Gerotormotors (Low Speed High Torque otors) Type GP, GR, GVD RE 14 7/3.96 RE 14 7/11.96 Replaces: 3.96 Characteristics: Very smooth running, even at low speeds Wide speed range Constant output torque over a wide speed range High starting torque Robust design capable of withstanding tough operating conditions Favorable power-to-weight ratio Operation without a leakage oil line, even when exposed to high backflow pressures Can be connected in series Gerotormotors Type GR Contents Name page Characteristics 1 Functional description, applications, mode of action, variants 2 otor type: GP Ordering code, weights 3,4 Technical data, symbol 5 Operating curve 6-9 Direction of shaft rotation, permissible shaft load 1 Shaft version 11 Unit dimensions GP 12 otor type: GR Ordering code, weights 13, 14 Technical data, symbol 15 Operating curve -2 Direction of shaft rotation, permissible shaft load 21 Shaft version 11 Unit dimensions (side port version) 22 Unit dimensions (end port version) 23 otor type: GVD Ordering code, weights 24 Technical data, symbol 25 Operating curve 26- Direction of shaft rotation, permissible shaft load 31 Shaft version 11 Unit dimensions 32 1/32
RE 14 7/3.96 Functional Description, applications, mode of operation, variants Gerotor motors are robust hydraulic driveline elements with universal applications. The Gerotor has a special design feature (Gerotor reduction) that allows low output speeds without the need for additional gear stages. In many cases, this can help to reduce costs and cut down weight. Gerotor motors are self-lubricating and practically maintenance-free, merely requiring a regular oil change. Gerotor motors cover a torque spectrum from 1 danm to 1 danm and operate in a power range from to kw. pplications: gricultural and forestry vehicles Conveyor systems Cranes and transport systems unicipal vehicles (road sweepers, snow clearers, road gritters, etc.) Construction machinery ining equipment Winch drives Plastics machinery Wood processing machinery achine tools Shipbuilding ode of operation: Gerotor motors are internally geared motors that convert hydraulic energy into mechanical energy. The Gerotor consists of a ring with an internal gear profile, and an excentric pinion mounted in this internal ring gear. The pinion has one tooth less than the internal ring gear and so only advances by one tooth space every time it rotates within the ring. This effect gives rise to a reduction ratio, which is the basis for the excellent slow-running characteristics of this motor design. cardan shaft with crowned profile on either end transmits the power from the pinion to the output shaft. Series GP, GR and GVD motors are controlled using the control grooves in a drum valve. This drum valve is a part of the shaft in GP and GR motors, whereas the shaft in the GVD model draws the drum valve with it. otor torque is dependent on the size of motor (cm 3 per revolution) and the pressure differential between the inlet and outlet connections Variants: Gerotormotors offers a wide choice of special versions for particular applications in addition to its comprehensive range of standard motors. Wheel motors with recessed mounting flange Two-stage switching motors with variable intake volumes otors with a speedo connection for measuring speeds otors with integrated shock valves 2/32
