How To Fit A Sauer-Sundstrand Gear Pump

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SNM2 SEM2 Gear Motors Technical Information

Gear Pumps and Motors General Products Sauer-Sundstrand Gear Pump and Motor Features Worldwide sales and service capabilities from the industry leader is part of the package for every Sauer-Sundstrand gear product customer. Proven reliability with over 45 years of experience in gear product design for mobile and industrial applications. System pressures to 4 psi (276 bar) and speeds to 1, rpm allow high performance in system design. Pressure balanced design for high efficiency and long life. Low cost design and manufacturing for the requirements of fixed displacement systems. Variety of flexible installation options available: Convenient side or rear porting options Auxiliary through drive SAE mounting pads Integral relief valve, priority flow control, and priority flow divider covers High temperature viton seals Metric and European flanges, shafts and ports Multiple pump configurations (refer to the Quick Reference chart below) Quick Reference - Multiple Pump Configurations CP222 CP18 Front Pump SNP3 SP2 1/2 SNP2 TFP1 TFP5 TFP5 TFP1 SNP2 SP2 1/2 SEP3/SNP3 CP18 CP222 2 Rear Pump Copyright 1994, Sauer-Sundstrand Company. All rights reserved. Contents subject to change. Information contained herein should be confirmed before placing orders. Printed in the U.S.A. 194 H

Gear Pumps and Motors General Products A Complete Family of Sauer-Sundstrand Gear Pumps and Motors CP222 Quick Reference - Displacement/Model Gear Pump Models CP18 SEP3 SNP3 SP2 1/2 SNP2 TFP1 Gear Motor Models TFP5 TAM 22/9 SNM2 TFM1.1.2.3.4.5 1 2 3 4 5 6 7 8 9 1 Displacement (in 3 /rev) General Gear Product Specifications Information in the following pages will help determine which Sauer-Sundstrand components are most appropriate for your application. 3

General Description Features SAUER-SUNDSTRAND High performance gear motors are fixed displacement motors. They consist of motor housing, drive gear, driven gear, DU bushings, motor cover and flange, shaft seal ring and the outer and inner seals, as shown in Figure 1. The pressure balanced design provides high efficiency for the entire series of motors. Contents Economical through: high output torque wide speed range high efficiency long life Sauer-Sundstrand Gear Pump and Motor Features... 2 General Gear Product Specifications... 3 A Complete Family of Sauer-Sundstrand Gear Pumps and Motors... 3 General Description... 4 Features... 4 Method of Operation... 5 Technical Parameters... 8 Circuit Diagram and Nomenclature... 8 Design... 8 Type of Mounting... 8 Porting Options... 8 Direction of Rotation... 8 Speed Range... 8 Hydraulic Parameters... 8 System Pressure, Case Drain / Output p2... 8 System Pressure Range, Input p1... 8 Hydraulic Fluid... 8 Temperature Range... 8 Fluid Viscosity Limits... 8 Filtration... 8 Displacement Per Revolution... 8 Output Power... 8 Input Flow... 8 Technical Application Regulations, Recommendations and Explanation... 8 Shaft Load... 8 Determination of Nominal Motor Size, SI and English System... 9 Performance Curves... 1 Performance Curves (Continued)... 11 Performance Curves (Continued)... 12 Performance Curves (Continued)... 13 Dimensions... 14 Configuration CO 1 / CI 1... 14 Dimensions, continued... 15 Configuration CO 2 / SC 2... 15 Dimensions, continued... 16 Configuration FR 3... 16 Dimensions, continued... 17 Configuration CI 6 / SC 6 (SAE-A Flange)... 17 Outrigger Assembly... 18 For SN Series Pumps and Motors... 18 Loading... 18 Pressure... 18 Applications... 18 Outrigger Assembly (continued)... 19 4

