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Outer surface structure of magnetic steel embedded rotor

An embedded, external surface technology, applied in the magnetic circuit shape/style/structure, magnetic circuit rotating parts, etc., can solve the problem of large Q-axis magnetic circuit reluctance, weak motor reluctance torque component, and quadrature-axis inductance. Small and other problems, to achieve the effect of reducing reluctance, multi-reluctance torque components, and weakening negative effects

Active Publication Date: 2012-09-05
SHANGHAI EDRIVE
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  • Summary
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The outer surface structure and Q-axis magnetic circuit of the traditional sinusoidal air gap rotor are as follows: figure 1 As shown, the air gap on the Q-axis magnetic circuit is large, so the reluctance of the Q-axis magnetic circuit is often large, resulting in a small quadrature-axis inductance, which will greatly weaken the reluctance torque component of the motor

Method used

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  • Outer surface structure of magnetic steel embedded rotor
  • Outer surface structure of magnetic steel embedded rotor
  • Outer surface structure of magnetic steel embedded rotor

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Embodiment Construction

[0010] see figure 2 , image 3 , the magnetic steel embedded rotor involved in the present invention includes a rotor core 1, an even number of axially penetrating magnetic steel grooves 2 are evenly distributed on the rotor core 1, and a plurality of magnetic steels 3 are embedded in the N pole and S pole interval. In each magnetic steel slot, the outer surface of the rotor core is an arc-shaped surface 11 of a sinusoidal air gap at the part corresponding to each magnetic steel slot, and a circle with a uniform air gap at the part corresponding to two adjacent magnetic steel slots. Shaped surface 12.

[0011] The Q-axis magnetic circuit of the magnetic steel embedded rotor of the present invention is as follows: Figure 4 shown. While retaining part of the sinusoidal air gap, it changes the Q-axis magnetic circuit of the motor into a uniform air gap, which effectively reduces the reluctance of the Q-axis magnetic circuit. Therefore, compared with the traditional simple si...

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Abstract

The invention relates to an outer surface structure of a magnetic steel embedded rotor. The magnetic steel embedded rotor comprises a rotor iron core on which even axial through magnetic steel grooves are evenly distributed; the magnetic steels are embedded in the magnetic steel grooves alternately in N and S poles; the part of the rotor iron core corresponding to each magnetic steel groove is anarc surface of a sine air gap and the part corresponding to the part between two adjacent magnetic steel grooves is a circular surface of an even air gap. The outer surface structure of the magnetic steel embedded rotor of the invention ensures that an alternating state of sine air gaps and even gaps is formed between the rotor and stator. Relative to the traditional sine air gap, the invention markedly decreases the magnetic resistance of a quadrature-axis magnetic circuit of a motor, increases the magnetic resistance torque component of the motor, weakens the negative influence from the traditional sine air gap to the power density and the torque density of the motor; therefore, compared with the traditional sine air gap type magnetic steel embedded rotor, the invention can generate more magnetic resistance torque components and enhance the power density and the torque density of the motor.

Description

technical field [0001] The invention relates to a motor rotor, in particular to an outer surface structure of a magnetic steel embedded rotor. Background technique [0002] If the outer surface of the magnetic steel embedded rotor is a circular surface, the gap between the outer surface and the stator is uniform, that is, a uniform air gap is formed between the rotor and the stator. This kind of uniform air gap will have adverse effects on back EMF, cogging torque and torque ripple due to more harmonics contained in the air gap flux density. The traditional solution is to make the outer surface of the rotor into an arc surface with an uneven air gap, that is, to form a sinusoidal air gap between the rotor and the stator, so as to weaken the harmonics of the magnetic field. The outer surface structure and Q-axis magnetic circuit of the traditional sinusoidal air gap rotor are as follows: figure 1 As shown, the air gap on the Q-axis magnetic circuit is large, so the reluctan...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02K1/27
Inventor 应红亮贡俊曲家骐杨锟
Owner SHANGHAI EDRIVE
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