Internal gear pump PGF Series 2X and 3X

Internal gear pump GF eries 2X and 3X RE 23 Edition: 4.24 Replaces: 5.2 Fixed displacement Frame sizes, 2 and 3 izes.7 to 4 Maximum pressure 25 bar Displacement.7 to 4 cm 3 H758 Features ow operating noise ow flow pulsation High efficiency even at low viscosity due to sealing gap compensation ong service life due to slide bearings and sealing gap compensation uitable for a wide viscosity and speed range Excellent suction characteristics All frame sizes and sizes can be combined with each other Can be combined with GH internal gear pumps, V7 vane pumps and axial piston pumps Valve technology can be integrated in the cover on request Use: For drives in the medium-output and medium-pressure range in industrial applications, such as machine tools. At high operating pressure for endurant drives in mobile applications, such as lifting devices, fans and spreaders. Contents Ordering code 2 Functional description 4 Technical data 5 Characteristic curves 7 Dimensions frame size 9 Dimensions frame size 2 2 Dimensions frame size 3 7 Multiple pump units 2 General project planning notes 22 Hydraulic project planning 22 Mechanical project planning 24 Maintenance schedule and operational safety 26 Accessories 26 RE 23/4.24, Bosch Rexroth AG

2 GF eries 2X and 3X Internal gear pump Ordering code Ordering code 2 3 4 5 6 7 8 9 G F / V * Type Internal gear pump, fixed displacement, gap compensated G eries 2 Medium-pressure pump, maximum pressure 25 bar F Frame size (BG) 3 BG BG2 2 BG3 3 eries BG BG2 BG3 4 eries 2 to 29 (2 to 29: unchanged installation and port dimensions) 2X eries 3 to 39 (3 to 39: unchanged installation and port dimensions) 3X ize NG 5 BG.7,7 2.2 2,2 2.8 2,8 3.2 3,2 4. 4, 5. 5, BG2 6.3 6 8. 8. 3. 3 6. 6 9. 9 22. 22 BG3 2. 2 25. 25 32. 32 4. 4 Direction of rotation 6 Viewed on drive shaft clockwise R counter-clockwise Drive shaft 7 arallel keyed shaft, IO 39-2 A arallel keyed shaft, IO 39-2 with through drive E plined shaft to AE J744 with involute tooth system according to ANI B92.a J Two surfaces for open-jaw coupling N Two surfaces for open-jaw coupling with through drive Tapered shaft :5 with through drive ) O ipe connections 8 ipe thread according to IO 228- uction and pressure port according to AE J58 7 quare flange port according to DIN 39 and DIN 392, metric fastening thread 2 ) With adapter for KW auxiliary drive Bosch Rexroth AG, RE 23/4.24

Internal gear pump GF eries 2X and 3X Ordering code 3 2 3 4 5 6 7 8 9 G F / V * eal material 9 FKM (fluor-caoutchouc) V Mounting flange pecial flange according to IO 7653-985 (for truck auxiliary drive) K4 4-hole mounting flange according to IO 39-2 and VDMA 2456 art E4 2-hole mounting flange according to IO 39- U2 2-hole mounting flange, spigot diameter 32 mm (BG), spigot diameter 52 mm (BG2 and BG3) M 2-hole mounting flange, spigot diameter 5 mm 2-hole mounting flange, spigot diameter 45.24 mm 2-hole mounting flange, spigot diameter 63 mm 2 Optional Feeder valve N Cover for mounting the next frame size down K 2 Further parameters in clear text * Type GF2 2X/REVE4 Material number R993227 Not all of the variants according to the ordering code are possible! lease select the desired pump with the help of the selection table on pages 9 to 2 or after consultation with Bosch Rexroth! pecial options are available on request, e.g., integrated pressure-relief valves. RE 23/4.24, Bosch Rexroth AG

8 4 GF eries 2X and 3X Internal gear pump Functional description Functional description 3.2. 2 6 Radial compensation 7 7.2 7.3 7. F R 5 4 9 Design GF hydraulic pumps are leak-gap-compensated internal gear pumps with a fixed displacement. They consist basically of: housing (), bearing cover (.), cover (.2), ring gear (2), pinion shaft (3), slide bearings (4), axial discs (5) and stop pin (6) as well as the segment assembly (7) which is composed of a segment (7.), segment carrier (7.2) and the sealing rolls (7.3). uction and displacement process The hydrodynamically supported pinion shaft (3) drives the internally toothed ring gear (2) in the direction of rotation shown. During rotation, the volume is increased in the suction area over an angle of approx. 8. A negative pressure is generated and fluid flows into the chambers. The sickle-shaped segment assembly (7) separates the suction chamber from the pressure chamber. Within the pressure chamber, the teeth of the pinion shaft (3) mesh with the tooth spaces of the ring gear (2). The fluid is then displaced through the pressure channel (). Axial compensation 5 5 The radial compensation force F R acts on the segment (7.) and segment carrier (7.2). The area ratios and the position of the sealing rolls (7.3) between the segment and segment carrier are designed to provide virtually gap-free sealing between the ring gear (2), the segment assembly (7) and the pinion shaft (3). pring elements under the sealing rolls (7.3) ensure adequate contact pressure, even at very low pressures. Hydrodynamic and hydrostatic bearing The forces acting on the pinion shaft (3) are absorbed by hydrodynamically lubricated radial slide bearings (4) while those acting on the ring gear (2) are absorbed by the hydrostatic bearing (9). plines Involute splining was selected for the gear. Their long length of contact results in a low flow and pressure pulsation; these low pulsation rates contribute greatly to the low-noise operation. Used materials Housing (), bearing cover (.), cover (.2) and axial discs (5): Aluminum alloy Ring gear (2), pinion shaft (3) and stop pin (6): teel lide bearing (4): Copper-tin with steel back egment (7.) and segment carrier (7.2): Brass alloy ealing rolls (7.3): lastic ymbol F A 8 F A The axial compensation force F A acts in the area of the pressure chamber and is generated by the pressure zone (8) in the axial discs (5). The axial, longitudinal gaps between rotating and fixed parts are therefore extremely small and ensure optimum axial sealing of the pressure chamber. Bosch Rexroth AG, RE 23/4.24

