DE102008001539A1 - Method for manufacturing stator housing of electro motor, particularly for auxiliary unit in motor vehicle, involves manufacturing yoke housing in injection molding and pressing method - Google Patents

Abstract

The method involves manufacturing a yoke housing in an injection molding and pressing method. A stator housing (1) has yoke housing made of plastic and a magnet. The section of magnetically conductive plastic and plastic for the yoke housing, are used with magnetically conductive material. The magnet is embedded in the material of yoke housing during the injection molding method for manufacturing the yoke housing. An independent claim is included for a stator housing of an electro motor, particularly for an auxiliary unit in a motor vehicle.

Description

The The invention relates to a method for producing the stator housing an electric motor, in particular for an auxiliary unit in a motor vehicle.

State of the art

In the WO 2006/039381 A2 a stator housing of an electric motor is described which comprises a plastic pole housing, which accommodates a return ring with magnets attached thereto. The plastic pole housing can be produced by injection molding, wherein the return ring and the magnets are inserted after completion of the pole housing in this. According to another, in the WO 2006/039381 A2 described embodiment of the return ring including the magnets during the injection molding of the pole housing is embedded in the wall of the housing.

Disclosure of the invention

Of the Invention is based on the object, a stator housing an electric motor in a simple manner, wherein the im Stator housing recorded components at the same time with should be anchored to the wall.

These Task is according to the invention with the features of the independent claims. The Subclaims give expedient developments at.

Of the Electric motor with the stator housing, which after one of the process according to the invention is produced, is preferred for an auxiliary unit in a motor vehicle used, for example, as a window motor, as a wiper motor, as a seat adjustment motor or as a starter motor.

According to one The first aspect of the invention is a method of manufacture the stator housing of an electric motor provided, wherein the stator housing comprises a pole housing, which is made of plastic, and at least one magnet. The pole housing is manufactured by injection molding and the magnet is connected to the wall of the pole housing. This is done according to a preferred embodiment already during the injection molding process for the production of the pole housing.

Of Furthermore, it is provided that for the pole housing at least partially magnetically conductive plastic or a plastic with magnetically conductive material is used. The magnetically conductive material is used to the magnetic flux emanating from the magnet in a desired To direct direction. This makes it possible in principle on magnetic flux elements, which are designed as separate components are to renounce. Nevertheless, it is possible to do such Flux elements even when using a magnetically conductive Use material for the plastic pole housing.

Becomes the magnet or the magnets already during the Injection molding of the Polgehäuses in the wall of the Pol housing embedded, can be extra Fixing measures for the magnet (s) omitted. As a result, a constructive simplification is achieved. In addition, the manufacturing process is streamlined and simplified, because the production of the Polgehäuses and embedding the Magnets in the wall of the Polgehäuses in a common Work step can be performed. One Another advantage is that smaller distances and Coaxiality tolerances between the pole housing and the contact surface of the magnets on the one hand and between the magnet and the circulating anchor on the other hand can be achieved. This reduces the air gap in the magnetic circuit and the overall efficiency of the electric motor is improved. Finally, through this design, the Total weight of the stator can be reduced.

By the addition of magnetically conductive material for the material of the pole housing can be an expansion coefficient be adjusted, which is at least substantially the same as the coefficient of expansion of the magnet. This has the advantage that even with temperature changes and associated contractions and strains virtually no internal stresses arise because the Pol housing and the magnets subjected to the same strains are and thus no or hardly any differences in strain arise.

According to one advantageous embodiment is provided that the plastic pole housing only partially or in sections with the magnetically conductive Material is provided and thus more areas or sections which are not magnetically conductive. The magnetic conductive sections are located in particular in the immediate Contact the magnets for the best possible inference to enable. According to another Design is provided, however, that the entire pole housing consists of a magnetically conductive material or a magnetically conductive material in the plastic of the housing is introduced.

When For example, magnetically conductive plastic is used Metal particles into consideration, which are introduced into the plastic and thus already during the injection molding process contained in the plastic.

