Coupling Features 15 1. 510 2. 3. 4. 5. 6. 7. 8. 9. Introduction A coupling is a machinery device used to connect two shafts together at their ends for the purpose of rotation and transmitting power. Generally, there two main types of coupling, flexible coupling and rigid coupling. When two power-transmitting shafts perform a complete centering is very difficult work, or shafting is very easy, flexible coupling provides thrust moderation, and accommodates parallel, angular and axial misalignment to optimize the transmission system. Therefore, when installing, few degrees of shafts misalignment will not be constrained to shafts. This coupling has wide range of application in the market. Rigid coupling provides free parallel misalignment and angular misalignment to firmly connect two shafts as one body. It highly requires precise parallel and angular alignment. How to select a coupling: Choose an appropriate coupling in accordance with the intended use, machinery requirements and power transmission. 1. : The torque of coupling is supposed to be twice as much as the max transmissible torque. For example, if transmissible torque is 5, then choose the coupling of 10 torque; steel coupling of high torque is preferred. 2. Flexible/Rigidity: flexible coupling can accommodate parallel misalignment, angular misalignment and axial end-play, while rigid coupling requires highly precise alignment. withstand acidity, alkalinity and high/low temperature. 4. With or without backlash 5. Electrical Insulation 6. Vibration resistance 7. max. rotational frequency 8. Protection to the machinery 9. Appropriate bore diameter range
16 Alignment Adjustment Parallel Offset Misalignment Combined Angular Offset Misalignment () Symmetrical Angular Misalignment End-Play ( ) Non-Symmetrical Angular Misalignment Run Out Flexible Couplings are designed to transmit torque and rotational angle while absorbing misalignment. However, when misalignment exceeds allowable levels, vibration may result and the longevity of the coupling may be reduced. Therefore, be certain to make alignment adjustments. 1/2 Maximum Misalignment Level in the catalog refers to the case that there exists only a single type of misalignment. In case that there exist two or more types of misalignment, the allowable level shall be less than 1/2 of maximum misalignment in the specification 1/3 In addition to assembly, misalignments can be caused by heat expansion, wear of bearings, and vibration from operation. It is therefore recommended to adjust shaft misalignments to below 1/3 of maximum values. There are three types of shaft misalignment: parallel misalignment, angular misalignment, and shaft end-play. Please adjust alignment to levels below those listed in the specification charts of the various product pages.
Attachment to Shaft Setscrew type Keyway type The setscrew type is a conventioanl and most low-cost way of attachment. However, the front end of bolt could reach the surface of shaft, and impair it or cause theihardness of disassembling. The keyway type is as conventional way of attachment as setscrew type. It is suitable for the transmission of high torque loads. It is usually used with setscrew type and clamp type to prevent shaft movement. 17 Clamp type Using countersunk head bolts to compress the slit to clamp the shaft firmly. Clamp type is not only easy to hold as well as to disassemble, but also cause no impairment to the shaft.
