DE102005046848A1 - Coil body e.g. stator, for e.g. magneto-electrical transmission, has teeth formed as individual units, where units have preset gap distance to adjacent teeth between tooth base and head over entire teeth length in circumferential direction - Google Patents

Abstract

The invention relates to a winding body, e.g. B. one (1) for an electrical machine, in particular for a magnetoelectric transmission of motor vehicles, with a base body (2) and with a plurality of circumferentially spaced apart and by means of a winding (3) winding teeth (4), each one Have tooth root area by means of which the winding teeth (4) can be connected to the base body (2). According to the invention, the winding teeth (4) are designed as individual components that are independent of one another and not coupled to one another, which in the assembled state, viewed in the circumferential direction, over the entire tooth length, between tooth root (5) and tooth tip (6), have a predetermined gap distance (7) to the respective have adjacent winding teeth (4). The invention also relates to a method for producing a winding body.

Description

The The invention relates to a winding body for an electrical machine, in particular a stator or rotor for a magnetoelectric transmission of motor vehicles, according to the preamble of claim 1, as well as a method for producing a winding body for an electrical machine, in particular for a Magnetoelectric transmission of motor vehicles, according to the preamble of claim 11.

Magnetoelectric transmissions are well known, such. B. from the DE 44 08 719 C1 , Essential components of such a transmission structure are the rotor and stator assembly in conjunction with the permanent magnet assembly. For example, the stators for both indoor and outdoor. External rotor on a plurality of stator circumferentially spaced and projecting in the radial direction of the stator stator teeth around which the stator winding is applied. The stators together with stator teeth are regularly formed in one piece and the same material from a variety of stamped and stacked Ronde sheets. Such a structure allows little flexibility in the design of such stators. In addition, such stators are particularly expensive if they are to be made of high quality materials.

From the JP 2002335650 A is a trained as a stator generic winding body is known, which has a Statorgrundkörper to which a plurality of mutually chain-like connected stator teeth exhibiting Statorzahnband can be attached to form a cylindrical stator. The individual stator teeth are articulated in each case in the region of their tooth-feet having a T-shaped cross section by means of a hinge connection, this toothed foot region being slightly rounded on the side opposite the tooth head, so that the chain-like band carrying the stator teeth is in the state mounted on the stator base body the stator main body corresponding annular surface formed seen in the circumferential direction, for a flat contact with the stator main body. This supporting the stator teeth band is wound before its attachment to the stator base, to which it is guided over a pulley, which causes each of the upper Umlenkrollenende coming to rest stator tooth can be wrapped unobstructed by the hanging down two adjacent stator teeth. In this case, only the respective stator tooth is always always wound, so that in each case a winding gap is formed between the individual windings of the stator teeth. This leads to a total of a relatively large volume of the stator, which also efficiency losses can occur through the gap. The production of the Statorzahnkette is relatively complex and therefore not very practical.

It It is therefore an object of the invention to provide a winding body for an electrical Machine, in particular a stator or rotor for a magnetoelectric transmission to create of motor vehicles that can be produced easily and with high quality as well as easily adaptable to the respective requirements. Further It is an object of the invention to provide a method for producing a Such winding body to disposal to provide, by means of which the production with high quality and economically carried out can be.

These Task is relative of the winding body solved with the features of claim 1.

According to claim 1, the winding teeth are as independent from each other and non-coupled individual components are formed, the seen in the mounted state in the circumferential direction, over the entire tooth length between tooth base and tooth head, have a predetermined gap distance to the respective adjacent winding teeth.

A particular advantage of this winding body structure according to the invention with individual components, separate and non-coupled winding teeth is that they can each be adapted individually to the given requirements, such. B. without a large amount of material as a whole, can be made of a higher quality material than the body. By using a higher quality material, the costs can be reduced, in particular compared to the structures that are formed of the same material and integral with integrated teeth. Both the winding teeth and the base body may be formed of sintered materials, sheets or solid materials. In addition, the individual winding teeth can be manufactured as equal parts in a simple and inexpensive manner, the tooth geometry is freely designable, in particular so gestaltbar that at the tooth tip the "tooth gaps" at least partially overlapping groove roofs can be formed without affecting the application the winding would entail, since the winding teeth can be wound in principle prior to assembly with the body or this also subsequently in a winding gaps exhibiting winding tape, given length turned can be set. Such a z. B. rotor or the stator winding winding coil predetermined length, which is also claimed separately, is preferably designed so that the spaced-apart winding gaps the z. B. Rotor or stator teeth as a winding teeth form-fitting record, which can be ensured that excellent Nutfüllgrade be achieved.

