SU1714545A1 - Permanent magnet rejection method - Google Patents

Abstract

The invention relates to magnetic measurements and can be used for technological monitoring of the magnetic properties of permanent magnets used in electrical machines and apparatus, in which the magnets are affected by an alternating magnetic field of control windings. The purpose of the invention is to improve the accuracy of rejection of permanent magnets. The method involves the installation of permanent magnets between the poles of the magnetic circuit of the electromagnet simulator with a gap equivalent to the gap in the product, magnetizing these magnets to saturation, stabilizing the demagnetizing alternating magnetic field corresponding to the magnetic field in the product at maximum permissible loads, measuring the minimum instantaneous induction value the gap of the electromagnet-simulator simultaneously with the stabilization of the demagnetizing field and the determination of the validity of permanent magnets by comparing the measured induction with a minimum value of the reference induction of the permanent magnet. The proposed sequence of operations makes it possible to increase the reliability of rejection of permanent magnets by 10%. 2 illustrationsl

Description

The invention relates to magnetic measurements and can be used in the technological control of the magnetic properties of permanent magnets used in electrical machines and apparatus, in which the magnets are affected by an alternating magnetic field of control windings,

The purpose of the invention is to improve the accuracy of rejection of permanent magnets.

Figure 1 shows an electromagnetic simulator used in accordance with the inventive method, figure 2 shows dependencies explaining

principle of determining the validity of the tested magnets.

One or several test permanent magnets 1 (Fig. 1) are installed in the magnetic circuit 2 of the electromagnet simulator, one of which parts can move to form a gap between the magnets 1 and the pole of the magnetic circuit 2 equivalent to the gap in the product. The installation of several permanent magnets 1 between the poles of the magnetic circuit 2 of the electromagnet simulator provides a simulation of their operating conditions in the product when they are used in quantities of more than one.

The magnetic circuit 2 (as in most products, in which the control winding is powered by alternating current) is usually made of laminated. The magnetization of the permanent magnets 1 to the saturation state is produced by means of a magnetizing winding 3 connected via a switch 4 to a current source 5. A current source 5 is usually a controllable capacitive drive. Then the magnetizing winding 3 is connected by a switch 4 to a source with a variable magnetic field. The magnetic induction Bau generated by the magnets 1 in the magnetic core 2 is monitored by measuring the electromotive force Her induced in the measuring winding 7 located on the magnetic core 2 using measuring device 8 simultaneously with the stabilization of the magnets 1. As measuring device 8, for example, , the average voltmeter, which provides the integration of the electromotive force signal to Her. The tested magnets 1 are stabilized by applying an alternating magnetic field Hp, corresponding to the magnetic field in the product at maximum allowable loads. A particular case of an alternating magnetic field is the sinusoidal law of variation of the Hp sin coi voltage.

The magnitude of the electromotive force measured by the device 8 is compared with the electromotive force Ee obtained by measuring the reference permanent magnets in the same electromagnet simulator. The reference magnets are selected in accordance with the requirements for the characteristics of electrical machines and apparatus. The most common of these is the Phi excitation magnetic flux requirement created by the magnets in the product:

Phi Ftr / where Ftr is the required value of this stream.

Thus, it is always possible to pick up magnets corresponding to the flow Ftr, and determine the electromotive force Ee by the indicated method as a result of controlling the properties of these magnets in an electromagnet simulator.

The principle of determining the validity of magnets by comparing the electromotive forces EU and EE is explained by the dependence a (Fig. 2), which characterizes the main magnetization curve of the magnetic circuit 2 (Fig. 1) of the simulator electromagnet. The magnetized permanent magnets 1 in the magnetic field 2 of the electromagnet-simulator induction In (figure 2) and the corresponding magnetic field intensity Ho. When stabilized by an alternating magnetic field, varying, for example, by the sinusoidal law Hp sin O) t, the electromotive force Ec is measured, which is defined by the shaded area So. Obviously, the size of this area

0 is determined by the position of the point But, i.e. the magnitude of the residual induction In the test magnets.

2, the case is considered when the reference magnets have a residual induction smaller than the test magnets, i.e. this requirement is fulfilled

Phi Ftr for magnetic flux of excitation in the article LII, while For So and EU Ee.

After determining the validity of the permanent magnets, they are demagnetized and removed from the electromagnet-simulator, after which, if they are suitable, the magnets arrive at the assembly of products, and if not, they are rejected or rejected. The demagnetization can be carried out using the winding 3 pulsed or alternating damped magnetic field.

0 Experimental verification of the proposed method of rejection of permanent magnets made of material KS-37 was made. Control of residual induction of magnets in an open magnetic

5 the system is implemented using a Hall sensor, and the proposed method. Conducted by the proposed method, the control showed a high selective ability and reliability.,

0 Implementation of the proposed technical solution will allow, by increasing the reliability of rejection of permanent magnets, while ensuring the required product characteristics, to reduce the scrap rate.

5 magnets by 10%.

Claims (1)

The invention method of rejection of permanent magnets, including their installation between the poles 0 of the magnet of the simulator magnet with a gap equivalent to the gap in the product, the magnetization of these magnets to saturation, the stabilization of the demagnetized. alternating magnetic field. corresponding to the magnetic field in the product, with the maximum permissible loads, monitoring the magnetic induction in the gap of the simulator electromagnet and determining fitness by comparing with the induction of a reference permanent magnet, characterized in that, in order to improve the accuracy of the rejection, while stabilizing, the minimum instantaneous value is measured induction and trigger the measured value with the minimum instantaneous value of the induction of the reference constant magnet.  Al - 7 7 / / V Phie.1 HP HP Sinoi Fig2