SU955228A1 - Inductor for sectioned magnetizing of permanent magnets - Google Patents

Description

The invention relates to electrical engineering and is intended for reversible and unidirectional magnetization, mainly of flat permanent magnets made of hard magnetic materials with high coercive force. 5

Known inductor for reverse magnetization, made rectangular of a solid plate with high conductivity, having a through hole in the shape of a magnetized figurative [1].

The disadvantage of this device is the inability to magnetize permanent magnets in it with magnetization sections smaller than the transverse dimensions of the magnet itself.

The manufacture of such magnets possible tol- ¹⁵ to gluing separate magnets magnetized in the inductor.

Closest to the proposed technical essence is an inductor for magnetizing permanent magnets in sections, containing a tape of material with high electrical conductivity, forming a closed loop in which the groove is made. the placement of the magnetized portion of the magnet, fixed in a dielectric block [2].

The disadvantage of this inductor is that it is possible to magnetize permanent magnets only in the radial direction and only the ring shape (or part of the ring).

The purpose of the invention is the provision of magnetization of flat permanent magnets in the axial direction in areas smaller than the transverse dimensions of the magnet itself.

This goal is achieved by the fact that in the inductor containing a tape of material with high electrical conductivity, forming a closed loop, in which a groove is made to accommodate the magnetized magnet portion, fixed in the dielectric block, the coil is made in the form of a contour, the shape of which corresponds to the shape of the magnetized portion, and the groove has a shape and dimensions corresponding to the cross section of the magnetized portion of the magnet.

In FIG. 1 shows a general view of an embodiment of an inductor; in FIG. 2 a, b, and 3 a, o, c - embodiments of the inductor, depending on the shape of the magnetized magnet.

The inductor is made of a material with high electrical conductivity and forms a coil 1'5 in the form of a sector with a groove 2 having the shape and dimensions corresponding to the transverse teachings of the magnetized magnet section, perpendicular to the edge of the sector, and the sides of the coil converging at the bottom of the groove pass into the current leads 3, separated by insulating gasket 4.

The inductor operates as follows.

A sample 5 of hard magnetic material is introduced into the groove of the inductor. When 15 currents pass through the inductor, a magnetic field is created in it, and the magnet in the area located in the groove of the inductor is magnetized in the axial direction (in thickness). When placing the next section of the magnet in the groove of the inductor 20 and changing the direction of the current flow, the next section is magnetized in the opposite direction (reverse). Advantageously, the inductor is the possibility of magnetizing the permanent magnets 25 of flat portions along with dimensions smaller than the transverse dimensions of the entire magnet width regulating portion magnetizing · axially magnetizing flat magnets with a large surface area po- _30. This is achieved by the corresponding movement of the magnet in the groove of the inductor without changing the direction of the current in the inductor.

Due to the high concentration of the field in the working area and a sharp decline in the field outside the inductor, it provides clarity of the transition zones during reverse magnetization.

Claims (2)

The invention relates to electrical engineering and is intended for reversible and unidirectional magnetization of mainly flat permanent magnets made of matte-hard materials with high coercive force. A known inductor for reversible magnetization, made rectangular from a single plate with high conductivity, having a through hole in the shape of a magnetizable shaped 1. The disadvantage of this device is the impossibility of magnetizing in it permanent masts with magnetization areas smaller than the transverse dimensions of the magnet itself. It is possible only by gluing individual magnets magnetized in a given inductor. The closest to the proposed by the technical essence is an inductor for magnetizing the permanent magnetic magnets in sections, containing a tape of a material with high electrical conductivity, forming a closed coil, in which a notch is made. the location of the magnetizable area of the magnet, fixed in the dielectric block 2. The disadvantage of this inductor is that it can {magnetize permanent magnets only in the radial direction and only in the ring shape (or part of the ring). The purpose of the invention is to provide magnetization of flat permanent magnets in the axial direction in areas smaller than the transverse dimensions of the magnet itself. The goal is achieved by the fact that in an inductor containing a tape of a material with high electrical conductivity, forming a closed coil in which a groove is made for separating the magnetisable part of the magnet fixed in the dielectric block, the coil is shaped as a contour, the shape of which corresponds to the shape of an extruded part the groove has a shape and dimensions corresponding to the cross section of the magnetized section of the magnet. FIG. 1 shows a general view of an embodiment of the inductor; in fig. 2 a, b, and 3 a. 395 b, c - variants of the inductor depending on the shape of the magnetized magnet. The inductor is made of a material with high electrical conductivity and forms coil 1 in the form of a sector with a groove 2 having a shape and dimensions corresponding to the cross-section of the magnetized part of the mag (head, perpendicular to the edge of the sector, and the sides of the coil converging at the bottom of the groove, transitions into current leads 3, separated by an insulating spacer 4. The inductor operates as follows: Sample 5 of magnetically hard material is introduced into the inductor's groove. When current flows through the inductor, a magnetic field is created in it, and a magnet in the area in the groove of the inductor, magnetized in the axial direction (thickness) .When placing the next section of the magnet in the groove of the inductor and changing the direction of the current flow, the next section is magnetized in the opposite direction (reversible). The advantage of the proposed inductor is the possibility of magnetizing flat permanent magnets along plots with sizes smaller than the transverse dimensions of the entire magnet for adjusting the intensity of the magnetization section; magnetizing in the axial direction of flat magnets with a large surface area. This is achieved by appropriately moving the magnet in the groove of the inductor without changing the direction of the current in the inductor. Due to the high concentration of the floor in the working area and the sharp decline in the floor outside the inductor, it provides clarity of the transition zones during reversible magnetization. Claims of the Invention An inductor for magnetizing permanent magnets into sections, comprising a tape of a material with high electrical conductivity forming a closed coil in which a fuller groove for accommodating a magnetisable section of a magnet, fixed in a dielectric block, wherein. that, in order to provide magnetisation of flat permanent magnets in the axial direction in terms of diameters smaller than the transverse dimensions of the magnet itself, the coil is made in the form of a contour, the shape of which corresponds to the shape of the magnetizable area, and the groove has the shape and dimensions corresponding to the cross section of the magnetized magnet section. Sources, informations taken into account during the examination 1. USSR author's certificate number 499592 cells. H 01 F 13/00, 1976. 2. USSR author's certificate number 743045 Cl. H 01 F 13/00, 1972 (prototype). fig but L1