DE102015208301A1 - Stator and associated manufacturing process - Google Patents

Abstract

The present invention relates to a stator (1) of an electric machine (2) having a stator core (3) with a plurality of stator segments (4) on each of which at least one stator winding (5) is arranged, two adjacent stator segments (4) being arranged therebetween Distance elements (6) are hinged together. It is essential to the invention that the stator (1) in the assembled state is compressed radially in such a way that the stator segments (4) abut each other at least in regions.

Description

The present invention relates to a stator of an electrical machine having a stator with several stator segments, according to the preamble of claim 1. The invention also relates to an electrical machine with such a stator, and a method for producing such a stator and for producing such an electric machine ,

From the DE 2006 025 778 A1 is a generic stator of an electric machine with a stator with stator windings known, the stator having a plurality of laminated stator segments with main segments and spacer elements arranged therebetween. Two adjacent stator segments are hinged together by hinges, wherein the stator is rotated to simplify winding the bobbin with its inner sides to the outside.

From the DE 2 150 313 A is a method for producing a complete stator or rotor laminated core with yoke and teeth of a rotary electric machine known, the production of which in continuous operation of a metal strip which passes under the punching dies, which punch this strip to slotted circular segments occurs. The connection of the circle segments is effected by a sheet metal web, which serves for further transport of the thus formed stamped part and beyond as a hinge point between two successive segments, whereby a winding, for example in a spiral shape around a mandrel is made possible.

In general, it is known to form a stator of an electrical machine with stator segments and spacer elements arranged therebetween, since these spacer elements force a greater distance between two adjacent stator segments and thereby simplify the winding of a stator winding onto the respective stator segment. A disadvantage of the known stators, however, is that when the stator is completely mounted between the individual stator segments comparatively much free space remains, which unnecessarily increases the total space requirement of the stator and thus also the electric machine.

The present invention therefore deals with the problem of providing for a stator of the generic type an improved or at least one alternative embodiment which is particularly easy to manufacture and at the same time compact.

This problem is solved according to the invention by the backrest of the independent claims. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea of equipping the stator of an electrical machine with a stator packet formed from stator segments and spacer elements, wherein two adjacent stator segments are each connected to one another in an articulated manner via a spacer element arranged therebetween. By the spacer elements thus a distance between two adjacent stator segments is forced, which allows a simplified winding of the stator windings on the individual stator segments in the unmounted state of the stator. According to the invention, the stator is now radially compressed in the mounted state such that the stator segments abut each other at least in regions. This is achieved in that the spacer elements are designed to be extremely filigree compared to the stator segments and therefore can escape during radial compression of the stator. With the stator according to the invention, it is thus possible to produce this both easy, and to offer a very compact stator, since the arranged between the individual stator segments spacer elements are displaced or removed during assembly of the stator.

Suitably, the spacer elements are designed as buckling webs. With such a construction, it is possible for the spacer elements to remain as a radially outward web when the individual stator segments are pressed radially to the stator, wherein the radially outward web has a radial extent which is substantially half the circumferential extent of the spacer element. Such a buckling ridge can either be bent during insertion of the radially compressed stator and thereby applied to an outer circumferential surface of an adjacent stator segment, pressed into a recess, or even sheared off, since after assembly of the stator in the housing of the electric machine no further use for Distance elements exists. If the spacer elements are merely bent, then at least one recess can be arranged on each stator segment, into which the associated spacer element is inserted when the stator is mounted. As a result, a comparatively simple winding of the stator windings on the individual stator segments can occur on the one hand with the stator not yet mounted, while the stator is mounted close to the individual stator segments, thus allowing a high copper filling factor and a comparatively small installation space. This compact constructive stator according to the invention can thus be produced inexpensively.

In a further advantageous embodiment of the solution according to the invention, the spacer elements are radially outward when the stator is mounted and form an anti-twist device. In this case, the spacer elements may be formed as buckling webs, which buckle in the middle between two adjacent stator segments in the radial compression thereof outwardly and thereby form radially protruding buckling webs. The radially outwardly projecting spacer elements can engage, for example, in associated housing-side recesses and with these form the rotation for the stator relative to the housing.

