CS259171B1 - Rotor for synchronous electric rotating machine with permanent magnets excitation - Google Patents

Abstract

The solution relates to a synchronous rotor electric rotating machine with excitation permanent magnets placed inside its poles. The purpose is to achieve compactness high strength rotor construction that will allow to increase its permissible circumferential speed. This purpose is achieved by that with permanent magnets, polarized in radial direction of the rotor, uxgist under the surface the rotor inside its poles, between the poles carriers and segment roll attachments, while being to the pole pieces non-magnetic intermittent fixed fillings that are firmly attached to the magnet around.

Description

The invention relates to a rotor of a synchronous electric machine rotating with permanent magnet excitation / polarized in the radial direction of the rotor and located within its poles.

Existing rotors of synchronous electrical machines rotating with permanent magnet excitation have permanent magnets fixed to the poles eg by gluing, partial embedding on dovetail, non-magnetic bandage, etc. the arrangement is relatively small permissible rotor peripheral speed, limited by the low strength of the connection of permanent magnets to the poles ·

This disadvantage is overcome by the permanent magnet excitation rotor of the synchronous electric machine according to the invention, which is based on the fact that the permanent magnets are located below the rotor surface, inside its poles, between the pole carriers and the segmented pole pieces. · by weld, with non-magnetic fillings that are rigidly connected, eg to dovetail, with a magnetic wheel

The rotor consists of a magnet wheel 1, on the outer periphery of which the pole carriers 6 are formed with a tapered neck at the yoke 2 of the magnet wheel and with an outer planar surface for abutment.

The attached drawing shows in cross-section an exemplary embodiment of a rotor of a synchronous electric machine rotating with permanent magnet excitation according to the invention 2 permanent magnet J. The permanent magnets of the cube shape are polarized in the radial direction of the rotor and their upper planes A non-magnetic interpole filler 6 is provided between the facing side sides of adjacent pole carriers 2 »of the permanent magnets ® of the segmented pole pieces 2» j, which is rigidly connected by its bottom dovetail part to the magnet wheel 1 in its yoke 2 and its sides. the upper part is rigidly welded to the adjacent segmented pole pieces 2, wherein the outer surfaces of the non-magnetic interpole fillers 6 and the segmented pole pieces 2 form the cylindrical surface of the rotor. In order to prevent the movement of the permanent magnets J relative to the magnet wheel 1, the possible gaps between the pole carriers 2, the segmented pole pieces 2 ^{and the} non-magnetic interpole fillers 6 are filled with a displacement material. synchronous generators with permanent magnets in the rotor, and preferably in the case of those having rare earth permanent magnets.

Claims (3)

SUBJECT OF THE INVENTION Rotor of a synchronous electric machine rotating with permanent magnet excitation, characterized in that it consists of a magnet wheel (1) on the outer periphery of which the pole supports (3) are formed with a tapered neck at the yoke (2) of the magnet wheel (1) and with an outer planar surface for abutting at least one cube-shaped permanent magnet (4) polarized in the radial direction of the rotor, with its underside to the upper side of which a segmented pole piece (5) adjoins with its inner planar side; (3), permanent magnets (4) and segmented pole pieces (5), a non-magnetic interpole filler (6) is provided. Rotor according to claim 1, characterized in that the non-magnetic interpole fillers (6) are rigidly connected with their lower parts to the yoke (2) of the magnet wheel (1) and the upper parts with adjacent segmented pole pieces (5), the non-magnetic interpole fillers. (6) and the segmented pole pieces (5) form the cylindrical surface of the rotor with their outer surfaces. Rotor according to claim 1, characterized in that the gaps created by the mounting of the permanent magnets (4) are filled with the displacement material (7).