Ordering code and sample order (Type GP, GR, GVD) RE 14 7/3.96 G / * Type Series GP-motor = P 61 GR-motor (side port version) = R 62 GRE-motor (end port version) = RE 621 GVD-motor = VD 6 Displacement (cm 3 per revolution) Type GP GR GVD GRE 5,9 51, 51, 5 C 7,7 1,4 1,4 F 9,9 13,7 13,7 1 G 123,6 125,9 125,9 125 H 15,5 2,9 2,9 K 197, 23,6 23,6 2 L 247,2 251,7 251,7 25 3,9 325, 325, 32 N 47,2 47,2 4 P Size Code letter Further details in clear text Shaft 2-hole flange SE 1 = cylindrical shaft 32 mm 2 = cylindrical shaft 25 mm 3 = tapered shaft 1:1 4 = Involute splined shaft SE 6b 5 = cylindrical shaft 1 inch 4-hole flange SE 6 = cylindrical shaft 32 mm 7 = cylindrical shaft 25 mm = tapered shaft 1:1 9 = Involute splined shaft SE 6b 1 = cylindrical shaft 1 inch Connection thread 1 = etric 2 = Pipe thread Sample order: GP (displacement = 7,7cm 3 per revolution) cylindrical shaft Ø 32mm Connection thread / 14x1,5 Ordering code: GP /61-F11 3/32
RE 14 7/3.96 Ordering code and weights (Type GP) GP-otors with 2-hole flange, side port version, series 61 Shaft Connections GP 5 GP GP 1 GP 125 GP GP 2 GP 25 GP 32 Cyl. shaft 14x1,5 61-C11 61-F11 61-G11 61-H11 61-K11 61-L11 61-11 61-N11 Ø 32mm G1/2 G1/4 61-C21 61-F21 61-G21 61-H21 61-K21 61-L21 61-21 61-N21 Cyl. shaft 14x1,5 61-C12 61-F12 61-G12 61-H12 61-K12 61-L12 61-12 61-N12 Ø 25mm G1/2 G1/4 61-C22 61-F22 61-G22 61-H22 61-K22 61-L22 61-22 61-N22 Tepered 14x1,5 61-C13 61-F13 61-G13 61-H13 61-K13 61-L13 61-13 61-N13 shaft 1:1 G1/2 G1/4 61-C23 61-F23 61-G23 61-H23 61-K23 61-L23 61-23 61-N23 Involute 14x1,5 61-C14 61-F14 61-G14 61-H14 61-K14 61-L14 61-14 61-N14 splinted shaft G1/2 SE 6b G1/4 61-C24 61-F24 61-G24 61-H24 61-K24 61-L24 61-24 61-N24 Cyl. shaft 14x1,5 61-C15 61-F15 61-G15 61-H15 61-K15 61-L15 61-15 61-N15 Ø 1inch G1/2 (25,4mm) G1/4 61-C25 61-F25 61-G25 61-H25 61-K25 61-L25 61-25 61-N25 Weight (kg) 5,4 5,6 5, 5,9 6,2 6,5 6, 7,4 GP-otors with 4-hole flange, side port version, series 61 Shaft Connections GP 5 GP GP 1 GP 125 GP GP 2 GP 25 GP 32 Cyl. shaft 14x1,5 61-C 61-F 61-G 61-H 61-K 61-L 61-61-N Ø 32mm G1/2 G1/4 61-C26 61-F26 61-G26 61-H26 61-K26 61-L26 61-26 61-N26 Cyl. shaft 14x1,5 61-C17 61-F17 61-G17 61-H17 61-K17 61-L17 61-17 61-N17 Ø 25mm G1/2 G1/4 61-C27 61-F27 61-G27 61-H27 61-K27 61-L27 61-27 61-N27 Tepered 14x1,5 61-C1 61-F1 61-G1 61-H1 61-K1 61-L1 61-1 61-N1 shaft 1:1 G1/2 G1/4 61-C2 61-F2 61-G2 61-H2 61-K2 61-L2 61-2 61-N2 Involute- 14x1,5 61-C19 61-F19 61-G19 61-H19 61-K19 61-L19 61-19 61-N19 splinted shaft G1/2 SE 6b G1/4 61-C29 61-F29 61-G29 61-H29 61-K29 61-L29 61-29 61-N29 Cyl. shaft 14x1,5 61-C11 61-F11 61-G11 61-H11 61-K11 61-L11 61-11 61-N11 Ø 1inch G1/2 (25,4mm) G1/4 61-C21 61-F21 61-G21 61-H21 61-K21 61-L21 61-21 61-N21 Weight (kg) 5,4 5,6 5, 5,9 6,2 6,5 6, 7,4 Sample order: GP (displacement = cm 3 per revolution) 2-hole flange, cyl. shaft Ø 32mm connections G1/2; G1/4 Ordering code: GP / 61-K21 4/32
Technical data GP (For applications outside these parameters, please consult us!) RE 14 7/11.96 7/3.96 otor size 5 1 125 2 1) 2 2) 25 1) 25 2) 32 1) 32 2) Geometric displacement cm 3 5,9 7,7 9,9 123,6 15,5 197, 197, 247,2 247,2 3,9 3,9 ax. speed min -1 continuous 1 1 65 52 4 325 325 25 25 21 21 intermittent 3) 12 96 77 6 4 35 35 32 32 245 245 ax. torque danm continuous 9 14 1 22,5 29 29,5 2 32,5 29,5 2 intermittent 3) 1,5 17,5 21,5 27,5 35,5 42,5 42,5 43,5 41 46,5 39 peak 4) 14 22 27 37 43 54 54 55 4 6 6 ax. power output kw continuous 1 11 1 1,2 7 4,5 3, intermittent 3) 1 12 13 12 12 12 1 1,3 6 ax. pressure bar