According to one Another advantageous embodiment permanent magnets, used for example consisting of ferrite or NdFeB. these can possibly in the initially unmagnetized state in the pole housing be introduced. The magnetization process will subsequently, So after inserting or embedding the permanent magnets performed in or on the wall of the pole housing.

Become the magnets embedded in the inner wall of the pole housing, So it is sufficient in principle that only the the inner wall facing side and possibly also the end faces partially protrude into the plastic material of the pole housing. in principle But it is also possible, even those of the inner wall opposite Side of the magnets at least partially with a plastic coating to be provided from the material of the pole housing.

The Magnets can be designed as individual magnet segments or as a closed magnetic ring.

According to one Further aspect of the invention is a method for the production a stator housing of an electric motor provided, wherein the stator housing is a pole housing made of plastic and comprises at least one magnet and the magnet of a plastic-bonded, injection-moldable material which adheres to the inner wall of the Polgehäuses is injected. In this version become the manufacturing steps of pole housing and generation or attachment of the magnets basically separated carried out. The pole housing, which is preferred is made of plastic, is expediently produced in a first step, then is in a second step of the injection-moldable Material existing magnet to the inner wall of the pole housing molded. During this process can already In the injection molding tool with the plastic-bonded magnet, the field lines be preceded, resulting in higher magnetic field strengths be achieved. The magnetic field lines can be both in the Magnets themselves be led to the coil as well as to a Magnetic return part attached to the magnet, from there the magnetic field lines back to the magnet and the coil are routed.

about the injection of the magnet to the inner wall of the pole housing can also be achieved a solid connection, so that additional Fixing measures for the fixation of the magnet can be omitted on the pole housing. In addition, will Tolerances and air gaps decreased, reducing the overall efficiency is improved.

When Material for the pole housing is preferably plastic used, the preparation is advantageously carried out by compression or injection molding. In the material of the pole housing may possibly be magnetically conductive Material are introduced so that the magnetic field lines of the Magnets for producing a magnetic return path passed directly over the wall of the pole housing become. It is also possible to use plastic without magnetic to use conductive material, in which case the magnetic inference directly over the Magnet is self guided or over as separate component executed return part, which is also used in the pole housing.

Possibly the pole housing is also made of a different material as a plastic, for example of a metallic material.

According to Another aspect of the invention is a method of manufacture a stator housing of an electric motor is provided, the a pole housing and at least one magnet, wherein the magnet is produced in the sintering process. The sintering process is carried out directly in the pole housing, wherein the magnet during sintering against the inner wall of the Pol housing pressed and connected to the inner wall becomes.

Also this embodiment has the advantage of a reduced air gap between armature and magnet, leaving a smaller coaxial error and thus achieved a higher efficiency becomes. In addition, attachment measures for fixing the magnet to the inner wall of the pole housing omitted. Furthermore, the heat dissipation due to the missing air gap between the magnet and the housing improved. Also, the assembly cost is reduced because of the manufacturing process of the magnet with the fixation of the magnet on the inside of the pole wall is connected.

The produced by sintering and directly to the inner wall of the Pole case mounted magnets can either be formed circular or segment-shaped.

The Plastic housing can as in the above embodiments Made of plastic and is especially in the plastic injection molding process prepared, optionally in the material of the plastic material magnetically conductive material is introduced, but not is mandatory. Basically, too an embodiment of the pole housing from another Material as plastic possible, for example made of metal.

The magnetization takes place after sintering the permanent magnets by means of a suitable Magnetisierwerkzeuges.

Further Advantages and expedient designs are the other claims, the description of the figures and to take the drawings. Show it:

1 a longitudinal section through a stator housing of an electric motor, with a plastic pole housing and a magnet injected into the wall of the pole housing,

2 the stator housing off 1 in section transverse to the longitudinal axis,

3 a further embodiment of a stator housing, wherein the magnet is annular on the inside of the pole housing,

4 a further stator housing, consisting of a plastic pole housing with magnetically conductive plastic and a magnet arranged on the inside of the pole housing, which consists of an injection-moldable material and is molded onto the inner wall of the pole housing,

5 the stator housing off 4 in a longitudinal section,

6 a further embodiment of a stator housing with molded on the inside magnet, which is circular,

7 the stator housing off 6 in longitudinal section,

8th another stator housing of an electric motor, with a pole housing and a segment-shaped magnet, which is produced in the sintering process within the pole housing,

9 the stator housing after 8th in longitudinal section,

10 and 11 a the 8th and 9 corresponding representation including the tools required for the sintering process.