The winding teeth be by means of the main body preferably non-positively and / or positively connected, wherein the winding teeth preferred each with a tooth base have predetermined force and / or positive locking geometry, which on body a groove-shaped Mating contour is assigned, in which the tooth base in the assembled state form- and / or non-positively held and recorded. Particularly preferred here is a force and / or positive connection, in which the respective winding tooth with the tooth root in the the tooth root in mounted state engaging behind body counter-contour on and / or is deferrable because it is a particularly reliable and reliable Connection between winding teeth and basic body can be created. For example, such an advantageous Rear handle be formed by a kind of dovetail guide. alternative but also Passnutverbindungen etc. are usable. For one in the axial direction The same alignment of the individual teeth is seen here as well as in total preferably provided an axial stop, which preferably in the area the mating contour is designed as a stop area.

alternative or additionally can do this the winding teeth but also connected by means of an adhesive bond with the body be. As an adhesive bond comes, for example, an epoxy resin and / or a single or multi-component adhesive and / or a baked enamel and / or a polyamide adhesive compound in question. For a particularly preferred Adhesive connection can the winding teeth here each have a tooth root, the at the the base body facing foot base one has such a structure that subregions of the foot bottom considered in the mounted state of the winding tooth, a predetermined Gap distance from the main body exhibit. As a result, then the adhesive surface and thus the adhesive strength the adhesive bond opposite a normal butt joint can be increased. Particularly preferred here is a structuring in which z. B. individual raised areas of the foot bottom structure into corresponding groove areas of the basic body engage and the winding teeth thus corresponding to the main body for one Production of the particular adhesive joint in the correct position positioned and are durable.

Basically, the Winding teeth in the Trap of an outside runner too by means of a bandaging alternative or in particular additionally with the main body be connected.

The Invention is related solved the method with the features of claim 11.

To Claim 11 are as independent of each other and not with each other coupled individual components trained winding teeth so attached to the body, that seen in the circumferential direction, over the entire tooth length between Tooth base and Tooth, a predetermined gap distance to the adjacent one winding teeth exhibit.

The associated benefits have been previously associated with the appreciation of the winding body according to the invention explained in detail, so that at this point will not be discussed in more detail.

As this has also been explained previously is, the winding is preferably configured as a winding strip of predetermined length, each having a plurality of the winding teeth associated winding gaps which are formed so that the winding teeth are in the final assembled Condition from the tooth root to positive fit to the tooth tip are included. According to one concrete embodiment this will be the winding gaps viewed in longitudinal cross-section with one outward from the main body away rejuvenating Form formed in which viewed in cross section a simple to be produced rectangular shape having winding teeth in the final assembled Condition then positive are included. With such a measure can thus on simple and advantageous manner different development lengths of the inner and outer diameters between basic body and coil outer circumference so considered be that a perfect groove filling between the individual tooth results. Of course this is also possible with other than the previously mentioned geometries.

Particularly preferred here is a process control in which the winding is produced in a first process step as a winding strip of predetermined length with the help of the winding gap contours predetermining winding teeth as "dummies", wherein the winding teeth are formed as identical parts, which are preferably arranged and wound in a straight winding plane Such winding tooth dummies can be produced particularly easily and, above all, can always be reused since they can be removed and reused at any time after winding and producing the winding strip, for example from a cheap plastic material be prepared. Also, the mechanical arrangement for carrying out the winding can be formed in such a procedure simplest and thus manufactured with high efficiency. Particularly preferred in such the winding gap contours predetermining winding teeth is also that in contrast to the course also possible winding of the winding teeth from the house, the required winding gap contours taking into account the different outer diameter and inner diameter Abwicklungslängen can be made in the simplest way from the outset so that the desired high Nutfüllgrade result in a simple manner almost "automatically" as soon as the winding is mounted together with winding teeth on the body.

In a subsequent Process step then become, as already mentioned is, the winding teeth removed from the winding and the winding applied to the body. The teeth can do this before or after the application of the winding on the body in the winding gaps be introduced. Alternatively, the teeth but also before application the winding already be attached to the body. The Attachment can be made as already in connection with the basic body structure according to the invention in detail has been described.

In the case, that the winding used in external rotors is, the winding can be held by means of a bandage. In the case of an indoor runner this can be an inner sleeve be provided.

