Method for increasing the operating efficiency of asynchronous short-circuited electric machines, and an asynchronous short-circuited electric machine

A short-circuit motor and asynchronous technology, applied in the direction of asynchronous induction motors, electrical components, electromechanical devices, etc., can solve the problems of noise, vibration, knocking, and the inability to increase the starting torque appropriately, and achieve the effect of increasing the starting frequency

Inactive Publication Date: 2012-11-28
TECH SMP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The disadvantage of this method is that the torque will only increase at certain positions of the rotor relative to the stator, which will cause a change in torque to the rotation of the rotor, and cannot increase the starting torque moderately
The unevenness of this torque will cause knocking, noise and vibration when the motor is running, so this technology is limited to flywheel motor installations and will cause excessive wear

Method used

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  • Method for increasing the operating efficiency of asynchronous short-circuited electric machines, and an asynchronous short-circuited electric machine
  • Method for increasing the operating efficiency of asynchronous short-circuited electric machines, and an asynchronous short-circuited electric machine
  • Method for increasing the operating efficiency of asynchronous short-circuited electric machines, and an asynchronous short-circuited electric machine

Examples

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Embodiment Construction

[0014] figure 1 It is an embodiment of the asynchronous short-circuit motor of the present invention (the number of pole pairs can be changed). The motor includes a bipolar stator (1) and rotor (2), eighteen insulated conductor bars (3-3') of the rotor (2), and are installed in pairs in nine slots (4) Inside (the number of conductor bars of the rotor can be changed). The end of each conductor bar (3) in the slot (4) is connected with the end of each corresponding conductor bar (3') in other slots (4), and each slot (4) is then the closest to the stator (1 ) is distributed around the rotor (2) to form short-circuit coils each consisting of two conductor bars (3-3') connected in series. figure 2 It is another embodiment of the asynchronous short-circuit motor of the present invention. The motor includes a bipolar stator (1) and rotor (2), thirty-six insulated conductor bars (3-3'), (3"-3"') of the rotor (2), four of which are one The groups fit in the nine slotted holes (4)...

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Abstract

The essence of the proposed invention is that the action of a rotating electromagnetic field of a stator on the short-circuited turns of a rotor winding extending through areas adjacent to the pole pitch limits of the stator is supplemented by the additional action of a rotating electromagnetic field of the stator on sections of the short-circuited turns of the rotor winding extending through areas adjacent to the limits of a half pole pitch of the stator. The present method and the machine variants based thereon make it possible to provide a machine in which the engine starting current ratio is lower by comparison with machines of the prior art because of the prevention of losses on the braking effect, which makes it possible to increase the starting frequency without load reduction and to use the machine in the most severe operating conditions with an increased load on the shaft, wherein the machine maintains the rotating field effect and can still be fully operational upon the disconnection of one phase, generating in the phase-disconnected winding a high-quality harmonic voltage for the missing phase.

Description

technical field [0001] The invention belongs to the field of power generation and can be used in electromechanical energy conversion systems, especially non-synchronous short-circuit motors. Background technique [0002] A German patent discloses an asynchronous engine (51083, C1.H02K17 / 16, 1889), which includes a stator and a rotor. The rotor has a squirrel-cage coil set, and the coil set has a plurality of conductor bars. Each conductor rod is installed symmetrically in the slots around the surface of the rotor, and the ends of the conductor rods are short-circuited by end rings. The principle of operation of the asynchronous engine is based on the mutual magnetic coupling between the primary rotating electromagnetic field of the stator and the secondary induced electromagnetic field generated in the rotor. [0003] The shortcomings of the motor design are low engineering characteristics, low power generation capacity, low operation and technical-economic performance, su...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02K17/18H02K3/12
CPCH02K17/185H02K17/165H02K17/18
Inventor 尼吉拉·伊万诺维奇·北达隆
Owner TECH SMP
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