SU1631615A1 - Inductor for conducting multipolar pilse magnetization of circular - cylindrical permanent magnets in radial direction - Google Patents

Abstract

The invention relates to electrical engineering and is intended for pulsed multipolar magnetization of ring 3 cylindrical permanent magnets in the radial direction. The purpose of the invention is to improve the quality of magnetization. In addition to the main zigzag winding 2, the inductor contains an additional zigzag winding 1 located coaxially with the main winding 2 to form a working gap 3 for accommodating permanent magnets, and the ratio of the width of the dielectric gap between the winding turns to the width of the current-carrying windings is 1 : 2. The gaps between the turns of the windings are filled with dielectric material. 2 Il. sl С GJ (О1

Description

The invention relates to electrical engineering, in particular, to devices enabling simultaneous multi-pole magnetization of the side surfaces of annular cylindrical magnets in the radial direction.

The purpose of the invention is to improve the quality of magnetization.

FIG. 1 shows an inductor, a general view; in fig. 2 - distribution curves of magnetic induction on the outer surface of a cylindrical magnet.

The inductor consists of an internal hollow cylindrical zigzag winding 1 and an external hollow cylindrical zigzag winding 2, forming between them a working gap 3, the gaps between the conductive parts of the windings are filled with electrically insulating material (not shown), the open ends 4 and 5 cylindrical windings are current leads. The inductor itself is fixed in the dielectric block (not shown).

The inductor works as follows.

A magnetized magnet of a magnetically hard material in the form of a ring or a hollow cylinder is introduced into the working gap 3 between the cylindrical windings 1 and 2. From the energy store through the current leads 4 and 5, connected in parallel with the energy store, the current flows through the inductor so that s adjacent turns The windings form an opposite direction, indicated by arrows in FIG. 1. A radial magnetic field is created in the inductor. In this case, the ring or hollow cylinder of magnetically hard material is magnetized in the radial direction over sector zones with alternating polarity both on the outer and on the inner side surfaces.

The experimental data on the distribution of magnetic induction on the outer surface of a cylindrical magnet within two poles is shown in FIG. 2, where curve A corresponds to the ratio of the width of the dielectric gap to the width of the conductive section, equal to 1: 1.75, curve B to the ratio 1: 2, and curve C to the ratio 1: 2.25.

From FIG. The 2 curves show that with the ratio of the width of the dielectric gap to the width of the conductive section equal to 1: 2, the distribution curve of the magnetic induction over the surface of the cylindrical magnet has the shape of a sinusoid with a pronounced maximum of Vmo

When the ratio of the width of the dielectric gap to the width of the conductive section is 1: 1.75 and 1: 2.25, the distribution curve of the magnetic induction over the surface of the magnet has a shape approaching a trapezium and the maximum values

SRI Vmaks and Vmaks Vmaks.

Compared with the known device, the proposed inductor provides the possibility of multi-pole magnetization in the radial direction of ring and cylindrical magnets on both external and internal current surfaces while improving the quality of magnetization. In addition, the use of the invention makes it possible to magnetize a large number of poles on the cylindrical surface of permanent magnets of small diameter, to operate in the saturation mode (good field concentration), to ensure the parity of the transition zones N and S,

Thus, the inductor provides a high magnetic field strength in the working gap, increases the efficiency of magnetization and reduces the transition zones of oppositely magnetized areas of the magnet.

Claims (1)

Invention Formula Inductor for pulsed multipolar magnetization annular cylindrical permanent magnets in the radial direction, having a zigzag winding, characterized in that, in order to increase the quality of the magnetization, it is provided with additional zigzag winding to form a working air gap for accommodating the magnets between windings, wherein the ratio of the width of the dielectric gap between turns to the width of the conductive portion of the winding is 1: 2. tt 25,521Ц5 degrees 2