Internal gear pump GF eries 2X and 3X Technical data 5 Technical data Frame size B ize NG.7 2.2 2.8 3.2 4. 5. Displacement, geometric V g cm 3.7 2.2 2.8 3.2 4. 5. Input speed n min rpm 6 6 6 6 6 6 n max rpm 45 36 4 36 36 36 Operating pressure, absolute Inlet p bar.6 to 3.6 to 3.6 to 3.6 to 3.6 to 3.6 to 3 Outlet continuous p N bar 8 2 2 2 2 8 intermittend ) p max bar 2 25 25 25 25 2 Flow (at n = 45 rpm), p = bar, ν = 3 mm 2 /s) q V l/min 2.4 3.2 4. 4.6 6. 7.2 ower consumption Minimum required Drive power (at p bar) Moment of inertia (around drive axis) input kw.75.75.75.75.75.75 J kgm 2.2.3.5.7.2.26 Weight 2) m kg.8.9....3 haft loading Type of mounting Radial and axial forces (e.g., belt pulley) only after consultation Flange mounting Frame size B 2 2 2 2 2 2 2 ize NG 6.3 8 3 6 9 22 Displacement, geometric V g cm 3 6.5 8.2 3.3 6 8.9 22 Input speed n min rpm 6 6 6 6 6 6 6 n max rpm 36 36 36 36 36 36 3 Operating pressure, absolute Inlet p bar.6 to 3.6 to 3.6 to 3.6 to 3.6 to 3.6 to 3.6 to 3 Outlet continuous p N bar 2 2 2 2 2 2 8 intermittend ) p max bar 25 25 25 25 25 25 2 Flow (at n = 45 rpm, p = bar, ν = 3 mm 2 /s) q V l/min 9.4.9 6 9.3 23.3 27.4 3.9 ower consumption Minimum required Drive power (at p bar) Moment of inertia (around drive axis) input kw.75.75.75.75.75.. J kgm 2.74.9.2.4.6.9.22 Weight 2) m kg 2. 2.2 2.4 2.6 2.7 2.9 3. haft loading Type of mounting Radial and axial forces (e.g., belt pulley) only after consultation Flange mounting ) Maximum 6 s, up to 5% of duty cycle, maximum 2 6 load cycles 2) For pumps with 2-hole mounting as flanged version Frame size 2 approx..9 kg heavier Frame size 3 approx.. kg heavier RE 23/4.24, Bosch Rexroth AG

6 GF eries 2X and 3X Internal gear pump Technical data Frame size B 3 3 3 3 ize NG 2 25 32 4 Displacement, geometric V g cm 3 2.6 25.4 32.5 4.5 Input speed n min rpm 5 5 5 5 n max rpm 36 32 3 25 Operating pressure, absolute Inlet p bar.6 to 3.6 to 3.6 to 3.6 to 3 Outlet continuous p N bar 2 2 2 8 intermittend ) p max bar 25 25 25 2 Flow (at n = 45 rpm, p = bar, ν = 3 mm 2 /s) q V l/min 29.9 36.8 47. 58.7 ower consumption Minimum required Drive power (at p bar) Moment of inertia (around drive axis) input kw..5.5.5 J kgm 2.29.35.43.53 Weight 2) m kg 3.3 4. 4.5 4.9 haft loading Type of mounting Radial and axial forces (e.g., belt pulley) only after consultation Flange mounting Hydraulic fluid ermissible hydraulic fluid 3) H mineral oil according to DIN 5524 art /H, mineral oil according to DIN 5524 art 2 HEE fluids according to DIN IO 538 HER fluids according to DIN IO 538 Operating temperature range 2 to + C Ambient temperature range 2 to +6 C Viscosity range to 3 mm/s 2 ermissible starting viscosity 2 mm/s 2 Maximum permissible degree of contamination of the hydraulic fluid Cleanliness level according to IO 446 (c) ermissible radial loading of the pinion shaft Class 2/8/5 4) On request Note lease contact us if the unit is to be used outside the specified values. Observe our specifications according to data sheet 922. ) Maximum 6 s, up to 5% of duty cycle, maximum 2 x 6 load cycles 2) For pumps with 2-hole mounting as flanged version Frame size 2 approx..9 kg heavier Frame size 3 approx.. kg heavier 3) Other hydraulic fluids on request 4) Cleanliness levels specified for the components must be maintained in the hydraulic systems. Effective filtration prevents malfunctions and simultaneously extends the service life of the components. Bosch Rexroth AG, RE 23/4.24

