WO2007033639A1

WO2007033639A1 - Stator for an electric motor and method for production thereof

Info

Publication number: WO2007033639A1
Application number: PCT/DE2006/001536
Authority: WO
Inventors: Michael Bulatow
Original assignee: Temic Automotive Electric Motors Gmbh
Priority date: 2005-09-21
Filing date: 2006-09-01
Publication date: 2007-03-29
Also published as: DE112006001172A5; DE102006017081A1

Abstract

The invention relates to a stator (5), for an electric motor, comprising several stator pole teeth (1) and a bearing seat (6), divided into several segments (4), wherein at least one of said segments (4) is connected to a corresponding stator pole tooth (1). The invention further relates to a method for producing such a stator.

Description

description

Stator for an electric motor and method of manufacture

The invention relates to a stator for an electric motor and a method for producing such a stator.

Such stators are particularly suitable for use in motor vehicles. In the automotive sector electric motors, which are designed as small engines, play an important role due to the limited space. Small motors are electric motors with small dimensions and usually have a power up to 1 kW.

Electric motors can as Innenläufer- or

External rotor motors be formed. Internal rotor motors have an outer stator and an inner rotor. The rotor is inserted coaxially in the stator. In an external rotor motor, the outer rotor coaxially surrounds the inner stator. The rotor or the rotor shaft is rotatably mounted in all variants. The bearing of the rotor shaft is realized for example with one or more end shields. The rotor shaft can either be mounted directly in a bearing plate or in a friction-reducing bearing, which is arranged in a bearing plate. The use of end shields is expensive because they represent additional components.

As an alternative to a bearing plate, the stator may have an integrated bearing seat. So is out of the

DE 103 12 614 A1 discloses an electrical machine with a rotor bearing integrated in the stator. The rotor shaft is rotatably mounted in rolling bearings, which are received by bearing rings, which are arranged in the stator of the electric machine. The use of bearing rings is expensive. In the prior art stators are also known, which are composed of Statorpolzähnen. The stator pole teeth are preferably coupled together. For this purpose, the Statorpolzähne be either externally provided with thin webs or hinges. Such a constructed stator can be opened. The stator pole teeth preferably remain coupled. In the unfolded state, the stator can be easily handled. Also, electrical windings can be applied with little effort and high density. After winding, the stator pole teeth are collapsed to the closed shape of the stator.

It is also known to overmould stators for electrical insulation with plastic. As a result, additional insulating body or foils are not required.

The invention has for its object to provide a stator for an electric motor and a method for producing such, whereby a simple construction of an electric motor with a small space is made possible.

According to the invention the object is achieved by a stator having the features specified in claim 1, and by a method having the features specified in claim 7.

Advantageous embodiments of the invention are the subject of the dependent claims.

A stator having a plurality of stator pole teeth and a bearing seat divided into a plurality of segments is proposed, wherein at least one of these segments is connected to a relevant stator pole tooth. By assembling the stator pole teeth connected to the segments to the stator, the bearing seat can thus also be produced in the same work step. By integrating the segments with the stator pole teeth In addition, the stator requires a small space. The bearing seat can either directly accommodate a rotor shaft or a bearing for a rotor shaft.

Conveniently, the connected segment consists of

Plastic. This can be processed with little effort and connected in different advantageous ways with the Statorpolzahn.

In a particularly preferred embodiment, the segment is injected around one or a part of the Statorpolzahns and so connected to the Statorpolzahn. This allows a stable, positive connection with little effort. Alternatively, the arranged part of the Statorpolzahns also be connected to the Statorpolzahn component.

Preferably, the overmolded part of the stator pole tooth is formed integrally with the stator pole tooth. This allows a particularly stable connection.

Advantageously, the overmolded part is designed as a reinforcing anchor for the bearing seat. A reinforcing anchor, particularly in one-piece design, provides an efficient means of reinforcing the bearing seat.

A connection of adjacent Statorpolzähne succeeds in an advantageous manner by means of a arranged in a Statorpolzahn recess for a part of a

Film hinge. The recess may be formed in particular as a groove. Such a film hinge, which is partially disposed in the recess of the respective Statorpolzahns and partially in the recess of the adjacent Statorpolzahns, provides a flexible connection between the two Statorpolzähnen. The flexible connection allows in particular with little effort unfolding the stator for winding and the subsequent folding, if necessary also repeated. Such a film hinge can also be used independently of a segmented bearing seat.

