DE3607452A1 - Stator for an electric motor - Google Patents

Abstract

A stator (1) (Figure 1) for a stepping motor or a synchronous motor consists essentially of an iron-powder/plastic mixture, the iron powder being distributed inhomogeneously and being concentrated especially in the pole teeth (3) and the magnetic return paths (10). During production, this can be brought about by the external influence of a suitably directed magnetic field as long as the iron-powder/plastic mixture can still be deformed. In addition, as a combination measure, outlet openings for iron powder and/or a mixture of plastic and iron powder which is greatly enriched with iron powder and, in the remaining region, outlet openings for plastic which is at least largely free of iron powder can be provided in a suitable form for accommodating the iron-powder/plastic mixture in the region of the pole teeth (3) and the magnetic return paths (10). A complete stator (1) which at the same time essentially also forms the motor housing, may consist of three main parts. <IMAGE>

Description

The invention relates to a stator for an electric motor, especially for a synchronous motor or stepper motor that essentially be from an iron powder-plastic mixture stands.

For example, a common stator for stepper motors exists from at least four sheet metal parts that form polar ring shells, into which ring coils are used during assembly. The Her Positioning such a stator requires a comparatively large number and also complex operations.

There are also stators of the type mentioned be knows where art mixed with iron powder material is used. However, this has the disadvantage that even outside the intended magnetic flux range in un desirable magnetic conductivity is present. To avoid this, a multi-part version of the Stator made of different materials necessary, however the manufacturing and assembly costs would in turn be increased.

The object of the present invention is to provide a stator to create the kind mentioned above, which is particularly simple and is quick to manufacture and assemble and only from a few Sharing. The properties regarding the magnetic conductivity distribution with those of one Stator made of sheet metal parts can be compared.  

To solve this problem, the invention in particular suggested that the iron powder wholly or predominantly in the pole teeth and the magnetic yoke areas is concentrated. So the magnetic conductivity is concentrated there, wherever it is desired, while in other areas the magnetic conductivity due to at least a lower one Iron powder concentration is reduced. Through this inhomo The stator can distribute the iron powder in the plastic areas that have different magnetic conductivities should have, be made from one piece, so that the production is significantly simplified.

One embodiment provides that one for each motor phase one-piece stator part with staggered facing Pole teeth or tooth areas and an open to the outside Baby changing room is provided, made of areas with iron powder interspersed side flanges is limited to the inside facing the changing room, at least largely iron are powder-free.

This one-piece stator part forms at the same time also a winding body for a ring coil, so that opposite the previous design of a (can) stepper motor with three Main parts only required for a stator phase is.

According to a development of the invention, in addition to the pole teeth and inference areas with increased iron powder concentrations tration areas with lower iron powder concentration or areas free of iron powder are provided especially in the winding body, in end shields and the like, a junction box and the like. So you can too such housings located next to the actual stator parts of the motor in one piece in the manufacture of the stator be molded on. This is also the manufacturing and Installation effort significantly reduced.

According to one embodiment of the invention, the one-piece  Stator part as an open ring on the outer circumference with an approximately U-shaped Cross-section may be formed, with zones as stator teeth higher iron powder concentration next to areas with too at least a reduced iron powder concentration is provided. There are no shaped stator teeth here, but there each because there are only zones of increased iron powder concentration. Through this training, the corresponding mold in be simple in this area.

The stator expediently has an outer jacket, which is preferably formed by a metal sleeve, the outside areas of the stator body or bodies with increased iron powder con center touches. Through this sleeve is for the emergency agile external, magnetic conclusion and also it forms an outer cover protecting the coils. Finally, the connection of several stator bodies.

The invention also relates to a method for producing a essentially be from an iron powder-plastic mixture standing stator teeth with stator for electric motors. This method is particularly characterized in that when forming the stator from a plastic mass and iron powder or the like. the iron powder at least in the area of the pole teeth with the help of a magnetic field during the hardening phase is concentrated. Due to the influence of a magnetic field the iron powder in the areas where there is increased magnetic Conductivity is desired to be concentrated while at areas are kept largely free of iron powder. After further training this procedure is in the molding area for the pole teeth for magnetic conclusions and the like Entered iron powder. This results in a special one Embossed concentration of areas of increased magnetic conductivity ability in the desired areas.

The invention also relates to a device for manufacturing a stator for an electric motor. This device is there  characterized in that they have a form for receiving a malleable iron powder-plastic mixture and a mag net arrangement to form a magnetic field with Konzentra areas of the pole teeth, magnetic inferences and the like. The resulting benefits have been already in connection with the manufacturing process as well the stator manufactured afterwards.

Additional embodiments of the invention are in the others Subclaims listed. Below is the invention with its essential details based on the drawing in one Embodiment explained in more detail.

It shows:

Fig. 1 is a longitudinal sectional view of a stator and

FIG. 2 shows a cross-sectional view along the section line II-II in FIG. 1.