Internal gear pump GF eries 2X and 3X Characteristic curves 7 Characteristic curves Frame size Frame size 2 Flow Flow [l/min] 7.5 7 6 5 4 3 2 NG.7 NG5 NG4. NG3.2 NG2.8 NG2.2 25 5 75 25 5 75 2 225 25 Operating pressure [bar] Efficiency Efficiency [%] 9 8 NG5 NG4. 7 NG3.2 6 NG2.2 NG2.8 5 NG.7 25 5 75 25 5 75 2 225 25 Operating pressure [bar] Flow Flow [l/min] 35 3 NG22 25 NG9 NG6 2 NG3 5 NG NG8 NG6.3 5 25 5 75 25 5 75 2 225 25 Operating pressure [bar] Efficiency Efficiency [%] 9 8 7 6 NG22 NG6; NG9 NG6.3; NG8 5 25 5 75 25 5 75 2 225 25 Operating pressure [bar] NG; NG3 Drive power Drive power Drive power [kw] 3.5 3 2 NG5 NG4. NG2.2 NG.7 NG3.2 NG2.8 Drive power [kw] 2 8 6 4 2 NG22 NG9 NG6 NG3 NG NG8 NG6.3 25 5 75 25 5 75 2 225 25 Operating pressure [bar] ound pressure level 6 ound pressure level [db(a)] 58 56 54 52 5 NG5 NG4. NG2.2 NG.7 48 25 5 75 25 5 75 2 225 25 Operating pressure [bar] NG3.2 NG2.8 25 5 75 25 5 75 2 225 25 Operating pressure [bar] ound pressure level 52 25 5 75 25 5 75 2 225 25 Operating pressure [bar] Note Characteristics measured at n = 45 rpm; ν = 46 mm 2 /s; θ =4 C ound pressure level measured in acoustic room according to DIN 45635, heet 26; Distance: microphone pump = m 64 ound pressure level [db(a)] 62 6 58 56 54 NG22 NG9 NG6 NG3 NG NG8 NG6.3 RE 23/4.24, Bosch Rexroth AG

8 GF eries 2X and 3X Internal gear pump Characteristic curves Frame size 3 Flow Flow [l/min] 72 66 6 54 48 42 NG4 NG32 36 NG25 3 NG2 24 25 5 75 25 5 75 2 225 25 Operating pressure [bar] Efficiency Efficiency [%] 9 8 7 6 NG32; NG25 NG4; NG2 5 25 5 75 25 5 75 2 225 25 Operating pressure [bar] Drive power Drive power [kw] 24 2 6 2 8 4 NG4 NG32 NG25 NG2 25 5 75 25 5 75 2 225 25 Operating pressure [bar] ound pressure level 66 ound pressure level [db(a)] 64 62 6 58 56 NG4 54 25 5 75 25 5 75 2 225 25 Operating pressure [bar] NG32 NG25 NG2 Note Characteristics measured at n = 45 rpm; ν = 46 mm 2 /s; θ =4 C ound pressure level measured in acoustic room according to DIN 45635, heet 26; Distance: microphone pump = m Bosch Rexroth AG, RE 23/4.24

Dimensions [mm] Internal gear pump GF eries 2X and 3X Dimensions frame size 9 Dimensions frame size arallel keyed shaft, DIN 6885, without through drive 7. +.4 c.4 Clamping length b±.3 ø9±.2 2 ø45.24-.5 3.5-. ø2-.8 6.4±.5 38±.4 52±.3 76±.7 24 -.2 32±.3 a±. 2 52±.3 88 + haft key B4 4 4 2 Through bore for M8 DIN 92 socket-head screw, tightening torque M A = 25 (+5) Nm Type Material numbers a b c according to DIN IO 228/ according to DIN IO 228/ GF-2X/,7 R A V R993232 29.6 49. 6. G/4; 4 deep G/4; 2.5 deep 2,2 R A V R993233 29.6 49. 6. G/4; 4 deep G/4; 2.5 deep 2,8 R A V R993234 3.7 5.4 63.4 G3/8; 4 deep G/4; 2.5 deep 3,2 R A V R993235 3.5 53. 65 G3/8; 4 deep G/4; 2.5 deep 4, R A V R993236 33.4 56.7 68.7 G3/8; 4 deep G3/8; 2.5 deep 5, R A V R993237 35.2 6.4 72.4 G/2; 4 deep G3/8; 2.5 deep arallel keyed shaft, DIN 6885, with through drive d±.3 ±.2 X ø82.55-.54 3.5-. ø2-.8 24 -.2 6.4±.5 X 22±.3 46.4± 46± 6.4 -.5 24±.4 3 haft key B4 4 4 ±.5 a±.2 +.9 c.3 88± 6.4±.3 3±.3 Type Material numbers a c d according to DIN IO 228/ according to DIN IO 228/ GF-2X/,7 R E VU2 R98659 48.6 85.7 79.7 G/4; 4 G/4; 2.5 2,2 R E VU2 R9866 48.6 85.7 79.7 G/4; 4 G/4; 2.5 2,8 R E VU2 R9866 49.7 88. 82. G3/8; 4 G/4; 2.5 3,2 R E VU2 R98662 5.5 89.6 83.6 G3/8; 4 G/4; 2.5 4, R E VU2 R98663 52.4 93.3 87.3 G3/8; 4 G3/8; 2.5 5, R E VU2 R98664 54.2 97. 9. G/2; 4 G3/8; 2.5 RE 23/4.24, Bosch Rexroth AG

GF eries 2X and 3X Internal gear pump Dimensions frame size Dimensions [mm] haft for open-jaw coupling, without through drive, rear pump.4±.3 4.8 +. +.4 c.4 Clamping length b±.3 ort according to DIN IO 228/ ø9±.2 ø32 -.64 -.25 ø24 +.33 ø2-. 6.4±.5 38±.4 52±.3 76±.7 7 -. a±. -.4 5 -.9 52±.3 88 + Through bore for M8 DIN 92 socket-head screw, tightening torque M A = 25 (+5) Nm Type Material numbers a b c according to DIN IO 228/ according to DIN IO 228/ GF-2X/,7 N VM R98647 29.6 49. 6. G/4; 4 deep G/4; 2.5 deep 2,2 N VM R98648 29.6 49. 6. G/4; 4 deep G/4; 2.5 deep 2,8 N VM R98649 3.7 5.4 63.4 G3/8; 4 deep G/4; 2.5 deep 3,2 N VM R9865 3.5 53. 65 G3/8; 4 deep G/4; 2.5 deep 4, N VM R99323 33.4 56.7 68.7 G3/8; 4 deep G3/8; 2.5 deep Driver 3.2±. +.75 5 5 +.75 9.2 3.2±. ø9±.2 The driver (material number R9984336) is included in the scope of supply. Bosch Rexroth AG, RE 23/4.24