The invention is further based on the general idea to provide a simplified method for producing a stator and for producing an electrical machine, wherein initially applied to each stator at least one associated stator winding, that is wound, is. The individual stator segments in this case form a stator packet with spacer elements arranged therebetween, which is subsequently cut to length, bent into a circular shape and compressed radially such that the stator segments abut one another at least in regions and thus only require a comparatively small installation space. The method according to the invention makes it possible to apply the stator windings comparatively simply on account of the spacer elements arranged between the individual stator segments and nevertheless to optimize a construction space and to produce a stator having a high copper filling factor, since the individual stator segments are then pressed radially together and the spacer elements are displaced. The spacer elements are so thin and filigree that they allow the one hand, the winding of the individual stator windings problem-free, however, can also be relatively easily deflected in the radial compression of the individual stator segments to the stator.

In an advantageous development of the method according to the invention, the spacer elements dip during radial compression of the stator into an associated recess on a stator segment. In this case, therefore, the spacer elements are still present even when mounted stator, but space-optimized arranged in an associated recess. This offers the great advantage that, theoretically, the stator can be rewound after removal from an associated housing and individual stator windings can be repaired comparatively easily, since the stator core is still connected.

Alternatively, it can also be provided that the spacer elements protrude radially outward when the stator is mounted and sheared off when inserted into a housing of the electrical machine. In this case, there is thus no displacement, but rather a removal of the spacer elements during assembly of the stator. Again alternatively, the radially outwardly projecting spacers can engage in insertion into the housing of the electric machine in associated recesses and thus form a rotation for the stator in the housing. The spacers themselves may be formed, for example, of plastic, in particular in the form of plastic bands. In the most favorable case, the stator segments in the assembled state with their flanks lie flat on the respectively adjacent stator segment.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description with reference to the drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

Show, in each case schematically,

1a a stator according to the invention an electric machine with a stator of several stator segments and spacers stator in not yet radially compressed state,

1b a representation like in 1a , in radially pressed state with radially outwardly projecting buckling webs as rotation prevention,

2a a representation like in 1a .

2 B a representation like in 1b However, wherein the radially outwardly projecting by the spacer elements during radial compression buckling bridges are sheared off by a housing,

3a a representation like in 1a but with differently designed spacer elements,

3b a representation of the rotor 3a in radially compressed condition,

4a a further possible embodiment of the stator segments according to the invention, each with a recess for receiving the associated spacer element in a radially compressed state,

4b the in 4a shown stator in radially compressed state. According to the 1 to 4 has a stator according to the invention 1 an electric machine a stator 3 with several stator segments 4 on, on each of which at least one stator winding 5 is arranged. Two adjacent stator segments 4 are here about arranged therebetween spacer element 6 hinged together. These spacers 6 can be executed in a variety of configurations (see also 1a and 3a ) and on the one hand enable a comparatively simple production of the stator windings 5 because the stator package 3 in not yet rolled up state by the spacer elements 6 a comparatively large distance between the individual stator segments 4 allows. In assembled condition (cf. 1b . 2 B . 3b . 4b ), is the stator 1 compressed radially so that the stator segments 4 at least partially abut each other. This can be done with mounted stator 1 a significantly reduced space can be achieved, which is particularly in applications in modern engine compartments of great advantage. In theory, it is also conceivable that the individual stator segments 4 on their flanks 7 . 8th lie flat against each other, in which case, of course, a corresponding insulation can be provided.

The inventively rather filigree spacer elements 6 can be used as folding bridges 9 (see. 1a . 2a and 4a ), or else have a meandering shape, such as the spacer elements 6 according to the 3a , In this case, the spacer elements 6 on the flanks 7 . 8th of the respective stator segment 4 arranged.

The stator according to the invention is produced 1 as follows:
First, in a first step, the stator is 3 with the over the spacer elements 6 interconnected stator segments 4 by means of the corresponding stator windings 5 stocked. Then the stator package 3 converted into a circular shape and compressed radially until the individual stator segments 4 at least partially on their flanks 7 . 8th abut each other. This can also be done, for example, on an outer edge 10 be the case, whereas at an inner edge 11 the individual stator segments 4 no contact with each other. Are the spacer element 6 for example as folding bridges 9 formed so they stand after the radial compression of the stator ( 3 ) radially outward (see. 1b ) and can in corresponding recesses 14 a housing 12 the electric machine 2 engage and about an anti-rotation 15 for the stator 1 form. Such an embodiment is, for example, according to the 1b shown. This solution offers the special charm that the stator package 3 for maintenance and repair purposes from the housing 2 can be pulled out again while still a clutch between the individual stator segments 4 and the spacer elements arranged therebetween 6 consists.

