SU1636945A1 - Single-phase induction electric motor - Google Patents

Abstract

The invention relates to electrical engineering, namely to low-power electric machines for various purposes. The purpose of the invention is to increase the specific torque. The yoke 2 of the stator and the sleeve of the 4 pole tips of a single-phase asynchronous motor are made of a powder material containing equiaxial magnetically conducting particles. Poles 3 and the rotor magnetic core are made of a material containing magnetically guided particles based on a flake shape. 2 Il.

Description

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The invention relates to electrical engineering, namely to electrical, low-power machines for various purposes.

The purpose of the invention is to increase the specific torque.

Fig. 1 shows a single-phase asynchronous capacitor electric motor with stator and rotor magnetic conductors of a magnet powder; figure 2 - section A-L in figure 1.

The motor contains a power winding 1 and a stator magnetic circuit consisting of a roma 2, poles 3 and a sleeve 4 removable pole pieces made up of three parts with saturation bridges 5 between poles 3, shifted one relative to another in a stepwise manner in one of the directions of rotation of a clockwise, and rotor b with straight grooves for the short-circuited winding of the squirrel-cell type. The yoke 2 of the stator, the sleeve 4 pole pieces and the magnetic core of the rotor 6 are extended to the sides of the frontal parts of the stator winding. The yoke 2 of the stator and sleeve 4 pole pieces are made of powder material based on equi-axial magnetically conductive particles, and poles 3 and the rotor magnetic circuit 6 are made of powder material containing magnetically conductive particles of a scaly shape. This makes it possible to increase the magnetic conductivity of the magnetic system of the engine, to increase the specific torque, while reducing the magnetizing current of the engine.

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The motor works as follows.

1 When a supply voltage is applied to the winding 1, a rotating magnetic field is formed in the air gap, due to the interaction of which with the current in the rotor winding 6 its rotor comes into rotation.

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But the proposed technical solution can be performed and single-phase asynchronous motors of two types, namely, motors with shielded poles and motors with an asymmetric stator.

Claims (1)

Invention Formula A single-phase asynchronous electric motor containing a stator with new poles on which windings are installed, and in the pole bore between the pole tips there is a sleeve made of a soft magnetic material with saturation bridges and a rotor, the rotor and stator magnetic cores are made of a soft magnetic powder, and the stator, sleeve and rotor magnetic core are longer than the pole length, characterized in that, in order to increase the specific torque, the powder material of the stator frame and the sleeve contains equiaxed magnetic conductive particles, and the material of the poles and the magnetic rotor comprises a magnetic conductive particles scaly shape. five 0 five 0 five But the proposed technical solution can be performed and single-phase asynchronous motors of two types, namely, motors with shielded poles and motors with an asymmetric stator. Invention Formula A single-phase asynchronous electric motor containing a stator with new poles on which windings are installed, and in the pole bore between the pole tips there is a sleeve made of a soft magnetic material with saturation bridges and a rotor, the rotor and stator magnetic cores are made of a soft magnetic powder, and the stator, sleeve and rotor magnetic core are longer than the pole length, characterized in that, in order to increase the specific torque, the powder material of the stator frame and the sleeve contains equiaxed magnetic conductive particles, and the material of the poles and the magnetic rotor comprises a magnetic conductive particles scaly shape. FIG. 2