Electric Drives and Controls Hydraulics Linear Motion and Assembly echnologies Pneumatics ervice Axial Piston Variable Pump KVAA A 92250/02.07 /16 eplaces: 02.04 echnical data sheet eries 6 izes 55... 107 Nominal pressure 4350 psi (300 bar) Peak pressure 5100 psi (350 bar) for commercial vehicles, open circuit Contents Ordering Code / tandard Program 2 echnical Data 3 D - Pressure Control with Load ensing 6 EP - Electric Control with Proportional olenoid 7 Unit Dimensions, ize 55 (IO version) 8 Unit Dimensions, ize 80 (AE version) 10 Unit Dimensions, ize 107 (AE version) 12 Installation Notes 14 General Notes 15 Features Variable pump with axial tapered piston rotary group of bent axis design. Designed especially to meet the requirements of commercial vehicles. he output flow is proportional to the drive speed and pump displacement and is steplessly variable between maximum and zero (q v max to q v min = 0). Favourable power/weight ratio, small overall dimensions, optimum efficiency and economic design elf aspirating, for open circuit operation Flange and shaft designed for direct mounting on truck gearbox PO s
2/16 Bosch exroth Corp. KVAA A 92250/02.07 Ordering Code / tandard Program KVAA7V O / 6 3 M 01 02 03 04 05 06 07 08 09 10 11 Axial piston unit 01 Bent axis design, variable, nominal pressure 4350 psi (300 bar), peak pressure 5100 psi (350 bar), for commercial vehicles (truck) KVAA7V Operation mode 02 Pump in open circuits O ize 03 Displacement V g max in (cm 3 ) size 55* 80 107 in 3 /rev. 3.55 4.88 6.53 04 Control devices 55* 80 107 Pressure control with load sensing D Electric control with proportional solenoid U = 24 V positive characteristics EP2 eries negative characteristics EP4 05 6 Index 06 3 07 Direction of rotation Viewed on shaft end clockwise counter-clockwise eals 55* 80 107 08 FKM (2 back to back shaft seals) M 09 10 11 haft end plined shaft ANI B92.1a-1976 Parallel keyed shaft AE K plined shaft similar DIN IO 14 (for truck use) E Mounting flange 2-bolt AE J744 L C pecial flange IO 7653-1985 (for truck use) K ervice line ports hreaded port A(B), rear (UN) 67 hreaded port A(B), rear (IO) 64 l = available = not available = in preparation, available on requiry * = ize 55 currently in IO version only (KVA7VO55), consult factory for availability of AE version.
A 92250/02.07 KVAA Bosch exroth Corp. 3/16 echnical Data Hydraulic fluid Before starting project planning, please refer to our data sheets E 90220 (petroleum oil) and E 90221 (environmentally acceptable hydraulic fluids) for detailed information regarding the choice of hydraulic fluids and conditions of use. If environmentally acceptable hydraulic fluids are being used, the limitations regarding technical data and seals mentioned in E 90221 must be observed. When ordering please indicate the hydraulic fluid used. Attention: For the operation with water-containing HF-fluids the variable pump KVAA is not suitable. Viscosity range We recommend that a viscosity (at operating temperature) for optimum efficiency and service life purposes of ν opt = opt. operating viscosity 80...170 U (16...36 mm 2 /s) be chosen, taken the tank temperature (open circuits) into account. Limits of viscosity range he following values apply in extreme cases: ν min = 42 U (5 mm 2 /s) short term (t < 3 min.) at max. permitted temperature t max = 240 F (115 C). ν max = 7400 U (1600 mm 2 /s) short term (t < 3 min.) with cold start (p < 435 psi (30 bar), n 1000 rpm, t min = -13 F (-25 C)). Note that the maximum hydraulic fluid