All in all Seen thus results with the winding body structure according to the invention and the process control according to the invention particularly economical construction and a particularly economical and effective manufacture of a rotor or stator for an electrical Machine, in particular the flexibility both in the production as even when using such a rotor or stator essential elevated is and in a simple way a constructive adaptation to each desired or required conditions can take place.

The The invention will be explained in more detail with reference to a drawing.

It demonstrate:

1 schematically, a partial section of a stator for an external rotor with a Statorgrundkörper and attached thereto, formed as individual components stator teeth, and

2 schematically a schematic diagram of a process according to the invention for the production of a stator.

In 1 is a schematic plan view of a here, for example, as a stator 1 and external rotor trained winding body according to the invention shown, which has a Statorgrundkörper 2 by means of which a plurality of spaced apart in the stator circumferential direction and a stator winding 3 carrying stator teeth 4 is firmly connected. In the 1 are not all tooth gaps for clarity 12 with winding sections 17 shown wrapped. The stator teeth 4 are, like this one 1 is very easy to remove, as mutually independent and not coupled to each other individual components formed in the assembled state, as in 1 is shown, seen in the circumferential direction, over the entire tooth length between the tooth root 5 and tooth head a predetermined gap distance 7 to the adjacent stator teeth 4 exhibit.

The stator teeth 4 are as only exemplary and schematically with the partial eruption in the 1 is shown here z. B. by means of a dovetail joint 8th trained connection positive and / or non-positive with the stator base 2 connected. In the example shown here, the dovetail connection comprises at the root of the tooth 5 a corresponding dovetail contour 9 , The statorgrundkörperseitig a corresponding counter contour 10 having, after the insertion or insertion of the stator teeth 4 on the stator base 2 the dovetail contour 9 the stator teeth 4 engages positively behind. For the axial, ie in the image plane directed securing the position of the stator teeth 4 Various measures can be taken, such. B. a frictional connection in connection with the dovetail connection 8th be provided or even provided an additional adhesive connection. The provision of additional securing means, such. B. circlips, etc. may optionally be provided. To limit the insertion of the stator teeth 4 in the image plane, ie in the axial direction, not shown here stop areas in the region of the mating contour 10 be educated.

Like this in the 1 only dashed in conjunction with a stator tooth 4 is shown schematically, the tooth heads 6 For example, a groove roof here only extremely schematically and in principle illustrated 11 have, by means of the final assembled state of the stator 1 then the stator winding 2 in the field of tooth gaps 12 above covers or can be covered.

The production of such a stator 1 is described below on the basis of 2 explained in more detail. Like this one 2 can be taken in a straight winding plane 14 a plurality of tooth dummies forming and formed as equal parts winding teeth 15 arranged at a predetermined winding pitch, said winding teeth 15 here have such a contour that in the subsequent winding of the winding band 13 predetermined length to be formed stator winding 3 the winding gaps 16 already have the desired winding gap contour.

After removing the winding teeth 15 can, as in the 2 is shown only by way of example, the stator teeth having a rectangular cross section here by way of example 4 in the winding gaps 16 are introduced and then the winding tape 13 together with the stator teeth 4 on the stator base 2 are wound up, then after winding the individual winding sections 17 in an investment connection to the stator teeth 4 abut so that the stator teeth 4 in the final assembled state of the stator 1 as he is in the 1 is shown, fit form-fitting. As a result, a desired Nutfüllgrad is achieved.

1

stator

2

stator base

3

stator

4

stator teeth

5

tooth root

6

addendum

7

gap distance

8th

dovetail joint

9

dovetail contour

10

mating contour

11

Nutüberdachung

12

gullets

13

Wrapping tape

14

winding plane

15

winding teeth

16

winding gaps

17

Winding sections

Claims (16)

