DE1750798B1 - Magnetic storage - Google Patents

Description

I 750

The invention relates to a magnetic bearing in which the rotating bearing part in the magnetic field of a Pull magnet runs.

Magnetic bearings are used when the use of plain or roller bearings has difficulties prepares, for example at extremely high speeds. With magnetic bearings, the to be fixed rotating body held in its position by magnetic field forces.

Opposite electromagnets, which generate repulsive forces with the help of equally magnetized poles, show Pull magnets have the fundamental advantage. that they are essential for generating certain bearing forces get by with a smaller electrical flow. This depends on the cheaper design of the magnetic Body together and on the other hand requires a position-dependent current control of the magnet. However, there are instabilities even with magnets with repulsive forces transverse to the main force direction occur, it is also not possible there without the application of control measures. This means, that at least in one direction a pull magnet arrangement with position-dependent current control must be applied; the total effort is therefore significantly higher than in the case of a pull magnet mounting.

The basic structure of a magnetic bearing of the claimed type is shown in FIG. He shows the storage of a rotating body 10 for the detection of all radial degrees of freedom Minimum number of three pull magnets U, 12 and 13 required per bearing point, offset by 120 " are arranged.

A-Is magnets can be used in E or U arrangements will. In general, preference will be given to the E core, as this is due to the flow division A lower yoke height and a more favorable use of the changing room is achieved on two legs will.

Considering one shown in FIG Bearing pin 10 shows that its volume elements change in magnetization during rotation because they are penetrated by a magnetic field only under the poles of the pull magnets.

This alternating magnetization induces rotational voltages that are finite at electrical conductivity cause eddy currents and thus losses. These losses can in particular at high speeds to inadmissibly high thermal loads on the shaft as well as to a lead to a significant deterioration in the efficiency of the overall arrangement.

The object of the invention is therefore to propose a measure that eliminates the disadvantages mentioned be fixed, so that high-speed waves - z. B. for centrifuges - or gyro drives loss- and can be stored with little maintenance.

The invention is characterized by an at least partial sheet metal covering of the rotating bearing part in such a way that the sheet metal layering between the poles of the magnet is essentially radial and in the region of the poles runs essentially in the axial direction, the magnetic flux only in each case overcomes two butt joints.

A significant reduction in losses could already be achieved by conventional sheet metal plating rotating part are brought about similar to a rotor of an electrical machine. These The simple type of sheet metal, however, has a considerably higher flow requirement for the magnetic Circle result, since the magnetic flux in the rotating part of the magnetic bearing is essentially runs transversely to the sheet metal direction and thus the insulation gaps of the laminated core must overcome. The sheet metal cuts of the exciter magnets must be adapted to the increased flow requirement, so that the result is a construction that is too large and too heavy for many applications.

These disadvantages do not occur with the invention, and the bearing is suitable for very high speeds in spite of its simple construction. Due to the inventive design of the magnetic bearing a substantial reduction of the iron loss is achieved compared to the massive rotor body without the need for flooding of the magnetic Krei- i ses is increased.

In a special embodiment of the invention it is proposed that the butt joints have such a Form an angle to the bearing axis that the bearing surface area located in the area of the poles or half the bearing surface area represents the projection of the joint surface onto the bearing surface. With such a configuration of the rotating bearing body, the Eisenveram are held.

F i g. 2 shows a section through a rotor of a magnetic bearing laminated according to the invention. On a rotor shaft 14, the sheet metal layer 15 has the Rotor with axially extending metal sheets between poles 16 and 17 of an electromagnet not shown further in cross section the shape of an isosceles trapezoid, with the sheet length with decreases with increasing diameter. Below the poles 16 and 17 are essentially in cross section triangular laminated cores 18 and 19 adjoining the trapezoidal laminated core 15. the sheets of which run radially to the shaft axis.

Claims (2)

Patent claims: 1. Magnetic storage in which the rotating bearing part is in the magnetic field of a pull magnet runs, characterized by an at least partial lamination of the rotating bearing part in such a way that the sheet metal layering (15, 18 and 19) between the poles (16, 17) of the magnet essentially in the radial direction and in the region of the poles essentially in the axial direction runs, whereby the magnetic flux overcomes only two butt joints. 2. Magnetic mounting according to claim 1, characterized in that the butt joints form such an angle to the bearing axis that the bearing part surface located in the region of the poles or half the bearing part surface represents the projection of the joint surface onto the bearing part surface.