DE102014218542A1 - Bearing stator for axial magnetic bearings - Google Patents

Abstract

The present invention relates to a stator (01) comprising an annular electric sheet assembly having a plurality of circumferentially arranged juxtaposed electrical sheets (02). It is essential to the invention that the electrical sheets (02) have a profiling (03), wherein adjacent electrical sheets (02) abut one another at least in sections. Furthermore, the invention also relates to an axial magnetic bearing comprising such a stator (01) and at least one annular coil which is incorporated in the electrical sheet arrangement of the stator (01) for generating a magnetic field in the electric sheet assembly.

Description

Field of the invention

The present invention relates to a stator, in particular for an axial magnetic bearing.

Background of the invention

Active axial magnetic bearings consist of two stators, which are designed as annular electromagnets. Between the electromagnets a disc of soft magnetic material is arranged, which is fixedly connected to the axially to be supported shaft. Both electromagnets close to the disc each have a magnetic circuit, via which a force is applied to the disc. By suitable control of the electromagnets, the disc can be held at a defined axial position between the electromagnets. In this way, the shaft can be axially supported without contact.

In the past, the stators usually consisted of a stator core of soft magnetic solid material, in the groove of an annular coil is introduced. A disadvantage of this massive design is that when field changes eddy currents in the stator core arise that delay the field change due to their generated opposing field. This complicates the controllability of the axial magnetic bearing, in particular with dynamic loads. To eliminate this adverse effect, it is known to perform the iron core in electric motors laminated, thereby reducing the eddy currents. The use of flat statures for axial magnetic bearings can also be taken from the prior art.

The DE 691 03 756 T2 shows a magnetic thrust bearing whose stator and rotor components have a laminated construction. The Lammellenbleche are curved such that their tips lie in a common cylindrical plane. Adjacent side edges of the lamination plates are also in common planes, which are arranged perpendicular to the axis of rotation. Due to the curvature of the tips of the laminations, the gap between adjacent laminations can be reduced.

The WO 2012/136452 A1 describes a thrust bearing device with an annular electrical sheet assembly in which the individual sheets protrude radially outward. Within the electrical sheet assembly is a coil for generating a magnetic field in the electrical sheet assembly. The electrical sheet assembly comprises at least two concentric electrical steel rings. All adjacent electrical sheets of each electrical steel ring abut each other on the inner circumference of the respective electrical steel ring, resulting in an increased iron filling. By using multiple electrical steel rings increases the manufacturing and assembly costs.

Summary of the invention

The object of the present invention is to provide a laminated stator, in particular for an axial magnetic bearing, which has a high iron filling factor and at the same time is inexpensive to manufacture and assemble. Furthermore, it is intended to provide an axial magnetic bearing with improved efficiency.

To solve the object of the invention, initially a stator is used according to the appended claim 1. The stator according to the invention comprises an annular electrical sheet assembly having a plurality of circumferentially juxtaposed electrical sheets. It is essential to the invention that the electrical steel sheets have a profiling. Adjacent electrical sheets are at least partially adjacent to each other.

By the use according to the invention of profiled electric sheets, the electric sheets can be stacked more densely, whereby the unusable air space between the electric sheets is reduced. A reduction in unusable airspace is accompanied by an increase in the iron filling factor. An increased iron filling factor in turn has a positive influence on the tensile force of an axial magnetic bearing equipped with such a stator, since the proportion of iron material at the air gap between the disk and the stator is incorporated directly into the load capacity of the axial magnetic bearing.

Another advantage of the solution according to the invention is the fact that it allows a relatively low-cost production and assembly. For the production of the stator, only a corresponding number of similar profiled electrical sheets must be made available, which are lined up in the circumferential direction to form an annular stator to each other. When juxtaposing the profiles of adjacent electric sheets engage at least partially in one another, which they can not easily solve each other without additional connecting means.

According to a preferred embodiment, the electrical steel sheets have a uniform profiling. As appropriate, a profiling has proven with a sawtooth-shaped cross-section. Alternatively, of course, other profiles, for example with wavy, in particular sinusoidal, or trapezoidal cross-section possible. The profiling should be chosen so that the smallest possible, unusable air space between the juxtaposed electrical sheets is formed.

The use of a filler introduced into the electrical sheet arrangement with a recess accessible from the outside for passing through leads has proved to be advantageous. The filler is driven in a final assembly step in the laminated core. By means of filler, the connection lines can be led out of the stator with little effort. In alternative embodiments, the filler can be dispensed with. In this case, the recess needed to pass through the leads would be drilled directly into the stator.

The electrical sheets are preferably provided with an insulating layer. Due to the insulating layer occurring eddy currents are minimized compared to the eddy currents occurring in stators made of solid material.

In an advantageous embodiment, the electrical steel sheets have grooves for receiving at least one annular coil.

The axial magnetic bearing according to the invention comprises the described stator and at least one annular coil, which is introduced into the electrical sheet arrangement of the stator for generating a magnetic field in the electrical sheet assembly.

The cavities between the electrical sheets are preferably filled with a potting compound. The use of a potting compound with ferromagnetic properties has proved to be particularly advantageous. This preserves the increased ferromagnetic effect due to the increased iron filling factor. By means of potting the individual electrical sheets are stabilized with each other, whereby a possible noise due to vibrations of the individual electric sheets is prevented. The potting compound also serves to electrically insulate the coil in the stator.

