SU1138840A1 - Device for magnetizing multipole cylindrical ring magnets - Google Patents

Abstract

CONVERSION FOR MAGNETIZING MULTIPOLUS CYLINDRICAL RING MAGNETS, containing a zigzag winding, characterized in that, in order to improve the quality of magnetization, it is equipped with shielding rings made of an conductive material located in a frame, which are located in a frame, and there are accessories, which are placed in a frame, which is attached to the frame, and the shading rings of an electrically conductive material are placed under the cover, and they are equipped with shading rings made of an electrically conductive material that are attached to the frame, which is attached to the frame, and it is equipped with shielding rings made of electrically conductive material, placed under the cover, and provided with a frame, provided with an anti-drip layer, made of an electrically conductive material, provided with a frame, provided with a lid, an anti-drip ring, made of an anti-conductive layer, made of an electrically conductive material, placed in a frame, provided with a lid, connected with an odd surface, connected with an odd surface. , (L

Description

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IJ The invention relates to a device for magnetizing monopolar magnets of electric machines. A device for magnetization of multi-pole cylindrical or ring-shaped magnets, which is a multi-pole electromagnet, is known. However, the device is not effective for magnetizing high-coercivity materials. Closest to the invention to the technical essence is a device for magnetizing a multi-pole cylindrical ring magnets, containing a zigzag winding zj. However, in the known device, multi-pole magnets are magnetized unevenly due to the influence of the winding frontal parts, which degrades the characteristics of electric machines. The purpose of the invention is to improve the quality of magnetization. This goal is achieved by the fact that a device for magnetizing multipolar cylindrical ring-shaped magnets containing a zigzag winding is equipped with shielding rings of electrically conductive material located in the zone of the frontal parts of the zigzag winding. FIG. 1 shows one of the variants of the device design for the case when multi-field magnetization along the internal surface of the magnet is necessary; in fig. 2 scan this device. The device is designed as a zig zagoobrazny winding 1 (with one turn per pair of poles), on which two massive rings 2 and 3 of electrically conductive material are worn. The rings 2 and 3 are installed between the end parts of the magnet 4 and the edges of the frontal parts of the winding 1, which is separated from the rings 2 and 3 by electrically insulating gaskets 5 and 6. The discharge current to the magnetizing device drives elements 7 on the device ( Fig. 2) shows that the magnitude of the magnetic field during magnetization at points A and C is created by two current elements d 3, and at points B and D by three current elements, since at these points an additional current head element nick magnetic field. This phenomenon leads to the fact that in the left part of the magnet, the south poles are magnetized stronger than the north poles, and in the right part - vice versa. In order to reduce the non-uniformity of magnetization of the magnets, shielding rings 2 and 3, placed between the ends of the magnet 4 and the edges of the frontal parts of the source of the magnetic field, serve. The pulse duration of the discharge current of the pulsed magnetized installation usually does not exceed 1 ms. A quick change in the discharge current corresponds to a change in the magnetic flux, and the changes in the magnetic flux of the frontal parts of winding 1 are well shielded by rings 2 and 3, since the eddy currents induced in them create a flux that displaces the magnetic flux of the frontal parts of the magnetizing device. If it is necessary to magnetize the magnet on the outer surface, the magnet 4 and the rings 2 and 3 are placed inside the winding 1. A device for magnetizing multi-pole magnets of electric masks reduced the non-uniformity of magnetization of multi-pole magnets and significantly improved the characteristics of electric machines.

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Claims (1)

A device for magnetizing multi-pole cylindrical ring magnets, comprising a zigzag winding, characterized in that, in order to improve the quality of magnetization, it is equipped with shielding rings of electrically conductive material located in the zone of the frontal parts of the zigzag shape. · ·, FIG. 1 by parts of the magnet 4 edges of the frontal parts of the winding 1, which is separated from the rings 2 and 3 by electrical insulating spacers 5 and 6. The discharge current to the magnetizing device is supplied through the current-carrying elements 7. On the scan of the device (Fig. 2) it is shown that the magnetic field The magnetization time at points A and C is created by two current elements JJ, and at points B and D by three current elements, since at these points an additional current element 15 of the frontal part of the magnetic field source is involved in creating the tension. This phenomenon leads to the fact that in the left side of the magnet the south poles are magnetized stronger than the north, and in the right side - vice versa. To reduce the non-uniformity of magnetization of the magnets, shielding rings 2 and 3 are used, located between the end parts of the magnet 4 and the edges of the frontal parts of the magnetic field source. The pulse duration of the discharge current of a pulsed magnetizing installation usually does not exceed 1 ms. A rapid change in the discharge current of the new one is well shielded since the induced ones create a flux that displaces the magnetic flux of the frontal parts of the magnetizing device. If you want to magnetize the magnet on the outer surface, the magnet 4 and the rings 2 and 3 are placed inside the winding 1. A device for magnetizing multipolar magnets of electric machines has allowed to reduce the uneven magnetization of multipolar magnets and significantly improve the characteristics of electric machines. 1 1138840