continuous 14 14 14 14 14 12 115 15 95 75 7 intermittent 3) 14 14 125 125 1 peak 4) 225 225 225 225 225 225 225 1 ax. oil flow L/min continuous 5 65 65 65 65 65 65 65 65 65 65 intermittent 3) 6 75 75 75 75 75 75 75 75 75 75 ax. input pressure bar continuous intermittent 3) 1 peak 4) 225 ax. return pressure without drain line or max. pressure in drain line 5) (-1 min -1 ) bar continuous 75 125 7) (1- min -1 ) bar continuous 5 75 7) (-1 min -1 ) bar continuous 25 5 7) (-12 min -1 ) bar intermittent 3) 75 ax. return pressure with drain line bar continuous intermittent 3) peak 4) 225 ax. strat pressure with unloaded shaft bar 1 1 1 1 6 6 6 6 in. start torque danm continuous 7 12 15 19 26 27 25,5 27,5 27,5 27 intermittent 3) 9 15,5 19 25 33 4 31,5 43 3,5 45 37 in. speed 6) min -1 1 1 1 1 1 1 1 1 1 1 1 1) Cilindrical shaft Ø 32mm (E) L GP has built-in non-return valves 5) E () 2) Cilindrical shaft Ø 25mm and Ø 25,4mm (1inch) Tapered shaft and involute splined shaft 3) Intermittent operation: operation max. 1 % per minute 4) Peak load: max. 1 % of every minute 5) Pressure of the shaft seal is identical to the output pressure 6) You must expect that the motor will run lees smoothly at speeds below those specified here 7) Operation of the motors at these pressures at quasistatic load and after consultation of the manufacturer 5/32
RE 14 7/3.96 Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GP 5 11 5 1 2 4 5 1 9 15 14 7 12 6 5 9 4 3 2 1 6 % 7 % 3 kw 6 1 2 4 5 6 7 9 1 Type GP 5 1 2 4 5 6 7 75 2 1 14 12 1 6 4 2 2 kw 4 kw 7 % 6 % 5 % kw 12 kw 14 12 1 6 1 2 4 5 6 7 9 1 n (min 1 ) 6/32
Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) RE 14 7/3.96 This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GP 1 5 1 2 4 5 6 75 24 22 2 1 14 12 1 7 % 65 % 12 kw 9 kw 15 14 12 9 6 4 3 kw 6 2 1 2 4 5 6 7 Type GP 125 5 1 2 4 5 6 7 75 32 2 24 12 kw 15 2 14 9 kw 12 12 9 4 7 % 7 % 65 % 3 kw 6 5 1 15 2 25 35 4 45 5 55 6 7/32
RE 14 7/3.96 Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GP 5 1 2 4 5 6 7 75 4 36 32 12 kw 2 24 15 14 2 12 4 7 % 7 % kw 4 kw 2 kw 12 9 6 5 1 15 2 25 35 4 45 5 Type GP 2 5 1 2 4 5 6 7 75 5 45 4 35 25 2 15 1 5 77 % 7 % 6 % kw 4 kw 2 kw 15 14 12 9 6 5 1 15 2 25 35 4 /32
Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) RE 14 7/3.96 This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GP 25 5 1 2 4 5 6 7 75 45 4 35 kw 125 12 25 2 15 9 15 1 5 % 7 % 65 % 4 kw 2 kw 6 25 5 75 1 125 15 2 225 25 275 325 Type GP 32 5 1 2 4 5 6 7 75 56 4 4 125 32 12 24 9 75 73 % 7 % 65 % 6 % 3 kw 6 25 5 75 1 125 15 2 225 25 9/32
RE 14 7/3.96 Direction of shaft rotation (looking at shaft end) Permissible shaft load for GP: The allowed radial shaft load depends on the speed n, on the distance between the point of application of force and the mounting flange, and on the shaft design. Direction of rotation (allocation of ports) E = Inlet = Outlet E Permissible shaft load Shaft Ø 32 mm Shaft Ø 25 mm and 25,4 mm (1inch) F rad = x 25 n (dan) 95+L 9 5daN F rad 7 25daN Radial force in dan 6 5 4 2 L F rad = Radial force L = Distance n = Speed 1 1 2 4 5 6 7 9 1 11 12 Speed in min -1 1/32
24 24 Shaft version: Type GP, GR, GVD RE 14 7/3.96 (Dimensions in mm) Ø32 +,1 -,2 Ø1 57,5 1 1x45 5 1x45 Ø25 +,15 -,2 Ø1 5 45 Ø33 Ø33 35 -,26 1 -,36 43,2±, 1 1x45 Ø25,4-,2 Ø1 32 4,6±1 Ø33 2 -,36 -,36 43,2±, 1 31,75 2, +,1 -, 1/4" Cylindrical shaft Ø32mm Cylindrical shaft Ø25mm Cylindrical shaft Ø25,4mm Parallel key 1xx45; DIN 65 Parallel key x7x32; DIN 65 Parallel key 1/4x1/4x1 1/4 Inch. S. 46 6,25±,5 Ø26, 2x1,5 4,5 43,2±, 37 26,4±1,5x45 1:1 14 19,5 25±,4 3,5 Ø33 21,52±,5 1 25,324±,5 Ø33 15,4-,3 6x6 5 Involute splined shaft Tapered shaft. S. 259 (ISO / R 775) SE 6b Parallel key 5x5x14; DIN 65 11/32