temperature of 240 F (115 C) must not be exceeded locally either (e.g. bearing area). he temperature in the bearing area is - depending on pressure and speed - up to 22 F (12 K) higher than the average case drain temperature. his axial piston unit can not be operated in a temperature range of less than -13 F (-25 C). election diagram viscosity U (mm2/s) 7000 5000 3000 2000 1000 500 300 200 150 100 80 70 60 50 40 (1600) (1000) (600) (400) (200) (100) (60) (40) (20) (10) (-40) (-20) (0) (20) (40) (60) (80) (100) VG 22 VG 32 VG 68 VG 46 VG 100 7400 (1600) 170 (36) opt. 80 (16) (5) 42 (5) (-40) (-25) (-10) (0) (10) (30) (50) (70) (90) (115) ( C) -40-13 0 20 40 60 80 120 160 195 240 t min = -40 F (-40 C) fluid temperature range t in F ( C) Details regarding the choice of hydraulic fluid F t max = +240 F (+115 C) he correct selection of hydraulic fluid requires knowledge of the operating temperature in relation to the ambient temperature, in an open circuit the tank temperature. he hydraulic fluid should be selected so that within the operating temperature range, the operating viscosity lies within the optimum range (ν opt ) (see shaded section of the selection diagram). We recommend that the highest possible viscosity range should be chosen in each case. Example: At an ambient temperature of C an operating temperature of 140 F (60 C) is set in the circuit. In the optimum viscosity range (ν opt ; shaded area) this corresponds to the viscosity classes VG 46 or VG 68; to be selected: VG 68. Please note: he case drain temperature, which is affected by pressure and rotational speed, is always higher than the tank temperature. At no point in the system may the temperature be higher than 240 F (115 C). If this cannot be achieved due to unusual operating parameters or high ambient temperatures, please contact us. Filtration he finer the filtration, the cleaner the fluid and the longer the service life of the axial piston unit. o ensure proper function of the axial piston unit, the hydraulic fluid must have a cleanliness level of at least 20/18/15 according to IO 4406. At very high hydraulic fluid temperatures (194 F (90 C) to max. 240 F (115 C)), a cleanliness level of at least 19/17/14 according to IO 4406 is required. Please contact us, if these cleanliness levels cannot be achieved.
4/16 Bosch exroth Corp. KVAA A 92250/02.07 echnical Data Operating pressure range Inlet Pressure at port he minimum inlet pressure depends on the speed. he following limits may not be exceeded. p abs min 12 psi (0.8 bar) he maximum pressure p abs max also depends on speed (see succeeding diagram). Minimum inlet pressure at suction port with increased speed In order to avoid damage of the pump a minimum inlet pressure at the suction port must be assured. he minimum inlet pressure is related to the rotational speed and the displacement of the variable pump. n n max 1 peed Note: 1.5 1.4 1.3 1.2 1.1 1.0 0.9 0.8 0.6 0.7 0.8 0.9 1.0 Displacement V g V g max bar psi 2.0 30 1.9 28 1.8 26 1.7 25 1.6 23 1.5 22 1.4 20 1.3 19 1.2 17 1.1 16 1.0 15 0.9 13 0.8 12 max. permissible speed n max perm. (speed limit, see page 5) min. and max. permissible inlet pressure at port Outlet Maximum pressure at port A or B (pressure specifications in according to DIN 24312) Nominal pressure p N 4350 psi (300 bar) Peak pressure p max 5100 psi (350 bar) Please note: ize 80 with shaft end : p N 3350 psi (230 bar) Inlet pressure pabs in psi (bar) Case drain he case of the pump is connected to the inlet port. A separate case drain is