How Does The Gear Motor Achieve Precise Transmission?
Leave a message
The gear reduction motor is a device that drives power and modifies rotational speed. The gear configuration method's speed converter is used to reduce the motor's number of revolutions to the necessary number of revolutions and increase torque. The reduction box is made up of gears at all levels for deceleration.

Due to the wide range of styles of geared motors, they have high machining accuracy requirements for specification accuracy, surface roughness, style, and orientation accuracy, particularly for the axis of the bearing hole.
Accuracy of the motor aperture: A poor fit between the bearing and the hole will arise from specification and design errors of the aperture. Since the shaft's precision requirements are relatively strict, it is essential to match the engineer's size during customization to prevent unneeded mistakes.

The main shaft and bearing will be skewed when assembled into the box due to the azimuth accuracy of the motor hole, which also affects the coaxiality error of each hole on the coaxial line and the vertical error of the hole end facing the axis. This will result in a radial circular jump of the main shaft and the axial direction. Additionally aggravating the axial wear is the circular runout. As a result, each hole on the coaxial line has a coaxiality that is typically roughly half the size of the small hole. The meshing quality of the gears will be impacted by the parallelism error between the hole systems, which also necessitates the matching azimuth accuracy of the rules.
Please get in touch with us if you need further details.