In The figures are the same components with the same reference numerals.

In the 1 and 2 is a stator housing 1 shown for an electric motor, with a plastic pole housing 2 whose material consists of plastic with integrated magnetically conductive particles, for example metal particles, whereby the pole housing 2 is magnetically conductive overall.

Into the inner wall of the Polgehäuses 2 is a permanent magnet 3 embedded in the wall of the pole housing 2 protrudes and is thus firmly received and fixed in the wall of the pole housing. The segment-shaped permanent magnet 3 is completely in the wall of the pole housing 2 integrated, so that the inside of the magnet is flush with the inner wall of the pole housing. The embedding of the permanent magnet 3 into the wall of the pole housing 2 is preferably already during the injection molding process for producing the pole housing, so that the production of the pole housing 2 and the integration of the permanent magnet 3 in the wall of the pole housing coincide to a common step.

The magnetically conductive particles, which are designed in particular as metal particles, are preferably uniform over the entire wall of the pole housing 2 distributed. This will cause a line from the magnet 3 reached outgoing magnetic flux in the wall of the pole housing. In the area of the permanent magnets has the wall of the pole housing 2 a greater thickness than outside the permanent magnet.

The material of the pole housing 2 consists of a relatively strong plastic that allows a bearing point 5 in the area of the front side of the pole housing 2 train. Optionally, an additional bearing part is integrated into the wall of the pole housing. The motor axis is with reference numerals 6 characterized. On the campsite 5 opposite end face is the pole housing 2 with a one-piece mounting portion 4 provided over which the pole housing can be attached, for example, to a transmission housing.

As 2 can be seen on the outside of the pole housing 2 several ribs 7 molded.

The embodiment according to 3 essentially corresponds to the one after 1 respectively. 2 , but with the difference that in the first embodiment, the permanent magnet 3 segment-shaped, whereas in the example 3 the permanent magnet is circular. The from the magnet 3 outgoing magnetic field lines are directly in the material of the magnet 3 diverted, so that in principle no additional return element is required and possibly also on the addition of magnetically conductive material in the material of the pole housing 2 can be waived.

In the embodiment according to the 4 and 5 has the stator housing 1 a pole housing 2 on, consisting of a plastic with magnetically conductive material. The permanent magnet 3 is on the inner wall of the pole housing 2 injection-molded, it consists for this purpose of a plastic-bonded, injection-moldable material and is in a separate step after completion of the pole housing 2 to the inner wall of the pole housing 2 molded. This has the advantage of having a direct connection between the permanent magnet 3 and pole housing 3 is achieved without additional fastening measures for the permanent magnet 3 to have to provide. The permanent magnet 3 is not in the wall of the pole housing 2 integrated, but is located only on the inside of the wall, wherein the connection is achieved by the process of injection molding the material of the permanent magnet to the inner wall of the pole housing.

Also in the embodiment according to the 6 and 7 is the magnet 3 by injection molding to the inner wall of the pole housing 2 molded. The permanent magnet 3 is circular. The pole housing 2 is made of plastic and is also manufactured by injection molding. In the material of the pole housing magnetically conductive particles can be introduced; if necessary, however, magnetically conductive material is dispensed with, since due to the circular shape of the permanent magnet, a direct inference of the magnetic flux via the magnet itself is achieved.

In the embodiment according to the 8th and 9 is the permanent magnet produced in the sintering process. The permanent magnet 3 is located directly on the inside of the pole housing 2 and is held there without any additional fastening measures. The pole housing 2 expediently consists as in the above-described embodiments of plastic, in the material of the pole housing may optionally be introduced magnetically conductive particles.