therefore not required (purge port is plugged) Exception: When using the D control a separate drain line from port to the tank is mandatory (not required for EP control). emperature range he FKM shaft seal ring is admissible for a case temperature range from -13 F (-25 C) bis 240 F (+115 C). Note: his axial piston unit can not be operated in a temperature range of less than -13 F (-25 C). Direction of flow Direction of rotation, viewed on shaft end clockwise counter-clockwise to B Determining the size Flow q v = ( q v = orque = ( = Power P = ( P = V g n η v 231 to A gpm V g n η v L/min 1000 ) V g Δp 24 π η mh V g Δp 20 π η mh 2 π n = q v Δp 33000 1714 η t 2 π n = q v Δp 60000 600 η t V g = Displacement per revolution in in 3 (cm 3 ) Δp n η v = Differential pressure in psi (bar) = speed in rpm = Volumetric efficiency η mh = Mechanical-hydraulic efficiency η t = Overall efficiency lb-ft Nm ) HP kw )
A 92250/02.07 KVAA Bosch exroth Corp. 5/16 echnical Data able of values (theoretical values, without efficiencies and tolerances; values rounded) ize 55 3 ) 80 107 Displacement V g max in 3 3.34 4.88 6.53 cm 3 54.8 80 107 peed max. 1 ) at V g max n max1 rpm 2500 2240 2150 at V g < 0,74 V g max (see diagram, page 4) n max2 rpm 3400 3000 2900 peed max. 2 ) n max perm. rpm 3750 3350 3200 Flow at n max 1 and V g max q v max 1 gpm 36 47 61 L/min 137 179 230 Power at q v max 1 and Δp = 4350 psi (300 bar) P max 1 HP 91 121 154 kw 68 90 115 orque at V g max and Δp = 4350 psi (300 bar) lb-ft 193 282 376 Nm 261 382 510 Mass moment G lb-ft 15.5 21.0 30.2 Nm 21 28.5 41 Moment of inertia (of the rotating parts) J lb-ft 2 0.0806 0.1518 0.2419 kgm 2 0.0034 0.0064 0.0102 Filling capacity V gal 0.158 0.211 0.317 L 0.6 0.8 1.2 Mass (approx.) m lbs 35 44 52.9 kg 16 20 24 1 ) he values shown are valid for an absolute pressure p abs = 15 psi (1 bar) at the suction port and when operated on mineral fluid with a specific mass of 7.36 lbs/gal (0,88 kg/l). 2 ) Maximum speed (speed limit) for an increase in the inlet pressure p abs at the suction port and V g < V g max 3 ) Metric version (further information see E 92250) Permissible axial loading on the drive shaft he values given are maximum values and do not apply to continous operation. For drives with radial loading (pinion, V-belt drives), please contact us! ize 55 80 107 when stopped or when axial piston unit working in pressureless conditions Axial force / operating pressure F ax + lb 0 0 0 ± F ax max N 0 0 0 + F ax zul. N/psi 0.13 0.16 0.20 N/bar 8.7 10.6 12.9 F ax zul. N/psi -1.02-1.32-1.58 N/bar -66-86 -103 When considering the permissible axial force, the force-transfer direction must be taken into account: F ax max = increase in service life of bearings + F ax max = reduction in service life of bearings (avoid if at all possible)
6/16 Bosch exroth Corp. KVAA A 92250/02.07 D - Pressure Control with Load ensing Function of the pressure control Characteristic D he pressure control keeps the pressure in a hydraulic system constant within its control range even under varying flow conditions. he variable pump only moves as much hydraulic fluid as is required by the actuators. If the operating pressure exceeds the setpoint set at the integral pressure control valve, the pump displacement is automatically swivelled back until the pressure deviation is corrected. In zero pressure non-running condition, the pump is swivelled to its starting position V g max by means of the control spring. etting range for pressure control 1150 to 4650 psi (80 to 320 