SU1013878A1 - Permanent magnet rejecting method - Google Patents

Abstract

A METHOD FOR DISSEMINATION OF PERMANENT MAGNETS, including magnetization of a permanent magnet to a saturation state, stabilization by a demagnetizing magnetic field, and measuring the magnetic induction in the center of the magnetic system gap, characterized in that, in order to increase the reliability of control, an additional magnetic field simulating an additional magnetic field magnet of the magnetic system and increase the current in it to a value at which the induction at the center of the gap of the magnetic system is equal to the nominal value. OQ QO | 00

Description

This invention relates to a magnetic measuring technique and may be. used for continuous control and subsequent sorting of permanent magnets, used in pairs in products, according to their magnetic properties.

A known method of controlling the magnetic properties of permanent magnets consists in measuring the magnetic flux in the zone of maximum magnetic energy of the material 1.

However, this method does not allow for the most complete selection of magnets by their parameters when they are operated in pairs.

Closest to the invention. the technical essence is a method of technical control of the magnetic properties of permanent magnets, which means that the magnet under test is magnetized in a magnetic system imitating its working state, exposed to a demagnetizing field, and then the magnetic flux F is measured, then the operation is repeated demagnetization, measure the flow f. The suitability of magnets is judged by the values of Ф and фФ; 2

A disadvantage of the known method is that it does not take into account the mutual influence of magnets upon their further use by pairs, which makes it difficult to select pairs of magnets.

The aim of the invention is to increase the reliability of the control.

The goal is achieved by the fact that according to the method of permanent magnet permanent magnet based on magnetizing the permanent magnet to saturation, stabilizing the demagnetizing magnetic field and measuring the magnetic induction in the center of the gap of the magnetic system, the additional magnetic field imitating the second magnet of the magnetic system .and increase the current in the ne to a value at which the induction at the center of the gap of the magnetic system is equal to the nominal value.

FIG. 1 shows a device that implements the proposed method; in fig. 2 - device layout ..

The device (Fig. 1) comprises a per, a magnet 1, a second magnet 2, armatures 3 and 4 of a nonmagnetic material, a frame 5 and an area 6 in the center of the magnetic system, 9 of which magnetic induction must be at least a predetermined value.

The test magnet (FIG. 2) is placed in the gap of a magnetic system consisting of a magnetic core 7 with a simulating coil 8.

The area of the pole tip 9 is equal to the pole area of the test magnet. This allows the topography of the magnetic field in the volume between the pole piece 9 and the magnet 1 to be close to the topography of the field created by the magnet 2 in the product. In the center of the working volume of the imitating magnetic system is the Hall Converter 10.

The device works as follows.

Using a resistor 11, the current in the coil 8 is changed to such a value that the induction in the gap is equal to the nominal value. Induction in the gap is measured using a transducer 10 and a measuring device 12.

Based on the result of measuring the current in the coil 8 (using an ammeter 13), it is judged which value of the magnetic parameters the magnet should have (Fig. 1) / so that paired with the tested magnet -1 (Fig. 2) provide the required induction value in the gap real magnetic system.

The control method can be applied not only for the considered design of the product, but also for a whole number of other products (it’s natural that at H.TOM the design of the magnetic system of the measuring installation shown in Fig. 2 changes accordingly).

The implementation of the proposed method allows to increase the yield of pairs of magnets suitable for use. Based on this method of control, part of the magnets from the total mass, qualified by known methods of control as a defect, can be used.

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Claims (1)

METHOD FOR DISAPPEARING PERMANENT MAGNETS, including magnetization of a permanent magnet to a saturation state, stabilization by a demagnetizing magnetic field and measuring magnetic induction in the center of the gap of the magnetic system, characterized in that, in order to increase the reliability of control, they additionally act with an auxiliary magnetic field simulating the effect of the second magnet of the magnetic system and increase the current in it by the inductor of the nitrous system value. other values, when the center of the gap is magravna nominal. J