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A trapezoidal spherical deflection Lorentz force magnetic bearing

A Lorentz force-magnetic, trapezoidal technology, applied in the directions of magnetic bearings, bearings, shafts and bearings, etc., can solve the problems of excessive magnetic flux leakage, poor uniformity of magnetic density in the deflection air gap, and narrow rotor deflection range. The effect of high uniformity, high magnetic field strength and high torque accuracy

Active Publication Date: 2018-11-02
BEIJING INSTITUTE OF PETROCHEMICAL TECHNOLOGY
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The Lorentz force magnetic bearings in the above schemes all adopt a rectangular magnetic steel structure. There is a strong magnetic circuit edge effect at the right angle of the magnetic steel, resulting in more magnetic flux leakage and poor uniformity of the magnetic density in the deflection air gap.
At the same time, the magnetic steel adopts the whole ring splicing method, and there is a certain gap in the splicing of the magnetic steel, which further reduces the uniformity of the deflection air gap magnetic density.
In addition, the deflection air gap is in the shape of a cylindrical shell, which limits the rotor deflection angle, resulting in a narrow range of rotor deflection, about ±1.5°

Method used

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  • A trapezoidal spherical deflection Lorentz force magnetic bearing
  • A trapezoidal spherical deflection Lorentz force magnetic bearing
  • A trapezoidal spherical deflection Lorentz force magnetic bearing

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specific Embodiment approach

[0020] The preferred embodiment of the trapezoidal spherical deflection Lorentz force magnetic bearing of the present invention is:

[0021]It is mainly composed of a rotor system and a stator system. The rotor system mainly includes: outer magnetic sleeve, outer magnetic ring, outer upper trapezoidal spherical magnet, outer lower trapezoidal spherical magnet, outer upper paramagnetic sleeve, outer lower paramagnetic sleeve, Outer upper trapezoidal spherical magnet lock nut, outer lower trapezoidal spherical magnetic steel lock nut, turntable, outer component lock nut, inner magnetic sleeve, inner magnetic ring, inner upper trapezoidal spherical magnet, inner lower trapezoidal spherical magnet, inner Upper paramagnetic sleeve, inner lower paramagnetic sleeve, inner upper trapezoidal spherical magnetic steel lock nut, inner lower trapezoidal spherical magnetic steel lock nut and inner component lock nut; the stator system mainly includes: stator skeleton, aluminum base plate, le...

specific Embodiment

[0027] Such as figure 1 , 2 As shown, a trapezoidal spherical deflection Lorentz force magnetic bearing is mainly composed of a rotor system and a stator system. The rotor system mainly includes: outer magnetic sleeve 1, outer magnetic ring 2, outer upper trapezoidal spherical magnetic steel 3A, outer Lower trapezoidal spherical magnetic steel 3B, outer upper paramagnetic sleeve 4A, outer lower paramagnetic sleeve 4B, outer upper trapezoidal spherical magnetic steel lock nut 5A, outer lower trapezoidal spherical magnetic steel lock nut 5B, turntable 6, outer component lock nut 7, Inner magnetic sleeve 8, inner magnetic ring 9, inner upper trapezoidal spherical magnet 10A, inner lower trapezoidal spherical magnet 10B, inner upper paramagnetic sleeve 11A, inner lower paramagnetic sleeve 11B, inner upper trapezoidal spherical magnetic steel lock nut 12A, inner and lower trapezoidal spherical magnetic steel lock nut 12B and inner component lock nut 13; the stator system mainly in...

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Abstract

The invention discloses a trapezoid spherical surface deflection lorentz force magnetic bearing composed of a rotor system and a stator system. The rotor system mainly comprises an outer flux sleeve, an outer magnetism isolation ring, outer upper trapezoid spherical surface magnetic steel, outer lower trapezoid spherical surface magnetic steel, an outer upper paramagnetic sleeve, an outer lower paramagnetic sleeve, an outer upper trapezoid spherical surface magnetic steel lock nut, an outer lower trapezoid spherical surface magnetic steel lock nut, a rotary disc, an outer assembly lock nut, an inner flux sleeve, an inner magnetism isolation ring, inner upper trapezoid spherical surface magnetic steel, inner lower trapezoid spherical surface magnetic steel, an inner upper paramagnetic sleeve, an inner lower paramagnetic sleeve, an inner upper trapezoid spherical surface magnetic steel lock nut, an inner lower trapezoid spherical surface magnetic steel lock nut and an inner assembly nut. The stator assembly mainly comprises a stator framework, an aluminum base plate, a winding and an epoxy resin adhesive. The trapezoid spherical surface structure is adopted in the magnetic steel, the fringe effect of the magnetic field is weakened, the magnetic flux density uniformity is improved, the strength of the magnetic field is improved, and large-angle deflection is facilitated; and in addition, the magnetic flux density fluctuation of the magnetic steel due to splicing gaps is eliminated through the paramagnetic sleeves, and high-precision torque control is facilitated.

Description

technical field [0001] The invention relates to a non-contact magnetic suspension bearing, in particular to a trapezoidal spherical deflection Lorentz force magnetic bearing. Background technique [0002] Magnetic bearings are divided into reluctance magnetic bearings and Lorentz force magnetic bearings. The former changes the magnitude and direction of the electromagnetic force by changing the magnitude and direction of the magnetomotive force to achieve stable suspension of the rotor. The magnitude and direction of the current in the energized coil realize the stable suspension of the rotor. The electromagnetic force of the magnetic resistance magnetic bearing has a square relationship with the magnetic flux, and the magnetic flux has a linear relationship with the current, so the electromagnetic force has a square relationship with the current, so the magnetic resistance magnetic bearing has the characteristics of large bearing capacity, but the magnetic resistance magnet...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F16C32/04
CPCF16C32/0408
Inventor 刘强胡灯亮赵勇吴波马丽梅陈少华
Owner BEIJING INSTITUTE OF PETROCHEMICAL TECHNOLOGY
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