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Non-coupled electric stepless gear motor body topological structure

A technology of continuously variable transmission and topology structure, applied in the direction of electrical components, electromechanical devices, electric components, etc., can solve the problems of restricting the application and development of electric continuously variable transmission, increasing harmonic loss and stray loss, and decreasing the efficiency of electric transmission , to achieve the effect of simple structure, simple control and high power density

Inactive Publication Date: 2008-11-05
SOUTHEAST UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this type of motor will cause a series of problems during the design and operation process, which are mainly reflected in the following three points: 1. The magnetic fields of the stator, outer rotor and inner rotor are coupled with each other. During the load operation, the magnetic fields affect each other, making The back electromotive force of the load is distorted and the torque ripple increases, which is extremely unfavorable to the application; 2. Due to the mutual coupling of various parts, complex control algorithms and advanced controllers must be used to achieve effective control, which undoubtedly increases the complexity of the system , which limits the application and development of the electric continuously variable transmission; 3. The magnetic field coupling between the stator and the inner rotor not only has no beneficial effect on the output torque, but produces harmonics, which increases the harmonic loss and stray loss, making the efficiency of the electric transmission decline
Limits the application of electrical transmissions in aerospace, aviation, navigation, electric vehicles and other fields that have strict requirements on motor efficiency and volume

Method used

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  • Non-coupled electric stepless gear motor body topological structure

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Embodiment Construction

[0015] The non-coupling electric continuously variable transmission of the present invention can be divided into topological structure, including outer layer part, middle part and inner layer part; from the perspective of motor, it can be divided into stator, outer rotor and inner rotor, which can be determined according to different application occasions. The rotor can be arbitrarily selected among the three parts.

[0016] The outer part and the inner part can be placed with permanent magnets, squirrel cage windings, wound windings or salient pole structures. Three-phase or multi-phase distributed windings or concentrated windings can be used. The slots can be straight slots or inclined slots. .

[0017] The middle part consists of three layers. The inner and outer layers can be placed with permanent magnets, squirrel cage windings, wound windings or salient pole structures. The middle layer is a non-magnetic layer, which can be made of aluminum or other non-magnetic materia...

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Abstract

A couple-free electric steepless gear motor body topological structure relates to the structural design technology of the couple-free electric steepless gear, wherein the steepless gear includes an outer layer part (1), a middle part (2), an inner layer part (3) divided by the topological structure; and the steepless gear is divided into a stator, an external rotor and an internal rotor by the motor, wherein the stator, the external rotor and the internal rotor can be selected arbitrarily from the three parts. In order to eliminate the magnetic field between the outer layer part (1) and the inner layer part (3), a non-soft magnetic underlayer (2.2) is added in the middle part (2), to cause no magnetic field couple of the outer layer part (1) and the inner layer part (3). The motor structure of the integral motor adopts the axial type or the radial type, or the mixed type. The winding can adopt the distribution winding, also can adopt the concentrated winding.

Description

technical field [0001] The invention relates to a structural design technology of a non-coupling electric stepless transmission, and relates to the technical field of motor design. Background technique [0002] In recent years, with the development of science and technology, there are more and more occasions requiring smooth speed regulation, such as hybrid vehicles, wind power generation, variable gearboxes, starter generators, etc., and the requirements for continuously variable transmissions are also increasing. This makes the structure and control technology of the electric continuously variable transmission continuously developed and improved. However, looking at home and abroad, the research on electric continuously variable transmission is still in the initial stage of laboratory research. It is of great theoretical significance and application value to vigorously research and promote the application of electric continuously variable transmission. In recent years, a ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02K51/00
Inventor 程明孙西凯
Owner SOUTHEAST UNIV
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