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A Pure Electromagnetic Radial Magnetic Bearing for Inner Rotor with Plane Magnetic Pole Spherical Surface

A technology for magnetic bearings and inner rotors, applied in the field of pure electromagnetic radial magnetic bearings for planar magnetic pole spherical inner rotors, can solve problems such as impossibility of rotor assembly, reduction of rotor assembly manufacturability, magnetic pole edge magnetic flux leakage effect, etc., and reduce the cost of assembly process Effect

Active Publication Date: 2019-07-12
PLA PEOPLES LIBERATION ARMY OF CHINA STRATEGIC SUPPORT FORCE AEROSPACE ENG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the existence of pole shoes, the size of the gap between the stator poles is reduced, the assembly manufacturability of the rotor is reduced, and even the rotor cannot be assembled
[0004] The upper and lower edges of the stator poles of the above three radial magnetic bearing schemes are acute angles, and there are obvious magnetic flux leakage effects at the pole edges

Method used

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  • A Pure Electromagnetic Radial Magnetic Bearing for Inner Rotor with Plane Magnetic Pole Spherical Surface
  • A Pure Electromagnetic Radial Magnetic Bearing for Inner Rotor with Plane Magnetic Pole Spherical Surface
  • A Pure Electromagnetic Radial Magnetic Bearing for Inner Rotor with Plane Magnetic Pole Spherical Surface

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Effect test

specific Embodiment approach

[0020] The preferred embodiment of the purely electromagnetic radial magnetic bearing for the inner rotor of the plane magnetic pole spherical surface of the present invention is:

[0021] It is mainly composed of stator system and spherical rotor. The stator system mainly includes: left plane stator core, right plane stator core, front plane stator core, rear plane stator core, excitation coil, stator pole sleeve, upper stator locking disc and The lower stator locking disc, the stator magnetic pole sleeve locking disc, the upper sealing ring, the lower sealing ring, and the stator pole skeleton; the left plane stator core forms two magnetic poles, the right plane stator core forms two magnetic poles, and the front plane stator core forms two magnetic poles. The rear plane stator core forms two magnetic poles, the left plane stator core, the right plane stator core, the front plane stator core and the rear plane stator core form the left and right front and rear 8 magnetic pole...

specific Embodiment

[0031] Such as figure 1 , 2 As shown, the pure electromagnetic radial magnetic bearing of the spherical inner rotor with planar magnetic poles is mainly composed of two parts: the stator system and the spherical rotor 1. The stator system mainly includes: the right planar stator core 5A, the left planar stator core 5B, the front planar stator core 5C, the rear Planar stator core 5D, excitation coil 4, stator pole frame 1, stator pole sleeve 9, upper stator locking disc 3, lower stator locking disc 11, stator magnetic pole sleeve locking disc 2, gyro housing upper sealing ring 10A and The lower sealing ring 10B of the gyro room; the right plane stator core 5A forms two magnetic poles, the left plane stator core 5B forms two magnetic poles, the front plane stator core 5C forms two magnetic poles, the rear plane stator core 5D forms two magnetic poles, and the right plane stator core Iron core 5A, left plane stator core 5B, front plane stator core 5C and rear plane stator core 5...

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Abstract

The invention discloses a plane magnetic pole spherical surface inner rotor pure electromagnetic radial magnetic bearing, which mainly consists of two parts including a stator system and a spherical surface rotor, wherein the stator system mainly comprises a plane magnetic pole stator iron core, a magnet exciting coil, an upper stator locking disc, a lower stator locking device, a stator magneticpole sleeve, a stator magnetic pole sleeve locking disc, an upper sealing ring, a lower sealing ring and a radial magnetic bearing installing framework. The magnetic pole is a plane magnetic pole; therotor is a spherical surface rotor; the electromagnetic force received by the spherical surface rotor passes through the sphere center; when the mass center and the sphere center are overlapped, theinterference of the radial translation suspension on the deflection suspension can be eliminated. Compared with a spherical surface magnetic pole spherical surface rotor structure, the plane magneticpole spherical surface inner rotor pure electromagnetic radial magnetic bearing has the advantages that the space between the edge of the plane stator iron core magnetic pole and the rotor is increased; the magnetic force coupling of a radial passage is reduced; the interference of the radial translation suspension on the axial translation suspension can be reduced; the control precision is further improved; meanwhile, the assembly process difficulty is also reduced.

Description

technical field [0001] The invention relates to a non-contact magnetic suspension radial bearing, in particular to a purely electromagnetic radial magnetic bearing for a plane magnetic pole spherical inner rotor. Background technique [0002] Traditional maglev inertial actuators output torque by changing the rotational speed of the rotor, and are often used for attitude control of high-resolution earth observation satellite platforms. However, the torque is too small and the torque accuracy is low, which is difficult to meet the urgent needs of agile maneuvering of spacecraft. The magnetic levitation control sensitive gyroscope is a new generation of inertial mechanism integrating attitude control and sensitivity with more development potential. It also has high-precision attitude control function and radial two-degree-of-freedom attitude sensitivity function. ideal choice. The magnetic bearing is one of the core components of the magnetic levitation control sensitive gyro...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F16C32/04
CPCF16C32/0461F16C32/048
Inventor 王卫杰尹增愿任元樊亚洪刘强蔡远文辛朝军
Owner PLA PEOPLES LIBERATION ARMY OF CHINA STRATEGIC SUPPORT FORCE AEROSPACE ENG UNIV
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