Winding body for an electric machine, in particular stator or rotor for a magnetoelectric transmission of motor vehicles, with a winding body and with a plurality of circumferentially spaced from each other and wound with a winding winding teeth, each having a Zahnfußbereich, by means of which the winding teeth connectable to the winding body characterized in that the winding teeth ( 4 ) are formed as independent of each other and not coupled to each other individual components, seen in the mounted state in the circumferential direction, over the entire tooth length between the tooth root ( 5 ) and tooth head ( 6 ), a predetermined gap distance ( 7 ) to the respective adjacent winding teeth ( 4 ) exhibit. Winding body according to claim 1, characterized in that the winding teeth ( 4 ) by means of the basic body ( 2 ) are positively and / or positively connected. Winding body according to claim 2, characterized in that the winding teeth ( 4 ) one tooth root ( 5 ) with predetermined force and / or positive locking geometry ( 9 ) exhibit; on the base body ( 2 ) a groove-shaped mating contour ( 10 ), in which the tooth root ( 5 ) is held positively and / or non-positively in the assembled state and recorded. Winding body according to claim 3, characterized in that the respective winding tooth ( 4 ) with the tooth root ( 5 ) into the tooth root ( 5 ) in the assembled state engaging behind main body counter contour ( 10 ) is on and / or pushed, preferably up to a mating contour stop area. Winding body according to one of claims 1 to 4, characterized in that the winding teeth ( 4 ) by means of an adhesive bond, in particular by means of an epoxy resin and / or a one-component or multi-component adhesive and / or a baked enamel and / or a polymide adhesive bond, with the main body ( 2 ) are connected. winding body according to claim 5, characterized in that the winding teeth respectively have a tooth base, the at the the body facing foot bottom has such a structure that subregions of the underside of the foot in the mounted state of the stator tooth a predetermined gap distance from the main body in which the adhesive is taken up with a predetermined layer thickness is. winding body according to one of the claims 1 to 6, characterized in that the winding teeth with the main body are connected by means of a bandaging. Winding body according to one of claims 1 to 7, characterized in that the winding teeth ( 4 ) at her the Zahnfuß ( 5 ) opposite tooth head ( 6 ) a the dental neck substantially laterally projecting groove roofing ( 11 ) having the one or more adjacent tooth spaces ( 12 ) forming interdental spaces between adjacent winding teeth ( 4 ) at least partially covered. Winding body according to one of claims 1 to 8, characterized in that the winding teeth ( 4 ) are made of a different material than the winding body ( 2 ). Winding body, in particular according to one of claims 1 to 9, characterized in that the winding ( 3 ) as a winding band ( 13 ) of predetermined length is formed, the spaced-apart winding gaps ( 16 ) for receiving, in particular for the positive reception of the winding teeth ( 4 ) having. A method of producing a winding body for an electrical machine, in particular a stator or rotor for a magnetoelectric transmission of motor vehicles, in particular for producing a winding body according to one of claims 1 to 10, wherein a plurality of circumferentially spaced from each other and wound with a winding winding teeth be attached to a winding main body, characterized in that the formed as independent and not coupled to each other individual components winding teeth ( 4 ) so on the body ( 2 ), that these seen in the circumferential direction, over the entire tooth length between tooth root ( 5 ) and tooth head ( 6 ), a predetermined gap distance ( 7 ) to the respective adjacent winding teeth ( 4 ) exhibit. Method according to claim 11, characterized in that the winding ( 3 ) as a winding band ( 13 ) predetermined length each several, the winding teeth ( 4 ) associated winding gaps ( 16 ), which are formed so that the winding teeth ( 4 ) in the final assembled state of the tooth root ( 5 ) to the tooth tip ( 6 ) are positively received. Method according to claim 12, characterized in that the winding gaps ( 16 ) viewed in cross-section one outwardly from the main body ( 2 ) have a tapering shape, in which the viewed in cross-section a rectangular shape having winding teeth ( 4 ) are positively received in the final assembled state. Method according to one of claims 11 to 13, characterized in that the winding ( 3 ) in a first process step as a winding strip ( 13 ) predetermined length by means of the winding gap contours predetermining winding teeth ( 15 ), wherein the winding teeth ( 15 ) are formed as identical parts, which are preferably in a straight winding plane ( 14 ) are arranged, and that in a subsequent process step, the winding teeth ( 15 ) from the winding ( 3 ) and the winding ( 3 ) on the basic body ( 2 ) is applied, wherein the winding teeth ( 4 ) before or after the application of the winding ( 3 ) on the basic body ( 2 ) in the winding gaps ( 16 ) or the winding teeth ( 4 ) before applying the winding ( 3 ) on the base body ( 2 ) are attached to this. Method according to one of claims 11 to 13, characterized in that the winding ( 3 ) in a first process step as a winding strip ( 13 ) of predetermined length with the help of trained as individual components winding teeth ( 4 ) and that in a subsequent process step the winding ( 3 ) together with wound winding teeth ( 4 ) on the base body ( 2 ) is applied. Method according to one of claims 11 to 15, characterized in that the winding ( 3 ) is held at external rotors by means of a bandage and internal rotors by means of an inner sleeve.