18SWP / High Rigid, Metal Disk Coupling / Specification SWP- Rated Spring Constant (Kg.m/rad) Axial Spring Constant (Kg/mm) Part Description Material Equivalent 1 / Body S45C 2 / Nut S25C 3 / Pressure Bolt SCM435 4 / Collar S45C 5 / Element SUS SUS Plate Spring 6 / Washer S45C 7 / Body S45C 8 /Keyless Lock Ready-made Product 9 / Pressure Flange S45C 10 / Pressure Bolt SCM435 Axial Error Moment of Inertia - K - C K - Outer Type of Maching Type of Maching C - SC Axial Load (Kgf) SWP-68 60 20000 0.25 10-4 4.6 0.8 3.0 0.8 SWP-82 90 17000 0.82 10-4 6.0 1.0 8.7 2.3 SWP-94 180 15000 1.5 10-4 12.5 1.2 16 4.5 SWP-104 250 13000 2.4 10-4 17 1.4 26 6.0 SWP-128A 450 10000 4.2 10-4 22.3 1.6 65 11 SWP-128B 450 10000 4.2 10-4 31.5 1.6 65 11 SWP-144 800 9000 7.2 10-4 31.3 1.8 99 20 / Fratures / Buffer Material : Stainless / Fix Type : Clamping / Material S45C / Surface Treatment : Dye Black ( ) / Nickelless (Option) Type K : Keyway size must be advised TypeC:SCPower Locker is added on
SWP / High Rigid, Metal Disk Coupling A Keyway Type / Dimension / unit:mm min D max A B L LF S F M K 19SWP-68 8 25 68 40 54 25 4.2 13 4-M6 34 SWP-82 12 35 82 54 55 25 4.8 13 4-M6 36 SWP-94 12 38 94 58 69 30 9.4 23 4-M8 42.5 SWP-104 20 42 104 68 76 33 10 20 4-M8 48.5 SWP-128A 25 48 128 78 91 40 11 25 4-M10 55 SWP-128B 50 65 128 92 91 40 11 25 4-M10 55 SWP-144 30 60 144 88 102 45 12 20 4-M10 57 50mm B92mm C Clamping Type / Dimension A B min D max L LF S H M J G M1 K / unit:mm Material Equivalent SWP-68 68 40 14 20 70 25 4.2 2.5 4-M6 5 6 4-M5 13 S45C SWP-82 82 54 14 30 75 25 4.8 2.8 4-M6 5.5 7 4-M6 15.5 S45C SWP-94 94 58 14 35 89 30 9.4 3.4 4-M8 5.5 7 4-M6 15.5 S45C SWP-104 104 68 20 42 97 33 10 3 4-M8 6.5 8 4-M8 16.5 S45C SWP-128A 128 78 25 48 117 40 11 3 4-M10 7.5 10 4-M8 20.5 S45C SWP-128B 128 92 48 60 117 40 11 3 4-M10 7.5 10 4-M8 20.5 S45C SWP-144 144 88 30 55 128 45 12 3 4-M10 7.5 10 4-M8 20.5 S45C 50mm B92mm
20SW / High Rigid, High SW- - - / Dimension A SW-56 56 SW-68 68 SW-82 82 SW-94 94 SW-104 104 B / Specification Rated min max min max 48 10 17 10 17 54 18 25 18 25 54 14 22 14 22 64 24 30 24 30 56 16 22 16 22 64 24 30 24 30 69 32 35 32 35 58 19 22 19 22 68 24 30 24 30 78 32 40 32 40 88 42 48 42 48 68 24 30 24 30 78 32 40 32 40 88 42 50 42 50 98 55 60 55 60 Eccentricity Error Angular Error (o) L LF S J M / unit:mm Screw Tightening Moment 43.9 20 3.9 5 8-M5 6Nm 54.2 25 4.2 5.5 8-M6 12Nm 64.8 30 4.8 5.5 8-M6 