DE102008007578A1 - Method for attachment of end bearing to stator laminated core for electric motor drive, involves connecting end bearing with core by electromagnetic pulse joints so that end bearing material is embedded in depressions - Google Patents

Abstract

The method involves providing a stator laminated core (2) with depressions (2b) on an outer casing of the core. An end bearing (1) is positioned on the outer casing. The end bearing is connected with the core by electromagnetic pulse joints so that end bearing material is embedded in the depressions. The core is manufactured by a stamping-packaging process. The end bearing is manufactured by a deep-drawing process. The depressions are arranged at a distance from each other in depression rows in an axial direction. An independent claim is also included for a stator for an electric motor drive.

Description

The The invention relates to a method for fixing a bearing plate on a laminated stator core and a stator for an electromotive Drive.

electromotive Drives have a stator and a rotor. The stator contains among other things a laminated stator core, which is lamellar of a variety of Single sheets is constructed and by means of a punching package will be produced. The outer jacket the laminated stator core is cylindrical. The stator lamination packet points a radially outboard Yoke and radially inwardly extending teeth from the yoke. The rotor is rotatably disposed within the stator to this. Such an electric motor drive is usually in a casing used and has in its two axial end portions respectively an end shield.

This End plate is in known electric motor drives means a press fit on the outer jacket the laminated stator core and joined then in a further step with this welded to a desired Minimum holding strength against axial and radial displacement or To ensure twisting.

Of the Invention is based on the object, a simplified method to specify for mounting a bearing plate to a stator lamination.

These The object is achieved by a method with the specified in claim 1 Characteristics solved.

advantageous Embodiments and developments of the invention are specified in the dependent claims 2-5. The requirements 6-8 have one Stator to the subject, as he with the method according to the invention can be produced.

at The present invention initially provides a provision of a Statorblechpaketes, which has several recesses on its outer jacket having. On this outer jacket Statorblechpaketes a bearing shield is positioned in which it is preferably a sheet-metal deep-drawn part. Then done a connection of the bearing plate with the stator lamination by means of an electromagnetic pulse joining such that bearing plate material in the wells of the laminated stator core embeds.

Thereby is advantageously a firm connection between the stator lamination and reached the end shield. Through this form-fitting solid Connection is ensured that when tensile, compression and torsional loads no axial displacement and no Rotation of the bearing plate relative to the stator lamination occurs. This form-fitting solid compound is achieved in the process according to the invention without it's a welding process needed and without that extra Fasteners such as rivets or screws are needed.

Further Advantages of the invention are that the fastening of the bearing plate takes place gently on the laminated stator core. In particular, the Heat effect on the components to be connected only small and occurs only in the area of joints so that both an undesirable heat-induced deformation of the components as well as unwanted heat-related structural changes the components are avoided.

Of Further, by eliminating the need for a welding process the process time is reduced.

One Another advantage of the invention is that the one another to be connected components do not require tight manufacturing tolerances.

In Advantageously, the wells are already in the stamping package the laminated stator core is inserted into this, so that the introduction of this Wells with no additional Cost and no additional Workload is connected.

Preferably this is the end shield, which is on the laminated stator core is attached to a manufactured by means of a deep-drawing process Sheet metal deep-drawn part. This favors an electromagnetic pulse joining of the end shield to the stator lamination stack.

has the laminated stator core has recesses in the form of its outer jacket a plurality of axially extending rows of wells, then is the positioning of the bearing plate on the outer jacket of the stator lamination at a desired position simplified.

has each of these rows of indentations has a plurality of spaced apart recesses on, then the probability of a possible axial displacement or a relative rotation between the end shield and the Stator laminated core on the occurrence of tensile, compressive or torsional loads on reduced.

Further advantageous properties of the invention will become apparent from the exemplary explanation based on the figures. It shows

1 a perspective sectional view of a laminated stator core,

2 a perspective sectional view of a bearing plate and

3 a perspective sectional view, according to which the bearing plate is attached to the laminated stator core.

The The invention relates to a method for fixing a bearing plate on a laminated stator core and a stator for an electromotive Drive.

