SU1350759A1 - Rotor of electric machine - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to simplify the design and manufacturing technology. The rotor of the electric machine contains a non-magnetic shaft 1, a magnetic system with wedge-shaped poles-i 2 of magnetically soft material and permanent magnets 3. Washers 8 are located at the ends of the rotor. This reduces the manufacturing effort. 2 Il. 10 (L with SL about VJ SP with in figure 2

Description

one

The invention relates to electrical engineering, in particular to rotors of electrical machines containing permanent magnets, and can be used, in particular, in motors of contactless moments.

The aim of the invention is to simplify the design and manufacturing technology of the rotor.

Figure 1 shows the rotor of an electric machine, a general view in cross section; figure 2 is the same, side view.

The rotor of the electric machine contains a non-magnetic shaft 1 in the form of a hollow cylinder with a precise internal diameter for fixing it on the shaft of the controlled mechanism, for example, installing a pin, locking nut, etc., a magnetic system with wedge-shaped poles 2 of magnetically soft material and between them are permanent tangential magnetized magnets 3, facing the same name. The rotor is based on the interaction between the magnetic fluxes generated by permanent magnets 15 3 and currents in the stator control winding engine

The magnetic flux created by permanent magnets 3, whose poles of the same name are adjacent to the same and 20 same wedge-shaped poles 2, passes through the air gap of the electric machine, stator, again through the air gap and closes at opposite poles of the magnetic poles one to another on the reference 25 to 3 through the wedge-shaped poles adjacent to them 2.

The application of the proposed rotor will eliminate the use of large surfaces x 4 of the sleeve 5 of a nonmagnetic material, tightly mounted on the shaft 1.

Along the ends of the magnetic system are placed on the shaft 1, for example, 30 ° the number of sleeves and other fasteners, using welding, glue, etc. body elements, which significantly. simplifies the design and reduces its axial dimension.

 Washers 6.

The wedge-shaped poles 2 are provided with protrusions 7 along the ends of a special form into holes, analogous to rotor assemblies, using protrusions 7 that are resource-shaped in shape, an additional intermediate washer 8 made of non-magnetic material rigidly fastened to the body washer 6, for example, using welding, glue, etc. 40

Case washer 6 and additional intermediate washer 8 can be made as one integral washer having recesses in the form of protrusions 7 and obtained, for example, with 45-die forging, milling, extrusion, etc., and the form of protrusions 7 of wedge-shaped poles 2 and respectively holes in the additional intermediate washer 8 may be different. 50

The magnets 3 are secured in slots formed by the side faces of the wedge-shaped poles 2 and additional intermediate washers 8, for example, with glue, a compound, etc. §5 P non-magnetic material, mouth

The rotor is equipped with a band 9 of non-implanted at the ends of the rotor, from a linear tape material, which is tightly connected with the fact that, in order to fit the wedge-shaped poles 2 and simplify the design and technology covering the ends of the housing washers,

Ability to automate the process

saving technological processes of stamping and welding during its manufacture, as well as the maximum exclusion of machining by cutting allows to increase the productivity of assembly work, reduce labor intensity and cost of manufacturing the rotor.

Claims (1)

Invention Formula The rotor of an electric machine, containing a non-magnetic shaft, tangentially magnetized permanent magnets facing each other with the same poles, wedge-shaped poles of magnetically soft material, having protrusions at the ends and placed between permanent magnets, and fixed 3507592 6, and the band 9 has extrusions 10 over the magnets to further prevent them from moving as the rotor rotates. The wedge-shaped poles 2 are made of magnet of a soft material by cutting or die forging or by powder metallurgy methods from 1Q magnetically conducting powder. The rotor operates as follows. The operation of the rotor is based on the interaction between the magnetic fluxes generated by the permanent magnets 15 3 and the currents in the control winding of the stator of the motor. The magnetic flux created by the permanent magnets 3, the same poles of which are adjacent to the same and 20 same wedge-shaped poles 2, passes through the air gap of the electric machine, stator, again through the air gap and closes on the opposite poles of the rotor magnetics, using the resource Ability to automate the process rotor assemblies, resource use P non-magnetic material, mouth saving technological processes of stamping and welding during its manufacture, as well as the maximum exclusion of machining by cutting allows to increase the productivity of assembly work, reduce labor intensity and cost of manufacturing the rotor. Invention Formula The rotor of an electric machine, containing a non-magnetic shaft, tangentially magnetized permanent magnets facing each other with the same poles, wedge-shaped poles of magnetically soft material, having protrusions at the ends and placed between permanent magnets, and fixed 3,135,575 in the form of washers with evenly spaced protrusions are spaced with wedge-shaped holes around the circumference, into the pole. one more time poles. 7-: 7 figure 1