SU1394344A1 - Permanent-magnet generator rotor - Google Patents

Abstract

The invention relates to electrical engineering, to the implementation of rotors of magnetoelectric generators and can be used, for example, when creating power sources with a gas turbine drive. The goal is to improve rotor volume utilization. The rotor contains disks 1.2 of a magnetic conductor, between which axially magnetized cylindrical permanent magnets 9, enclosed by ring permanent magnets 10, are mounted. H with radially magnetized radially oriented SRI. Discs 1, 2 are covered by rings 3, 6, each of which are made of half-rings made of magnetic 5, 8 and non-magnetic steel 4, 7. All of the above elements are placed in an outer sleeve consisting of sections of magnetic and non-magnetic materials alternating around the circumference, the axis of symmetry of the first of which coincides with the axis of the magnetism of the annular permanent magnets 10. This embodiment of the rotor, in particular the presence, placement and execution of the elements 10, improves the use of the rotor volume and leads to a redistribution of magnetic fluxes in it, as a result of which a part of the flow of cylindrical permanent magnets 9 is displaced into working air gap, i.e. the rotor scattering flux decreases, and the operating magnetic flux of the generator increases. 5 il. / Z N с (О (Л оэ. Со 4; iii со N 4 8 11 Figure 1

Description

1. 13

The invention relates to electrical engineering, to the implementation of rotors of magnetoelectric generators with high rotational speed and may find application in the creation of power sources with a gas turbine drive.

The purpose of the invention is to improve overall dimensions by improving the utilization of the rotor volume.

Figure 1 shows a rotor of a magnetoelectric generator, a general view of FIG. 2, an extreme disk of the magnetic circuit assembled with a ring and a sleeve; on fig.Z - the average disk of a magnetic circuit assembled with a ring; 4 is a sleeve in FIG. 5 is an annular permanent magnet.

The rotor of the magnetoelectric generator contains a magnetic core consisting of extreme disks 1 and an average disk 2. Disk 1 is enclosed by a ring 3 consisting of half-rings 4 and 5, Disk 2 is covered by a ring 6 consisting of half-rings 7 and 8. Semi-rings 4 and 7 are made of non-magnetic, and half rings 5 and 8 are made of magnetic steel.

Cylindrical permanent magnets 9 are axially magnetized and placed between disks i and 2 and pressed into rings 10 made of a material of a permanent magnet magnetized in the radial direction coinciding with the axis of the field from cylindrical permanent magnets 9 (in FIGS. 1 and 5 north top pole), All elements are fixed in a sleeve 11, consisting of alternating sections 12 and 13 made of magnetic and non-magnetic materials, respectively,

All connections between the parts of the rotor, with the exception of the pressing connection of the permanent magnets among themselves and with the sleeve, are welded. As a result, the design of a two-pack rotor is obtained, its mechanical properties are close to monolithic.

The magnetic flux in the working gap of a magnetoelectric generator is determined by the sum of fluxes from cylindrical permanent magnets 9 and ring permanent magnets 10. Therefore, the use of the rotor volume, t, e. The filling factor of the rotor with a constant magritis increases, which makes it possible to increase the generator power with the same rotor dimensions.

In addition, the presence of annular permanent magnets leads to a redistribution of magnetic fluxes in the rotor, as a result of which a part of the scattered flux of cylindrical permanent magnet is displaced into the working air gap, which leads to a decrease in the scattered rotor fluxes and to a corresponding increase in the operating magnetic flux of the generator.

Claims (1)

Invention Formula Rotor magnetoelectric gene-. Rattor containing magnetic cores in the form of disks and axially magnetized cylindrical permanent magnets placed between them, covered, like magnetic disks, rings, and an outer sleeve, executed in the form of alternating circumferential portions of magnetic and nonmagnetic materials, and rings, which cover disks magnetic circuits consist of magnetic and nonmagnetic semirings, steel, i.e., in order to improve the weight and size parameters by improving the use of the rotor volume, ring, covering Indirect permanent magnets are made of a material of a permanent magnet magnetized in the radial direction with the number of poles equal to half the total number of sections of the outer sleeve, the axis of symmetry of the sections of which are made of magnetic material coincide with the axis of magnetization of ring permanent magnets . Assembly Twist on / (OM14D WELDING Ponkomu CSapKa eight (rig.s 2 CSofl / (a fig L fig 5