SU788063A1 - Device for testing characteristics of magnetic materials - Google Patents

Description

The invention relates to electrical measuring equipment and is intended, in particular, for acceptance tests of highly coercive materials. 5

Known devices containing a frame, the main and attached windings [1].

A disadvantage of the known devices is that they cannot be used 10 to characterize local areas.

The closest in technical essence to the proposed device is a device containing an electromagnet, pole tips with two measuring coils located symmetrically with respect to the center on one axis, a current source, a measuring unit with a Coll sensor, an integrator, a switch and a recording device [2].

A disadvantage of the known device is that it cannot be used for acceptance tests of magnetic materials. This is because the device measures the characteristics of the local regions of the magnets and to obtain the integral characteristics of the sample 30 of the material requires the removal of a number of characteristics of the local regions and subsequent calculation.

The purpose of the invention is the expansion of the functionality of the device. ¹

The goal is achieved by the fact that in devices for monitoring the characteristics of magnetic materials, containing an electromagnet, pole pieces with two measuring coils located symmetrically relative to the center on one axis, a measuring unit with a Hall sensor, the output of which is connected to the input of the registration unit, as well as a switch, an output which is connected to the input of the integrator, and the input of the switch is connected to the pole lugs, coaxial measuring coils are introduced, built into the pole tip and scaling a block connected between the output of the integrator and the second input of the registration block.

Figure 1 shows the structural diagram of the device; figure 2 is a view along arrow a in figure 1; in Fig.3 is a view of the arrow B in Fig.1.

A device for monitoring the characteristics of magnetic materials contains an electromagnet 1, a tip 2 with two measuring coils 3, located3

REM symmetrically with respect to the center of the Pole on one axis, tip 4 with coaxial coils 5, current source 6, measuring unit 7 with a Hall sensor, integrator 8, scaling unit 9, switch 10, registration unit 11.

Tip 2 with coils 3 is designed to measure the characteristics of lolocal regions, and tip 4 with coaxial coils 5 of the integral characteristic of the sample.

Coils 5 are made in such a way that the product of the cross section by the number of turns of one coil is equal to the product of the cross section by the number of turns of another. The measurement of magnetic ’* field strength is based on the use of the Hall effect, and the measurement of magnetic induction B and magnetization 1 of the test sample is carried out by the induction method. * 0

The device operates as follows.

The current source 6, according to a certain <algorithm, changes the field strength in the gap of electromagnet 1, between the 25 poles of which there is a test sample of magnetic material.

A voltage proportional to the magnetic field is supplied from block 7 to one input of block 11. The EMF, driven in coils 3 or 5 (depending on the measurement of local or integral characteristics), is fed through switch 10 to the input of integrator 8. Voltage from integrator 8 four-35 ree, the scaling unit 9 is supplied to another input of the unit 11. By changing the transfer coefficient of the scaling unit 9, an integer scale in B (I) is provided regardless of the cross section of the test sample. Block 11 gey records the characteristics in ¹ coordinates B = f (H) or I * = f (n), determined by switch 10. Changing the pole pieces 2 and 4 allows testing of samples of various shapes. _ '

The proposed device can be used for acceptance tests and express control of magnetic materials, which expands the functionality and improves the performance of the device.

Claims (2)

The invention relates to electrical measuring equipment and is intended, in particular, for the acceptance tests of highly coercive materials. The known device containing the frame, the main and attached windings, 11. A disadvantage of the known devices is that they cannot be used to characterize local areas. The closest in technical essence to the proposed device is a device containing an electromagnet, pole pieces with two measuring coils located symmetrically relative to the center on one axis, a current source measuring unit with a Hall sensor, an integrator, a switch and a recording device 2. A disadvantage of the known device is that it cannot be used for acceptance tests of magnetic materials. This is because the device measures the characteristics of the local areas of the magnets and requires to remove a number of characteristics of the sample material. characteristics of local areas and the subsequent calculation. The purpose of the invention is to expand the functionality of the device. The goal is achieved by the fact that, in devices for monitoring the characteristics of magnetic materials containing an electromagnet, pole pieces with two measuring coils, symmetrically spread out relative to the center on one axis, a measuring unit with a Hall sensor, the output of which is connected to the input of the recording unit, as well as a switch, output which is connected to the input of the integrator, and the inputs of the switch are connected to the pole terminals, coaxial measuring coils are integrated in the pole tip and scaled controlling unit, connected between the output of the integrator and a second input of the recording unit. Figure 1 shows the block diagram of the device; figure 2 is a view along arrow A in figure 1; on fig.Z - view along arrow B in figure 1. The device for monitoring the characteristics of magnetic materials contains an electromagnet 1, tip 2 with two measuring coils 3, is FINE symmetrically with respect to the center of the pole on one axis, tip 4 with co-coils 5, current source 6, measuring unit 7 with a Hall sensor, integrator 8, scaling unit 9f switch 10, block AND RESISTANCE. Tip 2 with coils 3 is intended to measure the characteristics of the lolocal regions, and tip 4 with coaxially and coils 5 of the integral characteristic of the sample. The coils 5 are made in such a way that the production of a section by the number of turns xxx of one coil is equal to the product of the section by the number of turns of the other. The measurement of the magnetic field is based on the use of the Hall effect, and the measurement of the magnetic inductor SCH1I B and the magnetization I of the test sample is carried out by the induction method. The device works as follows. The current source 6, according to a certain algorithm, changes the field strength in the gap of the electromagnet 1, between the poles of which there is a test sample of magnetic material. Voltage proportional to the magnetic field voltage from block 7 is applied to one input of the I block. EMF induced in coils 3 or 5 (depending on the measurement of local or integral characteristics) is transferred via switch 10 to the input of the integrator 8. Eg The integrator 8 is transmitted through the scaling unit 9 to the other input of the unit 11. By changing the transfer coefficient of the scaling unit 9, an integer scale in В (I) is provided regardless of the section of the test sample. Block 11 geystvuet registration of characteristics in coordinates (and) or (I), determined by the switch 10. Changing poyuznyh tips 2 and 4 allows you to conduct tests of samples of various orcs. The proposed device can be applied at acceptance tests ::. They also provide express control of magnetic materials, which expands the functionality and improves the performance of the device. Claims An apparatus for monitoring the characteristics of magnetic materials, comprising an electromagnet, pole pieces with two measuring coils symmetrically arranged with respect to the earth on one axis, a measuring unit with a Hall sensor, the output of which is connected to the input of the recording unit, and a switch whose output is connected to the integrator input, and the switch inputs are connected to positive terminal tips, characterized in that, in order to expand the functional capabilities, coaxial inputs are introduced into it e measuring coils embedded in the pole piece and a scaling unit connected between the integrator output and the second input of the recording unit, between the integrator output and the second input of the registration unit. Sources of information taken into account during the examination 1. USSR authorization certificate 561160, cl. GOIR 33/12, 07.25.7.74. 2 Austeru jv Mer stehtiiV ttt KogEet (puv1 1977, 22, pp. 23-27.