DE3041344A1 - ELECTRIC MOTOR AND METHOD FOR THE PRODUCTION THEREOF - Google Patents

Description

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Patent Attorneys Dipl.-IncT. w. Beyer Dipl.-Wirtsch.-Ing. B. Jochem

6000 Frankfurt / Main Staufenstrasse

Note: Aktiebolaaet Electrolux Luxbacken 1
S-1o5 45 Stockholm

Designation: Electric motor and process for its manufacture

30020/0869

• b '

description

The invention relates to electric motors with an externally cylindrical stator and at least one can be pushed onto the stand with a claw-shaped attachment and a bearing plate that can be fastened thereon, as well as a method to the fertirruna of such an electric motor.

The usual way to connect the end shields to the stand is that areas of the Laaerschilde to System are brought against the stand end faces and then the end shields on the stator by axially extending through this bolt with nuts get connected. The aforementioned bolts and nuts not only require additional parts, but manual Arbeitsgänae are also required for their attachment, which the manufacture of such Make electric motors more expensive.

The object of the invention is to provide an electric motor of the type mentioned at the beginning and a method for its production create, with no bolts and nuts are required to attach the end shields to the stand. Another object of the invention is to reduce manual assembly operations of the stator and the end shields to a minimum and preferably their complete elimination.

According to the invention, this object is achieved in an electric motor of the type mentioned above is achieved in that the stand has at least two closely spaced apart on its outside has axial grooves ending with a radial edge in front of or each stator end carrying a bearing plate, in which the collar-shaped approach of the or each end shield with indentations reaching up to the radial edges engages to secure the end shield against axial displacement and rotation.

130020/0869

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The inventive method for solving this problem is accordingly characterized in that at least two axial grooves are initially provided on the outer circumference of the stator which end at a distance from the or each end of the stator carrying a bearing plate with radial edges that thereupon the end shield or each end shield pushed over the radial edges onto the respective end of the stator and that areas of the collar-shaped approach of the or each end shield in the grooves up to the radial edges of the axial grooves to secure the end shield geaen axial displacement and Drehuna are pressed in.

An embodiment of the invention is described below in Connection with the drawing explained in more detail. It shows:

Fig. 1: in a schematic representation the perspective View of such an engine and

Fig. 2: a partial longitudinal section through

the engine according to FIG. 1.

According to the illustration in the drawing, a stator 1o which is cylindrical on the outside consists of a large number of stator plates 11, which by riveting 12 together to form a package are united. Each stator plate has two diametrically opposite slots 13 on its outer circumference, which are in the The central region of the stator is aligned with one another in such a way that they form axial grooves 14. The ones on the ends The stator sheets that are located, which have an axial length of about 10 mm, are rotated by 90 ° over the rest of the sheets. This creates radial edges 15 at the ends of the axial grooves 15 formed for fastening a bearing plate 16. A second bearing plate (not shown) can be attached to the other

1300 20/0869

The end of the stand can be attached in the same way.

To assemble the end plate 16 and the stator 1o, the end plate 16 is pushed onto the stator 1o with an axial extension into the area of the grooves 14 to an extent that can be easily determined by stop members 17. In Fig. 1, the latter are formed by punched out from the axial extension of the sheet metal bearing plate 16 and bent inwardly. Egg. _e tongues are evenly distributed around the circumference of the end shield 16 and rest against the end face of the stator when the end shield is pushed on. When the end shield is in this position, a tool is used which presses material from the shoulder of the end shield 16 into the grooves 14 against the radial edges 15. These indentations are made in all axial grooves 14 at the same time. The indented areas of the end shield which are pressed into the grooves 14 are denoted by 18.

As can be seen from the above description, the required formation of the stator plates 11 with the Slits 13 already made during the manufacture of the sheets. This means that there is no subsequent alignment of the Stator structure is more required for assembling the motor. Since the material from the collar-shaped approach of the End shield 16 in a work organa in the corresponding Axial grooves and pressed against the radial edges to form a rivet-like fastening is also not further treatment of the end shields required.

130020/0869

R e r s e

it

Claims (9)

Claims (1.! Electric motor with an outside cylindrical stator V / and at least one with a collar-shaped approach can be pushed onto the stand and attached to it Bearing shield, as characterized by that the stand (1o) on its outside at least two with a small distance in front of the or each end of the stand carrying a Laaerschild with a radial edge (15) has ending axial grooves (14), in which the collar-shaped extension of the or each Lacrerschilds (16) with indentations (18) reaching up to the radial edges (15) to secure the end shield (16) engages against axial displacement and rotation. 2. Electric motor with a stator consisting of stacked sheets, characterized in that each stator plate (11) on its outer circumference
has at least two diametrically opposite slots (13) which form the axial grooves (14) in the laminated core
form, wherein a part of the metal sheets (11) is rotated at at least one end of the stand to form the radial edges (15) opposite the remaining metal sheets by a certain angle. 3. Electric motor according to claim 2, characterized in that that the rotation of the end plates with respect to the remaining stator plates (11). Is 9o °. 4. Electric motor according to claim 2 or 3, characterized
characterized in that the formation of
at least four axial grooves (14) at least two pairs of diametrically opposed slots (13) 130020/0869 at an angle different from 90 ° are offset from one another. 5. Electric motor according to one of the preceding claims, characterized in that the Bearing shield (16) or the bearing shields in the interior projections (17) for axial contact against the respective Has or have stator end faces. 6. Electric motor according to claim 5, characterized in α e that the projections (17) punched out of the collar-shaped projection and after inwardly curved tongues are formed. 7. A method for manufacturing an electric motor with an outside cylindrical stator and at least a bearing plate that can be pushed onto the stand and fastened to it with a collar-shaped extension, characterized in that initially on the outer circumference of the stator (1o) at least two axial grooves (14) are provided which, at a distance from the or each, traaenden a Laaerschild (16) Stand end with radial edges (15) end, that then the Lacrerschild (16) or each Laaerschild is pushed over the radial edges (15) on the respective end of the stand and that areas (18) of the collar-shaped approach of the or each end shield (16) in the grooves (14) up to the radial edges (15) of the Axial grooves (14) are pressed in to secure the end shield (16) against axial displacement and rotation. 8. The method according to claim 7 for manufacturing an electric motor with a stand consisting of packaged sheets, characterized in that the individual stand sheets (11) on the outer circumference 130020/0869 punching out two diametrically opposite slots (13) be that the larger part of the stator laminations (11) with axially aligned slots (13) to form two diametrically opposed axial grooves (14) is composed that at least one end the remaining stator plate (11) after rotating through a certain angle to form the radial end edges (15) of the axial grooves (14) are attached to the former sheets so that all stator sheets (11) become one Package are connected to each other that the or each Laaerschild (16) on the associated end of the stator core with the collar-shaped extension pushed over the radial edges (15) of the axial grooves (14) and that thereupon the indentation of the areas of the collar-shaped approach into the axial grooves (14) takes place up to the radial end edges (15). 9. The method according to claim 8, characterized that the remaining sheets are rotated by 90 ° with respect to the former sheets (11). 1o. Method according to one of claims 7 to 9, d a by characterized in that from the collar-shaped approach of the or each end shield (16) Tongues are punched out and umaebogen inwardly, which aegen when the end shield (16) is pushed on Make contact with the stand end plates. 130020/0869