When réducteur de vitesse choosing a motor for an application, a primary consideration may be the speed range it’ll be operated in. Whenever a motor is run substantially slower than its rated base speed, a number of potential adverse effects may come into enjoy, including reduced cooling performance, reduced power performance and a modify in the motor’s quickness and torque features. To mitigate this problem, some motors and speed controllers have been designed especially to operate a vehicle a load at low speeds with precise control.

Most domestic and commercial motor applications use 3-phase asynchronous induction motors, which operate at a speed that is determined by the frequency of the supply power. When an application operates at a constant speed, the only thing that is required may be a gearbox or acceleration reducer that brings the motor speed down to the required level. Nevertheless, many applications need the velocity of the engine to be various during operation.

This is usually achieved utilizing a VFD or Variable Frequency Drive, which controls the speed by modifying the frequency fed to the motor. Selecting the most appropriate electric motor and VFD type depends on a variety of factors, however, it is necessary to first look at how the characteristics of a motor change when the swiftness is reduced.

A motor usually has a base speed, specific by the product manufacturer, that it can be made to operate at. Nevertheless, if a motor is managed below the bottom speed, it could experience reduced efficiency of the coolant system. Especially with frequently used Totally Enclosed Enthusiast Cooled (TEFC) and ODP (Open Drip Proof) motors, where in fact the cooling program consists mainly of a shaft-mounted lover, a reduction in speed results in reduced airflow over the engine and lack of cooling, and heat buildup occurs. Especially when the motor is operated with complete torque at low speeds, heat can quickly build up inside the motor to harmful levels.