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Layered rotor structure for high-speed permanent magnet motor and manufacturing method

A permanent magnet motor, rotor structure technology, applied in the magnetic circuit shape/style/structure, manufacturing motor generators, magnetic circuit rotating parts, etc., can solve the limitation of the maximum power and maximum speed of the lifting space, air gap magnetic field waveform High harmonic content, increased motor eddy current loss, etc., to avoid excessive local stress, reduce air friction loss, and reduce eddy current loss.

Pending Publication Date: 2020-11-24
SHENYANG POLYTECHNIC UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, on the one hand, the non-metallic sheath of the permanent magnet will affect the heat dissipation of the permanent magnet, and on the other hand, the eddy current loss of the metal sheath will also cause the temperature of the permanent magnet to rise too high. Flat-top wave distribution, which contains more high-order harmonics, will also increase the eddy current loss inside the motor; the local stress on the edge of the block permanent magnet is higher than other positions, which will easily cause damage to the permanent magnet
[0004] To sum up, the current high-speed permanent magnet motor rotor structure with a surface-mounted permanent magnet and a sheath structure has problems such as high temperature rise, large loss, local stress concentration, and high harmonic content of the air-gap magnetic field waveform, which limits its maximum Room for improvement in power and top speed

Method used

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  • Layered rotor structure for high-speed permanent magnet motor and manufacturing method
  • Layered rotor structure for high-speed permanent magnet motor and manufacturing method
  • Layered rotor structure for high-speed permanent magnet motor and manufacturing method

Examples

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Effect test

Embodiment 1

[0034] Such as Figure 1 to Figure 4As shown, a layered rotor structure for a high-speed permanent magnet motor, including a rotor core 1, a permanent magnet 2 and a protective sleeve arranged radially from the inside to the outside, the permanent magnet 2 is a rare earth permanent magnet, and the permanent magnet 2 includes a ring base, the outer circular surface of the ring base is integrally formed with an outwardly protruding block along the circumferential direction, and the contact surface between the block and the block ferrite material filling body 3 is processed radially with a plurality of triangular cross-sections The permanent magnet 2 is set on the outer surface of the rotor core 1, and the permanent magnet 2 is fixed by bonding. The permanent magnet 2 generally has a large residual magnetism and produces a large air gap magnetic density. Because its position is average The radius is small, so the stress by the centrifugal force is very small, which can effectivel...

Embodiment 2

[0042] The difference between this embodiment and embodiment 1 is that, as Figure 5 As shown, the mixed layer 5 is a variable-thickness layer 56, that is, the mixed layer 5 is a multi-layer variable-thickness structure, that is, a structure in which the inner layer is thick and the outer layer is thin. By adjusting the spraying amount of the adhesive film prefabricated material 51 , and then adjusting the thickness of the flexible magnetic powder adhesive film 54 , the carbon fiber prewound tape forms a variable thickness structure.

[0043] Due to the small radius of the inner layer, the local stress generated by the centrifugal force of the same volume carbon fiber pre-wound tape is small. Therefore, when making the carbon fiber pre-wound tape bonded to the inner layer, the amount of spraying of the adhesive film prefabricated material 51 is reduced to reduce the amount of flexible magnetic powder. The thickness of the adhesive film 54 makes the volume of the magnetic powde...

Embodiment 3

[0045] The difference between this embodiment and embodiment 1 is that, as Figure 6 As shown, the mixed layer 5 is a mixed structure of an equal thickness layer 55 and a variable thickness layer 56, including an inner layer and an outer layer distributed along the direction, that is, the inner layer of the mixed layer 5 is a variable thickness layer 56, and the inner layer of the mixed layer 5 is a variable thickness layer 56. The outer layer is a constant thickness layer 55 .

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Abstract

The invention discloses a layered rotor structure for a high-speed permanent magnet motor and a manufacturing method. The layered rotor structure comprises a rotor iron core, permanent magnets and a protective sleeve which are sequentially arranged from inside to outside in the radial direction, wherein the outer side of the rotor iron core is sleeved with the permanent magnets, and blocky ferritematerial filling bodies used for reducing deformation stress of the permanent magnets are arranged in gaps formed between adjacent protruding block bodies of the permanent magnets; the protective sleeve comprises an inner carbon fiber layer, a mixed layer, a copper shielding layer and an outer carbon fiber layer which are sequentially arranged from inside to outside in the radial direction; and the mixed layer comprises a carbon fiber pre-winding belt, the carbon fiber pre-winding belt is formed by flattening and bonding a flexible magnetic powder adhesive film on the surface of a carbon fiber belt, and the flexible magnetic powder adhesive film is formed by spraying and curing an adhesive film prefabricated material formed by uniformly mixing bonded permanent magnet magnetic powder and acolloid material. The layered rotor structure effectively reduces rotor eddy current loss and air friction loss, relieves the permanent magnet damage risk caused by too high local stress in the rotor, and enables the high-speed permanent magnet motor to develope towards higher rotating speed and higher power.

Description

technical field [0001] The invention belongs to the technical field of high-speed permanent magnet motors, and in particular relates to a layered surface-mounted rotor structure and a manufacturing method of a high-speed permanent magnet motor. Background technique [0002] High-speed permanent magnet motors have the advantages of small size and high power density, and are widely used in high-speed drive systems such as machine tool spindle motors, high-speed turbomachinery, and micro gas turbine power generation equipment. [0003] At present, the rotor of high-speed permanent magnet motor mainly adopts the structure of block permanent magnet surface-mounted and external sheath. Since the permanent magnet is subjected to great centrifugal tensile stress when the rotor rotates at high speed, and the tensile strength of sintered permanent magnet with high magnetic performance is low. Must be protected by an external sheath. However, on the one hand, the non-metallic sheath o...

Claims

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Application Information

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IPC IPC(8): H02K1/27H02K1/02H02K15/03
CPCH02K1/02H02K1/27H02K15/03H02K2213/03
Inventor 刘光伟于思洋徐振耀张凤阁
Owner SHENYANG POLYTECHNIC UNIV
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