bosch Rexroth AG RE 92800/03.10 A15VSO Series 10 Dimensions size 280 Before finalizing your design, request a binding installation drawing. Dimensions in mm. (Clockwise rotation) LR L4 Power control, fixed setting Power control with electro-proportional override 144 368.5 368.5 144 208.3 208.3 E2 H5 Displacement control, electro-proportional 20 110.9 20 184.9 Displacement control, proportional pilot pressure 327.9 327.9 149.4 102.9 319.5 55 150 146.5 29.5 P 150 39 P 146.5 319.5 159.4 222.4 H1-6 222.4 84.9 H1-6 DR DG Pressure control, fixed setting Pressure control, hydraulic remotely operated 144 350.9 208.3 184.9 144 259.9 20 X 208.3 192.7 349.8 184.9 122 20 X

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 21/32 Dimensions size 280 MD Pressure control with mooring function Before finalizing your design, request a binding installation drawing. Dimensions in mm. In preparation

22/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Dimensions through drive Before finalizing your design, request a binding installation drawing. Dimensions in mm. Flange SAE J744 Coupler for splined shaft 1) Mounted version Symbol 2) Diameter Designation Designation 280 Prepared for through drive, closed with pressure tight cover l U000 A1 5/8in 9T 16/32DP S2 l A1S2 82-2 (A) A2 5/8in 9T 16/32DP S2 m A2S2 B1 7/8in 13T 16/32DP S4 l B1S4 B2 7/8in 13T 16/32DP S4 m B2S4 101-2 (B) 7/8in 13T 16/32DP S4 m B5S4 B5 1in 15T 16/32DP S5 m B5S5 82-2 (A) Size A1 A2 A3 A4 A5 280 In preparation 101-2 (B) Size A1 A3 A4 A5 A5 3) 280 414 10.6 44.7 O-Ring 4) M12 x 1.75; 18 deep 146 Ø101.6 +0.05 +0.02 A4 A1 (to mounting flange) A3 1) Coupler for splined shaft to ANSI B92.1a-1976, 30 pressure angle, flat base, flank centering, fit class 5 2) Layout of threaded bolt holes, viewing on through drive 3) Thread to DIN 13, for the maximum tightening torques observe the general information on page 32. 4) O-Ring is included with the delivery

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 23/32 Dimensions through drive Before finalizing your design, request a binding installation drawing. Dimensions in mm. Flange SAE J744 Coupler fore splined shaft 1) 127-2 (C) Mounted version Symbol 2) C1 C2 Diameter Designation Designation 280 1 1/4in 14T 12/24DP S7 m C1S7 1 1/2in 17T 12/24DP S9 m C1S9 1 1/4in 14T 12/24DP S7 l C2S7 1 1/2in 17T 12/24DP S9 m C2S9 152-4 (D) D4 1 3/4in 13T 8/16DP T1 m D4T1 127-2 (C) Size A1 A2 A3 A4 A5 A5 3) O-Ring 4) 280 387 10 18.5 59.4 M16 x 2; 26 deep ø127 +0.05 +0.02 181 A2 A3 A4 A1 (to mounting flange) 152-4 (D) Size A1 A2 A3 A4 A5 280 In preparation 1) Coupler for splined shaft to ANSI B92.1a-1976, 30 pressure angle, flat base, flank centering, fit class 5 2) Layout of threaded bolt holes, viewing on through drive 3) Thread to DIN 13, for the maximum tightening torques observe the general information on page 32. 4) O-Ring is included with the delivery

24/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Dimensions through drive Before finalizing your design, request a binding installation drawing. Dimensions in mm. Flange SAE J744 Coupler for splined shaft 1) Mounted version Symbol 2) Diameter Designation Designation 280 165-4 (E) E4 W60x2x28x9g A4 l E4A4 165-4 (E) Size A1 A2 A4 A5 3) A5 280 417 17 68.1 M20; 30 deep O-Ring 4) 224.5 ø165 +0.07 +0.02 224.5 A2 A4 A1 (to mounting flange) 1) Coupler for splined shaft to ANSI B92.1a-1976, 30 pressure angle, flat base, flank centering, fit class 5 2) Layout of threaded boltholes, viewing on through drive 3) Thread to DIN 13, for the maximum tightening torques observe the general information on page 32. 4) O-Ring is included with the delivery

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 25/32 Dimensions through drive Before finalizing your design, request a binding installation drawing. Dimensions in mm. Flange ISO3019-2 Coupler for splined shaft 1) Mounted version Symbol 2) Diameter Designation Designation 100-2 L5 1 in 15T 16/32DP S5 m L5S5 160-4 P4 1 1/4 in 14T 12/24DP S7 m P4S7 100-2 Size A1 A2 A3 A4 A5 280 280 In preparation 160-4 Size A1 A2 A3 A4 A5 280 In preparation 1) Coupler for splined shaft to ANSI B92.1a-1976, 30 pressure angle, flat base, flank centering, fit class 5 2) Layout of threaded bolt holes, viewing on through drive 3) Thread to DIN 13, for the maximum tightening torques observe the general information on page 32. 4) O-Ring is included with the delivery