12Nm 69.4 30 9.4 5.5 8-M6 14Nm 70 30 10 5.5 8-M6 14Nm Shaft End-Plaw Spring Constant (N-m/rad) Shaft Spring Constant Moment of Inertia SW-56 25 10000 0.02 10.40 16000 43 12 10-5 221 SW-68 60 10000 0.02 10.45 60000 45 28 10-5 400 SW-82 90 10000 0.02 10.45 70000 60 35 10-5 616 SW-94 180 10000 0.02 10.80 140000 120 108 10-5 1000 SW-104 250 10000 0.02 10.80 160000 160 115 10-5 1200 / Fratures / Low Inertia, Backlash-free / Flexibility and Vibration Resistance / Secured by Conical Clampling / Applicable for Servo Motor or Precise Positioning Transmission / Maintenance-free ; Infinite Life / Aluminum Alloy Body ; Light-weight
SWL / High Rigid, High SWL- - - 21 / Dimension A SWL-56 56 SWL-68 68 SWL-82 82 SWL-94 94 SWL-104 104 B / Specification Rated min max min max 48 10 17 10 17 54 18 25 18 25 54 14 22 14 22 64 24 30 24 30 56 16 22 16 22 64 24 30 24 30 69 32 35 32 35 58 19 22 19 22 68 24 30 24 30 78 32 40 32 40 88 42 48 42 48 68 24 30 24 30 78 32 40 32 40 88 42 50 42 50 98 55 60 55 60 Eccentricity Error Angular Error (o) L LF LH S J M / unit:mm Screw Tightening Moment 60.9 20 13 3.9 5 8-M5 6Nm 74.5 25 16 4.2 5.5 8-M6 12Nm 85 30 16 4.8 5.5 8-M6 12Nm 100.8 30 22 9.4 5.5 8-M6 14Nm 102 30 22 10 5.5 8-M6 14Nm Shaft End-Plaw Spring Constant (N-m/rad) Shaft Spring Constant Moment of Inertia SWL-56 25 10000 0.25 1 0.8 8000 21.5 14 10-5 308 SWL-68 60 10000 0.30 1 0.9 30000 22.5 38 10-5 560 SWL-82 90 10000 0.30 1 0.9 35000 30 107 10-5 855 SWL-94 180 10000 0.50 1 1.6 70000 60 195 10-5 1500 SWL-104 250 10000 0.50 1 1.6 80000 80 210 10-5 1700 / Fratures / Low Inertia, Backlash-free / Flexibility and Vibration Resistance / Secured by Conical Clamping / Applicable for Servo Motor or Precision Positioning Transmission / Maintenance-free ; Infinite Life / Aluminum Alloy Body ; Light-weight
22SHS-C / Plate Flexible SHS- C- - / Dimension A LF S L M G min / unit:mm SHS-27C 27 10.8 2.9 24.5 M3 3.5 5 10 SHS-35C 35 12 3 27 M3 4.5 6 14 SHS-40C 40 15.5 3.3 34.3 M4 4.8 8 16 SHS-45C 45 15.5 3.6 34.6 M4 4.8 10 19 SHS-56C 56 20.5 4 45 M5 6.5 12 25 SHS-68C 68 24.5 4.2 53.2 M6 7.2 14 32 SHS-82C 82 29.8 8.8 68.4 M8 9 19 35 SHS-94C 94 30 9.4 69.4 M8 9 22 45 / Specification Rated Eccentricity Angular Error Angularity (o) Axial End- Play Moment of Inertia max SHS-27C 1.8 3.6 0.02 1 0.15 10000 2.47 10-6 25.0 SHS-35C 4.0 8.0 0.02 1 0.20 10000 8.16 10-6 48.0 SHS-40C 6.0 14.0 0.02 1 0.25 10000 18.5 10-6 90.0 SHS-45C 