An illustrated in Fig. 1 stator 1 simultaneously forms by the inventive construction is also substantially the housing of a stepping motor. The stator of a two-phase stepper motor is shown here, in which four pole rings 2 are seen before. Two pole rings with pole teeth 3 facing each other are provided for one motor phase.

The stator 1 shown in the exemplary embodiment essentially consists of three parts, namely a first stator part 4 with an integrally molded mounting flange 5 , a second stator part 6 with an integrally molded connection box 7 and an outer sheet metal sleeve 8 , which the two stator parts 4 and 6 holds together.

The stator 1 consists essentially of an iron powder-plastic mixture, the iron powder 9 being indicated by dots in the exemplary embodiment for clarity. This dotted representation has also been provided in the area of the sleeve 8 to illustrate the magnetic conductivity in this area, although the sleeve 8 can consist of a sheet metal part.

In FIG. 1 can be clearly seen that the stator 4 and 6 have an inhomogeneous iron powder concentration. Essentially, the iron powder 9 is namely concentrated in the areas of the pole teeth 3 and also in the areas of intended magnetic yokes 10 .

This inhomogeneous distribution of the iron powder 9 can be achieved in the manufacture of the stator parts by external action of a magnetic field, the magnetic field being so directed that correspondingly increased accumulations of iron powder 9 form at the pole teeth 3 and the magnetic inferences 10 . This magnetic effect occurs during the manufacturing process, where the plastic mass is still liquid or deformable. The stator parts according to the invention can be produced in an injection, pressing or casting process. In the injection or pressing process, the shaping can take place under a flow of pressure and heat, while in the Gießver production without substantial temperature increase is provided. There is also the possibility that a multi-component mass with hardener and iron powder is used in the casting process.

Around the part outside the magnetic guiding areas can keep the stator body largely free of iron powder when manufacturing the stator parts in the molding area for the poles teeth and the magnetic inferences insertion channels practical only for iron powder or a mixture with strong iron powder salary may be provided. This will target the iron powder already spent in the places where it is with the finished product is provided. The action of the external magnetic field serves more about this, the iron powder particles in this Be keep rich until the mass has hardened.

The possibility according to the invention of concentrating magnetic guiding areas in the pole teeth and the magnetic inferences gives the possibility of integrally molding housing parts and the like. In Fig. 1 it can be clearly seen that here each stator part 4 or 6 simultaneously forms a winding body 11 with a winding space 13 open to the outside and delimited by side flanges 12 . In these winding spaces 13 , the ring coils not shown here can be wound.

Furthermore, it can be seen that bearing receptacles 14 for rotor shaft bearings are also integrally formed on each stator part 4 and 6 . These storage areas, the inner walls facing the winding space 13 , the mounting flange 5 and also the connection box 7 are free or largely free of iron powder, so that no undesirable magnetic influences are possible or no insulation measures are necessary.

In the embodiment according to Fig. 1 and 2, the stator teeth 3 to form intermediate gaps 15 are formed. However, there is also the possibility that the zones of increased iron powder concentration and the gaps between them with at least reduced iron powder concentration are formed as smooth, continuous and crack-free annular bodies in the stator teeth 3 . In this case, stator teeth 3 would be formed by zones of increased iron powder concentration and the interstice regions 15 by regions with at least reduced iron powder concentration. The tooth structure is no longer recognizable externally, but due to the different iron powder concentrations, the magnetic properties are the same as for spatially shaped pole teeth.

The outer, designed as a sleeve 8 jacket of the stator is on the outer areas of the stator body 4 and 6 with he increased iron powder concentration, so that there is a good transition for the magnetic yoke. In addition, this sleeve 8 also has a holding function, since it connects the two stator parts 4 and 6 to one another. Also, the coils located in the winding rooms 13 are well protected from the outside.

For the stator parts 4 and 6 to be assembled in the correct direction in the direction of rotation, they can have coding projections on their mutually facing end faces, which are optionally also formed as latching projections at the same time. Since the assembly of the stator or the motor is simplified.

If necessary, the stator 1 with its stator parts 4 and 6 can be formed in one piece.

It should also be mentioned that instead of the bearing receptacles 14 , bearing bores can also be provided directly. In this case, it is advantageous if the plastic mass is enriched with a lubricant or lubricant in the area of these shaft bearings.

As already mentioned, the stator or its stator parts under the influence of an external magnet field with which the iron contained in the material mixture powder particles in the pole teeth and the magnetic back conclusions should be concentrated. Especially in station wagons nation with the targeted output of iron powder with low Plastic content in these areas as well as iron output powder-free plastic results in the remaining areas to the desired extent the inhomogeneous distribution of the iron powder in places where magnetic conductivity is desired is.

Overall, the stator 1 according to the invention can be easily produced at the same time with all the essential housing parts and, in particular, can also be quickly assembled due to its small number of individual parts.

All in the description of the claims and the drawing posed features can be both individually and in any Combination with each other be essential to the invention.