Preferably, the film hinge is made of plastic. In this way, it can be produced in one operation with the encapsulation of an electrical insulation and / or the segment of the bearing seat. As a result, no additional injection mold is needed. The foil hinge can be injected directly into the recess. Alternatively, it can be prefabricated in the same or in a separate injection process and subsequently inserted into the recess.

Embodiments are preferred in which the depression widens in the manner of an undercut. This prevents movement of the film hinge from the recess under tension.

In a preferred embodiment of the method according to the invention, an insulation is produced on at least one side of the Statorpolzahns and / or a film hinge for flexible coupling of two adjacent Statorpolzähne during encapsulation. This eliminates additional

Steps for creating an insulation and / or a hinge. A film hinge can flexibly replace outer webs or hinges made with the stator pole teeth. It is expediently injected into two corresponding recesses of adjacent Statorpolzähnen so that these adjacent Statorpolzähnen be coupled together.

Conveniently, bonding is performed on a single stator pole tooth or in a deployed state of multiple stator pole teeth. As a result, the Statorpolzahn is easily accessible. The segment can do so with high precision getting produced. Alternatively, the connection may be made in a folded state of a plurality of stator pole teeth.

The advantages achieved by the invention are, in particular, that with little effort an electric motor with a small space requirement can be produced.

Claimed is accordingly also an electric motor with a stator according to the invention.

An embodiment of the invention will be explained in more detail with reference to drawings. Show:

1A, IB schematically two coupled, unfolded Statorpolzähne in front view and perspective view,

2A to 2C schematically individual stator pole teeth in the non-overmolded state in a loose arrangement for a stator in cross section and in perspective,

3A to 3C schematically show a folded stator in front view and perspective view, and

Fig. 4 to 5 schematically shows the connection of several or two Statorpolzähne means of a film hinge in detail.

Corresponding parts are provided in all figures with the same reference numerals.

In Figure IA, two substantially T-shaped Statorpolzähne 1 are shown, which by means of a

Foil hinge 2 in the unfolded state are flexibly hinged together. Further, adjacent Statorpolzähne are not shown for clarity. Each Statorpolzahn 1 is composed of coated with baked enamel or linked individual sheets.

FIG. 1B shows the same stator pole teeth 1 in perspective.

Each Statorpolzahn 1 consists of a respective package of sheets not individually shown, wherein the end-side metal sheet as part of the Statorpolzahns 1 has a reinforcing anchor 3, which is angled at about 90 ° to the end-side sheet in a cold bending process and formed integrally therewith. Other angles are possible.

Each laminated core is encapsulated including the respective reinforcing anchor 3 for electrical insulation with plastic. In the area of the reinforcing anchors 3, the plastic is positively connected to the reinforcing anchor 3 and formed into a segment 4 of a bearing seat. The plastic can be reinforced in glass fiber reinforced or modified with mineral additives.

Both the film hinges 2 and the insulation and the segments 4, including the reinforcing anchors 3, are preferably produced in a single operation in the unfolded state of the Statorpolzähne 1 by spraying. In an alternative procedure, not shown, the spraying can take place in the folded state of the stator pole teeth 1. In an alternative, not shown procedure, the Statorpolzähne 1 can be injected separately in the uncoupled state.

In the unfolded or separate state of the Statorpolzähne 1 these are provided in high density with windings, such as copper wire. Subsequently, the Statorpolzähne 1 are folded, where they are previously coupled if necessary. FIGS. 2A, 2B and 2C show stator pole teeth 1 in the non-overmolded state. In FIG. 2A, the original contours of the end plates of folded stator pole teeth 1 with reinforcing anchors 3 can be seen schematically, wherein the reinforcing anchors 3 are integrally formed with the reinforcing anchors 3

Face plates are formed. FIG. 2B shows the theoretical bending line for the angle of a reinforcing anchor 3. After bending the reinforcing anchors 3 in an exemplary cold bending process, the stator pole teeth 1 are in the form shown in FIG. 2C, which, in the folded state, represents them in perspective. The reinforcing anchors 3 act after the overmolding as a reinforcement for the surrounding plastic and thus as a reinforcement for the bearing seat 6. Verstärkungsanker 3 can be arranged in non-formed embodiments at both ends of a Statorpolzahns 1 at the respective end plates when segmented on both sides Bearing seats 6 are provided.