bar) tandard setting: 4350 psi (300 bar) Note: Any pressure relief vlave included in the circuit to limit the max. pressure must be set to a cracking pressure at least 290 psi (20 bar) above the pressure control setting. Operating pressure pb in psi (bar) 5100 (350) 725 (50) V g min max min Circuit diagram D Displacement V g max max. 145 psi (10 bar) he pressure control is superimposed on the load sensing valve, i.e. the load sensing function operates below the set pressure. Load sense function he load sensing control is a flow control option that operates as a function of the load pressure to regulate the pump displacement to match the actuator flow requirement. he flow depends here on the cross section of the external sensing orifice (1) fitted between the pump outlet and the actuator. he flow is independent of the load pressure below the pressure cut-off setting and within the control range of the pump. he sensing orifice is usually a separately arranged load sensing directional valve (control block). he position of the directional valve piston determines the opening cross section of the sensing orifice and thus the flow of the pump. he load sensing control compares pressure before and after the sensing orifice and maintains the pressure drop across the orifice - and therefore the pump flow - constant as a function of the orifice size. If the differential pressure Dp increases, the pump is swivelled back towards V g min and, if the Dp decreases the pump is swivelling out towards V g max until the pressure drop across the sensing orifice in the valve is restored. Δp orifice = p pump p actuator etting range for Δp: 275... 580 psi (19... 40 bar) tandard setting: 435 psi (30 bar) he stand-by pressure in zero stroke operation (sensing orifice plugged) is slightly above the p setting. (1) he sensing orifice (control block) is not included in the pump supply. Zero stroke operation Vg min Vg max A (B) he standard pump unit is designed for intermittent constant pressure operation. hort-term operation at zero stroke (< 10 min.) is permissible up to a operating pressure p max = 4350 psi (300 bar) at a tank temperature of 122 F (50 C). Note: When using the D control a drain line is mandatory from the port to tank to maintain thermal stability. When ordering, state in clear text: - etting of the pressure control - Δp - setting of the load sensing function (If there is no clear specification, pump will be delivered with standard setting, see above.) A1 1 (1)
A 92250/02.07 KVAA Bosch exroth Corp. 7/16 EP - Electric Control with Proportional olenoid With the electrical control with proportional solenoid, the pump displacement is adjusted proportionally to the solenoid current, resulting in a magnetic control force, acting directly onto the control spool that pilots the pump control piston. Circuit diagram EP2 (ize 55) EP2 - tarting position in unpressurised state at V g min. EP4 - tarting position in unpressurised state at V g max. Charactreristic EP A (B) 800 700 EP2 Vg max Vg min A1 Control current I in ma 600 500 400 300 200 100 EP4 EP4 (ize 107) 1 0 0,2 0,4 0,6 0,8 1,0 V g min Displacement V g max Note: For submerged in-tank installation when using the EP control, only the mineral hydraulic fluids can be used with the fluid temperature limited to 176 F (80 C). Vg min Vg max A (B) A1 1 o control the proportional solenoids the following electronic amplifier and controller are available (also as to the Internet under www.boschrexroth.com/mobile-electronic): BODA controller C (E 95200) and