According to the method, initially in a first method step, a stator lamination stack 2 as provided in the 1 is shown. This stator laminated core, which consists of a plurality of laminations, which have been assembled by a Stanzpaketiervorgang to a stator lamination, has a cylindrical outer jacket 2a on. In the context of this punching packetization process, recesses are formed in the outer jacket of the laminated stator core 2 B introduced, whose length in the axial direction is greater than their length in the radial direction. The wells 2 B form several on the outer jacket 2a of stator laminated core 2 planned series of indentations 2c where each of these pit rows 2c a plurality of spaced depressions 2 B having. The depressions of these rows of recesses are preferably arranged so that they are arranged symmetrically in the axial direction over the entire length of the laminated stator core. This has the advantage that the laminated stator core can be connected to the end shield during assembly with the respective end shield also in the area of its respective other front side.

The radially outer region of the laminated stator core forms the yoke 2d , From this yoke 2d out teeth extend 2e radially inward, wherein in the radially inner region of the laminated stator core, a cylindrical region remains free. In this free cylindrical region of the rotor is mounted rotatably mounted relative to the stator in the completed electromotive drive.

In a subsequent second step, a bearing plate 1 as it is in the 2 is illustrated, positioned on the outer jacket of the stator lamination. At this end shield 1 it is preferably a Blechtiefziehteil. This has a hollow cylindrical, circumferential side wall 1a and a molded axial termination area 1b on.

Is that in the 2 shown bearing plate 1 in the desired manner on the outer jacket 2a of stator laminated core 2 positioned, then in a third step, a connection of the bearing plate to the stator lamination stack by means of an electromagnetic pulse joining such that bearing plate material embeds in the wells of the stator lamination stack. This creates a secure form-fitting attachment of the bearing plate on the stator lamination so that a relative axial displacement and rotation between the bearing plate and stator lamination is reliably prevented in the subsequent operation of the completed electric motor drive even with an occurrence of tensile, compressive or torsional loads.

The wells mentioned 2 B On the outer jacket of the laminated stator core, as already mentioned above, it is already possible to punch in the metal sheets and thus to insert them as part of the stamped packetizing process. This has the advantage that it requires no additional labor and no additional costs to produce these wells.

One Advantage of the invention is that to a welding of End shield and stator core, as in the prior art is provided, can be dispensed with. This in turn has the advantage that a large-scale heat or heat generation, as occurs in the prior art during the welding process, avoided becomes. Such heat formation could lead to undesirable material distortion and too unwanted structural changes lead the components. This is the method of the invention prevented by the use of electromagnetic pulse joining, in which the heat load is low and only in the locally limited Areas occurs at which the bearing plate with the stator lamination is connected.

The 3 shows a perspective sectional view, according to which the bearing plate 1 on stator laminated core 2 is attached. The locations of the end shield on which the bearing plate is connected by the electromagnetic pulse joining with the stator lamination stack are in the 3 with the reference numerals 1c designated.

Claims (8)

Method for fastening a bearing plate to a laminated stator core, comprising the following steps: - providing a laminated stator core ( 2 ), which on its outer shell ( 2a ) several depressions ( 2 B ), - positioning of the end shield ( 1 ) on the outer jacket ( 2a ) of the laminated stator core ( 2 ) and - connecting the end shield ( 1 ) with the laminated stator core ( 2 ) by means of an electromagnetic pulse joining in such a way that bearing shield material in the wells ( 2 B ) of the laminated stator core tet. Method according to claim 1, characterized in that that the laminated stator core, which has several recesses on its outer jacket has, is produced by means of a punching packetization process. Method according to claim 1 or 2, characterized that the bearing plate produced by means of a deep drawing process becomes. Method according to one of the preceding claims, characterized in that a laminated stator core is provided, which has depressions in the form of a plurality of axially extending rows of recesses ( 2c ) having. Method according to claim 4, characterized in that each indentation series ( 2c ) a plurality of spaced wells ( 2 ) having. Stator for an electromotive drive, with a laminated stator core and a bearing plate attached to the outer jacket of the laminated stator core, characterized in that the laminated stator core ( 2 ) on its outer jacket ( 2a ) several depressions ( 2 B ), which are filled with embedded bearing shield material. Stator according to claim 6, characterized in that the stator lamination stack ( 2 ) on its outer shell depressions in the form of several axially extending rows of depressions ( 2c ) having. Stator according to claim 7, characterized in that the rows of indentations ( 2c ) each have a plurality of spaced wells ( 2 B ) exhibit.