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Torque-enhanced type switched reluctance motor

A switched reluctance, motor technology, applied in the direction of magnetic circuit rotating parts, electrical components, electromechanical devices, etc., can solve the problems of large magnetic loss, difficulty in further improving motor operation control accuracy, and long magnetic circuit.

Inactive Publication Date: 2012-07-11
戴珊珊
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, it is precisely because the salient poles of the stator and the salient poles of the rotor are arranged radially along the rotation axis of the motor, the magnetic circuit formed by the interaction between the stator and the rotor is longer, and the magnetic loss is larger. In addition, the number of salient poles of the stator and rotor is limited by the motor Due to limitations such as volume and outer diameter, it is difficult to further improve the control accuracy of the motor operation, and at the same time it is still difficult to get rid of the torque fluctuation and noise in the operation of the switched reluctance motor

Method used

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  • Torque-enhanced type switched reluctance motor
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  • Torque-enhanced type switched reluctance motor

Examples

Experimental program
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Effect test

Embodiment 1

[0033] The structure of this embodiment is as attached figure 2 As shown, the structural section of this embodiment is as attached image 3 shown.

[0034] In the stator of this embodiment, there are eight doubly salient pole iron core assemblies wound with excitation coils, and these eight doubly salient pole iron core assemblies wound with excitation coils are symmetrically and evenly fixed on the inner wall of the motor housing, and the doubly salient pole iron core assemblies wound with excitation coils The magnetic salient poles 11 and 12 in the core assembly point to the motor shaft 17 . The rotor shaft seat 16 is fixed to the rotating shaft 17, and the six strip-shaped double-salient pole iron cores are symmetrically and evenly fixed on the rotor shaft seat 16 with the rotating shaft 17 as the axis of symmetry. Each strip-shaped double-salient pole iron core has two convex The protruding direction of the bar-shaped double salient core salient pole 14 and the bar-shap...

Embodiment 2

[0037] The structure of this embodiment is as attached Figure 4 shown.

[0038] This embodiment is further structured on the basis of the motor given in the first embodiment above. The motor given in the first embodiment above becomes a single motor in this embodiment. The three electric motors share one rotating shaft. as attached Figure 4 As shown, the relative positional relationship between the stators of the three motor units is exactly the same, that is, there is no rotation angle difference between the magnetic salient pole radial centerlines of the stator switch assemblies of the three motor units, and the rotors of the three motor units There is a rotation angle difference α between the radial centerlines of the salient poles of the strip-shaped double-salient pole iron core. Figure 5 A sectional view of the motor monomer at the front is given, with Figure 6 A sectional view of the motor monomer in the middle layer is given, with Figure 7 A sectional view o...

Embodiment 3

[0041] The structure of the torque-enhanced switched reluctance motor of this embodiment is the same as that of Embodiment 1 (attached figure 2 And attached image 3 As shown) the torque-enhanced switched reluctance motor is similar, the only difference is that the strip double salient pole iron core on the rotor is replaced by a double salient pole iron core assembly wound with an excitation coil.

[0042] The stator of this embodiment is composed of eight doubly salient pole iron core assemblies wound with excitation coils. The coil doubly salient pole iron core assemblies are magnetically isolated from each other, and the stator is wound with an excitation coil, and the protruding direction of the soft magnetic salient poles in the doubly salient pole iron core assembly points to the motor shaft. Each stator is wound with an excitation coil and has two magnetic salient poles. The two magnetic salient poles are axially distributed along the rotation axis. The eight assembl...

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Abstract

The invention relates to a torque-enhanced type switched reluctance motor. A stator of the motor is composed of even numbers of double-salient-pole iron core assemblies which are magnetically isolated to each other, provided with magnet exciting coils and uniformly and annularly arranged along the inner wall of a shell of the motor, and double salient poles of each assembly are axially arranged; a rotor of the motor is composed of even numbers of stripped double-salient-pole iron cores which are uniformly arranged along the radial direction of a rotating shaft, and double salient poles at two ends of each stripped double-salient-pole iron core are axially arranged; the double magnetic salient poles of each assembly on the stator and the salient poles at two ends of each stripped double-salient-pole iron core on the rotor are arranged oppositely and provided with gaps interbetween; and the magnet exciting coils of the two stator assemblies on axisymmetric positions are connected in series or parallel to be used as a phase to be connected to an excitation control power supply. A motor with a similar structure is provided through replacing the stripped double-salient-pole iron cores on the rotor with the double-salient-pole iron core assemblies provided with the magnet exciting coils. The motor provided by the invention is low in magnetic loss, high in efficiency, low in impact chatter, stable in rotation and high in control precision.

Description

technical field [0001] The invention relates to the technical field of switched reluctance motors, in particular to a torque enhanced switched reluctance motor with a new structure. Background technique [0002] The current switched reluctance motor adopts a double-salient pole structure. The rotor is only laminated by silicon steel sheets. There is neither winding nor permanent magnet. The field winding is wound on each pole of the stator. By passing the excitation current to the stator field winding in turn, The interaction between the salient poles of the stator and the salient poles of the rotor produces torque. In the current switched reluctance motor, the magnetic circuits of the salient poles of the stator and the salient poles of the rotor are arranged radially along the rotation axis of the motor. The working principle of the switched reluctance motor follows the "principle of minimum reluctance". After power is applied, the magnetic circuit tends to change to the ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02K29/00H02K1/14H02K1/24H02K16/00
Inventor 戴珊珊陆晓峰
Owner 戴珊珊
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