10.0 20.0 0.02 1 0.30 10000 29.7 10-6 98.0 SHS-56C 25.0 52.0 0.02 1 0.40 10000 100.0 10-6 238.0 SHS-68C 60.0 124.0 0.02 1 0.50 10000 267.7 10-6 470.0 SHS-82C 100.0 200.0 0.02 1 0.55 10000 736.5 10-6 1050.0 SHS-94C 180.0 360.0 0.02 1 0.60 10000 1220 10-6 1230.0 / Fratures / High Rigidity / High / Low Moment of Inertia / Backlash-free / Applicable for Servo Motor / Buffer Material : Stainless / Fix Type : Clamping
SHC-C / Plate Flexible Coupling 23SHC- C- - / Dimension A LF S LH L M G min / unit:mm SHC-27C 27 10.8 2.9 7.5 34.9 M3 3.5 5 10 SHC-35C 35 12 3 8 38 M3 4.5 6 15 SHC-40C 40 15.5 3.3 10 47.6 M4 4.5 8 16 SHC-45C 45 15.5 3.6 10 48.2 M4 4.8 10 19 SHC-56C 56 20.5 4 13 62 M5 6.5 12 25 SHC-68C 68 24.5 4.2 16 73.4 M6 7.2 14 32 SHC-82C 82 29.8 8.8 21.5 98.7 M8 9 19 35 SHC-94C 94 30 9.4 22 100.8 M8 9 22 45 / Specification Rated Eccentricity Angular Error Angularity (o) Axial End- Play Moment of Inertia max SHC-27C 1.8 3.6 0.15 1 0.33 10000 3.41 10-6 35.0 SHC-35C 4.0 8.0 0.17 1 0.40 10000 11.3 10-6 62.0 SHC-40C 6.0 14.0 0.23 1 0.50 10000 26.3 10-6 116.0 SHC-45C 10.0 20.0 0.23 1 0.60 10000 41.7 10-6 131.0 SHC-56C 25.0 52.0 0.27 1 0.80 10000 136.1 10-6 310.0 SHC-68C 60.0 124.0 0.31 1 0.90 10000 366.9 10-6 365.0 SHC-82C 100.0 200.0 0.52 1 1.10 10000 1070 10-6 1300.0 SHC-94C 180.0 360.0 0.50 1 1.3 10000 1750 10-6 1500.0 / Fratures / High Rigidity / High / Low Moment of Inertia / Backlash-free / Applicable for Servo Motor / Buffer Material : Stainless / Fix Type : Clamping
24SFC/SFCS / Set Screw, Flexible Coupling SFC/SFCS- / Dimension - - / unit:mm A I L G M min max SFC-16 16 6.5 23 3 M3 4 8 9.5 SFC-20 20 7.5 26 3 M4 5 10 16 SFC-25 25 8.5 31 4 M4 5 12 30 SFC-32 32 12 41 6 M5 6 14 65 SFC-40 40 15 56 8.5 M5 8 20 120 SFC-50 50 18 71 10.5 M6 12 25 230 SFC-63 63 22 90 13 M8 15 35 470 SFCS-16 16 6.5 23 3 M3 4 8 28 SFCS-20 20 7.5 26 3 M4 5 10 45 SFCS-25 25 8.5 31 4 M4 6 12 95 SFCS-32 32 12 41 6 M5 6 14 220 SFCS-40 40 15 56 8.5 M5 8 20 350 SFCS-50 50 18 71 10.5 M6 12 25 700 SFCS-63 63 22 90 13 M8 15 35 1300 / Specification Rated Moment of Inertia (Kg.m2) Staic Torional (N.m/rad) Eccentricity Error Angular Error (0) Shaft End-Play SFC-16 0.3 0.6 24000 3.3 10-7 47 0.10 2 0.4 SFC-20 0.5 1 19000 9.0 10-7 120 0.10 2 0.4 SFC-25 1 2 15000 2.6 10-6 170 0.15 2 0.5 SFC-32 2 4 12000 9.6 10-6 280 0.15 2 0.5 SFC-40 5 10 9600 3.2 10-5 350 0.20 2 0.5 SFC-50 10 20 7700 1.0 10-4 590 0.20 2 0.5 SFC-63 20 40 