WO2011160873A2

WO2011160873A2 - Self-locking clamping element for magnets of a machine part of an electrical machine

Info

Publication number: WO2011160873A2
Application number: PCT/EP2011/056639
Authority: WO
Inventors: Christian Meyer
Original assignee: Robert Bosch Gmbh
Priority date: 2010-06-22
Filing date: 2011-04-27
Publication date: 2011-12-29
Also published as: CN102948040A; CN102948040B; EP2586116A2; DE102010030323A1; WO2011160873A3

Abstract

The invention relates to a machine part (10), especially a rotor or stator of an electrical machine. Said machine part (10) comprises: a stack (12) of a plurality of laminations stacked one on top of the other, at least one magnet (16) which is accommodated in a pocket (14) formed in the stack (12), and a bracket spring element (18), comprising at least one spring element (22) which is arranged between the magnet (16) and an edge of the pocket (14).

Description

description

title

Self-locking clamping element for magnets of a machine part of an electrical machine

Technical area

The present invention relates to a machine part for an electric machine, in particular a rotor or a stator of an electric motor, which is provided with at least one permanent magnet.

State of the art

In an electrically commutated motor, a machine part, in particular a rotor is provided with a plurality of permanent magnets, which must be fixed as stable as possible in the rotor.

Such a rotor is usually formed as a spoke rotor, which comprises a package of mutually arranged rotor laminations. The Rotorlamellenbleche are punched parts, in which each spoke-shaped recesses are arranged. In the rotor package, the spoke-shaped recesses are arranged one above the other in such a way that pockets for receiving the permanent magnets are formed. The permanent magnets are fixed in the pockets by adhesive or by clamping lugs.

The pockets are usually sized for tolerance longer than the magnets to be inserted. However, the clamping lugs formed from a rotor lamination sheet are usually not or only to a small degree elastically deformable, so that the surface of the magnet can be damaged during insertion. Mostly an additional gluing of the magnets necessary, since the clamping lugs do not fix the magnets sufficiently in the pockets.

However, even with an additional bond, it is not possible to achieve reliable attachment of the magnets in the pockets of the rotor package, since the adhesive and metal each have a different thermal expansion coefficient.

It is an object of the present invention to provide a machine part for an electric machine, which allows improved attachment of the magnets, wherein damage to the magnets during installation should be prevented.

Disclosure of the invention

To solve this problem, a machine part according to claim 1, an electrically commutated motor and a bow spring ring according to the independent claims is provided. Further advantageous embodiments are explained in the subclaims.

According to a first aspect, a machine part, in particular a rotor or stator of an electric machine, is provided. The machine part includes:

a package of a plurality of stacked laminations,

at least one magnet received in a bag formed in the package, and

a bow spring component comprising at least one spring element which is arranged between the magnet and an edge of the pocket.

Such a bow spring component can be mounted simultaneously with the installation of the magnet in the package and allows a secure attachment of the magnet. The bow spring component may comprise a cover plate, on which a plurality of spring elements are arranged, so that a plurality of spring elements can be mounted simultaneously in one step. According to one embodiment, the cover plate of the bow spring component in

Be in contact with a surface of the magnet. As a result, the magnet can also be fixed in a direction perpendicular to the plane of the lamella plates.

The spring elements can each be V-shaped, wherein a leg of the spring element is connected to the cover plate and the other leg of the spring element is arranged on an edge of the pocket formed in the package. Thus, when inserting such a V-shaped spring element no possibly sharp-edged end of the spring element is pushed past the surface of the magnet, but the spring element contacts the magnet areally. After installation of the spring element, the entire leg connected to the cover plate can be supported on the surface of the magnet, so that a high holding force can be exerted on the magnet, without the surface of the magnet being exposed to excessive punctual pressure loading.

According to one embodiment, each spring element may be provided with a latching nose, which is supported on a step formed by two lamination plates of the package. Such a detent secures the bow spring component against slipping out of the package.

According to one embodiment of the present invention, a bow spring component may be arranged on each of two sides of the package. As a result, the magnets can be secured in all directions against displacement or falling out.

Preferably, the bow spring component is formed as a stamped part or as a wire bending part.

Furthermore, an electrically commutated motor is provided, comprising a rotor, which is designed as a machine part described above is. In particular, the rotor may be formed as a spoke rotor and the bow spring component may be formed as a bow spring ring.

In order to achieve a stable fixation of the magnets in the rotor, in this case the spring element can be arranged on the radially inner surface of the magnet.

Finally, a stirrup spring ring is provided for mounting a plurality of magnets in pockets in a rotor of an electrically commutated motor, comprising:

a bezel and

a plurality of spring elements, which are integrally connected to the cover ring and which in each case between one of the magnets and the edge of a magnet associated pocket can be inserted.

Brief description of the drawings

Hereinafter, a preferred embodiment of the present invention will be described by way of example with reference to the accompanying drawings. Show it:

Fig. 1 is a plan view of the rotor package;

Fig. 2 is a plan view of a bow spring ring;

3 is a sectional view of a rotor according to the invention; and

Fig. 4 is a sectional view of the bow spring ring.

