CS228231B1 - Magnetic circuit for electric rotary machines with permanent magnets - Google Patents

Abstract

The invention relates to a magnetic circuit of an electrical rotating machine, having permanent magnets arranged between and outside the machine poles. The invention aims to achieve a qualitative production simplification, especially in the course of the assembly work involved in the stator magnet rim, with a simultaneous improvement in the electrical and magnetic characteristics. This object is achieved in that the machine poles are formed from two symmetrical pole halves whose separating slot lies in the axial plane of the machine, and in that the pole halves, which lie side-by-side, are provided on the facing sides with mutually opposite axial grooves in which two expanding wedges are accommodated, whose apexes are located on opposite sides and whose edges are supported against one another and the other edges are supported against the groove bases.

Description

The invention relates to the mmagintic circuit of an electric machine rotating with permanent magnets lying between and outside the machine poles.

The existing design of the rotary electrical machine of the rotary electric machine, whether its skeleton is cylindrical or square, advances to be composed of individual components with very narrow tolerances, or the machining of these components after partial assembly is necessary. complicated securing of their position in the machine is necessary, for example by embedding with a plastic material and the like.

The aforementioned drawbacks are eliminated in the mnernic circuit of an electric machine rotating with permannent maagittas according to the invention, which consists in that the machine poles are formed of two symmetrical halves, the dividing slot of which lies in the axial plane of the machine and adjacent pole halves are on the facing sides. provided with opposing axial grooves, in which there are two expanding wedges whose apexes are on opposite sides and their sides are supported on each other and the other two sides on the bottom of the grooves.

In the msanneic circuit of an electric machine rotating with permissible mmgnets according to the invention, the expansion wedges are able to eliminate the play between the yoke, mmannta and machine poles and increase the stiffness and kommektnoot of the entire stator ring. not tolerances of mmgnnts, poles and yoke · In addition, this arrangement achieves very advantageous electrical and mmanneic properties of the machine and improves the effects of · pulse mannet ^ change ·

Examples of embodiments of a permanent machine of a rotary electric machine with permanent mmgnets according to the invention are shown in the drawing, wherein Fig. 1 shows the mmagintic circuit of an electric machine rotating with a square-shaped carcass in radial section; Fig. 3 shows the preferred shape of the separating slot with expanding wedges.

In the frame forming the stator yoke, the main magnets 2 are arranged in a tangential direction, namely a plate-like embodiment according to FIG. 1 and in the form of curved plates in the embodiment according to FIG. Prismatic side mmgnets 2 ·

The poles between the side mantles 4 and the inner side of the main magnets 2 are each formed by two symmetrical pole halves 4 >, which is a separating slot. 2. whose peaks are on opposite sides and whose sides rest on each other and the other two sides on the bottom of the grooves 60. The expanding wedges 2 are preferably of a non-mapping and electrically non-conductive wild-type material.

Separation slot width 2 µ. both their mouths, i.e. not the air meamxy side, and the main magnets side, represent 2 to 3% of the pole pitch and 10 to 15% of the pole pitch in the middle part 8 ·

The pole planes jsou are preferably fixed and the sheets of each half jsou are fixedly mounted on a single axially pointing rivet 6, made of solid ferromagnetic material.

The machine is driven from the carcass 8 to the main mm aguate 4, then the side mmgoets 28 then the pole halves 8 with the metal plates fitted with rivets 8 are inserted into the grooves of the 10 pole halves by two expanding wedges 8. · By pressing the expansion wedges 4 against each other, the play between the individual parts of the mmannt circuit is symmetrically reduced. It is desirable that the slit 2 be the same at all poles after the moonlighting. no internal stator bores and flanges for shield centering ·

The separating slot 28 with the expanded intermediate portion 9 limits the degaussing effects of the machine armature, reducing the damping effects of the eddy currents when maanetized. Each pole half 4 is preferably provided with a large rivet 6, since the two rivets 8 would already form a damping thread. The dimension of the rivet 6 can be used to solve the axial concentration of the flow.

The stator yoke, that is, the skeleton can be made of steel, cast or cast from sheet metal.

Claims (4)

BACKGROUND OF THE INVENTION A circuit of a permanent magnet rotating machine with permanent magnets lying between the poles and the poles of the machine, characterized in that the poles of the machine are formed of two symmetrical pole halves (4) having a separating slot (5) lies in the axial plane of the machine and the adjacent pole halves (4) are provided with opposite axial grooves (10) on opposite sides, in which there are two spacing wedges (7) whose apexes are on opposite sides and whose sides the other two sides against the bottom of the grooves (10). 2. The milling circuit according to claim 1, characterized in that in both the orifices (9) of the separating slot (5) in the radial direction of the machine, the width of the separating slot (5) is 2 to 3% of the pole pitch and in the meel-light part. 10 to 15% pole pitch. 3. A circuit according to claim 1 or 2, characterized in that the pole halves (4) are fixed and the plates of each pole half (4) are fixedly mounted on a single axially βι ^ Ιι ^ ο ^ rivet (6) of solid ferromagnetic material. 4. The circuit according to claims 1 to 3, characterized in that the expanding wedges (7) are of a non-maanetic material and an electrically non-conductive material.