RE 14 7/3.96 7/11.96 Unit Dimensions: Type GP (Dimensions in mm) (Shaft versions see page 11) Type L (- 1,5) Ø2,5±,5 GP 5 134 GP 13 GP 1 141 GP 125 143,5 L1 ±,3 GP 149 GP 2 154,5 GP 25 1 L 2±,3 2±,3 36±,3 3±,15 G 1/2 2±,3 2±,3 4 x ; 13 GP 32 171 Shaft L 1 Ø 32 mm max. 6,3 Ø 25 mm 54±,6 Ø 25,4 mm 54±,6 SE 6b max. 55,3 Tapered shaft 6 1 G 1/2 G 1/4 1±,1 1±,1 Ø9 X detail X Ø 1 Ø,4 1 Ø,4 55 55 45 13,5 13,5 12/32
Item numbers and weights (Type GR-side port version) RE 14 7/3.96 GR-otors with 2-hole flange, side port version, series 62 Shaft Connections GR 5 GR GR 1 GR 125 GR GR 2 GR 25 GR 32 GR 4 Cyl. shaft Ø 32mm 14x1,5 G1/2 62-C11 62-F11 62-G11 62-H11 62-K11 62-L11 62-11 62-N11 62-P11 G1/4 62-C21 62-F21 62-G21 62-H21 62-K21 62-L21 62-21 62-N21 62-P21 Cyl. shaft Ø 25mm 14x1,5 G1/2 62-C12 62-F12 62-G12 62-H12 62-K12 62-L12 62-12 62-N12 62-P12 G1/4 62-C22 62-F22 62-G22 62-H22 62-K22 62-L22 62-22 62-N22 62-P22 Tapered shaft 1:1 14x1,5 G1/2 62-C13 62-F13 62-G13 62-H13 62-K13 62-L13 62-13 62-N13 62-P13 G1/4 62-C23 62-F23 62-G23 62-H23 62-K23 62-L23 62-23 62-N23 62-P23 Involute splined shaft 14x1,5 G1/2 62-C14 62-F14 62-G14 62-H14 62-K14 62-L14 62-14 62-N14 62-P14 SE 6b G1/4 62-C24 62-F24 62-G24 62-H24 62-K24 62-L24 62-24 62-N24 62-P24 Cyl. shaft Ø 1inch 14x1,5 G1/2 62-C15 62-F15 62-G15 62-H15 62-K15 62-L15 62-15 62-N15 62-P15 (25,4mm) G1/4 62-C25 62-F25 62-G25 62-H25 62-K25 62-L25 62-25 62-N25 62-P25 Weight (kg) 5,6 5, 6, 6,1 6,4 6,7 7, 7,6,2 GR-otors with 4 -hole flange, side port version, series 62 Shaft Connections GR 5 GR GR 1 GR 125 GR GR 2 GR 25 GR 32 GR 4 Cyl. shaft 14x1,5 62-C 62-F 62-G 62-H 62-K 62-L 62-62-N 62-P Ø 32mm G1/2 G1/4 62-C26 62-F26 62-G26 62-H26 62-K26 62-L26 62-26 62-N26 62-P26 Cyl. shaft Ø 25mm 14x1,5 G1/2 62-C17 62-F17 62-G17 62-H17 62-K17 62-L17 62-17 62-N17 62-P17 G1/4 62-C27 62-F27 62-G27 62-H27 62-K27 62-L27 62-27 62-N27 62-P27 Tapered shaft1:1 14x1,5 G1/2 62-C1 62-F1 62-G1 62-H1 62-K1 62-L1 62-1 62-N1 62-P1 G1/4 62-C2 62-F2 62-G2 62-H2 62-K2 62-L2 62-2 62-N2 62-P2 Involute splined shaft 14x1,5 G1/2 62-C19 62-F19 62-G19 62-H19 62-K19 62-L19 62-19 62-N19 62-P19 SE 6b G1/4 62-C29 62-F29 62-G29 62-H29 62-K29 62-L29 62-29 62-N29 62-P29 Cyl. shaft Ø 1inch 14x1,5 G1/2 62-C11 62-F11 62-G11 62-H11 62-K11 62-L11 62-11 62-N11 62-P11 (25,4mm) G1/4 62-C21 62-F21 62-G21 62-H21 62-K21 62-L21 62-21 62-N21 62-P21 Weight (kg) 5,6 5, 6, 6,1 6,4 6,7 7, 7,6,2 Sample order: GR (displacement = cm 3 per revolution) 4-hole, tapered shaft connections G1/2; G1/4 Ordering code: GR / 62-F2 13/32
RE 14 7/3.96 Item numbers and weights (Type GR-end port version) GR-otors with 4-hole flange, end port version, series 621 Shaft Connections GR 5 GR GR 1 GR 125 GR GR 2 GR 25 GR 32 GR 4 Cyl. Shaft 14x1,5 621-C 621-F 621-G 621-H 621-K 621-L 621-621-N 621-P Ø 32mm G1/2 G1/4 621-C26 621-F26 621-G26 621-H26 621-K26 621-L26 621-26 621-N26 621-P26 Cyl. Shaft 14x1,5 621-C17 621-F17 621-G17 621-H17 621-K17 621-L17 621-17 621-N17 621-P17 Ø 25mm G1/2 G1/4 621-C27 621-F27 621-G27 621-H27 621-K27 621-L27 621-27 621-N27 621-P27 Tapered 14x1,5 621-C1 621-F1 621-G1 621-H1 621-K1 621-L1 621-1 621-N1 621-P1 shaft1:1 G1/2 G1/4 621-C2 621-F2 