Claims (21)

1. Stator for an electric motor, in particular for a synchronous motor or stepper motor, which consists essentially of an iron powder-plastic mixture, characterized in that the iron powder ( 9 ) wholly or predominantly in the pole teeth ( 3 ) and the magnetic yoke areas ( 10 ) is concentrated. 2. Stator according to claim 1, characterized in that the iron powder-plastic mixture in the stator is inhomogeneous and that the iron powder concentration is at least in the region of the pole teeth ( 3 ) greater than in the other stator regions. 3. Stator according to claim 1 or 2, characterized in that for each motor phase an integral stator part ( 4 , 6 ) with mutually facing, offset pole teeth ( 3 ) or tooth areas and an outwardly open winding space ( 13 ) is seen before, which is delimited by side flanges ( 12 ) which are partially set with iron powder and which are largely free of iron powder on the inside, facing the winding area ( 11 ). 4. Stator according to one of claims 1 or 3, characterized in that in addition to the pole teeth ( 3 ) and the yoke areas ( 10 ) with increased iron powder concentration, areas with lower iron powder concentration or iron powder-free areas are provided, which are particularly in the winding body ( 11 ) at end shields ( 5 ) and the like., A junction box ( 7 ) and the like. 5. Stator according to one of claims 1 to 4, characterized in that the stator teeth ( 3 ) are formed and gaps ( 15 ) leave between them. 6. Stator according to one of claims 1 to 4, characterized in that the one-piece stator part ( 4 or 6 ) is designed as an open ring on the outer circumference with an approximately U-shaped cross section, and that as stator teeth ( 3 ) zones he increased Iron powder concentration are seen next to areas with at least a reduced iron powder concentration. 7. Stator according to claim 6, characterized in that in the stator teeth ( 3 ) the zones of increased Eisenpulverkon concentration and the areas in between ( 15 ) with at least reduced iron powder concentration are formed as a smooth, gap-free and projection-free ring body. 8. Stator according to one of claims 1 to 7, characterized records that it for several, preferably two phases is formed in one piece and in the one-piece wall piece an increased iron powder concentration between two phases is provided. 9. Stator according to one of claims 1 to 8, characterized in that the one or more stator parts ( 4 , 6 ) integrally molded bearing holder ( 14 ) and / or end shields and / or mounting flanges ( 5 ) and / or connection chambers ( 7 ) or . Like. Have, which are preferably at least largely powder-free iron. 10. Stator according to one of claims 1 to 9, characterized in that it has an outer jacket, which is preferably formed by a metal sleeve ( 8 ), the outer regions of the stator or bodies ( 4 , 6 ) with increased iron powder concentration. 11. Stator according to claim 10, characterized in that the outer jacket ( 8 ) of the stator is designed as a holder for binding a plurality of stator parts ( 4 , 6 ). 12. Stator according to one of claims 1 to 11, characterized in that in the case of several stator parts ( 4 ) forming the stator ( 1 ) ( 4 , 6 ), these coding projections preferably have on the mutually facing end faces for correct assembly, which are optionally simultaneously formed as latching projections are. 13. A method of making a substantially one Existing iron powder-plastic mixture, pole teeth pointing stator for electric motors, especially after Claim 1, characterized in that when molding the stator from a plastic mass and Iron powder or the like. The iron powder at least in the area the pole teeth with the help of a magnetic field during the off hardness phase is concentrated. 14. The method according to claim 13, characterized in that the stator in an injection, pressing or casting process will be produced. 15. The method according to claim 13 or 14, characterized in that the iron powder in the region of the pole teeth ( 3 ) and Be rich magnetic conclusions ( 10 ) is more concentrated than in the other areas. 16. The method according to any one of claims 13 to 15, characterized in that the iron powder is entered in the molding area for the pole teeth ( 3 ), for magnetic conclusions ( 10 ) and the like. 17. The method according to any one of claims 13 to 16, characterized characterized in that plastic and iron powder by ge separate entry channels is entered. 18. The method according to any one of claims 13 to 17, characterized characterized in that the still in a form liquid or the like. deformable stator an inhomogeneous Magnetic field to form a reinforced iron powder concentration in the area of the later pole teeth, who likes netic conclusions and the like. 19. The method according to any one of claims 13 to 18, characterized ge indicates that when forming the stator in the area of Shaft bearings, the plastic mass with a sliding or Lubricant is enriched. 20. Device for producing a stator in particular Claim 1 and to carry out the manufacturing ver driving in particular according to claim 13, characterized net that they have a shape to accommodate a deformable Iron powder-plastic mixture and a magnet arrangement to form a magnetic field with concentration ranges in the pole teeth, magnetic conclusions and the like point. 21. The apparatus according to claim 20, characterized in that the shape of the later tooth areas and the like openings for iron powder or one strong with iron powder enriched mixture of plastic and iron powder and in the rest of the outlet openings for at least largely has iron powder-free plastic.