WO2010060820A2

WO2010060820A2 - Stator pack consisting of flat wire

Info

Publication number: WO2010060820A2
Application number: PCT/EP2009/065194
Authority: WO
Inventors: Wolfgang Krauth; Tilo Koenig
Original assignee: Robert Bosch Gmbh
Priority date: 2008-11-27
Filing date: 2009-11-16
Publication date: 2010-06-03
Also published as: DE102008044097A1; WO2010060820A3

Abstract

Known pole plates for electric machines are designed from sheet metal stacks or laminated stacks. The sheets are stamped out of a sheet metal strip and processed individually or as a combined stack of sheets. However, the stamping process requires a high weight of material. The aim of the invention is to drastically reduce said weight of material. The invention therefore proposes a pole plate or stator laminations that is or are constructed of several flat layers of metal (1). To achieve bundles of metal layers (1) that are packed in screw form, a metal strip (2) is wound around a support body (3), in particular a dome, said strip being formed into a screw (8) by edge winding rolls. The support body (3) is then removed leaving the metal layers (1) packed in screw form. One application of the invention is for engines with an air gap winding, specifically supercharger engines.

Description

description

Stator package made of flat wire

State of the art

The present invention relates to a yoke or a stator plate constructed from a plurality of flat metal layers.

It is known at a conclusion for electrical machines, such as a yoke yoke, for example, provided for a stator, this form of laminated cores or from disk packs. These packages consist of individual sheets or single lamellae. The sheets are previously punched out of a sheet metal strip and further processed separately or as a laminated core. A connection of the sheets to each other is produced by sheet metal paint, punching packet points or by a welded connection. The punching, however, requires a high operating weight.

Disclosure of the invention

The conclusion of the invention or the stator plate has the advantage that a fast and inexpensive manufacturing technology is possible. It can be produced in a simple manner, a conclusion or a stator, in which no waste in the production is obtained or a very high overall material utilization takes place. In addition, only a very short production time is necessary. In addition, the overall result is a simple and reliable construction of the yoke or the stator. An advantageous and densely packed embodiment of the stator is given when a provided for producing the winding of the metal layers flat wire is brought by Hochkantrollen in a helical shape. There is then a stator package of flat wire. Further advantages and advantageous embodiments of the invention will become apparent from the dependent claims and the description.

It is advantageous to produce the metal layers of magnetically conductive flat wire, of silicon steels or nickel steels, in the yoke or stator lamination. The flat wire has the added advantage of no punching, but a radius to have. As a result, he is without thick insulation, possibly only paint, bewickelbar. A good eddy current avoidance is given if the metal strip or the metal layers of magnetically conductive iron metal, such as steel sheet or electric sheet exist. The eddy currents are minimized on the one hand by the choice of the metal material and on the other hand by the isolation of the metal strip to each other. It is very advantageous in this case if the metal layers are insulated from one another by coating, film, lacquer, in particular enamel, or the like. Optionally, a connection of the metal layers is possible by means of coating, foil, lacquer, in particular enamel, or the like. It is advantageous to insulate the metal layers from the winding by means of coating, foil, lacquer, in particular enamel, or the like.

A simple structure of the yoke or stator lamination is present when the yoke or the stator lamination is constructed as a whole in one piece or consists of a one-piece wound metal strip.

An advantageous method of production is possible if an adaptation to length variable diameter for the stator is made possible by appropriate Hochkantrollen the metal layers, after which a firm connection of the metal layers is carried out in the axial direction.

A good adaptation to different mounting positions of the yoke or the stator is possible by an adaptation to length changeable diameter for the yoke or the stator is made possible by appropriate rotation of the metal layers, after which a firm connection of the metal layers is carried out in the axial direction , drawing

An embodiment of the invention is explained in more detail in the following description and further illustrated with reference to the drawing.

Show it:

1 is a simplified representation of the invention inference on the production of a dome and

Fig. 2 is a perspective view of the conclusion of the invention in a slightly fanned out hand end representation.

Embodiment of the invention

It is known to use inferences for making magnetic circuits for electric machines, such as dynamos and electric motors. The conclusion serves as yoke for the magnetic field lines and is in particular part of a stator or a rotor of an electric machine. An application of the invention is possible for any motor with air gap winding, especially for blower motors.

The structure of the return path is made of several metal layers 1, so as to avoid under the influence of an electric field inductively generated eddy currents, which can occur especially with iron cores made of solid material strongly. The iron cores for electrical machines are therefore executed exclusively as laminated and insulated sheets in packages. These sheets are previously stamped from a sheet metal strip and further processed individually or as a laminated core. The eddy currents are minimized on the one hand by the choice of the metal material and on the other hand by the isolation of the metal strip zueinan-. The connection of the sheets to each other can be achieved by

Stanzpaketierpunkte or produced by a welded joint. Of the Inference can therefore also be referred to as a return plate or stator plate.

During punching, individual hollow cylinders, which resemble the shape of washers, are punched out of a metal strip. In this case, a metal strip is required with a width greater by a few mm than the outer diameter of the finished part. Also, the length of the required metal strip is larger by a few mm than the outer diameter of the finished part multiplied by the number of disks required.

An example calculation for the production method Punching is below for a hollow-cylindrically executed conclusion with the dimensions:

Da = 68mm, Di = 64mm,

Sheet thickness s = 0.7mm, total component length: L = 58.1 mm, material: steel, indicated.

With a sheet thickness of 0.7 mm and an estimated total component length of the future return of 58.1 mm results in 83 strips that must be punched out. The metal strip provided for this purpose has a width of 70 mm and a length of 5.8 m. With the density of steel and the corresponding volume, this results in an operating weight of approx. 2231 grams.