621-G2 621-H2 621-K2 621-L2 621-2 621-N2 621-P2 Involute 14x1,5 621-C19 621-F19 621-G19 621-H19 621-K19 621-L19 621-19 621-N19 621-P19 splined shaft G1/2 SE 6b G1/4 621-C29 621-F29 621-G29 621-H29 621-K29 621-L29 621-29 621-N29 621-P29 Cyl. Shaft 14x1,5 621-C11 621-F11 621-G11 621-H11 621-K11 621-L11 621-11 621-N11 621-P11 Ø 1inch G1/2 (25,4mm) G1/4 621-C21 621-F21 621-G21 621-H21 621-K21 621-L21 621-21 621-N21 621-P21 Weight (kg) 6,9 7,1 7,2 7,4 7,7,2,7 9,3 9,7 Sample order: GR 25 (displacement = 25cm 3 per revolution) 2-hole flange, cylindrical shaft Ø 25mm connections G1/2; G1/4; end port version Ordering number: GR 25 / 621-22 14/32
Technical Data GR (For applications outside these parameters, please consult us!) RE 14 7/3.96 7/11.96 otor size 5 1 125 1) 2) 2 1) 2 2) 25 1) 25 2) 32 1) 32 2) 4 1) 4 2) Geometric displacement min -1 51, 1,4 13,7 125,9 2,9 2,9 23,6 23,6 251,7 251,7 325, 325, 47,2 47,2 ax. speed min -1 continuous 775 75 6 475 375 375 24 24 19 19 17 17 intermittent 3) 97 94 75 6 47 47 375 375 24 24 2 2 ax. torque danm continuous 1 2 25 32 27 33 29 36 35 2 33 27,5 intermittent 3) 13 2 24 3 3 45 39 47 3 51 3 46 41 peak 4) 17 27 32 37 46 46 56 56 71 71 4 4 7 7 ax. power output kw continuous 7 1 11 11 11 9 9 7,5 7 6 5,5 4,5 4, 4 intermittent 3),5 12,5 13 12,5 12,5 13 11 1 9,5,5 6 6,6 5, ax. pressure bar continuous 14 14 14 14 14 12 12 15 1 65 6 5 intermittent 3) 14 14 11 125 9 5 75 peak 4) 225 225 225 225 225 225 225 225 225 225 21 21 135 135 ax. oil flow L/min continuous 4 6 6 6 6 6 6 6 6 6 6 6 7 7 intermittent 3) 5 75 75 75 75 75 75 75 75 75 75 75 75 75 ax. input pressure bar continuous intermittent 3) peak 4) 225 ax. return pressure without drain line or max. pressure in drain line 5) (-1 min -1 ) bar continuous 75 125 7) (1- min -1 ) bar continuous 5 75 7) (-775 min -1 ) bar continuous 25 5 7) (-97 min -1 ) bar intermittent 3) 75 ax. return pressure with drain line bar continuous intermittent 3) peak 4) 225 ax. start pressure with unloaded shaft bar 1 1 1 1 6 6 6 6 6 6 in. start torque danm continuous 7,5 11,5 14,5 19,5 25 22 25 23 27 21 29 22 25 2 at max. pressure drop intermittent 3) 9,5 14,5 19,5 24,5 31 31 4 32 3 45 32 3 33 in. speed 6) min -1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1) Cilindrical shaft Ø 32mm (E) L GR has built-in non-return valves 5) E () 2) Cilindrical shaft Ø 25mm and Ø 25,4mm (1inch) Tapered shaft and involute splined shaft 3) Intermittent operation: operation max. 1 % per minute 4) Peak load: max. 1 % of every minute 5) Pressure of the shaft seal is identical to the output pressure 6) You must expect that the motor will run lees smoothly at speeds below those specified here 7) Operation of the motors at these pressures at quasistatic load and after consultation of the manufacturer. 15/32
RE 14 7/3.96 Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GR 5 14 5 1 2 4 5 12 1 9 kw 15 14 12 6 4 3 kw 9 6 2 7 % 65 % 1 2 4 5 6 7 9 1 Type GR 5 1 2 4 5 6 7 75 22 2 1 14 12 1 6 4 2 3 % % 6 % 7 % 9 kw 3 kw 12 kw 15 14 12 9 6 1 2 4 5 6 7 9 1 /32
Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) RE 14 7/3.96 This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GR 1 5 1 2 4 5 6 7 75 2 24 2 12 12 kw 9 kw 15 14 12 9 4 3 % % 7 % 65 % 3 kw 6 1 2 4 5 6 7 Type GR 125 5 1 2 4 5 6 7 75 36 32 2 24 2 12 4 3 % % 7 % 65 % 12 kw 9 kw 3 kw 15 14 12 9 6 5 1 15 2 25 35 4 45 5 55 6 17/32