6100 3.2 10-4 850 0.20 2 0.5 SFCS-16 0.5 1 24000 8.4 10-7 85 0.10 2 0.3 SFCS-20 1 2 19000 2.4 10-6 250 0.10 2 0.3 SFCS-25 2 4 15000 6.8 10-6 330 0.15 2 0.4 SFCS-32 3.5 7 12000 2.6 10-5 850 0.15 2 0.5 SFCS-40 8 16 9600 8.7 10-5 1000 0.20 2 0.5 SFCS-50 15 30 7700 2.7 10-4 1400 0.20 2 0.5 SFCS-63 35 70 6100 8.4 10-4 1800 0.20 2 0.5 SFC SFCS Material Auminum Material Staniness
SFC-C/SFCS-C / Clamping, Flexible Coupling 1632 4050 25SFC/SFCS- / Dimension / Specification Rated C- - Moment of Inertia (Kg.m2) Staic Torional (N.m/rad) Eccentricity Error Angular Error (0) Shaft End-Play SFC-16C 0.3 0.6 9500 3.4 10-7 47 0.10 2 0.4 SFC-20C 0.5 1 7600 9.1 10-7 120 0.10 2 0.4 SFC-25C 1 2 6100 2.6 10-6 170 0.15 2 0.5 SFC-32C 2 4 4800 9.7 10-6 280 0.15 2 0.5 SFC-40C 5 10 3800 3.3 10-5 350 0.20 2 0.5 SFC-50C 10 20 3100 1.0 10-4 590 0.20 2 0.5 SFC-63C 20 40 2400 3.2 10-4 850 0.20 2 0.5 SFCS-16C 0.5 1 9500 9.0 10-7 85 0.10 2 0.3 SFCS-20C 1 2 7600 2.5 10-6 250 0.10 2 0.3 SFCS-25C 2 4 6100 7.1 10-6 330 0.15 2 0.4 SFCS-32C 3.5 7 4800 2.7 10-5 850 0.15 2 0.5 SFCS-40C 8 16 3800 9.0 10-5 1000 0.20 2 0.5 SFCS-50C 15 30 3100 2.8 10-4 1400 0.20 2 0.5 SFCS-63C 35 70 2400 8.8 10-4 1800 0.20 2 0.5 SFC-C SFCS-C Material Auminum Material Staniness / unit:mm A I L G H M min max SFC-16C 16 6.5 23 3.25 5 M2.5 4 6 9.2 SFC-20C 20 7.5 26 3.25 6.5 M3 4 8 16 SFC-25C 25 8.5 31 4.25 9 M4 5 10 28 SFC-32C 32 12 41 6 11 M4 6 14 64 SFC-40C 40 15 56 8.5 14 M5 8 16 140 SFC-50C 50 18 71 10.5 18 M6 12 22 270 SFC-63C 63 22 90 13 24 M8 14 35 530 SFCS-16C 16 6.5 23 3.25 5 M2.5 4 6 25 SFCS-20C 20 7.5 26 3.75 6.5 M3 4 8 43 SFCS-25C 25 8.5 31 4.25 9 M4 6 10 78 SFCS-32C 32 12 41 6 11 M4 8 14 170 SFCS-40C 40 15 56 8.5 14 M5 8 16 370 SFCS-50C 50 18 71 10.5 18 M6 12 22 750 SFCS-63C 63 22 90 13 24 M8 14 35 1400
26SQR / Jaw Coupling SQR- / Dimension A - K - G Keyway Width K Keyway Width min max min max / unit:mm E S L H M SQR-30 30 5.5 6 15 6 15 13 1.5 35 11 M4 SQR-40 40 12.5 8 20 8 20 16 2 66 25 M5 SQR-55 55 15 10 25 10 25 18 2 78 30 M5 SQR-65 65 17.5 12 35 12 35 20 2.5 90 35 M6 SQR-80 80 22.5 16 45 16 45 24 3 114 45 M8 SQR-95 95 25 20 55 20 55 26 3 126 50 M8 / Specification Rated Eccentricity Errors Angularity (o) Axial End- Play Static Torsion Rigidity (N.m/rad) Moment of Inertia SQR-30 12.5 25 0.1 1 +1.0 15900 135 5.9 10-6 40 SQR-40 17 34 0.1 1 +1.2 11900 1100 4.0 10-5 150 SQR-55 60 120 0.1 1 +1.4 8700 3200 1.7 10-4 350 SQR-65 160 320 