According to the invention, it is now intended to drastically reduce this operating weight. FIG. 1 shows a simplified representation of the yoke or stator plate according to the invention during its production. Almost all ferrous metals are conceivable for the basic method of producing the conclusion. For the intended use as electromagnetic conclusion is steel, preferably specially coated electrical steel, particularly suitable.

As shown in FIG. 1, according to the invention a flat wire 2 is wound around an auxiliary body 3, which is designed as a dome or cylinder. Of the

Flat wire 2 has the added advantage of no punching, but a Radius to have. As a result, he is without thick insulation, possibly only paint, bewickelbar. There is then a metal spiral that looks like a coil spring with a square cross-section. In order to bring the flat wire 2 in this form, a corresponding manufacturing device is used, which is known to those skilled in the term roles. The manufacturing device is indicated in Fig. 1 with an arrow 5. The starting material for the flat wire 2 is a flat material, which results in a sharp-edged, rectangular or square cross-section 6. It is also possible to use a flattened round material for the flat wire 2, whereby no sharp-edged cross-section, but a rounded cross-section results. The inference is in particular unutilated stator.

The flat wire 2 shown in FIG. 1 is wound around the auxiliary body 3 by means of the manufacturing device rollers 5, so that a helix 8 or HeNx is produced by reshaping. HeNx is understood to mean a helix 8 or a cylindrical spiral which winds helically around a jacket of a cylinder or of the intended mandrel 3 as a curve, preferably with a constant pitch. The orientation of the flat wire 2 during the winding process takes place with its rectangular cross-section 6, as shown, upright, d. H. always oriented with its longer side 10 radially outward. The winding takes place helically in the axial direction, wherein in Fig. 1 by way of example only a few passages are shown. In principle, it is also possible for the flat wire 2 or metal strip to have a square cross-section 6 in addition to the rectangular one shown.

In Fig. 2, a perspective view of the conclusion of the invention, in a hand-slightly fanned out end presentation, this is shown in its finished wound state without the dome 3. After winding into a coil 8 or the production of screw-shaped or screw-shaped arranged, flat metal layers 1 is followed (not shown) connecting the individual sheet metal layers 1 in the axial direction to a "rigid structure" by applying a paint, in particular It is also possible to achieve the rigidity of the helically packed metal layers 1 by means of an intended mounting on an intended, not shown carrier.

The inference can also be referred to as a return spiral. A procedural peculiarity of the one-piece spiral 8 is that by turning from beginning to end, a slight change in the diameter of the axial alignment is possible. So it is possible by simply twisting the sheet metal coil 8 and Rückschlussspirale 8 to be mounted on a support backlash or slightly different diameter realized over the axial length. Thus, by slightly turning at the beginning and at the end of the coil 8 each have a smaller diameter can be achieved, resulting in a lightweight barrel shape. The connection of the sheets 1 in the axial direction to the "rigid structure" can then then directly in the production means

Back lacquer, or by a welded joint, or when mounting on a support done.

By appropriate high-edge rolling of the metal layers 1, it is in principle possible to adapt to diameters which can be changed over the length for the stator lamination, whereafter a firm connection of the metal layers 1 in the axial direction is carried out.

The described Hochkantrollen the flat wire 2 and the metal strip offers the more advantages over the punching the larger the diameter and the smaller the wall thickness between outer diameter and inner diameter.

For the example shown in Fig. 2: Da = 68mm,

Di = 64mm, sheet thickness s = 0.7mm, total length of the component: L = 58.1 mm, material: steel, this results in a mathematical precast mass of about 190 grams. Compared to the previous example punching one sees the advantage of the manufacturing process Hochkantrollen, namely that the material weight is lower by a factor of 12, namely 190 grams compared to 2231 grams. The production time is not inferior to that of punching.

Claims

claims

1. conclusion, in particular ungated stator plate, constructed of a plurality of flat metal layers, characterized in that the metal layers (1) are arranged helically.

2. conclusion according to claim 1, characterized in that the metal layers (1) made of magnetically conductive flat wire, made of silicon steels or nickel steels.

3. conclusion according to claim 1 or 2, characterized in that the metal layers (1) from each other by coating, foil, paint in particular enamel, or the like are isolated from each other.

4. conclusion according to one of the preceding claims 1 to 3, characterized in that the metal layers (1) of the winding by coating, film, paint, in particular enamel, or the like are isolated.

5. Inference according to one of the preceding claims 1 to 4, characterized in that the conclusion is constructed in one piece.

6. Stator plate constructed of a plurality of flat metal layers, characterized in that a for the preparation of the winding of the metal layers (1) provided flat wire (2) is brought by Hochkantrollen in a helical shape (8).

7. stator according to claim 6, characterized in that the metal layers (1) made of magnetically conductive flat wire, made of silicon steel or nickel steels.

8. stator according to claim 6 or 7, characterized in that by appropriate Hochkantrollen the metal layers (1) to adapt over the length variable diameter for the stator is made possible, after which a firm connection of the metal layers (1) is carried out in the axial direction.

9. stator according to claim 6 or 7, characterized in that by appropriate rotation of the metal layers (1) an adaptation to the length variable diameter for the stator is made possible, after which a firm connection of the metal layers (1) is carried out in the axial direction.

10. stator according to one of the preceding claims 6 to 9, characterized in that the metal layers (1) from each other by coating, foil, paint in particular enamel, or the like are isolated from each other.

1 1. Stator plate according to one of the preceding claims 6 to 10, characterized in that the metal layers (1) are insulated from the winding by coating, foil, lacquer, in particular enamel, or the like.

12. stator according to one of the preceding claims 6 to 1 1, characterized in that the stator is constructed in one piece.