SU1027782A1 - Apparatus for magnetization and heat treatment of multipole magnets - Google Patents

Abstract

A MAGNETIZING AND HEAT MAGNETIC TREATMENT OF MULTIOLUS MAGNETS device containing a current source and current-carrying rods installed parallel to the axis of the processed magnet, characterized in that, in order to modify the magnetic properties of the magnets, it is equipped with additional rods, which are set by the walls of a man’s open-skinned shamps, which are used by the shafts, which can be used by the masters to make their own the ratio of the cross-sectional areas of the additional and main rods is 3:10, and the additional rods are connected to the current source in such a way that ... there are currents in them It is opposite currents in the core rods.

Description

The invention relates to the production of permanent magnets and could be used in the manufacture of multi pole electric mic rotors. A device for magnetizing and thermomagnetic processing of multipole magnets, containing current-carrying windings arranged parallel to the axis of the magnet, and the magnetic core of a ferromagnetic material. The disadvantages of this device include the low magnetization of the machined magnet. The closest to the proposed technical essence and the achieved result is a device for magnetizing and thermomagnetic processing of multi-pole magnets, containing a current source and current-carrying rods mounted parallel to the axis of the magnet 2 being machined. The disadvantages of this device include the low level of magnetic properties of the treated magnets, due to the insufficient curvature of the field lines created in the body of the magnet; The purpose of the invention is to increase the magnetic properties of the magnets. To achieve this goal, a device for magnetizing and thermomagnetic processing of multi-pole magnets, containing a current source and current-carrying rods installed parallel to the axis of the machined magnet, is provided with additional rods installed on both sides of each of the main rods, while the ratio of cross-sectional areas of additional magnets , and the main rods is 3:10, and the additional rods are connected to the current source in such a way that the tones in them are directed opposite to the currents in the main pins. xx Figure 1 shows the proposed device, the section in Figure 2 is the same, with the optimum ratio of the cross-sectional areas of the rods, an even variant. (Crosses and dots show the directions of the currents in the conductors, i.e. rods; fig. The distribution of the field in the device shown in Fig. 2, for example, is yes and the magnet is heated above the Curie point. The device consists of a current source (not shown), processed by a multipole, in particular, four pole round magnet 1, and ground current-carrying rods 2 located on the borders of the poles m gnits, and additional rods 3. Rods 2 and 3 are interconnected and with a current source in such a way that currents in adjacent rods x 2 have opposite directions, and currents in both rods x 3 adjacent to any rod 2 are oppositely directed current. The magnitude of the current in any of the rods is proportional to the area of its cross section, with the ratio of the cross-sectional areas of additional and main rods being 3:10. The device works as follows. Intended for magnetization or thermomagnetic treatment, the magnet is moved into the working volume of the device as shown in FIG. To the main 2 and additional 3 rods, at the same time a constant or pulsed current of the required size and polarity is supplied to the ones and others from the current source. After magnetization or thermomagnetic treatment, the magnet 1 is removed from the device. The introduction of additional rods located close to the main rod and to the magnet, with currents directed opposite to the current of the main rod, pushes the ends of the field lines back into the body of the magnet, increasing the overall curvature of these lines, and therefore their length. This makes it possible to increase the effective magnet length and the magnetic properties of the manufactured magnets, i.e. more fully utilize the possibilities of the used hard magnetic material. The current in the additional rods, and hence their cross section, must be less than the current and the cross section of the main rod, otherwise the additional rods will become the main ones, which will lead to a change in the polarity of the poles. In addition, the cross section of additional rods should not be too small, otherwise the positive effect of their introduction will disappear. The best option is when the cross sections of two additional rods are approximately 30% of the cross section of the main rod, the latter occupying an arc equal to about half of the pole division (Fig. 2X) The proposed device allows for increasing the magnetic properties of multipole magnets due to providing greater curvature and length of lines of force in their body.

Claims (1)

DEVICE FOR MAGNETIZATION AND THERMOMAGNETIC PROCESSING MUCH OF LUCES OF MAGNETS, containing a current source and current-carrying rods mounted parallel to the axis of the magnet being processed, characterized in that, in order to increase the magnetic properties of the magnets, it is equipped with additional rods mounted on both sides of the main rods, while the ratio of the cross-sectional areas of the additional and main rods is 3:10, and the additional rods are connected to the source! ” current in such a way that. currents in them are directed opposite to the currents in the main rods. Fig 1