In theory, it is also conceivable that the radially outwardly projecting spacers 6 when inserted into a precisely fitting housing 12 ' (see. 2 B ) and thereby removed.

Considering the embodiment of the stator 1 according to the 3 , so you can tell that the individual spacers 6 have a meandering shape and radially compressed stator 1 be elastically compressed. In the embodiment of the stator according to the invention 1 according to the 4a and 4b , is on each stator segment 4 at least one recess 13 arranged, in which the associated spacer element 6 with mounted stator 1 (see. 4b immersed). Similar recesses 13 can of course also for the one meandering having spacer elements 6 according to the 3a be provided, in which case only two such recesses 13 are drawn.

With the stator according to the invention 1 This can not only be made comparatively easy or wound, but also made available space-optimized. Due to the radial compression of the stator 1 or the stator pack 3 during assembly of the stator 1 Also a high copper fill factor and small slot openings can be achieved. By pressing the stator pack 3 is also a tolerance compensation possible. An interconnection of the individual stator windings 5 is already the upstream winding process, especially the needle winding process, available. Particularly advantageous here is, if the stator 1 a total of nine stator segments 4 as well as nine spacer elements 6 having. Of course, any other number of stator segments 4 or spacers 6 conceivable. In addition, it is also conceivable that the individual stator segments 4 and the associated spacer elements 6 are each formed as equal parts, whereby the production can also be simplified and made cheaper.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 2006025778 A1 [0002]
• DE 2150313 A [0003]

Claims (11)

Stator ( 1 ) an electric machine ( 2 ) with a stator pack ( 3 ) with several stator segments ( 4 ), on each of which at least one stator winding ( 5 ), wherein two adjacent stator segments ( 4 ) via spacers ( 6 ) are hinged together, characterized in that the stator ( 1 ) is radially compressed in the mounted state such that the stator segments ( 4 ) at least partially abut each other. Stator according to claim 1, characterized in that the spacer elements ( 6 ) as buckling bridges ( 9 ) are formed. Stator according to claim 1, characterized in that the spacer elements ( 6 ) have a meandering shape and each at a flank ( 7 . 8th ) of the stator segment ( 4 ) are arranged. Stator according to one of claims 1 to 3, characterized in that on each stator segment ( 4 ) at least one recess ( 13 ) is arranged, in which the associated spacer element ( 6 ) with mounted stator ( 1 immersed). Stator according to one of claims 1 to 3, characterized in that the spacer elements ( 6 ) with mounted stator ( 1 ) protrude radially outward and a rotation ( 15 ) form. Electric machine ( 2 ) with a stator ( 1 ) according to one of claims 1 to 5 Electrical machine according to claim 6, characterized in that on a housing ( 12 ) of the electric machine ( 2 ) Recesses ( 14 are provided, in which the radially outwardly projecting spacers ( 6 ) and the anti-twist device ( 15 form. Method for producing a stator ( 1 ) according to one of claims 1 to 5 and for the manufacture of an electrical machine ( 2 ), in which - on each stator segment ( 4 ) at least one associated stator winding ( 5 ), - the stator ( 1 ) or the stator packet ( 3 ) is brought into a circular shape and is compressed radially in such a way that the stator segments ( 4 ) at least partially abut each other. Method according to claim 8, characterized in that the spacer elements ( 6 ) during radial compression of the stator core ( 3 ) in an associated recess ( 13 ) immerse. Method according to claim 8, characterized in that the spacer elements ( 6 ) with mounted stator ( 1 ) protrude radially outward and when inserted into a housing ( 12 ' ) of the electric machine ( 2 ) are sheared off. Method according to claim 8, characterized in that the spacer elements ( 6 ) with mounted stator ( 1 ) protrude radially outward and when inserted into a housing ( 12 ) of the electric machine ( 2 ) in associated housing-side recesses ( 14 ) engage and with these a rotation ( 15 ) for the stator ( 1 ) form.

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