After folding over the over-molded stator pole teeth 1, a stator 5 depicted in FIGS. 3A, 3B and 3C in a front view or in perspective or as a longitudinal section is present. In total, for example, it has twelve stator pole teeth 1, which are coupled according to the manner described with reference to FIGS. 1A, 1B. The individual segments 4, each of which is connected to a respective Statorpolzahn 1, form a bearing seat 6 in the folded state. In this either a rotor shaft can be mounted directly rotatable or a bearing for a rotor shaft can be arranged. For a low friction, preferably a bearing, for example a roller bearing, is pressed into the bearing seat 6. FIG. 3C shows the over-molded stator pole teeth 1 with a ball bearing 7 arranged in the bearing seat 6 and a rotor shaft 8 in longitudinal section.

To reinforce the bearing seat 6 can be enclosed in all cases from the inside and / or outside. FIG. 4 shows a plurality of stator pole teeth 1 coupled by foil hinges 2 in a superimposed illustration of folded and unfolded position. For the folded position, the common center M of the rotational symmetry of the stator 5 is shown.

In Figure 5, the connection of two Statorpolzähne 1 is shown by means of a film hinge 2 in detail. With solid lines, the folded position of the Statorpolzähne 1 and dashed lines the unfolded position is shown. Both Statorpolzähne 1 have a respective recess 9, in which the film hinge 2 is partially arranged. The recesses 9 widen to a predetermined depth, so that the form-fitting effect of an undercut against an outward movement of the film hinge 2 is achieved. Unintentional separation of the Statorpolzähne 1 is prevented.

The film hinge 2 is expediently inserted or injected into the recesses 9 in the folded-up position of the stator pole teeth 1. In this position, the openings of the recesses 9 are optimally accessible. The introduction of the film hinge 2 in the folded position is preferably produced in one operation with an insulating encapsulation of the stator pole teeth 1.

12 list of reference numerals

1 stator pole tooth

2 foil hinge

3 reinforcement anchors

4 segment

5 stator

6 bearing seat

7 ball bearings

8 rotor shaft

9 deepening

B bending axis

M center point

Claims

claims

A stator (5) for an electric motor comprising a plurality of stator pole teeth (1) and a bearing seat (6) divided into a plurality of segments (4), at least one of said segments (4) being connected to a respective stator pole tooth (1) ,

2. stator (5) according to claim 1, characterized in that the connected segment (4) consists of plastic.

3. stator (5) according to claim 2, characterized in that the segment (4) is injected around a part of the Statorpolzahns (1).

4. stator (5) according to claim 2 or 3, characterized in that the molded part of the Statorpolzahns (1) is formed integrally with the Statorpolzahn (1).

5. stator (5) according to claim 3 or 4, characterized in that the overmolded part as a reinforcing anchor (3) for the bearing seat (6) is formed.

6. stator (5) according to any one of the preceding claims, characterized by a recess (9) for a part of a film hinge (2) for coupling with an adjacent Statorpolzahn (1).

7. stator (5) according to claim 6, characterized in that the film hinge (2) consists of plastic.

8. stator (5) according to claim 6 or 7, characterized in that the recess (9) widens in the manner of an undercut. 10

9. Electric motor with a stator (5) according to one of the preceding. Claims .

10. A method for producing a stator (5) for an electric motor, in particular according to one of claims 1 to 9, wherein a Statorpolzahn (1) with a segment (4) of a bearing seat (6) is connected.

11. The method according to claim 10, characterized in that the segment (4) is formed from plastic, by at least a part of the Statorpolzahns (1) is encapsulated with the plastic.

12. The method according to claim 10 or 11, characterized in that during encapsulation insulation on at least one side of the Statorpolzahns (1) and / or a film hinge (2) for the flexible coupling of two adjacent Statorpolzähne (1) are generated.

13. The method according to any one of claims 10 to 13, characterized in that the connection to a single Statorpolzahn (1) or in an unfolded state of a plurality of Statorpolzähne (1) is performed.