0.1 1 +1.5 7400 4900 3.9 10-4 500 SQR-80 325 650 0.1 1 +1.8 6000 7400 1.12 10-3 1000 SQR-95 450 900 0.1 1 +2.0 4800 14000 2.0 10-3 1500 / Fratures / High, High Rigidity / High Clockwise and Anticlockwise Characteristics / Low Inertia, Backlash-free / Applicable for Servo Motor or Precision Positioning Transmission / Maintenance-free ; Infinite Life /Set Screw Fix Type / Body : Aluminum Alloy Body; Light-weight -30100 / Working range, -30100 Temperature
SQR-C / Jaw Coupling 27SQR- C- - / Dimension A G min max min max / unit:mm E H S L M SQR-30C 30 5 6 15 6 15 13 11 1.5 35 M4 SQR-40C 40 8.5 8 20 8 20 16 25 2 66 M5 SQR-55C 55 10.5 10 25 10 25 18 30 2 78 M6 SQR-65C 65 13 12 35 12 35 20 35 2.5 90 M8 SQR-80C 80 14 16 45 16 45 24 45 3 114 M10 SQR-95C 95 16 20 55 20 55 26 50 3 126 M10 / Specification Rated Eccentricity Errors Angularity (o) Axial End- Play Static Torsion Rigidity (N.m/rad) Moment of Inertia SQR-30C 12.5 25 0.1 1 +1.0 10000 135 6.2 10-6 40 SQR-40C 17 34 0.1 1 +1.2 10000 1100 3.9 10-5 150 SQR-55C 60 120 0.1 1 +1.4 7000 3200 1.6 10-4 350 SQR-65C 160 320 0.1 1 +1.5 5900 4900 3.8 10-4 500 SQR-80C 325 650 0.1 1 +1.8 4800 7400 1.1 10-3 1000 SQR-95C 450 900 0.1 1 +2.0 3600 14000 1.9 10-3 1500 / Fratures / High, High Rigidity / High Clockwise and Anticlockwise Characteristics / Low Inertia, Backlash-free / Applicable for Servo Motor or Precise Positioning Transmission / Maintenance-free; Infinite Life /Fix Type : Clamping / Body : Aluminum Alloy Body ; Light-weight -30100 / Working range, -30100 Temperature
28SQR-P / Jaw Type Coupling SQR- P- - / Dimension A min max min max / unit:mm E H S L M SQR-40P 40 10 19 10 19 16 25 2 66 6-M4 SQR-55P 55 15 25 15 25 18 30 2 78 4-M5 SQR-65P 65 19 35 19 35 20 35 2.5 90 8-M5 SQR-80P 80 20 40 20 40 24 45 3 114 8-M6 SQR-95P 95 28 42 28 42 26 50 3 126 4-M8 / Specification Rated Rated Eccentricity Errors Angularity (o) Axial End- Play Static Torsion Rigidity (N.m/rad) Moment of Inertia SQR-40P 17 34 0.1 1 +1.2 19000 1100 4.0 10-5 150 SQR-55P 60 120 0.1 1 +1.4 14000 3200 1.8 10-4 350 SQR-65P 160 320 0.1 1 +1.5 11500 4900 4.0 10-4 500 SQR-80P 325 650 0.1 1 +1.8 9500 7400 1.12 10-3 1000 SQR-95P 450 900 0.1 1 +2.0 8000 14000 2.0 10-3 1500 / Fratures / High / High Rigidity / Anit-vibration / Applicable for the precise and cutting transmission / Buffer Material : PU / Fix Type : Conical Clamp -30100 / Working range, -30100 Temperature