Dimensions [mm] Internal gear pump GF eries 2X and 3X Dimensions frame size haft for open-jaw coupling, with through drive, middle or rear pump d±.2 Clamping length b±.3.4±.3 4.8 +. ort according to DIN IO 228/ ø9±.2 -.25 ø32-.64 ø24 +.33 ø2-. 6.4±.5 38±.4 52±.3 76±.7 7 -. a±. 52±.3 -.4 5 -.9 +.8 c.2 88 + Through bore for M8 DIN 92 socket-head screw, tightening torque M A = 25 (+5) Nm Type Material numbers a b c d according to DIN IO 228/ according to DIN IO 228/ GF-2X/,7 R VM R98665 29.6 49. 66.7 6.7 G/4; 4 deep G/4; 2.5 deep R993293 2,2 R VM R98666 29.6 49. 66.7 6.7 G/4; 4 deep G/4; 2.5 deep R993294 2,8 R VM R993238 3.7 5.4 69. 63. G3/8; 4 deep G/4; 2.5 deep R995293 3,2 R VM R98668 3.5 53. 7.6 64.6 G3/8; 4 deep G/4; 2.5 deep R995294 4, R VM R98669 33.4 56.7 74.3 68.3 G3/8; 4 deep G3/8; 2.5 deep R98893 5, R VM R9867 35.2 6.4 78. 72. G/2; 4 deep G3/8; 2.5 deep R995295 Driver 3.2±. +.75 5 5 +.75 9.2 3.2±. ø9±.2 The driver (material number R9984336) is included in the scope of supply. RE 23/4.24, Bosch Rexroth AG

2 GF eries 2X and 3X Internal gear pump Dimensions frame size 2 Dimensions [mm] Dimensions frame size 2 haft for open-jaw coupling, without through drive, rear pump 3±.3 6.5 +.2 c±.9 Clamping length b±.6 Illustration ort according to DIN IO 228/ 62±.3 -.3 ø52-.6 ø39-.5 ø7.8-. 7.7±.5 62±.3 48.±.6 94±.7 7.2±.2 a±. 8±.3 Through bore for M8 DIN 92 socket-head screw, tightening torque M A = 25 (+5) Nm ø9±.2 5±.3 for port for port 2 -.25 8 -.85 Type Material numbers a b c GF2-2X/ 6 N VM R9563948 46 76 87.2 G3/4; 6 deep ) G/2; 4 deep ) 8 N VM R962364 47.8 79.5 9.7 G3/4; 6 deep ) G/2; 4 deep ) N VM R977364 5.5 85 96.2 G3/4; 6 deep ) G/2; 4 deep ) 3 N 2VM R934 53 9.2 ee port type 2 6 N 2VM R933354 55.5 95 6.2 9 N 2VM R99322 58.5 2.2 22 N 2VM R9892 6.5 7 8.2 ort type 2 square flange port Driver uction port itch circle e±.2 ressure port 35 2±.2 9 +. +.9 8 8 +.9 2 -.2 f±.2 24.8±.2 9 +. ø3±.2 G t Tightening torque M f 24.8±.2 M6 2 Tightening torque M = Nm The driver (material number R998428) is included in the scope of supply. NG e f itch G t M [Nm] circle 3 2 28.3±.2 4 M6 6 2 28.3±.2 4 M6 9 26 38.9±.3 55 M8 2 25 22 26 38.9±.3 55 M8 2 25 ) According to DIN IO 228/ Bosch Rexroth AG, RE 23/4.24

Dimensions [mm] Internal gear pump GF eries 2X and 3X Dimensions frame size 2 3 haft for open-jaw coupling, with through drive, middle or rear pump 3±.3 d±.2 Clamping length 6.5 +.2 b±.6 Illustration ort according to DIN IO 228/ ø9±.2 62±.3 -.3 ø52-.6 ø39-.5 ø7.8-. 7.7±.5 62±.3 48.±.6 94±.7 7.2±.2 a±. +.5 c.8 Through bore for M8 DIN 92 socket-head screw, tightening torque M A = 25 (+5) Nm 8±.3 5±.3 for port for port 2 -.25 8 -.85 Type Material numbers a b c d GF2-2X/ 6 R VM R956737 46 76 98.2 87. G3/4; 6 deep ) G/2; 4 deep ) R9662 8 R VM R956329 47.8 79.5.7 9.6 G3/4; 6 deep ) G/2; 4 deep ) R97239 R VM R95646 5.5 85 7.2 96. G3/4; 6 deep ) G/2; 4 deep ) R979232 3 R 2VM R94957 53 9 2.2. ee port type 2 R958674 6 R 2VM R96478 55.5 95 7.2 6. R9983463 9 R 2VM R9932243 58.5 23.2 2. R9983464 22 R 2VM R993286 6.5 7 29.2 8. R9983933 ort type 2 square flange port Driver uction port itch circle e±.2 ressure port 35 2±.2 9 +. +.9 8 8 +.9 2 -.2 f±.2 24.8±.2 9 +. ø3±.2 G t Tightening torque M f 24.8±.2 M6 2 Tightening torque M = Nm The driver (material number R998428) is included in the scope of supply. NG e f itch G t M [Nm] circle 3 2 28.3±.2 4 M6 6 2 28.3±.2 4 M6 9 26 38.9±.3 55 M8 2 25 22 26 38.9±.3 55 M8 2 25 ) According to DIN IO 228/ RE 23/4.24, Bosch Rexroth AG

