Inner rotor permanent magnet synchronous motor with staggered pole structure and low detent torque

Abstract

The invention provides an inner rotor permanent-magnet synchronous motor with staggered pole structure and low positioning force moment and relates to the technical field of permanent-magnet synchronous motors. The inner rotor permanent-magnet synchronous motor aims at solving the problem that the inherent positioning force moment of the existing permanent-magnet synchronous motor restricts the application range of the permanent-magnet synchronous motor in the low-speed performance and high-precision position control. The inner rotor permanent-magnet synchronous motor is characterized in that an inner rotor of a first inner rotor permanent-magnet synchronous motor and an inner rotor of a second inner rotor permanent-magnet synchronous motor are coaxially connected, and in addition, N and S magnetic poles are mutually staggered for 40 degrees to 50 degrees; and an outer stator of the first inner rotor permanent-magnet synchronous motor and an outer stator of the second inner rotor permanent-magnet synchronous motor are coaxially connected, and in addition, tooth grooves are staggered for 15 degrees to 25 degrees. The inner rotor permanent-magnet synchronous motor can effectively reduce the inherent positioning force moment of the permanent-magnet synchronous motor, the reduction amplitude is 25 percent to 30 percent of the inherent positioning force moment of the traditional motor, and the inner rotor permanent-magnet synchronous motor has the advantages that the structure is simple, and the cost is low.

Description

technical field [0001] The invention relates to the technical field of permanent magnet synchronous motors. Background technique [0002] The positioning torque is an inherent phenomenon of the permanent magnet synchronous motor. It is the positioning torque that exists in the non-energized state of the permanent magnet synchronous motor and is related to the position. The positioning torque includes hysteresis positioning torque and reluctance positioning torque, mainly due to the stator The existence of cogging makes the motor reluctance uneven. [0003] The positioning torque directly produces fluctuating torque in the direct drive system, which has a great influence, especially on the low-speed performance and high-precision positioning of the position control system, thus restricting the low-speed performance and high-precision position control of the permanent magnet synchronous motor. application range. Contents of the invention [0004] The purpose of the present...

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Problems solved by technology

[0004] The purpose of the present invention is to provide a low positioning torque internal rotor permanent magnet synchronous motor with staggered pole structure to solve the problem of how to reduce the inherent positioning torque of traditional permanent magnet synchronous motors by 25%-30%

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