Method of Operation When a motor is driven by an external flow of oil under pressure, the empty tooth chambers are filled with hydraulic fluid. The hydraulic fluid is transported to the low pressure side via the path of the tooth chambers of the rotating gears. The high and low pressure areas of the motor are separated from each other: radially by the intake path of the gears in the motor housing, and axially by the DU Bushings. Figure 1 New sealing system design for high pressure and leakage prevention. Case drain port compatible with market standards. Pressure compensated bearings made in antifriction alloy. Extruded aluminum alloy body for high pressure with flanged or threaded type ports. Compatible with all the standards of the market. Shaft Seal with built-in stiffener and dust lip, capable to with-stand inner and outer pressure. Maximum Case drain pressure: 5 bar (7 psi) continuous, 8 bar (115 psi) peak. 4 bolt 6 x 6 type design. Various shaft options such as tapered, splined, parallel, straight key, tang, etc. Teflon impregnated bushings (DU type) for long life and high performance. 6 different standard types of mounting flanges, meeting all the standards of the market. High quality case hardened steel gears with superior surface finishing. P1139 5

Technical Data Table 1: SNM 2 SNM 2 Frame Size Dimension 6 8 11 14 17 19 22 25 cm 3 6. 8.4 1.8 14.4 16.8 19.2 22.8 25.2 Displacement in 3 /Rev.37.51.66.88 1.3 1.17 1.39 1.54 Rated pressure psi 36 36 36 36 33 3 26 23 Max. pressure psi 41 41 41 41 38 33 29 26 Minimum speed at max. pressure rpm 7 7 7 7 5 5 5 5 Maximum speed at max. pressure rpm 4 4 4 4 4 35 35 35 Maximum speed, running as pump rpm 3 3 3 25 25 25 25 25 Table 2: SEM 2 SEM 2 Frame Size Dimension 6 8 11 14 17 19 22 25 Displacement cm 3 6. 8.4 1.8 14.4 16.8 19.2 22.8 25.2 in 3 /Rev.37.51.66.88 1.3 1.17 1.39 1.54 Rated pressure psi 3 3 3 3 3 3 26 23 Max. pressure psi 33 33 33 33 33 33 29 26 Min. speed at max. pressure rpm 7 7 7 7 5 5 5 5 Max. speed at max. pressure rpm 4 4 4 4 4 35 35 35 Max. speed, running as pump rpm 3 3 3 25 25 25 25 25 6

Type Designation and Order Code SNM2 / 2 5 CO 2 SNM 2 = SEM 2 Shaft Design Frame Size Displacement [cm 3 ] mm 3 / rev (in 3 )/Rev. 6 = [6.] / (.37) 8 = [8.4] / (.51) 9 1) = [9.5] / (.58) 11 = [1.8] / (.66) 12 1) = [12.3] / (.75) 14 = [14.4] / (.88) 17 = [16.8] / (1.3) 19 = [19.2] / (1.17) 22 = [22.8] / (1.39) 25 = [25.2] / (1.54) 1) Contact Sauer Sundstrand for Availability CO = Tapered shaft with key SC = Splined shaft CI = Parallel shaft with key FR = Tang Shaft for Oldham coupling Port variant code B = Ports, Bosch C = Ports, DIN Standard D = Metric threads E = SAE O-Ring Boss F = B.S.P. Threaded Variant Codes RLY = 2" Keyed shaft, 1-1/16"-12 SAE Ports AHH = 2.31" Keyed shaft, 17.46mm diameter with 2 snap ring grooves.. Configuration (Flange and Ports) 1 = Standard DIN flange and ports (SEM 2) 2 = Bosch ports, 8mm pilot on flange 3 = Bosch ports, 8mm pilot on flange 6 = SAE "A" Flange and Ports Order Example: SNM2 / 25 SC 6 Single gear pump SNM 2, displacement = 1.54 in 3 (25.2 cm 3 ), mounting flange and drive shaft: splined shaft, SAE "A" 2 bolt flange. Special Design Option Prefixes: SNM2F = Check valve/throttle orifice integral to cover. SNM2D = Bi-directional check valve for bearing blocks, allows case drain to be plugged. Outlet pressure can not exceed 1 psi (6.8 bar) Note: Please contact Sauer-Sundstrand for 9.5 and 12 cc models. 7

