DE102008040349A1 - Electrical machine's i.e. electric motor, stator manufacturing method for motor vehicle i.e. hybrid vehicle, involves connecting iron particles and insulator through adhesion of insulator at layer, and hardening insulator after connection - Google Patents

Abstract

The method involves applying an insulator (20) in fluid form on an iron particle layer (12) that is arranged on an insulator layer (22), and connecting iron particles (10) with one another by using an insulator. The iron particles and the insulator are connected through adhesion of the insulator to the insulator layer. The insulator is hardened after the connection with the particles by introducing energy through a laser beam (30), where the insulator layer is made from polyamide and the particles comprise size of 10-50 micrometers. Independent claims are also included for the following: (1) a stator of an electrical machine partially formed from iron particles (2) a device for executing a method for manufacturing a stator of an electrical machine.

Description

The The present invention relates to a method and a device for producing a stator of an electric machine, wherein the stator making the bonding of individual iron particles includes, which are interconnected by means of an insulator. Furthermore, the present invention relates to the according to the Method and produced by the device stator.

Usually Stators are made of electrical machines, such as electric motors stamped individual sheets joined together or made of powder pressed.

The Stators assembled from sheet metal are only one relatively high production costs to produce, since first individual sheets must be provided These sheets then to the desired shape must be cut and then to a laminated core with each other need to be connected.

The usual stators made of iron powder used today include pressed iron particles having an average diameter of 10 to 50 μm, which are provided in the pre-insulated state. The insulation surrounding the iron particles ensures, when the temperature increases, that the iron particles are joined together due to their adhesive properties. Stators, which are produced as sintered components, such as in the DE 10 2006 050 166 A1 disclosed have the disadvantage of relatively high hysteresis losses. The powder-made stators are pressed during bonding, which leads to increased stresses in the connected by an insulation iron particles. This results in a lower efficiency, that is, an increased amount of magnetizing work is required, since a part of the introduced energy is lost in the form of heat in the operation of the stator. In addition, a high compression of the iron particles, which would be necessary for a high permeability, hampered by the isolation of the iron particles with each other.

Of the The present invention is therefore based on the object, a simple and cost-effective production of a high-stator To realize efficiency and for this production, a device to provide.

According to the invention this object is achieved by the method mentioned in claim 1. Furthermore, the invention is characterized by what is stated in claim 10 Device solved. Part of the invention is also a stated in claim 6 stator and its mentioned in claim 9 Use. Advantageous embodiments of the invention Method are mentioned in the subclaims 2 to 5.

According to the invention a method for producing a stator of an electric machine provided, wherein the Statorherstellung the Connecting comprises individual iron particles, which by means of a Isolators are interconnected. The stator is going through the alternately layered application of iron particles and insulator made and the insulator is applied after application cured on the iron particle layer. The insulator serves to connect the individual iron particle layers to avoid each other. He also serves the indirect Connection of the iron particle layers with each other and thus to Maintaining the solid structure of the generated stator. Preferably, the curing of the insulator takes place directly after its application to the iron particle layer. By the Curing a solid composite layer is produced, the Having iron particles and insulator components. After curing This composite layer is on this layer another iron particle layer applied and on this in turn a further insulator layer, which deals with the underlying insulator layer already is cured or cured with the Bonding composite layer via adhesion. This The process is repeated until the desired stator height is reached. By curing the last one Insulator layer on the underlying insulator layer or Composite layer will be a solid connection between the last applied insulator layer with the underlying layers and also reaches the iron particles embedded therein.

Around adhesion of the first iron particle layer or of the after application of the first insulator layer, the iron particle layer At least partially surrounded insulator on a base of a To prevent apparatus for carrying out the method can be provided that the first iron particle layer on a Release agent layer, such as Teflon or silicone applied becomes.

The fact that the iron powder is processed pressure-free and stress-free, the iron losses (hysteresis) can be reduced. The entire stator production can be realized in a simple manner. Through the insulation layer, the individual iron powder layers are safely isolated from each other electrically. This means that in contrast to stators made of sheet metal no sheet metal production and no cutting must be made. In contrast to conventional stators made of powder, the stator produced according to the specified method has a higher efficiency, since it is in Ein Set causes a lower heat development in Ummagnetisierung. Furthermore, a wide variety of stator contours can be produced flexibly by the method according to the invention.

Of the According to the invention produced stator is suitable preferably as a stator of an electric motor, in particular in high-performance electric traction.

alternative can be provided that instead of a first layer of iron particles on a pad of the device, optionally with a Release agent is coated, not arranged the iron particle layer but an insulator layer to which subsequently the first iron particle layer is applied, the method Furthermore, it can be carried out that this first Hardened insulator and iron particles composite layer or that on the first iron particle layer, a second insulator layer is applied, and then the composite layer produced thereby is cured.

It is advantageously provided that the insulator in liquid Form is applied to the iron particle layer. Thus liable the insulator due to adhesion to the iron particles and thus provides an indirect connection of the iron particles with each other.