SOL / Set Screw Type 29SOL- - / Dimension - / unit:mm - A I L G M min max SOL-16 16 7 18 3.5 M3 4 6.35 7 SOL-20 20 9 23 4.5 M4 5 8 14 SOL-25 25 11 28 5.5 M5 5 10 27 SOL-32 32 13 33 6.5 M6 8 14 50 SOL-40 40 14 32 7 M6 10 16 80 SOL-50 50 17 38 8.5 M8 14 20 150 SOL-63 63 21 47 10.5 M8 15 25 300 / Specification Rated (N-m) Moment of Inertia Static Torional Stiffness (N.m/rad) Eccentricity Error Errors (0) SOL-16 0.7 1.4 9500 3.2 10-7 31 1.0 3 SOL-20 1.2 2.4 7600 1.0 10-6 60 1.5 3 SOL-25 2 4 6100 3.0 10-6 140 2.0 3 SOL-32 4.5 9 4800 9.5 10-6 280 2.5 3 SOL-40 9 18 3800 2.3 10-5 540 3.0 3 SOL-50 18 36 3100 6.7 10-5 820 3.5 3 SOL-63 36 72 2400 2.2 10-4 1900 4.0 3 / Fratures / High Rigidity / Electrical Insulation / Easy Assembly / Oil Resistance / High Eccentricity and Angularity Misalignment / Buffer Material : POM / Fix Type : Set Screw Type -30100 / Working range, -30100 Temperature
30SOL-C / Clamping Oldham 16 32 40 63 SOL- C- - / Dimension / unit:mm - A I L G H M min max SOL-16C 16 13 29 3 5 M2.5 5 6.35 12 SOL-20C 20 14 33 3 6.5 M2.5 6 8 19 SOL-25C 25 17 39 3.8 9 M3 6 10 36 SOL-32C 32 19 45 4.5 11 M4 8 12 69 SOL-40C 40 23 50 6 13 M5 10 16 130 SOL-50C 50 27 58 7.5 16 M6 16 20 230 SOL-63C 63 33 71 9 21 M8 18 25 450 / Specification Rated (N-m) Moment of Inertia Static Torional Stiffness (N.m/rad) Eccentricity Error Errors (0) SOL-16C 0.7 1.4 9500 5.8 10-7 31 1.0 3 SOL-20C 1.2 2.4 7600 1.5 10-6 60 1.5 3 SOL-25C 2 4 6100 4.4 10-6 140 2.0 3 SOL-32C 4.5 9 4800 1.4 10-5 280 2.5 3 SOL-40C 9 18 3800 4.1 10-5 540 3.0 3 SOL-50C 18 36 3100 1.2 10-5 820 3.5 3 SOL-63C 36 72 2400 3.7 10-4 1900 4.0 3 / Fratures / High Rigidity / Electrical Insulation / Easy Assembly / Oil Resistance / High Eccentricity and Angularity Misalignment / Buffer Material : POM / Fix Type : Clamping -30100 / Working range, -30100 Temperature
SRC/SRCS / Coupling, Rigid Set Screw Type 31SRC/SRCS- - - / Dimension / unit:mm - D L G M min max SRC-16 16 24 6 M3 5 8 11 SRC-20 20 30 7 M3 6 10 20 SRC-25 25 36 9 M4 6 12 39 SRC-32 32 41 10 M4 8 16 71 SRCS-16 16 24 6 M3 5 8 31 SRCS-20 20 30 7 M3 6 10 53 SRCS-25 25 36 9 M4 6 12 85 SRCS-32 32 41 10 M4 8 16 190 / Specification Rated (N-m) Moment of Inertia SRC-16 0.3 0.6 24000 4.4 10-7 SRC-20 0.5 1.0 19000 1.3 10-6 SRC-25 1.0 2.0 15000 3.9 10-6 SRC-32 2.0 4.0 12000 1.2 10-5 SRCS-16 0.3 0.6 24000 1.2 10-6 SRCS-20 0.5 1.0 19000 3.5 10-6 SRCS-25 1.0 2.0 15000 1.0 10-5 SRCS-32 2.0 4.0 12000 3.1 10-5 / Fratures / One-Boby Shape / Super High Rigid / High / Low Inertia / Set Screw Fix Type / Material SRC- / Aluminum Alloy SRCS- / Stainless Steel