RE 14 7/3.96 Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GR 5 1 2 4 5 6 7 75 44 4 36 32 2 24 2 kw 12 kw 15 14 12 9 12 4 5 % % 7 % 65 % 2 kw 4 kw 6 5 1 15 2 25 35 4 45 5 Type GR 2 5 1 2 4 5 6 7 75 55 5 45 4 35 25 12 kw kw 15 12 2 15 1 5 % 7 % 65 % 4 kw 2 kw 9 6 5 1 15 2 25 35 4 1/32
Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) RE 14 7/3.96 This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GR 25 5 1 2 4 5 6 7 75 55 5 45 4 35 25 2 15 1 5 5 % % kw 7 % 4 kw 65 % 2 kw 14 12 1 9 6 Type GR 32 25 5 75 1 125 15 2 225 25 275 325 n (min 1) ) 5 1 2 4 5 6 7 75 Q (L/min) 64 56 4 4 9 kw 125 32 24 9 5 % 3 % 7 % 65 % 3 kw 6 25 5 75 1 125 15 2 225 25 19/32
RE 14 7/3.96 Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GR 4 5 1 2 4 5 6 7 75 6 55 5 45 4 35 1 9 25 2 15 5 % % 7 % 65 % 3 kw 6 1 5 25 5 75 1 125 15 2 2 2/32
Direction of shaft rotation (looking at shaft end) RE 14 7/3.96 Permissible shaft load for GR: The allowed radial shaft load depends on the speed n, on the distance between the point of application of force and the mounting flange, and on the shaft design. Direction of rotation, side port version (allocation of ports) E = Inlet = Outlet Direction of rotation, side port version (allocation of ports) E = Inlet = Outlet E E E Permissible shaft load Shaft Ø 32 mm Shaft Ø 25 mm and 25,4 mm (1inch) F rad = x 25 n (dan) 95+L 9 5daN F rad 7 25daN Radial force in dan 6 5 4 2 L F rad = Radial force L = Distance n = Speed 1 1 2 4 5 6 7 9 1 11 12 Speed in min -1 21/32
RE 14 7/11.96 7/3.96 Unit Dimensions: Type GR-Side port version (Shaft versions see page 11) (Dimensions in mm) Type L (- 1,5) GR 5 139 GR 143 Ø2,5±,5 GR 1 146 GR 125 149 GR 154 GR 2 159,5 L1 ±,3 GR 25 6 GR 32 176 GR 4 17 L 2±,3 2±,3 36±,3 3±,15 G 1/2 2±,3 2±,3 4 x ; 13 G 1/2 Shaft L 1 Ø 32 mm max. 6,3 Ø 25 mm 54±,6 Ø 25,4 mm 54±,6 SE 6b max. 55,3 Tapered Shaft 6 1 G 1/4 1±,1 1±,1 Ø1 Ø,4 1 Ø,4 45 Ø1 X detail 55 55 X 13,5 13,5 22/32
Unit Dimensions: Type GR-End port version RE 14 7/11.96 7/3.96 (Dimensions in mm) (Shaft versions see page 11) G1/2 9,1 G1/4 4,7 Ø42 Ø2,5±,5 L1 ±,3 Type L (- 1,5) L Ø1 Ø1 Ø,4 GR 5 149 GR 153 GR 1 156 GR 125 159 GR 4 GR 2 9,5 GR 25 176 GR 32 16 GR 4 197 Shaft L 1 45 Ø 32 mm max. 6,3 Ø 25 mm 54±,6 55 Ø 25,4 mm 54±,6 SE 6b max. 55,3 13, Tapered shaft 6 1 23/32
RE 14 7/3.96 Ordering code and weights (Type GVD) GVD-otors with 2-hole flange, side port version, series 6 Shaft Connections GVD 5 GVD GVD 1 GVD 125 GVD GVD 2 GVD 25 GVD 32 GVD 4 Cyl. Shaft 14x1,5 6-C11 6-F11 6-G11 6-H11 6-K11 6-L11 6-11 6-N11 6-P11 Ø 32mm G1/2 G1/4 6-C21 6-F21 6-G21 6-H21 6-K21 6-L21 6-21 6-N21 6-P21 Cyl. Shaft 14x1,5 6-C12 6-F12 6-G12 6-H12 6-K12 6-L12 6-12 6-N12 6-P12 Ø 25mm G1/2 G1/4 6-C22 6-F22 6-G22 6-H22 6-K22 6-L22 6-22 6-N22 6-P22 Tapered 14x1,5 6-C13 6-F13 6-G13 6-H13 6-K13 6-L13 6-13 6-N13 6-P13 Shaft 1:1 G1/2 G1/4 6-C23 6-F23 6-G23 6-H23 6-K23 6-L23 6-23 6-N23 6-P23 Involute 14x1,5 6-C14 6-F14 6-G14 6-H14 6-K14 6-L14 6-14 6-N14 6-P14 splined shaft G1/2 SE 6b G1/4 6-C24 6-F24 6-G24 6-H24 6-K24 6-L24 6-24 6-N24 6-P24 Cyl. Shaft 14x1,5 6-C15 6-F15 6-G15 6-H15 6-K15 6-L15 6-15 6-N15 6-P15 Ø 1inch G1/2 (25,4mm) G1/4 6-C25 6-F25 6-G25 6-H25 6-K25 6-L25 6-25 6-N25 6-P25 Weight (kg),5,7,9 9,1 9,4 9,6 9,9 1,5 11,1 GVD-otors with 4-hole flange, side port version, series 6 Shaft Connections GVD 5 GVD GVD 1 GVD 125 GVD GVD 2 GVD 25 GVD 32 GVD 4 Cyl. Shaft 14x1,5 6-C 6-F 6-G 6-H 6-K 6-L 6-6-N 6-P Ø 32mm G1/2 G1/4 6-C26 6-F26 6-G26 6-H26 6-K26 6-L26 6-26 6-N26 6-P26 Cyl. Shaft 