SU1176392A1 - Demagnetizing device - Google Patents

Abstract

1. DIFFUSION DEVICE, mainly for large-sized parts, containing a three-phase inductor with windings connected to the phases of a three-phase current source, characterized in that, in order to increase the demagnetization efficiency, it is equipped with additional similar inductors, and the total number of inductors is even of the inductors. installed coaxially and one of them is included in antiphase with respect to the other two, and in each pair of inductors the windings of one of them are included in opposite in phase with respect to the respective windings of the other. 2. The device according to item 1, about t l and that the inductors are installed coaxially. 3. The device according to claim 1, which is based on the fact that, with the purpose of expanding the functionality, the windings of each of the inductors are installed coaxially and the working ends of the windings are placed in one plane. 4. The device according to p. 3, of which is the fact that, each of the inductors is equipped with a core of. a magnetically conductive material and a magnetic core in the form of a glass, the bottom of which is connected to one end of the core, and the edges are located in the same plane with the other end of the core.

Description

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The invention relates to electrical engineering, in particular, to devices for demagnetization of large-sized articles from ferromagnetic materials.

The purpose of the invention is to increase the efficiency of demagnetization and to expand the functionality of the device.

FIG. 1 shows a diagram of a demagnetizing device with coaxial placement of inductors for processing parts (elements) of structures; in fig. 2 and 3 - vector magnetic flux diagrams; in fig. 4 - demagnetizing device with coaxial placement of windings for machining welded structures, - cases, etc., general view.

The device (fig.O contains a three-phase inductor 1 with coaxially arranged phase windings 2 - A, having the same characteristic on ampere-turns, a three-phase inductor 5 with coaxially arranged phase windings 6 - 8, having the same characteristics as windings 2-4, roller table 9 for moving the product 10. Phase winding 3 of the inductor is included in antiphase windings 2 and 4, and phase winding of inductor 5 is included in antiphase windings 6 and 8. At the same time windings 2. 4 inductor 1 are included in antiphase with respect to windings 6- 8 inductor 5.

The device works as follows.

The rollgun 9 sheet 10 is fed to a three-phase inductor. The power supply is turned on and a variable magnetic field is induced in the inductor 1, the total vector of which is H, shown in FIG. 2. In this case, an alternating magnetic flux generated by the secondary emf arises in the product, which leads to the removal of the magnetic moment of the residual magnetization. Passing through both inductors, the product gradually leaves the zone of action of an external magnetic field. The magnetization left in the product after treatment in inductor 1 is minimized in inductor 5.

The device (Fig. 4) is movable, which makes it more mobile and effective when demagnetizing large ready-made hulls, ships, etc. These requirements determined the design of the device and the placement of the windings and inductors. It contains two inductors 1 and 5 with phase windings 2-4 and 6-8, included according to the device diagram (Fig. 1). Each of the inductors contains a magnetic core 11 and a housing 12 in the form of a cup of magnetic conductive material, in particular transformer iron. In this case, one end of the core is adjacent to the bottom of the glass, and the second is in the same plane with its edges. Both inductors are mounted on the carriage 13, which is supported in the working position on the surface 14 of the body being demagnetized. The cart 13 with the help of the working units of the lifting and orienting mechanisms 15 is connected with the base cart 16.

Flowing through the windings 2-4 and 6 - 8 phase currents in the magnetic cores of the core 11 of the inductors 1 and 5 create magnetic fluxes, closing through the housings 12, air gaps between them and the product, which affect the processed material. The EMF arising in this case form directional currents with an intrinsic magnetic field that acts on the magnetic moments of the residual magnetization and neutralizes these moments.

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Claims (4)

1. DEMagnetizing device, mainly for large parts, containing a three-phase inductor with windings connected to the phases of the three-phase current source, characterized in that, in order to increase the demagnetization efficiency, it is equipped with additional similar inductors, the total number of the mentioned inductors being even, the windings of each of the inductors are mounted coaxially and one of them is in antiphase with respect to the other two, and in each pair of inductors the windings of one of them are in antiphase tnositelno respective windings of drugo. 2. The device according to claim 1, about t l and the fact that the inductors are installed coaxially. 3. The device according to claim 1, wherein the, in order to expand the functionality, the windings of each of the inductors are installed coaxially and the working ends of the windings are placed in one plane. 4. The device according to claim 3, wherein the each of the inductors is equipped with a core of. magnetic conductive material and a magnetic circuit in the form of a glass, the bottom of which is connected to one end of the core, and the edges are located in the same plane with the other end of the core. FIG. 1 1 1176392 2