WO2017202518A1

WO2017202518A1 - Rotor of an electric machine

Info

Publication number: WO2017202518A1
Application number: PCT/EP2017/056716
Authority: WO
Inventors: Matthias ROEPKE
Original assignee: Robert Bosch Gmbh
Priority date: 2016-05-25
Filing date: 2017-03-21
Publication date: 2017-11-30
Also published as: DE102016209146A1

Abstract

The invention relates to a rotor (2), in the case of which the adhesive or the resin (5) is cured by means of light, whereby the time for curing the adhesive or resin (5) is greatly shortened and the energy consumption is considerably reduced. According to the invention, at least one displacement volume (10) is provided in each of the pockets (3), by means of which displacement volume light can be introduced into the adhesive or into the resin (5) and which displacement volume reduces the amount of adhesive or resin needed to fasten the permanent magnets (4).

Description

description

title

Rotor of an electrical machine prior art

The invention relates to a rotor of an electric machine according to the preamble of the main claim.

It is already known a rotor of an electric machine from EP 2 582 014 AI, which has pockets and arranged in the pockets of permanent magnets. The permanent magnets are secured in the pockets by means of an adhesive or resin filled in the pockets. The curing of the adhesive or resin takes place in ovens, the curing process in the ovens takes a lot of time and requires a lot of energy.

It is already an insulating part of a turbogenerator from DE 31 46 124 AI known, which is impregnated with a curable resin glass fiber cord for a winding head support. The fiberglass cord forms a photoinitiator system which upon exposure causes rapid curing of the resin.

ADVANTAGES OF THE INVENTION The rotor according to the invention with the characterizing features of

Main claim has the advantage that the adhesive or resin is cured by means of light, whereby the time for curing of the adhesive or resin is greatly shortened and energy consumption is significantly reduced.

In addition, the required amount of adhesive or resin is reduced. This leads to an overall reduction in the manufacturing costs of the rotors.

According to the invention this is achieved by at least one displacement volume is provided in the pockets, via the light in the adhesive or in the resin can be introduced and which required for attaching the permanent magnets Klebstoffbzw. Amount of resin reduced. The measures listed in the dependent claims are advantageous

Further developments and improvements of the main claim rotor possible. Advantageously, the displacement volume after a first

Embodiment in each case by a light guide or a second

Embodiment formed by a particular rod or cylindrical cavity. By the non-magnetic light guide according to the first

Embodiment may be introduced during the manufacturing process light for curing the adhesive or resin in the pockets. These optical fibers remain in the pockets after curing of the adhesive or resin. According to the second embodiment, after curing of the adhesive or resin, the optical fibers are withdrawn from the pockets of the rotor so that only voids remain in the pockets of the rotor.

It is particularly advantageous if optical fibers or the cavities extend over the entire axial length of the pockets, since good curing of the adhesive or resin over the entire axial length of the pockets can be achieved in this way.

It is also advantageous if the optical fibers are formed as glass fiber, since in this way a light curing of the adhesive or resin can be achieved.

It is very advantageous if light-scattering means, in particular reflective particles, are provided in the optical waveguide, since the light in this way is particularly uniform in all directions, in particular transversely to the longitudinal extension of the

Light guide, is scattered. This achieves good curing of the adhesive or resin in the pockets. According to the invention, the adhesive is a UV or. light-curing adhesive or the resin a UV or. light-curing resin.

According to a method for producing the rotor according to the invention, the pockets are first filled with adhesive or resin. Then the optical fibers are inserted into the individual pockets and then the permanent magnets inserted into the pockets or vice versa. In the next step, finally, light in the Light guide for curing the adhesive or resin present in the pockets initiated.

According to the second embodiment, the optical fibers are moved continuously or discontinuously, in particular rotated, in order to be able to pull them out of the pockets again after a predetermined period of introduction of the light.

It is also advantageous if the pockets in the axial direction with respect to a

Seen rotor axis each straight line from one end face to the other end face of the rotor. In other words, the rotor according to the invention has no limitation, so that the method according to the invention has to be carried out on the entire rotor and not several times in succession on individual rotor packages. drawing

Embodiment of the invention are shown in simplified form in the drawing and explained in more detail in the following description. Fig.l shows in section an electric machine with a rotor according to the invention,

2 shows a side view of the rotor according to Fig.l according to a first

Embodiment,

3 shows a side view of the rotor according to Fig.l according to a second

Embodiment and

4 shows a simplified representation of the individual invention

Process steps for the production of the rotor according to the invention.

Description of the embodiments

Fig.l shows in section an electric machine 1 with a rotor 2 according to the invention.

The rotor 2 of the electric machine 1 is rotatably mounted about a rotor axis 2.1 and comprises pockets 3, in each of which one or more permanent magnets 4 are arranged. The pockets 3 of the rotor 2 extend in the axial direction with respect to the rotor axis 2.1 seen continuously from one end face of the rotor 2 to its other end face, preferably straight, so without steps in the individual pockets 3. The rotor 2 is therefore preferably not limited.