Short description of the drawing

Preferred embodiments of the invention will be explained in more detail with reference to the accompanying figures. Show it:

1 a perspective view of a portion of a stator according to the invention;

2 a perspective view of an electric sheet;

3 a partial view of a profile with wavy cross-section;

4 two perspective views of a filler;

5 two perspective views of a portion of the stator with mounted filler;

6 two views of the stator according to the invention.

Detailed description of the drawing

1 shows a perspective view of a portion of a stator according to the invention 01 , The stator 01 should be used in particular for axial magnetic bearings. It consists of a plurality of circumferentially juxtaposed electrical sheets 02 , The electric sheets 02 are each with a similar profiling 03 Mistake. The strung together electrical sheets 02 have circumferential grooves 04 for receiving at least one annular coil (not shown). Adjacent electrical sheets 02 are at least partially together. The profiling 03 should be chosen so that adjacent electrical sheets 02 abut each other in as many places as possible. In this way, the unusable air space between the electrical sheets 02 be minimized and thereby the Eisenfüllfaktor be increased.

2 shows a perspective view of an electric sheet 02 , In the embodiment shown, the electrical sheet has 02 a profiling 03 with a wave-shaped cross section. A defined number of aligned electrical sheets 02 gives a full circle. About the angle α (see 3 ) of the shaft profile, the stator outer diameter can be influenced. The following applies: Stator outer diameter = circumference of s _p · number of electrical sheets Stator inner diameter = circumference of s _r · number of electrical sheets with s _r = real plate thickness and s _p = projected plate thickness.

By adjusting the angle α, the projected plate thickness can be varied. This also changes the specific pitch angle of an electric sheet 02 existing stator segment. At the in 3 embodiment shown, the angle α = 30 °. At the stator inner diameter, the stack height corresponds to the real sheet thickness s _r . With a real plate thickness s _r of 0.35 mm, the stack height at the stator inner diameter would thus also be 0.35 mm. At the stator outer diameter, the stack height is in the illustrated embodiment, due to the deformation (wave profile) 0.7 mm. This value is called projected sheet thickness s _p . By packaging a variety of electrical sheets 02 - In the illustrated embodiment, about 2100 electrical sheets 02 needed - results in a circular ring.

The electric sheets 02 are provided with an insulating layer, whereby during operation of the stator 01 occurring eddy currents can be minimized.

After the individual electric sheets 02 can be packaged for the production of the laminated stator core, in a final assembly step, a so-called filler 05 be driven into the stator lamination.

4 shows two perspective views of such a filler 05 , The illustrations can be seen that the filler 05 also a profiling 03 and grooves 04 having.

5 shows two perspective views of a portion of the stator 01 with mounted filler 05 , The filler 05 consists of a preferred embodiment of solid material and is preferably made by a cutting process. Depending on the batch size, the filler can 05 also be produced by selective laser sintering. Alternatively, a filler of several individual sheets is possible. The filler 05 has an externally accessible recess 07 for passing connecting leads to supply the in the groove 04 located on annular coil.

In modified embodiments may be applied to the filler 05 also be waived. In this case, the recesses needed to pass the leads would go directly into the stator 01 be bored.

5 shows two different views of the stator according to the invention 01 , Above is the rotor side of the stator 01 while the connection side is shown below.

LIST OF REFERENCE NUMBERS

01

stator

02

electrical sheets

03

profiling

04

groove

05

filling

06

07

recess

α

Angle of the wave profile

s _r

real sheet thickness

s _p

projected plate thickness

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 69103756 T2 [0004]
• WO 2012/136452 Al [0005]

Claims (9)

Stator ( 01 ) comprising an annular electric sheet arrangement with a plurality of circumferentially juxtaposed electrical sheets ( 02 ), characterized in that the electrical sheets ( 02 ) a profiling ( 03 ), wherein adjacent electrical sheets ( 02 ) abut each other at least in sections. Stator ( 01 ) according to claim 1, characterized in that the electrical sheets ( 02 ) a uniform profiling ( 03 ) exhibit. Stator ( 01 ) according to claim 1 or 2, characterized in that the electrical sheets ( 02 ) a profiling ( 03 ) having a wavy, sawtooth or trapezoidal cross-section. Stator ( 01 ) according to one of claims 1 to 3, characterized in that it has a filler introduced into the electrical sheet assembly ( 05 ), and that the filler ( 05 ) an externally accessible recess ( 07 ) for passing through leads. Stator ( 01 ) according to one of claims 1 to 4, characterized in that the electrical sheets ( 02 ) have an insulating layer. Stator ( 01 ) according to one of claims 1 to 5, characterized in that the electrical steel sheets ( 02 ) Grooves ( 04 ) for receiving at least one annular coil. Axial magnetic bearing comprising a stator ( 01 ) according to one of claims 1 to 6 and at least one annular coil, which in the electrical sheet arrangement of the stator ( 01 ) is introduced for generating a magnetic field in the electrical sheet assembly. Axialmagnetlager according to claim 7, characterized in that the cavities between the electrical sheets ( 02 ) are filled with a potting compound. Axialmagnetlager according to claim 8, characterized in that the potting compound has ferromagnetic properties.

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