4 GF eries 2X and 3X Internal gear pump Dimensions frame size 2 Dimensions [mm] arallel keyed shaft, DIN 6885, without through drive 43±.3 35±.2 Clamping length 7.2±.2 b±.6 Illustration ort 2 62±.3 2 -.5 ø63-. 2.5-. ø8.8 7.7±.5 62±.3 48.±.6 94±.7 a±. haft key B6 6 25 2 Through bore for M8 DIN 92 socket-head screw, tightening torque M A = 25 (+5) Nm c±.9 ø9±.2 2 8±.3 5±.3 for port for port 2 Type Material numbers a b c GF2-2X/ 6 R A V2 R9932272 46 76 87.2 G3/4; 6 deep ) G/2; 4 deep ) 8 R A V2 R956437 47.8 79.5 9.7 G3/4; 6 deep ) G/2; 4 deep ) R A V2 R9568523 5.5 85 96.2 G3/4; 6 deep ) G/2; 4 deep ) 3 R A 2V2 R93272 53 9.2 ee port type 2 6 R A 2V2 R9932275 55.5 95 6.2 9 R A 2V2 R9574 58.5 2.2 ort type 2 square flange port uction port ressure port itch circle e±.2 35 2±.2 f±.2 24.8±.2 G t Tightening torque M f 24.8±.2 M6 2 Tightening torque M = Nm NG e f itch G t M [Nm] circle 3 2 28.3±.2 4 M6 6 2 28.3±.2 4 M6 9 26 38.9±.3 55 M8 2 25 ) According to DIN IO 228/ Bosch Rexroth AG, RE 23/4.24

Dimensions [mm] Internal gear pump GF eries 2X and 3X Dimensions frame size 2 5 arallel keyed shaft, DIN 6885, with through drive +. 44.8 36±.5 d±.4 Illustration ort according to DIN IO 228/ 45 ø9 +.22 ø8-.54 22.5 +. ø2-.9 7.7±.5 ø3±.5 48.±.6 + haft key B6 6 25 7 +.2 ±.2 a±.3 +.7 c. 8±.3 5±.3 + for port for port 2 Type Material numbers a c d GF2-2X/ 6 R E VE4 R9932265 63 5.2 4. G3/4; 6 deep ) G/2; 4 deep ) 8 R E VE4 R9932266 64.8 8.7 7.6 G3/4; 6 deep ) G/2; 4 deep ) R E VE4 R993227 67.5 24.2 3. G3/4; 6 deep ) G/2; 4 deep ) 3 R E 2VE4 R99438 7 29.2 8. ee port type 2 6 R E 2VE4 R993293 72.5 34.2 23. 9 R E 2VE4 R994382 75.5 4.2 29. 22 R E 2VE4 R993226 78.5 46.2 35. ort type 2 square flange port uction port itch circle ressure port 35 e±.2 2±.2 f±.2 24.8±.2 G t Tightening torque M f 24.8±.2 M6 2 Tightening torque M = Nm NG e f itch G t M [Nm] circle 3 2 28.3±.2 4 M6 6 2 28.3±.2 4 M6 9 26 38.9±.3 55 M8 2 25 22 26 38.9±.3 55 M8 2 25 ) According to DIN IO 228/ RE 23/4.24, Bosch Rexroth AG

6 GF eries 2X and 3X Internal gear pump Dimensions frame size 2 Dimensions [mm] plined shaft, with through drive 6±.2 3.5±.3 d±.2 24±.2 Illustration ort 2 8±.3 5±.3 for port for port 2 ø82.55-.54 7.7±.5 48.±.6 +.2. 47±.3 6±. ±.2 a±. +.5 c.8 6.4±.3 3±.6 AE J744 6-4(A) 9T 6/32 D Involute splining according to ANI B92.a-976, 3 pressure angle, flat root, side fit, tolerance class 5 Type Material numbers a c d GF2-2X/ 6 R J VU2 R99366 65 7.2 6. G3/4; 6 deep ) G/2; 4 deep ) R9247697 8 R J VU2 R9953363 66.8 2.7 9.6 G3/4; 6 deep ) G/2; 4 deep ) R9247698 R J VU2 R993828 69.5 26.2 5. G3/4; 6 deep ) G/2; 4 deep ) R9247699 3 R J 2VU2 R9932264 72 3.2 2. ee port type 2 R9969259 6 R J 2VU2 R993285 74.5 36.2 25. R993673 9 R J 2VU2 R922882 77.5 42.2 3. R99843 22 R J 2VU2 R95453 8.5 48.2 37. R993578 ort type 2 square flange port uction port itch circle f±.2 e±.2 ressure port 35 24.8±.2 2±.2 NG e f itch G t M [Nm] circle 3 2 28.3±.2 4 M6 6 2 28.3±.2 4 M6 9 26 38.9±.3 55 M8 2 25 22 26 38.9±.3 55 M8 2 25 G t Tightening torque M f 24.8±.2 M6 2 Tightening torque M = Nm ) According to DIN IO 228/ Bosch Rexroth AG, RE 23/4.24