Technical Parameters Hydraulic Parameters, continued Circuit Diagram and Nomenclature Gear motor Figure 2 System Pressure Range, Input p 1 Maximum pressure = 36 psi (25 bar), see page 6. Hydraulic Fluid Hydraulic fluid, refer to SAUER-SUNDSTRAND Bulletin BLN-9887 or Publication SDF (Id.No. 697581). Temperature Range T min = - 4 F (- 2 C), intermittent, cold start. T max = 18 F (+ 8 C), maximum, continuous. Design Gear motor Type of Mounting Two bolt SAE "A", four bolt DIN, and Bosch mount. Porting Options SAE O-ring, DIN Flange, Bosch Flange, and B.S.P Threaded. Direction of Rotation Clockwise or counterclockwise. Speed Range See tables on page 6. Weight Available upon request. Installation Position Optional Flow Direction Flow direction changes with the direction of rotation. Hydraulic Parameters System Pressure, Case Drain / Output p 2 Maximum output pressure = 1 psi (6.8 bar). Fluid Viscosity Limits n min = 59 SUS (1 mm 2 /s) n max = 49 SUS (1 mm 2 /s) intermittent cold start Recommended viscosity range: 98-233 SUS (2-5 mm 2 /s). Filtration Required cleanliness level:iso Code 18/13 or better. Refer to SAUER-SUNDSTRAND Bulletin BLN-9887 or Publication SDF (Id.No. 697581). Displacement Per Revolution See tables 1 & 2 on page 6. Output Power See performance curves on pages 1-13. Input Flow See performance curves on pages 1-13. Technical Application Regulations, Recommendations and Explanation Shaft Load The drive must not impose axial or radial loads on the pump shaft. When using a coupling make sure that there are no axial or radial loads. When a belt drive, a gear drive or a chain drive has to be used, it may necessary to install a load adapter such as the outrigger option shown on pages 2 and 21. Contact Sauer- Sundstrand for application assistance. 8

Determination of Nominal Motor Size, SI and English System Vg n Input flow Q e = l/min 1 η v Vg n Input flow Q e = gal/min 231 η v Vg p η mh Output torque M e = Nm 2 π Vg p η mh Output torque M e = in lb 2 π M e n Q e p η t Output Power P= = kw 955 6 M e n Q e p η t Output Power P= = HP 955 1714 Vg = Displacement per revolution in cm 3 p HD p ND p = High pressure, in bar = Low pressure, in bar = p HD - p ND bar (System pressure) Vg = Displacement per revolution in in 3 p HD p ND p = High pressure, in psi = Low pressure, in psi = p HD - p ND psi (System pressure) n = Speed rpm (min -1) η v = Volumetric efficiency, (%) η mh = Mechanical - hydraulic efficiency, (%) η t = Overall efficiency, (%) n = Speed rpm (min -1) η v = Volumetric efficiency, (%) η mh = Mechanical - hydraulic efficiency, (%) η t = Overall efficiency, (%) 9