application software Analog amplifier A (E 95230) By using an proportional amplifier control of swivel time is also possible. echnical data of solenoids EP2 EP4 izes 55 107 Voltage 24VDC +20% 24VDC +20% Control current tart of control V g min 200 ma V g max 200 ma End of control V g max 600 ma V g min 600 ma Limiting current 0,77 A 0,68 A Note he spring centering in the pilot control unit is not a safety device hrough contamination in the control unit e.g. in hydraulic fluid, wear particles, or particles out of a system the valve spool can get stuck in an undefined position. In this case, the pump flow does not follow the command inputs of the machine operator anymore. Make sure that a proper emergency shut down function can bring the driven machine movements to a safe position immediately (e.g. stop). Maintain the specified cleanliness level 20/18/15 (<194 F (90 C)) or 19/17/14 (>194 F (90 C)) to IO 4406. Nominal resistance (at 68 F (20 C)) 22,7 Ω 24,2 Ω Dither frequency 100 Hz 100 Hz Duty cycle 100 % 100 % ype of protection IP 65 IP 54 Connector Hirschmann to DIN EN 175 301-803-A / IO 4400 AMP- Junior imer 2 pin
8/16 Bosch exroth Corp. KVAA A 92250/02.07 Unit Dimensions, ize 55 (IO version) D Pressure control, with load sensing Before finalizing your design, please request approved installation drawing. Dimensions in inches and (millimeters). View: clockwise rotation 10.51 (267) 8.43 (214) 6.14 (156) 5.12 (130*)) 0.59 (15) (110) (120) (122) 3.15 (80) DIA3.148 DIA3.147-0.03 (DIA80-0.05 ) 0.35 (9) 1.54 (39) 12 30' (10*)) (32) 4.33 0.39 1.26 2.99 (76) 4.72 3.58 (91) 4.80 7.09 (180) Y 4.72 (120) DIA0.51 (DIA13) 4.346 4.314 (110 ± 0.4 ) (80) (105) (113) 3.15 4.13 4.45 1 9.02 (229) 9.13 (232) 9.53 (242) View Y counter-clockwise rotation View Y clockwise rotation 0.47 (12) 1.57 (40) 4.13 (105) A B 1 G3/4 0.67 (17) 0.55 (14) 1 G1 1.08 1.08 (27.5) 4.65 (118) (27.5) *) center of gravity
A 92250/02.07 KVAA Bosch exroth Corp. 9/16 Unit Dimensions, ize 55 (IO version) EP2 Electric control, with proportional solenoid Before finalizing your design, please request approved installation drawing. Dimensions in inches and (millimeters). 10.87 (276) Note: he position of the plug can be changed by turning the solenoid body. 5.16 (131) 1 Y Note the following procedure: 1. Loosen the fastening nut (1) 2. urn the magnet body (2) to the desired position 3. ighten the fastening nut ightening torque of fastening nut: 3.69+0.73 lb-ft (5+1 Nm) (width across flat 26 mm, double hexagon DIN 3124) (2) (1) View Y counter-clockwise rotation A 1 1 A View Y clockwise rotation B 1 haft end E plined shaft similar DIN IO 14 8x32x35 p N = 4350 psi (300 bar) Ports A, B ervice line ports (high pressure series) DIN IO 228 G 3/4, 16 deep 243 lb-ft 2 ) 330 Nm 2 ) uction port DIN IO 228 G 1; 18 deep 354 lb-ft 2 ) 480 Nm 2 ) Case drain (only D) IO 6149 M12x1,5; 12 deep 37 lb-ft 2 ) 50 Nm 2 ) Gauge port - high pressure 3 ) IO 6149 M10x1; 8 deep 22 lb-ft 2 ) 30 Nm 2 ) 1 Gauge port - suction pressure 3 ) IO 6149 M10x1; 8 deep 22 lb-ft 2 ) 30 Nm 2 ) Air bleed 3 ) IO 6149 M18x1,5 44 lb-ft 2 ) 60 Nm 2 ) Port for Dp control (load sensing) IO 11926 7/16-20UNF-2B; 11,5 deep 30 lb-ft 2 ) 40 Nm 2 ) 1 ) centering bore according to DIN 332 (thread according to DIN13) 2 ) please observe the general notes for the max. tightening torques on page 15. 3 ) plugged M12x1.75 1 ) 2 ) groove for retaining ring 35x1.5 DIN 471 0.94 (24) 0.37 (9.5) DIA0.32 (DIA8.1) 1.03 (26.1) 0.47 (12) 1.45 (36.8) 2.17 (55) DIA1.374 DIA1.370 (DIA34.9-0.1 )