Dimensions [mm] Internal gear pump GF eries 2X and 3X Dimensions frame size 3 7 Dimensions frame size 3 plined shaft, with through drive 4±.6 d±.3 33±.3 ort 7 26±.3 25±.2 ø.6-.54 7.4±.5 +.8 3.2 65.5±.4 56±.4 6±.2 ±.5 a±.2 +.6 c.9 +.4 46. 72±.6 AE J744 22-4(B) 3T 6/32 D Involute splining according to ANI B92.a-976, 3 pressure angle, flat root, side fit, tolerance class 5 Type Material numbers a c d GF3-3X/ 2 R J 7VU2 R9983792 79.5 45.6 34.5 /4 in 3/4 in R9948466 25 R J 7VU2 R92967 82.5 5.6 4.5 /4 in 3/4 in R99557 32 R J 7VU2 R92956 87 6.6 49.5 /4 in 3/4 in R998423 4 R J 7VU2 R993426 92 7.6 59.5 /4 in 3/4 in R9969266 ort type 7, AE flange port uction port 5. 3.2±.2 ressure port. 22.2±.2 NG e 2 6 25 6 32 2 4 2 58.7±.2 29.35 ø32±.3 47.6±.2 23.8 e±.2 M 5 Tightening torque 49 +5 Nm M 5 Tightening torque 49 +5 Nm RE 23/4.24, Bosch Rexroth AG

8 GF eries 2X and 3X Internal gear pump Dimensions frame size 3 Dimensions [mm] arallel keyed shaft, DIN 6885, without through drive 52±.6 42±.5 d±.4 ort 7 +.27 45 ø-.54 28 +. ø25-.9 Key width 8 7.4±.5 ø25±.5 65.5±.4 25.5±.6 +.2 9.5 ±.3 a±.3 +.7 c. 23±.6 26±.3 haft key B8 7 3 Type Material numbers a c d GF3-3X/ 2 R E 7VE4 R963299 7 37. 26 /4 in 3/4 in 25 R E 7VE4 R993288 74 43. 32 /4 in 3/4 in 32 R E 7VE4 R99322 78.5 52. 4 /4 in 3/4 in 4 R E 7VE4 R9932 83.5 62. 5 /4 in 3/4 in ort type 7, AE flange port uction port ressure port 5. 3.2±.2. 22.2±.2 58.7±.2 29.35 ø32±.3 47.6±.2 23.8 e±.2 M 5 Tightening torque 49 +5 Nm M 5 Tightening torque 49 +5 Nm NG e 2 6 25 6 32 2 4 2 Bosch Rexroth AG, RE 23/4.24

Dimensions [mm] Internal gear pump GF eries 2X and 3X Dimensions frame size 3 9 haft for open-jaw coupling, with through drive, middle or rear pump d±.2 +.5 3. Clamping length +.2 b±.2 ort 7 +.2 -.3 ø52-.6 ø44 +.5 ø24.5-.3 7.4±.5 62±.3 65.5±.4 ±.7 7.2±.2 a±. +.5 c.8 62±.3 26±.3 -.25 -.85 Through bore for M DIN 92 socket-head screw, tightening torque M A = 49 (+5) Nm Type Material numbers a b c d GF3-3X/ 2 R 7VM R973539 6.5 99.5 26.6 5.5 /4 in 3/4 in R975872 25 R 7VM R99322 63.5 5.5 32.6 2.5 /4 in 3/4 in R9969 32 R 7VM R974369 68 4.5 4.6 3.5 /4 in 3/4 in R93437 4 R 7VM R98328 73 24.5 5.6 4.5 /4 in 3/4 in R958224 ort type 7, AE flange port Driver uction port ressure port 32 +. 5. 3.2±.2. 22.2±.2 +.9 +.9 9.5 -.2 58.7±.2 32 +. ø42±.3 29.35 ø32±.3 M 5 Tightening torque 49 +5 Nm 47.6±.2 23.8 e±.2 M 5 Tightening torque 49 +5 Nm The driver (material number R998363) is included in the scope of supply. NG e 2 6 25 6 32 2 4 2 RE 23/4.24, Bosch Rexroth AG

2 GF eries 2X and 3X Internal gear pump Dimensions frame size 3 Dimensions [mm] Tapered shaft, with through drive 55±.7 d±.4 +.7 43.3 ort 7 3 95±.3 3 +.27 ø8-.46 ø34.9-. 5-.2 7.4±.5 65.5±.4 R5 R5 8±.5 2±.3 2 +.2 9.5 ±.3 a±.3 +.7 c. plined shaft profile B8 32 35, similar to DIN IO 4 (slip-on sleeve) 2 nap ring 3.5 DIN 47 3 Hexagon socket W7; M A = 7 +25 Nm 8±.5 2±.3 26±.3 Type Material numbers a c d GF3-3X/ 2 R O 7VK4 R996932 7 37. 26 /4 in 3/4 in R96976 25 R O 7VK4 R994369 74 43. 32 /4 in 3/4 in R9697 32 R O 7VK4 R994368 78.5 52. 4 /4 in 3/4 in R994367 ort type 7, AE flange port uction port ressure port 5. 3.2±.2. 22.2±.2 58.7±.2 29.35 ø32±.3 47.6±.2 23.8 e±.2 M 5 Tightening torque 49 +5 Nm M 5 Tightening torque 49 +5 Nm NG e 2 6 25 6 32 2 Bosch Rexroth AG, RE 23/4.24