Performance Curves [ν = 25 mm 2 /s (12 SUS), ϑ = 5 C (122 F)] Figure 3: SNM 2/ 6 3625 (25) Figure 4: SNM 2/ 6.67 HP,.5 kw 1.3 HP, 1 kw 2.7 HP, 2 kw 4. HP, 3 kw 5.4 HP, 4 kw 6.7 HP, 5 kw 8.1 HP, 6 kw 9.4 HP, 7 kw 1.7 HP, 8 kw 12.1 HP, 9 kw 3625 (25) 29 (2) 89% 88% 29 (2) 2176 (15) 145 (1) 7 rpm 1 rpm 15 rpm 2 rpm 3 rpm 4 rpm 2176 (15) 86% 87% 145 (1) 85% 725 (5) 2.6 (1) gpm (l/min) 5.3 (2) P1145A 725 (5) 7 83% 81% 5 1 15 2 25 3 35 4 min -1 RPM P1145B Figure 5: SNM 2/ 8 Figure 6: SNM 2/ 8 3625 (25) 29 (2) 3625 (25) 1.3 HP, 1 kw 2.7 HP,2 kw 4. HP,3 kw 5.4 HP,4 kw 6.7 HP,5 kw 9.4 HP,7 kw 12.1 HP,9 kw 14.8 HP,11 kw 17.4 HP,13 kw 2176 (15) 29 (2) 7 rpm 1 rpm 15 rpm 2 rpm 3 rpm 4 rpm 9% 145 (1) 2176 (15) 92% 91% 725 (5) 2.6(1) gpm (l/min) 5.3(2) 7.9(3) 145 (1) 725 (5) 89% 89% 9% 91% 89% 9% 88% 85% 81% P1146A 7 5 1 15 2 25 3 35 4 min -1 RPM P1146B 1

Performance Curves (Continued) [ν = 25 mm 2 /s (12 SUS), ϑ = 5 C (122 F)] Figure 7: SNM 2/ 11 3625 (25) Figure 8: SNM 2/ 11 3625 (25) 1.3 HP, 1 kw 2.7 HP, 2 kw 4. HP, 3 kw 5.4 HP, 4 kw 6.7 HP, 5 kw 8.1 HP, 6 kw 1.7 HP,8 kw 13.4 HP,1 kw 16.1 HP,12 kw 18.8 HP,14 kw 21.5 HP,16 kw 29 (2) 29 (2) 2176 (15) 7 rpm 1 rpm 15 rpm 2 rpm 3 rpm 4 rpm 2176 (15) 9% 145 (1) 725 (5) 145 (1) 89% 88% 87% 86% 83% 85% 2.6 (1) 5.3 (2) 7.9 (3) 1.6 (4) gpm (l/min) P1147A 725 (5) 7 5 1 15 2 25 3 35 4 min -1 RPM P1147B Figure 9: SNM 2/ 14 Figure 1: SNM 2/ 14 3625 (25) 29 (2) 3625 (25) 1.3 HP, 1 kw 2.7 HP, 2 kw 4. HP, 3 kw 5.4 HP, 4 kw 6.7 HP, 5 kw 9.4 HP, 7 kw 12.1 HP,9 kw 14.8 HP,11 kw 18.8 HP,14 kw 24.1 HP, 18 kw 29.5 HP, 22 kw 9% 2176 (15) 29 (2) 145 (1) 5 rpm 1 rpm 15 rpm 2 rpm 3 rpm 4 rpm 2176 (15) 89% 87% 88% 145 (1) 725 (5) 86% 85% 83% 2.6 (1) gpm (l/min) 5.3 7.9 1.6 13.2 15.6 (2) (3) (4) (5) (6) 725 (5) psi(bar) 7 5 1 15 2 25 3 35 4-1 min RPM P1148A 11 P1148B