10/16 Bosch exroth Corp. KVAA A 92250/02.07 Unit Dimensions, ize 80 (AE version) D Pressure control, with load sensing Before finalizing your design, please request approved installation drawing. Dimensions in inches and (millimeters). View: clockwise rotation 11.65 (296) 10.63 (270) 9.57 (243) 7.28 (185) DIA3.9986 DIA3.9972-0.036 (DIA101.6-0.071 ) 0.59 (15) 0.38 (9.7) 12 30' 1 4.57 (116) 1.42 3.39 (86) (36) 4.96 (126) 4.06 (103) 5.04 (128) 7.68 (195) Y DIA 0.56 (DI4.3) 4.61 (117) 5.75 (146) 6.85 (174) 10.04 (255) 10.20 (259) View Y conter-clockwise rotation View Y clockwise rotation 1.57 (40) 0.47 (12) 4.13 (105) A B 1 1 5/16-12UN-2B 0.55 (14) 0.71 (18) A1 1 1 5/8-12UN-2B 1.18 1.18 (30) (30) 5.04 (128) *) center of gravity
A 92250/02.07 KVAA Bosch exroth Corp. 11/16 Unit Dimensions, ize 80 haft end Before finalizing your design, please request approved installation drawing. Dimensions in inches and (millimeters). plined shaft 1in 15 16/32DP 1 ) (AE J744 25-4 (B-B)) p N = 3350 psi (230 bar) 0.87 DIA2.83 (DIA72) 3/8-16UNC-2B (22) 0.30 (7.5) 0.31 (8) 1.81 (46) DIA1.38 (DIA35) 1.50 (38) K Keyed shaft 1 1/4in 1 ) (AE J744 32-1 (C)) p N = 4350 psi (300 bar) 1.39 (35.3) DIA1.250 DIA1.248 0.24 (6) (DIA31.75-0.03) (5/16-18UNC-2B) 0.75 (19) 1.89 (48) 2.20 (56) DIA1.38 (DIA35) 0.3137 0.3125 (7.94 +0.03 ) 1.38 (35.2) Ports A, B ervice line ports (high pressure series) IO 11926 1 5/16-12UN-2B; 0.79 deep 400 lb-ft 2 ) uction port IO 11926 1 5/8-12UN-2B; 0.79 deep 710 lb-ft 2 ) Case drain (only D) IO 11926 9/16-18UNF-2B 60 lb-ft 2 ) Gauge port - high pressure 3 ) IO 11926 7/16-20UNF-2B 30 lb-ft 2 ) 1 Gauge port - suction pressure 3 ) IO 11926 7/16-20UNF-2B 30 lb-ft 2 ) Air bleed 3 ) IO 11926 3/4-16UNF-2B lb-ft 2 ) Port for Dp control (load sensing) IO 11926 7/16-20UNF-2B 30 lb-ft 2 ) 1 ) ANI B92.1a-1976, 30 pressure angle, flat root, side fit, tolerance class 5 2 ) please observe the general notes for the max. tightening torques on page 15. 3 ) plugged
12/16 Bosch exroth Corp. KVAA A 92250/02.07 Unit Dimensions, ize 107 (AE version) D Pressure control, with load sensing Before finalizing your design, please request approved installation drawing. Dimensions in inches and (millimeters). View: clockwise rotation 12.36 (314) 11.38 (289) 10.12 (257) 7.80 (198) DIA4.9983 DIA4.9967 (DIA127-0.043-0.083 ) 0.50 (12.7) 0.59 (15) 12 30' 4.88 (124) 5.20 (132) 5.28 (134) 1.57 (40) 1 3.58 (91) 4.33 (110) 8.11 (206) Y 5.28 (134) 0.71 (18) 7.13 (181) 8.39 (213) 10.47 (266) 10.67 (271) 5.83 (148) View Y conter-clockwise rotation View Y clockwise rotation 0.51 (13) 4.13 (105) 1.57 (40) A B 1 1 5/16-12UN-2B 1 1 5/8-12UN-2B 1.24 (31.5) 5.47 (139) 1.24 (31.5) *) center of gravity
A 92250/02.07 KVAA Bosch exroth Corp. 13/16 Unit Dimensions, ize 107 haft end Before finalizing your design, please request approved installation drawing. Dimensions in inches and (millimeters). plined shaft 1 1/4in 14 12/24DP 1 ) (AE J744 32-4 (C)) p N = 4350 psi (300 bar) 1.10 DIA3.15 (DIA80) 7/16-14UNC-2B (28) 0.37 (9.5) 0.31 (8) 2.20 (56) DIA1.57 (DIA40) 1.57 (40) Ports A, B ervice line ports (high pressure series) IO 11926 1 5/16-12UN-2B; 0.79 deep 400 lb-ft 2 ) uction port IO 11926 1 5/8-12UN-2B; 0.79 deep 710 lb-ft 2 ) Case drain (only D) IO 11926 9/16-18UNF-2B 60 lb-ft 2 ) Gauge port - high pressure 3 ) IO 11926 7/16-20UNF-2B 30 lb-ft 2 ) 1 Gauge port - suction pressure 3 ) IO 11926 7/16-20UNF-2B 30 lb-ft 2 ) Air bleed 3 ) IO 11926 3/4-16UNF-2B lb-ft 2 ) Port for Dp control (load sensing) IO 11926 7/16-20UNF-2B 30 lb-ft 2 ) 1 ) ANI B92.1a-1976, 30 pressure angle, flat root, side fit, tolerance class 5 2 ) please observe the general notes for the max. tightening torques on page 15. 3 ) plugged
