Application of small减速 motors involves a transmission gear structure, reducing the output speed of small DC motors while enhancing output torque. Many customers have encountered the issue of burning small减速 motors while in use. Here's an explanation for you!

The small减速motor operates normally under normal use. However, if it is used improperly for a long period, the减速motor may be damaged or burnt out. When does it damage the减速motor?

1. Initially, there was a need for repeated startups within a short time frame due to the high current draw of the micro-reduction motor during startup and shutdown. Repeatedly turning on and off in quick succession can easily damage the reduction motor, especially larger models with high startup currents, which are more prone to burning out.

If a small减速motor gets stuck during operation and cannot continue running, the micro减速motor will generate a large amount of heat, leading to burning.

If a three-phase reduction motor operates under unstable three-phase voltage, it may also lead to the motor's burnout.

4. Water damage to the small减速 motor has caused significant harm to the micro减速 motor. Simply put, if the micro减速 motor gets wet, internal short circuits may occur, followed by the motor being burned out (it can be placed in a dry, well-ventilated area and tested again after the water has dried).

5. Overload in the small减速 motor, we know that high-load operation generates a large amount of heat, which, over time, can burn out the micro减速 motor.