26/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Dimensions through drive Flange ISO3019-2 Coupler for splined shaft 1) Mounted version Symbol 2) 180-4 R4 Diameter Designation Designation 1 1/2 in 17T 12/24DP S9 m R4S9 1 3/4 in 13T 8/16 DP T1 m R4T1 280 180-4 Size A1 A2 A3 A4 A5 280 In preparation 1) Coupler for splined shaft to ANSI B92.1a-1976, 30 pressure angle, flat base, flank centering, fit class 5 2) Layout of threaded bolt hloles, viewing on through drive 3) Thread to DIN 13, for the maximum tightening torques observe the general information on page 32. 4) O-Ring is included with the delivery

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 27/32 Summary through drive mounting options Through drive A15VSO 1) Coupler for Flange splined shaft ISO 3019-1 (SAE J744) 82-2 (A) 101-2 (B) Designation A15VSO NG (shaft) A4VSO NG (shaft) Mounting option - 2nd pump A10VSO/32 NG (shaft) 5/8 in A1S2 5/8 in A2S2 A10VO/53 NG (shaft) 7/8 in B1S4 28 (S)/31 28 (S) 7/8 in B2S4 28 (S)/31 28 (S) 7/8 in B5S4 28 (S)/31 28 (S) Gear pump AZ-PF-1X- 004...022 2) AZ-PF-1X- 004...022 2) AZ-PN-1X- 020...032 2) AZ-PN-1X- 020...032 2) AZ-PN-1X- 020...032 2) 1 in B5S5 45 (S) 127-2 (C) 1 1/4 in C1S7 1 1/2 in C1S9 85 (S) PGH5 1 1/4 in C2S7 1 1/2 in C2S9 85 (S) PGH5 152-4 (D) 1 3/4 in D4T1 165-4 (E) W60x2x28x9g E4A4 280 (A4) ISO 3019-2 (metric) 100-2 1 in L5S5 45 (S) 160-4 1 1/4 in P4S7 71 (S) 180-4 1 1/2 in R4S9 100 (S) 1 3/4 in R4T1 140, 180 (T) 1) Further through drive options on request 2) Rexroth recommends special executions for the gear pumps. Please consult us.

28/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Combination pumps A15VSO + A15VSO Before finalizing your design, request a binding installation drawing. Dimensions in mm. Overall lenght A A15VSO A15VSO (2. Pump) (1. Pump) Size280 Size280 804 Independent circuits are available for the user when further pumps are built on, also without the need for splitter gear boxes. When ordering combination pumps, the type designations of the first and of the second pump must be joined by a + sign. Ordering example: A15VSO280LRDRA0V/10MRVE4A41EE4A40-0+ A15VSO280LRDRA0V/10MRVE4A41EU0000-0 A tandem pump, consisting of two pumps of the same size can be operated with a dynamic load of up to max. 10 g (= 98.1 m/s 2 ) without an additional support bracket. For combination pumps, consisting of more than two pumps a calculation of the mounting flange strenght to determine the permissible mass moment of inertia is necessary. A15VSO (1st pump) A15VSO (2nd pump) A

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 29/32 Plugs for solenoids HIRSCHMANN DIN EN 175 301-803-A/ISO 4400 Without suppressor diode H Protection to DIN/EN 60529: IP65 together with a mating plug (2) (1) ø37 29.7 50 68.5 Changing the plug orientation If needed, the orientation of the plug can be altered by turning of the solenoid body. To do this, proceed as follows: 1. Loosening the solenoid fixing nut (1). 2. Bringing the solenoid body (2) into the desired orientation. 3. Re-tightening of the solenoid fixing nut. Tightening torque: 5 ±1 Nm (Width across the flats 26mm, 12 point DIN 3124). Upon delivery it is possible that the solenoid orientation is not as shown on the drawing or in the data sheet.