Dimensions [mm] Internal gear pump GF eries 2X and 3X Multiple pump units 2 Multiple pump units Ordering code 2 3 4 5 6 7 8 9 2 3 3 GF2 / 22 + GF2 / + GF / 2.8 + + Type 2-fold 2 3-fold 3 2 eries of the first pump ) 3 ize of the first pump ) 4 eries of the second pump ) 5 ize of the second pump ) 6 eries of the third pump ) 7 ize of the third pump ) Direction of rotation 8 Viewed on drive shaft clockwise R counter-clockwise Drive shaft of the first pump 9 arallel keyed shaft, IO 39-2 with through drive E plined shaft to AE J744 with involute tooth system according to ANI B92.a J Two surfaces for open-jaw coupling with through drive Wire connections for the first pump ipe thread according to IO 228- uction and pressure port according to AE J58 7 quare flange port according to DIN 39 and DIN 392, metric fastening thread 2 Wire connections for the second pump ipe thread according to IO 228- uction and pressure port according to AE J58 7 quare flange port according to DIN 39 and DIN 392, metric fastening thread 2 Wire connections for the third pump 2 ipe thread according to IO 228- uction and pressure port according to AE J58 7 quare flange port according to DIN 39 and DIN 392, metric fastening thread 2 Mounting flange of the first pump 3 pecial flange according to IO 7653-985 (for truck power take-off) K4 4-hole mounting flange according to IO 39-2 and VDMA 2456 art E4 2-hole mounting flange according to IO 39- U2 2-hole mounting flange, spigot diameter 32 mm (BG), spigot diameter 32 mm (BG) M 2-hole mounting flange, spigot diameter 5 mm ) Detailed information see ordering code page 2 RE 23/4.24, Bosch Rexroth AG

22 GF eries 2X and 3X Internal gear pump General project planning notes Dimensions [mm] General project planning notes Intended use Internal gear pumps are intended for the assembly of hydraulic drive systems in machine and system construction. Technical data The system or machine manufacturer must ensure compliance with the permissible technical data and operating conditions. The pump itself does not contain a device to prevent operation outside the permissible data. It is possible to operate the pump outside of the permissible technical data to a certain extent; the express written consent from Bosch Rexroth is, however, required. All specified technical performance features are median values and apply with the specified general conditions. In case of modifications to the general conditions (e.g., viscosity), the technical data may change as well. catter corresponding to the relevant state of technology is possible. Hydraulic project planning Air bleeding option for commissioning For Rexroth GF.-2/3X internal gear pumps, a manual or switchable air bleeding option for the initial commissioning or any recommissioning after maintenance and repair work is to be provided. The air bleeding point is to be set in the pressure line before the first valve or check valve. Air bleeding may be performed with a maximum counter pressure of.2 bar. Examples of air bleeding circuits uction line The line cross sections are to be dimensioned for the specified flows such that an ideal suction speed of.6 to.2 m/s is achieved on average. The suction speed should not exceed a maximum value of 2 m/s. The suction cross sections at the pump itself are designed for the maximum flow and therefore serve only as reference. In case of continuous operation at rotational speeds lower than the permissible maximum speed, the suction tube diameter is also to be dimensioned smaller than the suction port of the pump depending on the actual suction speed. Overall, the suction line is to be designed so that the permissible inlet operating pressure is maintained. Bends and a combination of suction pipes from several pumps are to be avoided. If the use of a suction filter is unavoidable, it must be ensured on the system side that the lowest permissible inlet operating pressure is not exceeded even if the filter is contaminated. Ensure the air tightness of the transitions and the pressure resistance of the suction hose with respect to the external air pressure. The immersion depth of the suction pipe should be selected as large as possible (at least mm at the lowest fluid level). Depending on the internal reservoir pressure, the viscosity of the operating medium and the flow conditions within the reservoir, no vortex may form even at maximum flow. There is otherwise a risk of air being drawn in. Return fluid and case drain fluid must not be immediately be drawn in again. witchable air bleeding Manually actuated air bleeding uction line min 5 45 Bosch Rexroth AG, RE 23/4.24

Dimensions [mm] Internal gear pump GF eries 2X and 3X Hydraulic project planning 23 ressure line ufficient burst resistance of the pipes, hoses and connecting elements must be ensured for pressure lines. The cross sections should be based on the maximum flow in order to avoid additional excessive loading of the pump due to back-pressure. Here, you must also take into account the pipe losses over the entire pressure line length and other line resistances (e.g., bends, pressure filters). ressure safeguarding The GF internal gear pump does not include any devices for adherence to the maximum operating pressure. The setting and safeguarding of the permissible operating pressure must be ensured on the system side. The pressure-relief valves necessary for this purpose are to be designed with consideration given to the maximum flow and the rate of pressure increase that will occur such that the permissible intermittent operating pressure is not exceeded. ressure holding function In the variable-speed drive, the pump can also be temporarily operated in the pressure holding function below the specified minimum rotational speed. The holding time and the rotational speed necessary for this purpose are a function of the operating viscosity and the pressure level. For the design, please contact Bosch Rexroth s technical sales department. In the deactivated state (rotational speed = ), a leakage flow flows through the pump back into the reservoir, depending on the load pressure. If this is to be prevented, a check valve is to be used. When using a check valve, please observe the note on the air bleeding option for commissioning, page 22. RE 23/4.24, Bosch Rexroth AG

