DE4328774A1 - Magnet arrangement for an electrical machine - Google Patents

Abstract

A magnet arrangement for an electrical machine is specified, in the case of which the winding (10) runs in a first plane and in the case of which pole elements (12) are provided at a distance from one another in two planes at right angles to the first plane. The pole elements (12) are designed to have an essentially U-shaped cross-section, the transversely running winding (10) passing through their hollow interiors (14). A slot screen (20) is inserted between the winding (10) and the respective pole element (12). This slot screen (20) has an essentially U-shaped cross-section and consists either of soft-magnetic powder composite material or of soft-magnetic laminates which lie in a plane at right angles to the longitudinal direction of the winding (10). <IMAGE>

Description

The invention relates to a magnet arrangement for an electri cal machine in which the winding is in a first plane runs and with the pole elements spaced from each other in second levels, perpendicular to the first level are, the pole elements substantially U-shaped Cross-section are formed and their hollow interiors by the transverse winding are interspersed.

Such magnet arrangements for electrical machines are in different versions are known and are for example at Transverse flux machines or electrical machines of the Same pole design used, where it is desirable to have a  to achieve small pole pitch. For this purpose, a Design used in which the winding is not transverse, but runs parallel to the direction of movement of the rotor. At Ra dial flow machines and axial flow machines, so-called Schei benläufer machines, the winding then runs in circumference direction.

Such machines are for example from the DE 37 05 089 C2 known.

In such machines, the measure for the power generation runs usual magnetic flux only as long in the longitudinal plane of the Machine until it has left the respective stator tooth and in the back area in the axial or radial direction winding is performed.

To this magnetic flux at higher magnetic reversal The soft iron soul becomes low-loss elements of the stator usually made of laminated materials built up because these are characterized by low magnetic reversal mark losses. In particular are in this together Hang cut cores, toroidal cores or punched rings with an applied conclusion.

The situation is shown schematically in Fig. 1 of the drawings, in which one can see a winding 10 which extends perpendicular to the plane of the drawing through a pole element 12 , which is formed by the sheet metal lamellae of a cutting tape core for example. The winding 10 sits in a hollow inner space 14 of a U-shaped pole element and generates a magnetic main field B _H , which is schematically indicated by the arrows 18 , by the electrical current I _W flowing perpendicular to the plane of the drawing. However, a transverse groove field B _{N is also} formed in the interior 14 , which is indicated schematically by the arrows 16 .

In such designs, a transverse slot field B _N thus occurs in the interior 14 , which grows outwards from the inside of the slot and produces a skin effect in the conductors of the winding 10 . Through this transverse groove field, eddy currents are generated at least in the "perpendicular" edge regions of the groove, based on the selected drawing, which result in undesired heating, in particular at higher magnetic reversal frequencies of laminated pole elements of the stator.

The invention is therefore based on the object of a magnet to specify arrangement for an electrical machine in which this transverse groove field with low losses ge even at high frequencies can be performed to ver heating the pole elements avoid.

The solution according to the invention consists of a magnet arrangement tion of the type mentioned in such a way that between a slot screen with the winding and the respective pole element is used essentially U-shaped cross section made of soft magnetic powder composite or soft magnetic slats, which are perpendicular in one plane to the longitudinal direction of the winding.

With the arrangement according to the invention the task in solved peacefully, because the grooved screen prevents the penetration of the transverse groove field into the surrounding pole element of the stator.

The grooved screen preferably consists according to the first alternative tive made of soft magnetic powder composite, which in all three spatial axes electrically isolated. According to the second age A laminated material is also native for these purposes is suitable, provided the essentially U-shaped sheets in Um direction of the machine are layered and thus a rotated by 90 ° with respect to the stator teeth or pole elements Have laminations.  

The powder composite material has a degree of freedom more to collect the leakage flux in the slot screen, however a laminated embodiment is quite sufficient Effect for the main scattering components and offers better field guidance. With this grooved umbrella is thus in advantageously achieved that the leakage flux of the Nutquer field circulates in the slot screen and not to the outside in the respective cutting tape core of the pole element emerges.

In a further development of the arrangement according to the invention, it is provided hen that the slot screen in the space between the wick tion and the recess in the pole element and so in its thickness is such that it remains in the slot screen Magnetic stray flux below the magnetic seed is lying. The dimensioning depends on the current and field load.

In a further development of the magnet arrangement according to the invention provided that the grooved screen was at the front ends ner thigh a material thinning, especially one of has a bevel pointing away from the winding. With that, in advantageously achieved that entry of the main Field is difficult in the slot screen, so that in essence Chen only the cross groove field is collected in the groove screen.

With such a design of the magnet arrangement, it proves proved to be useful if the bevel is opposite the Longitudinal extension of the legs of the slot screen at an angle forms that is less than 60 °, in particular less than 45 ° is.

In most cases it is useful if the slot screen in the longitudinal direction of the winding is the same Has longitudinal dimensions like the respective pole element and is flush ends with the end faces of the pole element. Thereby  there is a particularly compact design with smooth Surfaces.

With an alternative design, however, it may be desirable that the in the recess of the respective pole element slot screen partially set the end faces of the pole element overlaps to the stray field of the groove cross field in reliably engaging way.

With a special design of the arrangement according to the invention it is provided that the slot screen in the form of a yoke ring is formed with a substantially U-shaped cross section, the back of which runs continuously in the longitudinal direction of the winding is trained and the outside next to his legs has set pole elements that adjoin the legs and are spaced in the longitudinal direction of the winding. At the This design is then the yoke ring practical as a carrier for the respective pole elements or stator teeth are formed.