The permanent magnet 3 becomes inside the pole housing 2 produced by sintering. To clarify the show 10 and 11 a sintering tool, consisting of a core stamp 8th , a press stamp 9 and a counterpart 10 , The core stamp 8th is in the interior of the pole housing 2 introduced, wherein between the lateral surface of the core punch 8th and the inner wall of the pole housing 2 a segment-shaped annular space for the permanent magnet 3 is released. In this segment-shaped space, the sintered material of the permanent magnet is filled, then the press die 9 axially pressed against the sintered material for compression. The counterpart 10 lies on the outside of the pole housing 2 at.

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

• - WO 2006/039381 A2 [0002, 0002]

Claims (15)

Method for producing the stator housing of an electric motor, preferably for an auxiliary unit in a motor vehicle, wherein the stator housing ( 1 ) a pole housing ( 2 ) made of plastic and at least one magnet ( 3 ), wherein the pole housing ( 2 ) is produced by injection molding or pressing, characterized in that for the pole housing ( 2 ) at least partially magnetically conductive plastic or plastic is used with magnetically conductive material. Method according to claim 1, characterized in that the magnet ( 3 ) during the injection molding process for producing the pole housing ( 2 ) in the material of the pole housing ( 2 ) is embedded. Method according to claim 1 or 2, characterized that magnetically conductive metal particles in the plastic are included. Method according to one of claims 1 to 3, characterized in that by the addition of magnetically conductive material, the pole housing ( 2 ) has an expansion coefficient which corresponds at least substantially to the expansion coefficient of the magnet. Method according to one of claims 1 to 4, characterized in that the at least one magnet ( 3 ) only after embedding in the pole housing ( 2 ) is magnetized. Method according to one of claims 1 to 5, characterized in that the magnet ( 3 ) is formed as a ring magnet, in the plastic of the pole housing ( 2 ) is embedded. Method according to one of claims 1 to 6, characterized in that the magnet ( 3 ) is formed as a magnetic segment, which in the plastic of the pole housing ( 2 ) is embedded. Method according to one of claims 1 to 7, characterized in that at least one of the magnets ( 3 ) associated flux guide by way of injection molding or pressing process in the wall of the pole housing ( 2 ) is embedded. Method according to one of claims 1 to 8, characterized in that at least one storage location ( 5 ) for an armature shaft by way of the injection molding or pressing process in the wall of the pole housing ( 2 ) is formed. Method according to one of claims 1 to 9, characterized in that only partially magnetically conductive material in the plastic of the pole housing ( 2 ) is introduced. Method according to claim 10, characterized in that the sections of the pole housing ( 2 ), which contain magnetically conductive material, have a greater wall thickness than the sections without magnetically conductive material. Method for producing a stator housing of an electric motor, in particular according to one of Claims 1 to 11, preferably for an auxiliary unit in a motor vehicle, the stator housing ( 1 ) a pole housing ( 2 ) and at least one magnet ( 3 ), characterized in that the magnet ( 3 ) consists of a plastic-bonded, pressable or injection-moldable material and to the inner wall of the Polgehäuses ( 2 ) is pressed or injected. Method for producing a stator housing of an electric motor, in particular according to one of Claims 1 to 11, preferably for an auxiliary unit in a motor vehicle, the stator housing ( 1 ) a pole housing ( 2 ) and at least one magnet ( 3 ), characterized in that the magnet ( 3 ) is produced in the sintering process, wherein the sintering process directly in the pole housing ( 2 ) and the magnet ( 3 ) during sintering against the inner wall of the pole housing ( 2 ) and connected to the inner wall. Stator housing of an electric motor, preferably for an auxiliary unit in a motor vehicle, with a pole housing ( 2 ) made of plastic, in which at least one magnet ( 3 ), characterized in that the plastic of the pole housing ( 2 ) is at least partially magnetically conductive or magnetically conductive material is contained in the plastic. Stator housing of an electric motor, preferably for an auxiliary unit in a motor vehicle, with a pole housing ( 2 ) made of plastic, in which at least one magnet ( 3 ), characterized in that the magnet ( 3 ) consists of a plastic-bonded, injection-molded or pressable material.