Permanent magnet cavity structure robust design method capable of reducing iron loss of built-in permanent magnet motor

Abstract

The invention relates to a permanent magnet cavity structure robust design method capable of reducing iron loss of a built-in permanent magnet motor. The method comprises steps: initial permanent magnet cavity structures of the motor are determined, and the built-in permanent magnet motor adopts a single layer of U-type permanent magnet structures; the permanent magnet cavity structures of the motor are improved, triangular permanent magnet cavity expansion structures are added at places, near the surface of a rotor iron core, at two sides of each U-type permanent magnet cavity, and the permanent magnet cavities between adjacent poles are connected; and a Taguchi method is used for optimizing the permanent magnet cavity improved structures. The permanent magnet cavity structures of the built-in permanent magnet motor with the single layer of U-type permanent magnet structures are improved, the improved structure can effectively reduce the harmonic component in an air-gap magnetic field, iron loss of the stator and the rotor of the motor is reduced obviously, the optimized permanent magnet cavity structure enables electromagnetic torque ripple and cogging torque of the motor to be reduced obviously, and smooth operation of the motor is enhanced.

Description

Technical field

[0001] The invention belongs to the field of motor robustness design, and in particular relates to the robustness design of a permanent magnet cavity structure for reducing the iron loss of a built-in permanent magnet motor. Background technique

[0002] The permanent magnet of the built-in permanent magnet motor is located inside the rotor, and there is a ferromagnetic material between the outer surface of the permanent magnet and the inner circle of the rotor core (for the outer rotor magnetic circuit structure, it is between the inner surface of the permanent magnet and the inner circle of the rotor core). Formed pole shoes, which makes the d, q-axis magnetic circuit asymmetrical, that is, L d ≠ L q , due to the asymmetry of the rotor magnetic circuit structure, the motor generates reluctance torque, which makes the interior permanent magnet motor have higher power density and torque density, and the reluctance torque also helps to improve the overload ca...

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