In A preferred embodiment of the method is provided that the insulator by introducing energy through at least one Laser beam is cured. It is envisaged that the energy input by the laser beam only to the insulator works and not on the iron particles. It means that the energy introduced by the laser beam should serve to to cause a reaction of the insulator. The iron particles should remain unchanged in their properties.

alternative can be provided that the curing by energy input from other energy sources, such as by introduction from light energy from alternative energy sources, or through the influx of a gas, soft in contact with the Isolator is brought. It is important that a reaction with the insulator takes place for curing or Hardening of the insulator leads.

advantageously, the procedure is carried out by measuring the area dimensions and / or surface shape of at least one applied layer the dimensions and / or the cross-sectional surface shape, which is to be generated by this layer, deviates, the Laser the insulator layer facing him only in the area hardens, which in their dimension and shape of the cross-sectional area to be produced with this layer Stator corresponds. That means that after the type of rapid prototyping the laser only hardens the area inside the desired stator contour is located. Thus, can be in easier and flexibly produce a wide variety of stator contours. With support of layers larger Surface applied to layers of smaller area can even create undercuts in the stator contour.

Around a greater density of iron particles in a layer to ensure that the iron powder layer is compacted after application by shaking.

Of the Insulator of a method according to the invention For example, a prepared stator may be a polyimide. Preferably have the iron particles of a stator according to the invention Grain sizes from 10 to 50 μm. This means, the iron particles are preferably in powder form, so that the Iron particle layer is a powder layer. The thickness of the layer is the grain size, that is, that the thickness of the layer preferably not larger is the average grain size diameter (Crystal diameter).

The The invention also relates to the use of an inventively prepared Stators as a stator of an electric motor of a motor vehicle, which can be driven by means of the electric motor. Due to the fact that the invention Stator has a high efficiency in an electric motor is suitable he is thus particularly for use in motor vehicles. Such a motor vehicle may also be a hybrid vehicle, soft in addition to the electric motor still an internal combustion engine to further Drive has.

object The present invention further provides an apparatus for Implementation of the method according to the invention with a receptacle for the first layer of iron particles or the first insulator layer, means for applying a Iron particle layer, means for applying the insulator layer and means for curing the insulator layer. Preferably, the means for curing is a laser.

to Solidification of iron particles can damage the device as well include a vibrator. To guarantee a flexible and automated production of the stator can the device also has a control system for controlled Guiding the laser, possibly under the expiry of a computer program, exhibit.

The invention will be described below with reference to the accompanying drawings. It shows the sole figure the layer structure of a stator according to the invention, wherein the lowermost layer by iron particles 10 is made, between which and on which an insulator 20 Applied is the iron particles 10 at least partially surrounds and thus the first insulator layer 22 formed. It can be seen that the stator has a multilayer structure, wherein on each cured insulator layer 22 inside the stator again an iron particle layer 12 is applied to itself by an insulator 20 for forming an insulator layer 22 is covered. The compound of the individual composite layers, consisting of iron particles 10 and insulator 20 , is done by adhesion of the insulator 20 on the insulator layer below it 22 which has already been cured, preferably after production. The curing is preferably carried out by the introduction of energy by a laser beam 30 , where the laser beam 30 such as the curing of the insulator 20 or the insulator layer 22 can make that only the areas of the composite layer are cured, which should later form the stator body. That means the laser beam 30 only up to the edge of the cross-sectional surface shape 24 is guided, which will later form the contour of the stator body. Thus, in a manner very similar to rapid prototyping, very different stator contours can be achieved by different path guidance of the laser beam per hardening insulator layer 22 To run.

The Iron particles are not pressed during the manufacture of the stator, so that they are free of residual stress in the manufactured stator. This greatly improves the hysteresis properties of the stator, whereby the stator according to the invention a higher Has efficiency when used in an electrical machine.

10

iron particles

12

Iron particle layer

20

insulator

22

insulator layer

24

edge the cross-sectional area shape

30

laser beam

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102006050166 A1 [0004]

Claims (10)

A method of manufacturing a stator of an electrical machine, wherein the stator manufacturing comprises joining individual iron particles ( 10 ) by means of an insulator ( 20 ) are interconnected, characterized in that the stator by the alternately made layered application of iron particles ( 10 ) and insulator ( 20 ) and the insulator ( 20 ) after application to the iron particle layer ( 12 ) is cured. Method for producing a stator according to claim 1, characterized in that the insulator ( 20 ) in liquid form onto the iron particle layer ( 12 ) is applied. Method for producing a stator according to Claim 2, characterized in that the insulator ( 20 ) by introducing energy through at least one laser beam ( 30 ) is cured. Method for producing a stator according to Claim 1, characterized in that the surface dimensions and / or surface shape of at least one applied layer deviate from the dimensions and / or the cross-sectional surface shape which is to be produced by this layer, the laser exposing the insulator layer ( 22 ) hardens only in the surface which corresponds in size and shape of the cross-sectional area of the stator to be produced with this layer. Method for producing a stator according to at least one of the preceding claims, characterized in that the iron powder layer ( 12 ) is compacted after application by shaking. Stator of an electric machine, which consists at least partially of individual iron particles ( 10 ), characterized in that it is produced according to the method according to at least one of claims 1 to 5. Stator according to claim 6, characterized in that the insulator layer ( 22 ) is a polyimide. Stator according to at least one of claims 6 or 7, characterized in that the iron particles ( 10 ) have a particle size of 10-50 microns. Use of according to the method according to at least one of claims 1 to 5 produced Stators as a stator of an electric motor by means of an electric motor drivable motor vehicle. Apparatus for carrying out the method according to at least one of claims 1 to 5, with a receptacle for the first iron particle layer ( 12 ), means for applying an iron particle layer ( 12 ), means for applying the insulator layer ( 22 ) and a device for curing the insulator layer ( 22 ).