PL165901B1 - Method of making an electric machine stator - Google Patents

Abstract

The method of producing the stator of an electric machine, characterized in that the elements (1) of the stator yoke formed of a ferromagnetic material are placed in the injection mold (2) so that there are gaps (3) between the elements (1), then the elements (1) of the yokes and spaces (3) between them is poured with insulating material so that after taking out of the mold the elements (1) together with the non-magnetic body (4) and its internal projections (5) form an integral whole, and then between the projections (5) of the body (4) magnets (6).

Description

The subject of the invention is a method of producing an electric machine stator, intended for use in the production of commutator magnetoelectric machines.

A method of manufacturing a machine stator with permanent magnets is known from common use, which consists in machining the yoke elements to which elastic elements are then attached, between which magnets are placed. Another known method of producing the pan is rolling it from a sheet and joining it by pressing or welding. Attaching the magnets to the stator yoke is usually by gluing or securing them between spring elements.

Polish patent specification No. 139 797 describes a method of manufacturing a stator, which consists in making longitudinal cuts or cuts in a ferromagnetic yoke in the shape of a sleeve in order to increase the reluctance of the armature flux.

A technical disadvantage of the known methods of producing stators with a yoke in the form of a steel sleeve is the high laboriousness of machining the yoke as well as punching, bending and fixing elastic elements between which magnets are placed.

When gluing magnets to the stator yoke, additional cleaning, degreasing, adhesive application and hardening are required.

A technical disadvantage of producing the stator yoke by coiling them from a sheet or by machining a steel sleeve is the difficulty in obtaining slots in the stator yoke increasing the reluctance for the armature flux.

Another technical disadvantage of producing, using known methods, the stators of motors for general purpose equipment, where an increased degree of protection against electric shock is required, is the need to use additional insulating covers.

The invention relates to a method for manufacturing the stator of an electric machine, characterized in that the elements of a stator yoke formed of a ferromagnetic material are placed in an injection mold so that these elements are spaced apart. Then, the elements of the yoke and the spaces between them are flooded with insulating material, so that after taking them out of the mold, the elements together with the non-magnetic body and its internal projections form an inseparable whole. Magnets are placed between the body lugs. Preferably, wedges are placed between the body projections and the magnets.

The technical advantage of using the method according to the invention is its simplicity and the possibility of obtaining an increased reluctance for the armature flux. The advantage of the method is also the achievement of increased protection against electric shock and the elimination of additional shields, which are required in motors for consumer equipment, made by known methods.

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The subject of the invention is explained in the embodiment in the drawing, in which fig. 1 shows the yoke element in cross-section, fig. 2 - top view, fig. 3 mutual positioning of the yoke elements, fig. 4 - positioning of the elements in the mold before pouring, fig. Fig. 5 - cross-section of the body with the yoke after removal from the mold, Fig. 6 - longitudinal section, and Fig. 7 - a stator with magnets and wedges in a cross-section.

Example. The method of producing the stator of an electric machine excited by permanent magnets consists in extruding the elements 1 of the stator yoke from the ferromagnetic sheet. These elements are placed in the injection mold 2 so that there are even spaces between them 3. After filling the mold with insulating material, the body 4 with its internal projections is obtained 5. The spaces 3 between the ferromagnetic elements of the yoke 1 are filled with the same insulating material from which there is a body 4. After removing from the injection mold 2 ferromagnetic elements 1 of the stator yoke together with the body 4 made of insulating material form an integral whole. Between the internal projections 5 of the body 4, magnets 6 are placed, which are secured against shifting by wedges 7. In an embodiment of the invention, a method of manufacturing a double-pole machine is described, but the subject of the invention may also be used in the production of multipolar machines.

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Fig. 4

Fig 5

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A-A

Fig. 6

Fig.7

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Publishing Department of the UP RP. Circulation of 90 copies. Price PLN 1.00.

Claims (2)

Patent claims The method of manufacturing the stator of an electric machine, characterized in that the elements (1) of the stator yoke formed of a ferromagnetic material are placed in the injection mold (2) so that there are gaps between the elements (1) (3), then the elements (1) of the yoke and the spaces (3) between them are flooded with insulating material so that after removing from the mold the elements (1) together with the non-magnetic body (4) and its internal projections (5) form an inseparable whole, and then between the projections (5) of the body (4) ) the magnets (6) are placed. 2. The method according to p. A method according to claim 1, characterized in that wedges (7) are provided between the projections (5) of the body (4) and the magnets (6).