14x1,5 6-C17 6-F17 6-G17 6-H17 6-K17 6-L17 6-17 6-N17 6-P17 Ø 25mm G1/2 G1/4 6-C27 6-F27 6-G27 6-H27 6-K27 6-L27 6-27 6-N27 6-P27 Tapered 14x1,5 6-C1 6-F1 6-G1 6-H1 6-K1 6-L1 6-1 6-N1 6-P1 Shaft 1:1 G1/2 G1/4 6-C2 6-F2 6-G2 6-H2 6-K2 6-L2 6-2 6-N2 6-P2 Involute- 14x1,5 6-C19 6-F19 6-G19 6-H19 6-K19 6-L19 6-19 6-N19 6-P19 splined shaft G1/2 SE 6b G1/4 6-C29 6-F29 6-G29 6-H29 6-K29 6-L29 6-29 6-N29 6-P29 Cyl. Shaft 14x1,5 6-C11 6-F11 6-G11 6-H11 6-K11 6-L11 6-11 6-N11 6-P11 Ø 1inch G1/2 (25,4mm) G1/4 6-C21 6-F21 6-G21 6-H21 6-K21 6-L21 6-21 6-N21 6-P21 Weight (kg),5,7,9 9,1 9,4 9,6 9,9 1,5 11,1 Sample order: GVD 1 (displacement = 1cm 3 per revolution) 4-hole flange, cyl. shaft Ø 32mm connections G1/2; G1/4 Ordering code: GVD 1 / 6-G26 24/32
Technical data GVD (For applications outside these parameters, please consult us!) RE 14 7/3.96 7/11.96 otor size 5 1 125 1) 2) 2 1) 2 2) 25 1) 25 2) 32 1) 32 2) 4 1) 4 2) Geometric displacement min -1 51, 1,4 13,6 125,9 2,9 2,9 23,6 23,6 251,7 251,7 325,75 325, 47,2 47,2 ax. speed min -1 continuous 775 1 65 52 4 4 325 325 25 25 21 21 17 17 intermittent 3) 97 94 75 6 47 47 375 375 24 24 2 2 ax. torque danm continuous 1 2 25 32 27 33 29 36 32,5 2 33 27,5 intermittent 3) 13 1 24 3 3 45 39 47 3 51 42 53,5 4 peak 4) 17 27 32 37 46 46 56 56 71 71 4 4 7 7 ax. power output kw continuous 7 1 11 11 11 9 9 7,5 7 6 5 4,5 4, 4 intermittent 3),5 12,5 13 12,5 12,5 13 11 1 9,5,5 7,5 7,5 7,5 ax. pressure bar continuous 14 14 14 14 14 12 12 15 15 75 65 6 5 intermittent 3) 14 14 11 125 1 1 75 peak 4) 225 225 225 225 225 225 225 225 225 225 21 21 135 135 ax. oil flow L/min continuous 4 7 7 7 7 7 7 7 7 7 7 7 7 7 intermittent 3) 5 75 75 75 75 75 75 75 75 75 75 75 75 75 ax. input pressure bar continuous intermittent 3) 1 peak 4) 225 ax. return pressure without drain line or max. pressure in drain line 5) (-1 min -1 ) bar continuous 75 125 7) (1- min -1 ) bar continuous 5 75 7) (-1 min -1 ) bar continuous 25 5 7) (-97 min -1 ) bar intermittent 3) 75 ax. return pressure with drain line bar continuous intermittent 3) peak 4) 225 ax. start pressure with unloaded shaft bar 1 1 1 1 6 6 6 6 6 6 in. start torque danm continuous 7,5 11,5 14,5 19,5 25,5 22,5 25,5 23,5 2 21,5 26 23 24 intermittent 3) 9,5 14,5 19,5 24,5 31,5 31,5 4,5 32,5 3,5,5 45 33 5 37,5 in. speed 6) min -1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1) Cilindrical shaft Ø 32mm (E) L GVD has built-in non-return valves 5) E () 2) Cilindrical shaft Ø 25mm and Ø 25,4mm (1inch) Tapered shaft and involute splined shaft 3) Intermittent operation: operation max. 1 % per minute 4) Peak load: max. 1 % of every minute 5) Pressure of the shaft seal is identical to the output pressure 6) You must expect that the motor will run lees smoothly at speeds below those specified here 7) Operation of the motors at these pressures at quasistatic load and after consultation of the manufacturer. 25/32
RE 14 7/3.96 Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GVD 5 14 5 1 2 4 5 12 1 6 4 7 % 2 kw kw 4 kw 15 14 12 9 6 2 7 % 65 % 1 2 4 5 6 7 9 1 Type GVD 5 1 2 4 5 6 7 qv (L/min) 22 2 1 14 12 1 6 4 2 3 % 6 % % 4 kw 12 kw kw 7 % 2 kw 15 14 12 9 6 1 2 4 5 6 7 9 1 26/32
Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) RE 14 7/3.96 This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GVD 1 5 1 2 4 5 6 7 75 2 24 2 15 12 12 kw kw 14 12 9 4 3 % % 7 % 6 % 4 kw 2 kw 6 1 2 4 5 6 7 Type GVD 125 5 1 2 4 5 6 7 75 36 32 2 24 2 12 4 3 % % 4 kw 2 kw 12 kw kw 7 % 6 % 14 12 9 6 5 1 15 2 25 35 4 45 5 55 6 27/32