Finally, it turns out to be useful if he arrangement according to the respective pole elements as Ribbon cores, toroidal cores or punched rings, given are designed with an attached yoke.

The invention is set out below with respect to others Features and advantages, based on the description of exec example and with reference to the enclosed Drawings explained in more detail. The drawings show in

Figure 1 is a schematic cross section through the wesentli Chen components of a magnet assembly with a winding transverse to a U-shaped pole element.

Fig. 2 is a schematic representation for explaining a first embodiment of the magnetic arrangement according to the invention;

FIGS. 3 and 3a is a schematic diagram for explaining a second embodiment of the magnet assembly according to the invention; and in

Fig. 4 is a schematic representation of a third embodiment of the magnet arrangement according to the invention.

Fig. 1 shows schematically the structure of a magnet arrangement for an electrical machine, in which a winding 10 runs in a first plane and in which a pole element 12 is provided in a second plane, perpendicular to the first plane, the pole element 12 essentially with U-shaped cross section is formed and is penetrated in its hollow interior 14 by a transverse winding 10 .

Starting from such an arrangement, a first embodiment of the magnet arrangement according to the invention is shown in FIG. 2, in which a pole element 12 is provided in a U-shaped design. This can be, for example, a cutting tape core, ring tape core or a punched ring. In the interior 14 of this pole element 12 can be seen a schematically illustrated winding 10 , the turns of which are only schematically indicated and the number of which is chosen according to the intended use. Between this winding 10 and the pole element 12 one can see in the recess 14 a substantially U-shaped slot screen 20 , which in this embodiment consists of a soft magnetic powder composite material, which electrically insulates axes in the direction of all three space. This grooved screen 20 has an essentially U-shaped cross section and, in this embodiment, is flush with the end faces of the pole element 12 . At the front ends of the legs of the Nutschir mes 20 bevels 22 are drawn, which extend away from the outer surface of the winding to the legs of the Polelemen tes 12 to prevent the entry of the main magnetic field into the slot screen 20 or at least to complicate ren.

A similar embodiment is shown in Figs. 3 and 3a Darge. The difference to the embodiment according to FIG. 2 is that it is a grooved screen 20 made of a plurality of laminated lamellae 24 which have legs 28 which are provided with the bevels 22 already mentioned on the end face. It is important in this context that the lamellae of this U-shaped grooved screen are stacked in the circumferential direction of the electrical machine and have a sheet metal that is rotated by 90 ° with respect to the sheet metal of the pole elements or stator teeth. In this context, the bevels 22 already described are very important, since they make it difficult for the main field to penetrate into the slot screen 20 . In Fig. 3a of the drawings, this grooved screen 20 is shown schematically in an enlarged manner.

Another design is finally shown in FIG. 4. The slot screen 20 is in the form of a yoke ring 26 with a substantially U-shaped cross section and consists of a soft magnetic powder composite material. The back of this yoke ring 26 runs continuously in the longitudinal direction of the winding 10 . The winding 10 is received between the legs 28 of the slot screen 20 . On the outer side next to the legs 28 , pole elements 12 are attached which adjoin the legs 28 and which are spaced apart in the longitudinal direction of the winding. Otherwise, this design of the slot screen is designed in the same way as the embodiment described with reference to FIG. 2.

Claims (8)

1. Magnet arrangement for an electrical machine, in which the winding ( 10 ) runs in a first plane and in which the pole elements ( 12 ) are provided at a distance from one another in second planes, perpendicular to the first plane, the pole elements ( 12 ) essentially are formed with a U-shaped cross-section and their hollow interiors ( 14 ) are penetrated by the transverse winding ( 10 ), characterized in that between the winding ( 10 ) and the respective Polele element ( 12 ) a slot screen ( 20 ) with in essential U-shaped cross section is used, which consists of soft magnetic powder composite or soft magnetic lamella len, which are in a plane perpendicular to the longitudinal direction of the winding ( 10 ). 2. Arrangement according to claim 1, characterized in that the slot screen ( 20 ) sits in the space between the winding ( 10 ) and the recess in the pole element ( 12 ) and is dimensioned in such a thickness that that in the slot screen ( 20 ) magnetic stray flux is below the magnetic saturation. 3. Arrangement according to claim 1 or 2, characterized in that the slot screen ( 20 ) at the front ends of its legs ( 28 ) has a material thinning, in particular a beveling ( 22 ) pointing away from the winding ( 10 ). 4. Arrangement according to claim 3, characterized in that the bevel ( 22 ) relative to the longitudinal extension of the legs ( 28 ) of the slot screen ( 20 ) bil det, which is less than 60 °, in particular less than 45 °. 5. Arrangement according to one of claims 1 to 4, characterized in that the slot screen ( 20 ) in the longitudinal direction of the winding ( 10 ) has the same longitudinal dimensions as the respective pole element ( 12 ) and flush with the end faces of the pole element ( 12 ) completes. 6. Arrangement according to one of claims 1 to 4, characterized in that the slot ( 20 ) inserted into the recess ( 14 ) of the respective Polelemen tes ( 12 ) partially overlaps the end faces of the pole element. 7. Arrangement according to one of claims 1 to 6, characterized in that the slot screen ( 20 ) is designed in the form of a yoke ring ( 26 ) with a substantially U-shaped cross section, the back of which is continuously formed in the longitudinal direction of the winding ( 10 ) and which has pole elements ( 12 ) which are attached on the outside next to its legs ( 28 ) and which adjoin the legs and are spaced apart in the longitudinal direction of the winding ( 10 ). 8. Arrangement according to one of claims 1 to 7, characterized, that the respective pole elements as cutting tape cores, Toroidal cores or punched rings, if necessary with put on conclusion are formed.