32SRC-C/SRCS-C / Coupling, Rigid Clamp Type SRC/SRCS- C- - / Dimension / unit:mm - D I L G H M min max SRC-16C 16 7.5 16 3.75 5 M2.5 5 6 11 SRC-20C 20 9.5 20 4.75 6.5 M3 6 8 20 SRC-25C 25 12 25 6 9 M4 6 10 39 SRC-32C 32 15.5 32 7.75 11 M4 8 14 71 SRCS-16C 16 7.5 16 3.75 5 M2.5 5 6 31 SRCS-20C 20 9.5 20 4.75 6.5 M3 6 8 53 SRCS-25C 25 12 25 6 9 M4 6 10 85 SRCS-32C 32 15.5 32 7.75 11 M4 8 14 190 / Specification Rated (N-m) Moment of Inertia SRC-16C 0.3 0.6 9500 3.0 10-7 SRC-20C 0.5 1.0 7600 8.7 10-7 SRC-25C 1.0 2.0 6100 2.7 10-6 SRC-32C 2.0 4.0 4800 7.1 10-6 SRCS-16C 0.3 0.6 9500 8.0 10-7 SRCS-20C 0.5 1.0 7600 2.4 10-6 SRCS-25C 1.0 2.0 6100 7.3 10-6 SRCS-32C 2.0 4.0 4800 2.5 10-5 / Fratures / One-Boby Shape / Super High Rigid / High / Low Inertia / Fix Type : Clamping / Material SRC- / Aluminum Alloy SRCS- / Stainless Steel
Processing Of Standard Of Keyway JIS / For Old JIS Standard / unit:mm 33b2 t2 From 12 to 13(included) E9 b h 12 13 ( 13) 4 0.050 1.5 0.2 4 4 13 20 ( 20) 5 0.020 2.0 0 5 5 20 30 ( 30) 7 0.061 3.0 7 7 30 40 ( 40) 10 0.025 10 8 3.5 0.3 40 50 ( 50) 12 12 8 0.075 0 50 60 ( 60) 15 5.0 15 10 0.032 60 65 ( 65) 18 6.0 18 12 JIS, DIN6885 / For New JIS, DIN6885 Standard Bore b2 H9 t2 / unit:mm b h 12 4 1.8 4 4 0.030 0.2 12 17 ( 17) 5 2.3 5 5 0 0 17 22 ( 22) 6 2.8 6 6 22 30 ( 30) 8 0.036 8 7 30 38 ( 38) 10 0 3.3 10 8 38 44 ( 44) 12 0.3 12 8 44 50 ( 50) 14 0.043 3.8 0 14 9 50 58 ( 58) 16 0 4.3 16 10 58 65 ( 65) 18 4.4 18 11 / Motor Specification Bore 2 / 2 Pole 4 / 4 Pole 6 / 6 Pole 8 / 8 Pole / Torgue kgm Bore / Torgue kgm Bore / Torgue kgm Bore / Torgue kgm kw HP mm 50Hz 60Hz mm 50Hz 60Hz mm 50Hz 60Hz mm 50Hz 60Hz 0.2 0.25 11 0.07 0.06 11 0.13 0.11 0.4 0.5 14 0.13 0.11 14 0.25 0.21 19 0.39 0.32 0.75 1 19 0.24 0.20 19 0.49 0.41 24 0.73 0.61 28 0.98 0.82 1.5 2 24 0.49 0.41 24 0.97 0.81 28 1.5 1.2 28 1.9 1.6 2.2 3 24 0.71 0.59 28 1.4 1.2 28 2.1 1.8 38 2.9 2.4 3.7 5 28 1.2 1.0 28 2.4 2.0 38 3.6 3.0 38 4.8 4.0 5.5 7.5 38 1.8 1.5 38 3.6 3.0 38 5.4 4.5 42 7.1 5.9 7.5 10 38 2.4 2.0 38 4.9 4.1 42 7.3 6.1 42 9.7 8.1 11 15 42 3.6 3.0 42 7.1 6.0 42 10.7 8.9 48 14.3 11.9 15 20 42 4.9 4.1 42 9.7 8.1 48 14.6 12.2 55 19.5 16.2 18.5 25 42 6.0 5.0 48 12.0 10.0 55 18.0 15.0 22 30 48 7.1 6.0 48 14.3 11.9 55 21.4 17.8 30 40 55 9.7 8.1 55 19.5 16.2