The rotor 2 is formed for example as a so-called laminated core, which consists of individual, superposed laminations 2.2. The

Permanent magnets 4 are fixed in the pockets 3 by means of an adhesive or resin 5 filled in the pockets 3.

The rotor 2 is surrounded for example by a stator 6, which has an electrical winding 7 for driving the rotor 2.

2 shows a side view of the rotor according to Fig.l according to a first

Embodiment. The pockets 3 of the rotor 2 are distributed in particular uniformly over the circumference of the rotor 2.

According to the invention it is provided that in each case at least one coherent displacement volume 10 is provided in the pockets 3, via the light in the adhesive or in the resin 5 can be introduced and that for securing the

Permanent magnets 4 required amount of adhesive or reduced resin.

According to the first embodiment, the displacement volume 10 in the

Bags 3 each formed by a non-magnetic light guide 11, in particular a glass fiber.

Each permanent magnet 4 has a width b, a length l and a height h, wherein the length l of the permanent magnets 4 in the direction of the rotor axis 2.1

is aligned and the height h is smaller than the width b. Each pocket 3 in turn has a width B, a length L and a height H. Here, the difference between the height H of the pockets 3 and the height h of the permanent magnet 4 is smaller than the difference between the width B of the pockets and the width b

Permanent magnets 4. The difference between the width B of the pockets 3 and the width b of the permanent magnets 4 is so dimensioned that at the opposite, the height h having sides of the respective permanent magnet 4 two

Spalträume 12 are formed, in each of which a light guide 11 is arrangeable. In Thus, in the direction of the widths B, b, each permanent magnet 4 is arranged in its pocket 3 between two light guides 11.

The filled in the pockets 3 adhesive or filled in the pockets 3 resin is UV or. light-curing, so hardens under the influence of UV light.

3 shows a side view of the rotor according to Fig.l according to a second

Embodiment. According to the second embodiment, the displacement volume 10 in the

Pockets 3 each formed by a particular rod or cylindrical cavity 14, in each of which a light guide 11 was arranged as in the first embodiment, but has been pulled out in contrast to the first embodiment during or after curing from the bag 3.

FIGS. 4A-4D show a simplified representation of the individual

inventive method steps for the production of the rotor according to the invention. In a first step according to Fig.4A, the pockets 3 of the rotor 2 are each filled with a certain amount of adhesive or resin. Subsequently, one or more light guides 11 are introduced into the individual pockets 3 in a second step according to FIG. In a subsequent third step according to FIG. 4C, the permanent magnets 4 are inserted into the pockets 3 of the rotor 2. In each pocket 3, for example, a plurality of permanent magnets 4 are arranged one behind the other. In a further fourth step according to FIG. 4D, UV light is now introduced into the individual light guides 11 with a UV light source 15 in order to cure the adhesive or resin 5 present in the pockets 3. According to the second embodiment, a further fifth step may be provided in which the optical fibers 11 in the pockets 3, in particular during the

Lichtaushärtung continuously or discontinuously moved, in particular rotated to prevent sticking of the light guide 11 in the pockets 4. After a predetermined period of light introduction, the light guides 11 can then be pulled out of the pockets 3.

Claims

claims

1. rotor of an electric machine with pockets (3), with in the pockets (3)

arranged permanent magnets (4) which are fixed by means of an in the pockets (3) filled adhesive or resin (5) in the pockets (3), characterized in that in the pockets (3) each at least one

Displacement volume (10) is provided, via the light in the adhesive or in the resin (5) can be introduced and which reduces the amount of adhesive or resin required to fasten the permanent magnets (4).

Rotor according to claim 1, characterized in that the displacement volume (10) in each case by a light guide (11) or by a particular rod or cylindrical cavity (14) is formed.

Rotor according to claim 2, characterized in that the light guide (11) or the cavity (14) in each case over the entire axial length of the pockets (3).

Rotor according to one of the preceding claims, characterized in that the light guides (11) are designed as glass fiber.

Rotor according to claim 4, characterized in that in the light guide (11) each light-diffusing means, in particular reflective particles, are provided.

Rotor according to one of the preceding claims, characterized in that the adhesive (5) a UV or. light-curing adhesive or the resin (5) is a UV or light-curing resin.

Rotor according to one of the preceding claims, characterized in that the pockets (3) extend in the axial direction with respect to a rotor axis (2.1) in each case in a straight line from one end face to the other end face of the rotor (2).

8. Electrical machine with a rotor according to one of the preceding claims Method for producing a rotor according to one of the preceding

Claims characterized by the following steps:

- Providing a rotor (2) with pockets (3) for receiving

Permanent magnets (4),

Filling the pockets (3) with adhesive or resin (5),

Inserting one or more light guides (11) into the individual pockets (3),

Inserting the permanent magnets (4) into the pockets (3),

- Introduce UV light in the light guide (11) for curing the present in the pockets (3) adhesive or resin (5).

10. The method according to claim 9, characterized by the additional step:

Continuous or discontinuous movement, in particular rotation, of the light guide (11),

- Pulling the light guide (11) out of the pockets (3) to one

predetermined period of light introduction.