Performance Curves (Continued) [ν = 25 mm 2 /s (12 SUS), ϑ = 5 C (122 F)] Figure 11: SNM 2/ 17 3336 (23) 29 (2) Figure 12: SNM 2/ 17 3336 (23) 1.3 HP, 1 kw 2.7 HP, 2 kw 4. HP, 3 kw 5.4 HP, 4 kw 6.7 HP, 5 kw 9.4 HP, 7 kw 12.1 HP, 9 kw 14.8 HP, 11 kw 18.8 HP, 14 kw 24.1 HP, 18 kw 29.5 HP, 22 kw 89% 29 (2) 2176 (15) 145 (1) 5 rpm 1 rpm 15 rpm 2 rpm 3 rpm 4 rpm 2176 (15) 88% 87% 86% 725 (5) 2.6 5.3 7.9 1.6 13.2 15.6 18.5 21.1 (1) (2) (3) (4) (5) (6) (7) 8 gpm (l/min) P1149A Figure 13: SNM 2/ 19 145 (1) 725 (5) 5 1 15 2 25 3 35 4-1 min RPM Figure 14: SNM 2/ 19 85% 83% P1149B 3 (21) 29 (2) 35 (21) 29 (2) 1.3 HP, 1 kw 2.7 HP, 2 kw 4. HP, 3 kw 5.4 HP, 4 kw 6.7 HP, 5 kw 8.1 HP, 6 kw 86% 1.7 HP, 8 kw 14.8 HP, 11 kw 18.8 HP, 14 kw 22.8 HP, 17 kw 28.2 HP, 21 kw 88% 2176 (15) 5 rpm 1 rpm 15 rpm 2 rpm 3 rpm 35 rpm 2176 (15) 145 (1) 145 (1) 87% 86% 725 (5) 91% 2.5 5.3 7.9 1.6 13.2 15.9 18.5 21.1 (1) (2) (3) (4) (5) (6) (7) (8) gpm (l/min) P115A 725 (5) 85% 5 min -1 RPM 9% 89% 88% 87% 86% 1 15 2 25 3 35 P115B 12

Performance Curves (Continued) [ν = 25 mm 2 /s (12 SUS), ϑ = 5 C (122 F)] Figure 15: SNM 2/ 22 3 (21) 29 (2) Figure 16: SNM 2/ 22 261 (18) 2176 (15) 5 rpm 1 rpm 15 rpm 2 rpm 3 rpm 1.3 HP, 1 kw 2.7 HP, 2 kw 35 rpm 4. HP, 3 kw 5.4 HP, 4 kw 6.7 HP, 5 kw 9.4 HP, 7 kw 12.1 HP, 9 kw 14.8 HP, 11 kw 18.8 HP, 14 kw 24.1 HP, 18 kw 29.5 HP, 22 kw 2176 (15) 89% 88% 145 (1) 145 (1) 87% 725 (5) 725 (5) 86% 84% 82% 2.5 5.3 7.9 1.6 13.2 15.9 18.5 21.1 (1) (2) (3) (4) (5) (6) (7) (8) gpm P1151A (l/min) Figure 17: SNM 2/ 25 5 1 15 min -1 RPM Figure 18: SNM 2/ 25 2 25 3 35 P1151B 261 (18) 2175 (15) 232 (16) 1.3 HP, 1 kw 2.7 HP, 2 kw 4. HP, 3 kw 5.4 HP, 4 kw 6.7 HP, 5 kw 9.4 HP, 7 kw 12.1 HP, 9 kw 14.8 HP, 11 kw 18.8 HP, 14 kw 24.1 HP, 18 kw 29.5 HP, 22 kw 2176 (15) 145 (1) 85% 89% 5 rpm 1 rpm 15 rpm 2 rpm 3 rpm 35 rpm 145 (1) 88% 87% 86% 85% 725 (5) 725 (5) 84% 81% 2.5 5.3 7.9 1.6 13.2 15.6 18.5 21.1 23.9 (1) (2) (3) (4) (5) (6) (7) (8) (9) gpm l/min P1152A 5-1 min RPM 1 15 2 25 3 35 P1152B 13