24 GF eries 2X and 3X Internal gear pump Mechanical project planning Dimensions [mm] Mechanical project planning Mounting On the machine side, the screws are to be accessible in such a way that the required tightening torque can be applied. The screw tightening torque is oriented towards the operating conditions and elements involved in the screw connection and is to be specified by the manufacturer during project planning of the power unit, the machine, or the system. Reservoir When designing the reservoir or selecting a suitable standard reservoir, the following requirements are to be observed: elect the largest possible reservoir volume, depending on the continuous or average flow, which is needed in order to allow separation of air bubbles by means of sufficient dwell time of the medium in the reservoir. The air separation ability of the used hydraulic fluid is also of importance here. rovide settling zones for the hydraulic fluid in the reservoir in order to allow for air separation. rovide guiding plates in order to allow contamination at the reservoir bottom to be deposited outside the pump suction area. Generously dimension the reservoir surfaces depending on the heat output to be dissipated via the reservoir walls. Required power unit functions At a minimum, the hydraulic power units should be equipped with the following features: Reservoirs that are designed so that the internal pressure corresponds to the ambient pressure should be equipped with ventilation filters for pressure compensation purposes. The hydraulic fluid should only be filled using filling nozzles that eliminate the possibility of filling with unfiltered fluid. The ingress of contamination or moisture must be avoided. If used in highly contaminated environments, the reservoir must, for this purpose, be precharged by means of air pressure. If cleaning of the reservoir exterior is planned or anticipated during the period of use, reservoir bushings for pipes, lines, or hoses are to be selected so that a secure seal is ensured against external pressurization with a water jet. lace of installation and ambient conditions With places of installation at a geodetic height of more than m, the pump is to be arranged in or below the reservoir or the reservoir is to be precharged by means of compressed air in order to ensure the permissible minimum inlet pressure. A short suction line with large cross section is to be selected; bends should not be used. When installing the pump more than m below the reservoir, the reduction of the inlet pressure to the maximum permissible value must be ensured by means of additional measures. If operating the pump in salt-containing or corrosive environments or if there is a possibility of pressurization with strongly abrasive substances, it must be ensured on the system side that the shaft seal ring and the sealing area of the shaft do not make direct contact with the environment. Drive Electric motor + pump support + coupling + pump No radial or axial forces permissible on the pump drive shaft! Motor and pump must be exactly aligned! Always use a coupling that is suitable for compensating for shaft offsets! Installation positions B3 V B5 Bosch Rexroth AG, RE 23/4.24

Internal gear pump GF eries 2X and 3X Mechanical project planning 25 ump combinations With pump combinations, make sure that the operating data approved for the pump type concerned can be complied with in every step. Combined pumps must all have the same direction of rotation. The pump with the highest torque, variable pumps or pumps with intermittent pressure loading should be specified as the first step in the pump combination. The engineer must verify the maximum through-drive torque for every application. This also applies for existing (coded) pump combinations. The sum of all input torques in a pump combination may not exceed the permissible input torque of the first pump. Maximum input torque [Nm] haft N A E J O GF 4 4 3 3 GF2 7 7 95 4 9 GF3 4 4 23 23 26 election The front pump must have shaft version E, J or. The middle pump must have shaft version. The rear pump must have shaft version N. If a pump of the next smaller frame size is to be mounted, the designation of the first pump must end with "K" (e.g., GF3 + GF2 front pump: GF3-3X/32RJ7VU2K) Dimensions The dimensions of the ports are the same as for single pumps (see page 9 to 2). The total length of the pump combination is calculated by adding up dimensions "d" of the single pumps (see pages 9 to 2) With the combination of GF2 and GF, the installation length of the GF2 (dimension d) increases by 4.5 mm. With the combination of GF3 and GF2, the installation length of the GF3 (dimension d) increases by 2 mm. With the combination of GF3 and GF, the installation length of the GF3 (dimension d) increases by 2.5 mm. Formula for input torque T = p V.59 η hydr.-mech. [Nm] Key T = Input torque [Nm] Δp = Operating pressure [bar] V = Displacement [cm 3 ] η = Hydraulic mechanical efficiency Maximum output torque [Nm] haft E J GF 4 4 GF2 7 7 7 GF3 4 4 4 Common suction is not possible. For reasons of strength and stability, we recommend using IO 4-hole mounting flanges according to VDMA "E4" for combinations of three or more pumps Before operating pump combinations with different media, please consult Bosch Rexroth. GF combinations are installed without combination parts and are not sealed against each other. RE 23/4.24, Bosch Rexroth AG

26 GF eries 2X and 3X Internal gear pump Maintenance schedule and operational safety Maintenance schedule and operational safety Accessories For safe operation and a long service life of the pump, a maintenance schedule must be prepared for the power unit, the machine, or the system. The maintenance schedule must ensure that the specified or permissible operating conditions of the pump are complied with over the entire period of use. In particular, compliance with the following operating parameters is to be ensured: The required oil cleanliness The operating temperature range The filling level of the operating medium Furthermore, the pump and the system are to be checked for changes to the following parameters on a regular basis: Vibrations Noise Temperature difference between pump fluid in the reservoir Foaming in the reservoir eak-proofness Changes to these parameters indicate component wear (e.g., diesel engine, coupling, pump, etc.). The reason is to be determined and remedied immediately. In order to achieve high operational safety of the pump in the machine or system, we recommend checking the aforementioned parameters continuously and automatically and the automatic shut-down in case of changes exceeding the usual fluctuations in the specified operating range. lastic components of drive couplings should be replaced regularly, though after no more than 5 years. The corresponding manufacturer's specifications are paramount. For preventive maintenance of the pump, we recommend having the seals replaced after an operating period of no more than 5 years by an authorized Bosch Rexroth service company. ump safety block For limiting the operating pressure and for the pump circulation at zero pressure, we recommend our pump safety blocks of type DBA... according to data sheet 2589. Automatic air bleeding during commissioning is, however, not possible via DBA blocks. In this case, we recommend separate, manual air bleeding. Bosch Rexroth AG Mobile Applications Zum Eisengießer 9786 ohr am Main, Germany Tel. +49 9352 8- info.ma@boschrexroth.de www.boschrexroth.com 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, RE 23/4.24