RE 14 7/3.96 Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GVD 5 1 2 4 5 6 7 75 Q (L/min) 44 4 36 32 2 24 2 3 % 12 kw kw 15 14 12 9 12 4 7 % % 65 % 2 kw 4 kw 6 5 1 15 2 25 35 4 45 5 Type GVD 2 5 1 2 4 5 6 7 75 55 5 45 4 35 25 2 15 1 5 % 12 kw kw 7 % 65 % 4 kw 2 kw 14 12 9 6 5 1 15 2 25 35 4 2/32
Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) RE 14 7/3.96 This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GVD 25 5 1 2 4 5 6 7 75 5 45 4 35 kw 14 12 15 25 2 15 1 % 2 kw 4 kw 7 % 6 % 9 6 5 65 % 25 5 75 1 125 15 2 225 25 275 325 Type GVD 32 5 1 2 4 5 6 7 75 qv (L/min) 56 4 125 4 kw 12 32 24 7 % 65 % 4 kw 9 75 6 7 % 2 kw 25 5 75 1 125 15 2 225 25 29/32
RE 14 7/3.96 Operating Curves (measured at ν = 35mm 2 /s and t = 5 C) This performance data apply with a backflow pressure of 5-1 bar, using a mineral oil-based hydraulic oil with a viscosity of 35 mm 2 /s at 5 C. : Endurance operation : Intermittent operation (operation max. 1 % per minute) Note: Intermittent pressure drop must not coincide with fluctuations in the oil flow. Type GVD 4 5 1 2 4 5 6 7 75 6 55 5 45 4 kw 1 35 25 2 4 kw 9 6 15 1 5 3 % % 7 % 65 % 2 kw 25 5 75 1 125 15 2 225 /32
Direction of shaft rotation (looking at shaft end) RE 14 7/3.96 Direction of shaft rotation (allocation of ports) E = Inlet = Outlet E E Permissible shaft load Permissible shaft load for GVD: The tapered roller bearings on the output shaft mean it can accept high levels of axial and radial shaft load. Radial load starting characteristics are considerably better than motors with plain bearings. The broken curve plots the maximum permissible radial load. Loads above and beyond this level can lead to breakage. The central solid curves plot the permissible radial loads for a theoretical service life (1) of hours at 2 min-1. The expected service life can be calculated for different speeds and / or radial loads. Please refer to the "Gerotormotors Generelles" brochure for more detailed information about the calculation methods. These data assume the use of a hydraulic fluid with a sufficient anti-wear additive content. Shaft load F rad = f (L h ) Shaft load F rad = f (L) bei L h = h reaking limit Radial force in dan 7 6 5 4 2 n=1min -1 n=2min -1 n=4min -1 n=min -1 F ax F rad 27,5 L Radial force in dan 12 1 6 4 2 n = 1min -1 n = 2min -1 n = 4min -1 n = min -1 1 27,5 mm 6 mm 1 2 3 4 5 6 7 9 1 11 12 13 14 15 Calculated durability in 1 3 h F rad = Radial force F ax = xial force,4f rad L h = Calculated durability L = Distance 31/32
RE 14 7/3.96 7/11.96 Unit Dimensions: Type GVD (Shaft versions see page 11) (Dimensions in mm) Ø2,5±,5 Type L (- 1,5) GVD 5 179,3 L1-2,5 1-,5 GVD 13,3 GVD 1 16,3 GVD 125 19,3 GVD 194,3 GVD 2 199, GVD 25 26,3 L 22 96, 1; 11 5±,2 27 GVD 32 2,3 GVD 4 227,3 G 1/2; 15 Shaft L 1 Ø 32 mm max. 6,3 Ø 25 mm 54±,6 32 42 X detail Ø 25,4 mm 54±,6 SE 6b max. 55,3 Tapered Shaft 6 1 13,5 13,5 15 55,3-,3 55,3-,3 9 G 1/4 X Ø,4 1±1,5 Ø,4 132±1,5 HNP obile Hydraulik GmbH & Co. KG Ludwigsluster Chaussee 5 D-1937 Parchim Telefon 3 71 / 6 6 Telefax 3 71 / 6 63 7 oder 6 62 1 annesmann Rexroth Limited Cromwell Road, St. Neots, Huntingdon, Cambs. PE19 2ES Tel: (14) 47641 Fax: (14) 21952 32/32 The specified data is for product description only and may not be deemed to be guaranteed unless expressly confirmed in the contract. ll rights reserved Subject to revision