Using the technologies cultivated throughout the years from our [Gears], [Reducers] and [Gearmotors] business, we adopted a new gear reduction method different from our existing Reducers.
[High Stiffness Reducer]: We have developed a hollow type Reducer.
The release date is still to be determined and will be announced on the web page once confirmed.
We have adopted a differential gear reduction mechanism (eccentric swaying motion type) for our new High Stiffness Reducer, allowing higher rigidity, higher torque, and a larger bore.
This allows for more design flexibility, faster motion for robots, and a more compact design.