Dimensions Configuration CO 1 / CI 1 Figure 19: Gear Motor SEM 2 Configuration CO 1 B max 4.5 A.5 17.2 Configuration CI 1 36.5 C c 12 deep E e 6.3 18 5 D.2 d H H 21.7 M12x1.25-6g* Ø17.46 Conic 1:8 15.7.5 -,25 Ø36,5 -,64 (96,2) 63.8 32.4 9 9.25 n 71.5 9 max 31.4.5 (73.3) (41.9) 115.2 max Drain Port,R 1/4 Ø15 -.18 M6.12 deep 3 6.5 A A 4-.3 +.15 9.5 -.25 4-.3 +.1 16.5 -,. Sectional View H-H Sectional View A-A * Hex nut and protective cover supplied with motor P114 Table 3 : Dimensions Dimensions [mm] Motor Model Displacement Max. Pressure Inlet Outlet cm 3 in 3 bar psi A B C D E c d e SEM2 / 6 6..37 21 3 45 93.5 13.5 3 M 6 13.5 3 M 6 SEM2 / 8 8.4.51 21 3 45 97.5 13.5 3 M 6 13.5 3 M 6 SEM2 / 11 1.8.66 21 3 49 11.5 13.5 3 M 6 13.5 3 M 6 SEM2 / 14 14.4.88 21 3 52 17.5 2 4 M 8 2 4 M 8 SEM2 / 17 16.8 1.3 21 3 52 111.5 2 4 M 8 2 4 M 8 SEM2 / 19 19.2 1.17 21 3 56 115.5 2 4 M 8 2 4 M 8 SEM2 / 22 22.8 1.39 18 26 59 121.5 2 4 M 8 2 4 M 8 SEM2 / 25 25.2 1.54 16 23 59 125.5 23.5 4 M 8 23.5 4 M 8 Max. allowable torque of input shaft, Configurations: CO 1 = 15 Nm (13 in lb) CI 1 = 9 Nm (79 in lb) 14

Dimensions, continued Configuration CO 2 / SC 2 Figure 2: Gear Motor SNM 2 Configuration CO 2 B max 38 A.5 16.5 Configuration SC 2 23.5 5.7 19,3 12.5 7.2 9.25 -.11 13.5 45 C c 12 deep E e D.2 d H H M12x1.25-6g* 17.46 15.7.5 Conic 1:5 -.6 Ø8-.16 (1) 65.5 34.5 n 31.4,5 (44.5) (75.5) 9 Spline shaft 72 Drain Port B 17x14 DIN 5482 R 1/4 92 max 12 max Ø16.5 3-.25 +.3 9.1 Sectional View H-H * Hex nut and protective cover supplied with motor P1141 Table 4 : Dimensions Dimensions [mm] Motor Displacement Max. Pressure Inlet Outlet cm 3 in 3 bar psi A B C D E c d e SNM2 / 6 6..37 25 36 41.1 96 15 35 M 6 15 35 M 6 SNM2 / 8 8.4.51 25 36 43.1 1 15 35 M 6 15 35 M 6 SNM2 / 11 1.8.66 25 36 47.5 14 15 35 M 6 15 35 M 6 SNM2 / 14 14.4.88 25 36 47.5 11 15 35 M 6 15 35 M 6 SNM2 / 17 16.8 1.3 23 33 47.5 114 15 35 M 6 15 35 M 6 SNM2 / 19 19.2 1.17 21 3 47.5 118 2 4 M 6 2 4 M 6 SNM2 / 22 22.8 1.39 18 26 55 124 2 4 M 6 2 4 M 6 SNM2 / 25 25.2 1.54 16 23 64.5 128 2 4 M 6 2 4 M 6 Max. allowable torque of input shaft, Configurations: CO 2 = 15 Nm (13 in lb) SC 2 = 14 Nm (12 in lb) 15

Dimensions, continued Configuration FR 3 Figure 21: Gear Motor SNM 2 Configuration FR 3 8,5 (max) 45 C c 12 deep E e B,5 A,5 7.2 6,5,2 2,7,6 D,2 d -,25 8 -,83 15,7,5 Ø34 Ø3 12 Ø19 * 13 max 11,5 +,27 9.25 n 3 3 (6) 31,4,5 14,3 45,7 (6) Drain Port R 1/4 Ø52 -,3 -,76 Ø47,8 -,2 2 3,2 +,2 O-Ring * 45.69x2.62 * Oldham coupling ring and O-ring supplied with motor P1142 Table 5 : Dimensions Dimensions [mm] Motor Betriebsdruck Displacement Max. Pressure Inlet Outlet cm 3 in 3 bar psi A B C D E c d e SNM2 / 6 6..37 25 36 38.6 85 15 35 M 6 15 35 M 6 SNM2 / 8 8.4.51 25 36 4.6 89 15 35 M 6 15 35 M 6 SNM2 / 11 1.8.66 25 36 45 93 15 35 M 6 15 35 M 6 SNM2 / 14 14.4.88 25 36 45 99 15 35 M 6 15 35 M 6 SNM2 / 17 16.8 1.3 23 33 45 13 15 35 M 6 15 35 M 6 SNM2 / 19 19.2 1.17 21 3 45 17 2 4 M 6 2 4 M 6 SNM2 / 22 22.8 1.39 18 26 52.5 113 2 4 M 6 2 4 M 6 SNM2 / 25 25.2 1.54 16 23 62 117 2 4 M 6 2 4 M 6 Max. allowable torque of input shaft, Configurations: FR 3 = 7 Nm (62 in lb) 16

