Part Number | Slip Torque | |||||||||
---|---|---|---|---|---|---|---|---|---|---|
MOM-70K-20-24 | - | 35 | 176 | 352 | 2000 | 9.3×10-4 | 46000 | 1.4 | 2 | 1200 |
*1: Correction of rated torque and max. torque due to load fluctuation is not required.
*2: These are values with max. bore diameter.
*3: The max. lateral misalignment varies depending on the load torque and revolution.
Structure
Set Screw Type
MOM MOMClamping Type
MOM-C MOM-CSet Screws + Key Type
MOM-K MOM-KClamping + Key Type
MOM-CK MOM-CKMaterial/Finish
MOM-K | |
---|---|
Hub | S45C Ferrosoferric Oxide Film (Black) |
Spacer | FCD400 Ferrosoferric Oxide Film (Black) |
Pin | Polyacetal |
Hex Socket Set Screw | SCM435 Ferrosoferric Oxide Film (Black) |
Hex Socket Head Cap Screw | SCM435 Ferrosoferric Oxide Film (Black) |
Grease | Lithium Soap Grease Nippeco DXL-No.1 Made by Nippeco |
Characteristics
- Applicable motors
MOM | |
---|---|
Servomotor | ● |
Stepping Motor | ● |
General-purpose Motor | ◎ |
- Property
MOM | |
---|---|
High Torque | ◎ |
High Torsional Stiffness | ◎ |
Allowable Misalignment | ○ |
- This is an oldham type flexible coupling.
- FCD400 is adopted in the spacer. Suitable for low-speed and high-torque specification.
- High performance grease is applied in the gap between hubs and the spacer in order to prevent sticking.
- Slippage of hubs and a spacer allows large eccentricity and angular misalignment to be accepted.
- A projection placed in the spacer (resin pin) allows angular misalignment to be effortlessly accepted.
- The grease accumulated in a grease hole will gradually seep out during operation, thereby maintaining the lubrication property over a long period.
Application
Mixer / Pump / Small power press / GrinderPrecautions for Use
Please apply grease periodically in order to prevent sticking of hubs and a spacer.Selection
Selection Based on Shaft Diameter and Rated Torque
The area bounded by the shaft diameter and rated torque indicates the selection size.Selection Example
In case of selected parameters of shaft diameter of φ6 and load torque of 4N•m, the selected size is MOM-17.Details of Shaft Hole
Standard Bore Diameter D |
Keyway | Key | |||
---|---|---|---|---|---|
b | t | Nominal Dimension b x h |
|||
Standard Dimension | Allowance (JS9) |
Standard Dimension | Allowance | ||
6・6.35 | 2 | ±0.0125 | 1.0 | 0 - +0.1 | 2 × 2 |
8 | 3 | ±0.0125 | 1.4 | 0 - +0.1 | 3 × 3 |
10・12 | 4 | ±0.0150 | 1.8 | 0 - +0.1 | 4 × 4 |
14・15・16 | 5 | ±0.0150 | 2.3 | 0 - +0.1 | 5 × 5 |
18・20・22 | 6 | ±0.0150 | 2.8 | 0 - +0.1 | 6 × 6 |
24・25・28・30 | 8 | ±0.0180 | 3.3 | 0 - +0.2 | 8 × 7 |
35 | 10 | ±0.0180 | 3.3 | 0 - +0.2 | 10 × 8 |
Comparison of Rated Torque
Comparison of Static Torsional Stiffness
Change in static torsional stiffness due to temperature
This is a value under the condition where the static torsional stiffness at 20°C is 100%. The change of MOM in torsional stiffness due to temperature is small and the change in responsiveness is extremely small.If the unit is used under higher temperature, be careful about misalignment due to elongation or deflection of the shaft associated with thermal expansion.
Max. Lateral Misalignment
MOM's max. lateral misalignment varies depending on the load torque and revolution.
- Example
When load torque is 25 N•m and revolution is 1000 min-1, the max. lateral misalignment of MOM-55 is 0.5 mm.