14/16 Bosch exroth Corp. KVAA A 92250/02.07 Installation Notes General During commissioning and operation, the axial piston unit must be filled with hydraulic fluid and air bled. his is also to be observed following a relatively long standstill as the system can be drained through the hydraulic lines. he case is connected to the inlet port. A seperate case drain to tank is not required. Exception: version with D control. When using the D control a drain line from port to tank is mandatory to maintain thermal stability. In all operating conditions, the suction and drain line must flow into the tank below the minimum fluid level. he minimum suction pressure at port must not fall below 12 psi (0,8 bar) absolute. Installation position As to the examples mentioned below. Installation below the tank (standard) Pump below minimum fluid level in tank. ecommendation installation position: 1 and 2. Installation above the tank Pump above minimum fluid level in tank. - Note: - max. perm. suction height h max = 31.50 in (800 mm) - min. perm. suction pressure at port 1 2 3 4 1 A1 L 2 L 2 1 A1 Installation position Air bleed Filling Installation position Air bleed Filling 1 3 (L 2 ) (L 2 ) 2 1 4 1 (L 2 ) (L 2 )
A 92250/02.07 KVAA Bosch exroth Corp. 15/16 General Notes he KVAA pump is designed to be used in open circuits. Project planning, assembly and commissioning of the pump require the involvement of trained personnel. he working and functional ports are only designed to accommodate hydraulic piping. here is a danger of burns from the pump and especially the solenoids during and shortly after operation. uitable safety precautions, e.g. protective clothing plan. he characteristic curve may shift depending on the operating status (operating pressure, fluid temperature) of the pump. ightening torques: - he tightening torques specified in this data sheet are maximum values and may not be exceeded (maximum value for screw thread). Manufacturer specifications for the max. permissible tightening torques of the used fittings must be observed! - For DIN 13 fastening screws we recommend checking the tightening torque individually according to VDI 2230 Edition 2003. he data and information contained herein must be adhered to.
16/16 Bosch exroth Corp. KVAA A 92250/02.07 Bosch exroth Corporation Mobile Hydraulics Axial & adial Piston Units 8 outhchase Court Fountain Inn, C 29644-9018, UA elephone (864) 967-2777 Facsimile (864) 967-8900 www.boschrexroth-us.com 2007 Bosch exroth Corporation All rights reserved. Neither this document, nor any part of it, may be reproduced, duplicated, circulated or disseminated, whether by copy, electronic format or any other means, without the prior consent and authorization of Bosch exroth Corp. he data and illustrations in this brochure/data sheet are intended only to describe or depict the products. No representation or warranty, either express or implied, relating to merchantability or fitness for intended use, is given or intended by virtue of the information contained in this brochure/data sheet. he information contained in this brochure/data sheet in no way relieves the user of its obligation to insure the proper use of the products for a specific use or application. All products contained in this brochure/data sheet are subject to normal wear and tear from usage. ubject to change.