Dimensions, continued Configuration CI 6 / SC 6 (SAE-A Flange) Figure 22: Gear Motor SNM 2 SAE Straight thread O-Ring boss B max 31.7 C c Configuration CI 6 A.5 7.9 12 6 H H 23.8 -.25 Ø15.875 3.995 -.25 M6.16deep 15.7.5 17.475-17.729 -.5 Ø82.55 115.5 max 11-11.6 132 max 16.38 n 9.25 R 48 max Drain Port 9/16-18UNF-2B 31.4.5 -.127 Ø15.456 23.8 Configuration SC 6 31.7 2 7.9 9 teeth 16/32 DP SAE J 498-Class 1 FLAT ROOT SIDE FIT Schnitt H-H Sectional View H-H P1143 Table 6 : Dimensions Dimensions [mm] Motor Displacement Max. Pressure Inlet Outlet cm 3 in 3 bar psi A B C c SNM2 / 6 6..37 25 36 45 93.5 SNM2 / 8 8.4.51 25 36 47 97.5 7/8-14UNF - 2B 7/8-14UNF - 2B SNM2 / 11 1.8.66 25 36 49 11.5 16.7mm thread depth 16.7mm thread depth SNM2 / 14 14.4.88 25 36 52 17.5 SNM2 / 17 16.8 1.3 23 33 54 111.5 SNM2 / 19 19.2 1.17 21 3 56 115.5 1 1/16-12UN - 2B 1 1/16-12UN - 2B SNM2 / 22 22.8 1.39 18 26 59 121.5 18 mm thread depth 18 mm thread depth SNM2 / 25 25.2 1.54 16 23 61 125.5 Max. allowable torque of input shaft, Configurations: CI 6 = 9 Nm (79 in lb) SC 6 = 1 Nm (88 in lb) 17

Outrigger Load Adapter Outrigger Assembly For SN Series Pumps and Motors Loading Outrigger assemblies are recommended for use when heavy radial loads pose a problem for shaft loads on standard pumps and motors. Maximum radial load is 36 lbs at 1.5" from the mounting flange surface. Maximum axial load is 2 lbs. The maximum continuous torque rating is 62 in lbs (7 Nm), or the same as the FR3 pumps and motors. Pressure Maximum allowable case drain pressure or return line (if case drain not utilized) is 3 psi continuous and 4 psi peak. Pumps and motors using the outrigger and operating above 25 rpm must use the outrigger case drain port. See page 19 for reference and port locations. The SNM2 motor must be used for these applications. Applications The following bi-directional motor codes will mount directly to the outrigger: SEM2/...FR3 SNM2/...FR3 SEM2/...FR3 E SNM2/...FR3 E Figure 23 Tapered roller bearings allow operation in all mounting positions. High pressure shaft seal with built in stiffener and dust lip. Capable of 3 psi continuous, 4 psi intermittent. Tang drive engages with Oldham coupling supplied with all FR3 pumps and motors. Die cast aluminum housing with two case drain ports. Special alloy shaft for durability and long life. 18

Outrigger Load Adapter Outrigger Assembly (continued) Figure 24 Figure 25 19

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