30/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 Installation notes General The axial piston unit must be filled with fluid and deaerated during commissioning and operation. This is also important after prolonged periods of standstill, since the system can empty itself via the hydraulic lines (mounting above the reservoir). The case drain fluid must be discharged to tank via the highest positioned one of the tank connections (T 1, T 2, T 3 ). The minimum inlet pressure at suction port S may not fall below 0.8 bar absolute. (At cold start 0.5 bar absolute). Under any operating conditions the suction and tank lines must enter the reservoir below the minimum fluid level. Mounting position See examples below. Further mounting positions are possible; please consult us. Recommended mounting position: 1 and 2. Mounting below the reservoir (Standard) Pump below the minimum reservoir fluid level. Mounting above the reservoir Pump above the minimum reservoir fluid level. Observe the maximum permissible suction height h s max = 800 mm. Recommendation for mounting position 5 (drive shaft upwards): A check valve in the case drain line to tank (cracking pressure 0.5 bar) can prevent the housing chamber from running empty. 1 2 F F 4 5 F F ht min h t min 200 mm SB 200 mm hmin h min 100 mm amin 100 mm T T 1 1 T 2 T 3 T 2 S 3 F T 2 h t min 200 mm h min 100 mm S SB a min T 3 S SB a min 6 T 2 T 3 T 2 S h S max 800 mm h t min 200 mm h min 100 mm F T 1 S SB a min h S max 800 mm h t min 200 mm h min 100 mm 0.5 bar T 2 S T 3 SB a min T 1 T 1 T 3 T 1 h t min 200 mm h min 100 mm T 3 h S max 800 mm SB a min Mounting position Bleeding Filling Mounting position Bleeding Filling 1 T 1 S + T 1 (F) 4 F T 1 (F) 2 T 2 S + T 2 (F) 5 F T 2 (F) 3 T 2 S + T 2 (F) 6 F T 2 (F) h s max = 800 mm, h t min = 200 mm, h min = 100 mm, SB = Baffle (wash plate) Provide sufficient distance a min between the suction line and case drain line during design of the reservoir. This prevents a direct suction of heated case drain fluid.

RE 92800/03.10 A15VSO Series 10 Bosch Rexroth AG 31/32 Installation notes Mounted inside the reservoir Pump below minimum fluid level inside the reservoir. 7 T1 8 T 1 h t min T 200 mm 3 T 3 T 2 h t min 200 mm T 2 S a min h min 100 mm a min h min 100 mm 9 T 2 S T 3 h t min 200 mm T 1 a min h min 100 mm Mounted position 7 8 9 Bleeding via the highest positioned open port T 1 via the highest positioned open port T 2 via the highest positioned open port T 2 Filling automatically via the open port T 1, positioned below the fluid level automatically via the open port T 2, positioned below the fluid level automatically via the open port T 2, positioned below the fluid level h s max = 800 mm, h t min = 200 mm, h min = 100 mm, SB = Baffle (wash plate) Provide sufficient distance a min between the suction line and the case drain line during the design of the reservoir. This prevents a direct suction of heated case drain fluid.

32/32 Bosch Rexroth AG A15VSO Series 10 RE 92800/03.10 General instructions The pump A15VSO was designed for operation in open loop circuits. Systems design, installation and commissioning of the axial piston unit require trained technicians or tradesmen. Before operating the axial piston unit make sure to read the relevant operating manuel carefully and completely. If needed, request this information from Rexroth. All hydraulic ports can only be used for the fastening of hydraulic service lines. During and shortly after operation of a pump the housing and especially a solenoid can be extremely hot, avoid being burned; take suitable safety measures (wear protective clothing). Dependent on the operating conditions of the axial piston pump (operating pressure, fluid temperature) deviations in the performance curves can occur. Pressure ports: All materials and port threads are selected and designed in such a manner, that they can withstand the peak pressures. The machine and system manufacturer must ensure, that all connecting elements and hydraulic lines are suitable for the actual operating conditions (pressures, flow, fluid, temperature) in accordance with the necessary safety factors. All given data and information must be adhered to. The following tightening torques are valid: --Female threads in the axial piston unit: the maximum permissible tightening torques M G max are maximum values for the female threads in the pump casting and may not be exceeded. For values see table below. --Fittings: please comply with the manufacturer s information regarding the max. permissible tightening torques for the used fittings. --Fastening bolts: for fastening bolts to DIN 13 we recommend to check the permissible tightening torques in each individual case to VDI 2230. --Plugs: for the metal plugs, supplied with the axial piston unit the following min. required tightening torques M V apply (see table) The product has not been released as a component in the safety concept of a total machine system acc. to DIN EN ISO 13849. Ports Standard Thread size Max. perm. tightening torque for female threadsm G max Min. required tightening torque for plugs M V ISO 6149 1) M14 x 1.5 80 Nm 45 Nm 6 mm M42 x 2 580 Nm 330 Nm 22 mm 2) 1) The spot face can be deeper than specified in the appropriate standard. 2) Deviating from ISO 6149 Across the flats in socket of Allan head screw Bosch Rexroth AG Hydraulics Axial Piston Units An den Kelterwiesen 14 72160 Horb, Germany Telefon +49 (0) 74 51 92-0 Telefax +49 (0) 74 51 82 21 info.brm-ak@boschrexroth.de www.boschrexroth.com/axial-piston-pumps 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. Subject to change.