The four series reducers refer to: hard tooth surface reducers, helical gear reducers, planetary reducers, and WPES120-175,WPES135-200,WPES155-250,WPEDS40-70,WPEDS50-80 worm gear reducers. Their selection principles and methods are as follows:
Selection principles and methods for hard tooth surface reducers:
Hard tooth surface reducers are suitable for high-precision, high load, and high-speed transmission scenarios. When selecting, factors such as transmission power, speed, reduction ratio, input shaft steering, output shaft speed, and axial force should be considered. At the same time, it is necessary to choose the appropriate cooling method, lubrication method, and protection level according to the usage environment.
The selection principles and methods of helical gear reducers:
The helical gear reducer is suitable for medium precision, medium load, and medium speed transmission scenarios. When selecting, factors such as transmission power, speed, reduction ratio, input shaft steering, output shaft speed, and axial force should be considered. At the same time, it is necessary to choose the appropriate cooling method, lubrication method, and protection level according to the usage environment.
Principles and methods for selecting planetary reducers:
Planetary reducers are suitable for high-precision, high load, and low speed transmission scenarios. When selecting, factors such as transmission power, speed, reduction ratio, input shaft steering, output shaft speed, and axial force should be considered. At the same time, it is necessary to choose the appropriate cooling method, lubrication method, and protection level according to the usage environment.
The selection principles and methods of worm gear reducers:
The worm gear reducer is suitable for transmission scenarios with high torque and low speed. When selecting, factors such as transmission power, speed, reduction ratio, input shaft steering, output shaft speed, and axial force should be considered. At the same time, it is necessary to choose the appropriate cooling method, lubrication method, and protection level according to the usage environment.
In summary, the selection should be based on specific usage scenarios and needs, taking into account factors such as transmission power, speed, reduction ratio, input and output shaft steering and force, and usage environment, and selecting the appropriate reducer model and specifications.