Description of embodiments

As shown in FIG. 1, in a rotor core 12 for the rotor (machine part) of an electrically commutated motor, spoke-shaped pockets 14 are formed, in which permanent magnets 16 are accommodated. The pockets 14 are in this case made slightly longer in the radial direction than the length of the magnets 16. The rotor core 12 is formed from a plurality of superposed rotor laminations.

Fig. 2 shows a bow spring ring 18 according to an embodiment of the present invention, which as a punched part of a non-ferromagnetic Sheet metal is formed. The bow spring ring 18 comprises a cover ring 20 and a plurality of spring elements 22, which are arranged radially inwardly on the cover ring 20.

As shown in Fig. 3, the spring elements 22 are each inserted between a magnet 16 and a radially inner wall of the associated pocket 14. As a result, the magnets 16 can be fixed in the radial direction. Furthermore, the cover ring 20 abuts a surface of the magnet 16 such that the magnet 16 is secured by the cover ring 18 against a displacement in the axial direction.

The bow spring ring 18 can in this case be installed together with the magnets 16 in the rotor core 12, so that the rotor 10 can be manufactured efficiently with only a few work steps. When installing the magnets 16 and the bow spring ring 18, for example, first the magnets 16 are inserted into the associated pockets 14 in the rotor core 12, and then the bow spring ring 18 is inserted so that the spring elements 22 between the magnets 16 and the radially inner walls of the pockets 14 intervene.

Because the potentially sharp-edged end of the spring elements 22, which is not connected to the cover ring 20, faces the pocket 14, only smooth surfaces and bending edges of the spring element 20 come into contact with the surface of the magnet 16. Thus, surface damage may occur of the magnet 16 can be prevented.

Thus, as shown in FIG. 3, when two bail spring rings 18 are used on both axial sides of the rotor 10, each magnet 16 secured to all sides can be fixedly secured in the rotor core 12.

As shown enlarged in Fig. 4, the spring elements 22 each have a V-shaped cross-section, which may be formed prior to installation in the rotor package, as shown in part a) of Fig. 4, that the two legs of the V are formed substantially mirror-symmetrical. If the bow spring ring 18 is inserted into a rotor core 12, the spring element 22 is elastically deformed such that it faces the magnet 16 Leg substantially parallel to the magnet 16 abuts, as shown in part b) of Fig. 4 is shown. As a result, a holding force in the radial direction can be exerted on the magnet 16 over the entire surface of this leg. The magnet 16 is thus securely fixed in the pocket 14 in the radial direction, without the surface of the magnet 16 being damaged.

The leg of the V-shaped spring element 22 facing the radially inner end of the pocket 14 is deformed in such a way that a latching nose 24 at the end of the leg can engage in a parting plane between two rotor lamination plates of the rotor core 12. Thus, the bow spring 18 against a

Slipping out of the rotor core 12 secured.

Claims

claims

1 . Machine part (10), in particular rotor or stator of an electrical machine, comprising:

a package (12) of a plurality of stacked laminations,

at least one magnet (16) received in a pocket (14) formed in the package (12),

characterized by a bow spring component (18) comprising at least one spring element (22) arranged between the magnet (16) and an edge of the pocket (14).

2. Machine part (10) according to claim 1, characterized in that the bow spring component (18) comprises a cover plate (20) on which a plurality of spring elements (22) for arranging in a plurality of pockets (14) are arranged.

3. Machine part (10) according to claim 2, characterized in that the cover plate (20) is in contact with a surface of the magnet (16).

4. Machine part (10) according to claim 2 or 3, characterized in that the spring element (22) is V-shaped, wherein one leg of the spring element (22) with the cover plate (20) is connected and the other leg of the spring element ( 22) is arranged on an edge of the package (12) formed pocket (14).

5. Machine part (10) according to one of claims 1 to 4, characterized in that the spring element (22) is provided with a latching nose which is supported on a by two laminations of the package (12) formed step.

6. Machine part (10) according to one of claims 1 to 5, characterized in that on each of the two sides of the package (12) a bow spring component (18) is arranged.

7. Machine part (10) according to one of claims 1 to 6, characterized in that the bow spring component (18) is designed as a stamped part or as a wire bending part.

8. An electrically commutated motor, comprising a rotor (10), which is designed as a machine part according to one of the preceding claims.

9. An electrically commutated motor according to claim 8, characterized in that the spring element (22) on the radially inner surface of the magnet (16) is arranged

A bow spring ring (18) for mounting a plurality of magnets (16) in pockets (14) in a rotor (10) of an electrically commutated motor, comprising:

a cover ring (20) and

a plurality of spring elements (22) which are integrally connected to the cover ring (20) and which in each case between one of the magnets (16) and the edge of the magnet (16) associated pocket (14) can be inserted.