SU712851A1 - Receiver protecting device - Google Patents

Description

The invention relates to measuring equipment and can be used to measure the mechanical stresses in the elements of machines and structures made of ferromagnetic metals. five

The known device for measuring mechanical stresses in the elements of machines and structures, containing flat, single-layer, extended in the direction of one axis overhead coils [1]. YU

The disadvantages of these devices include low accuracy and sensitivity of voltage measurements on curved surfaces, due to the fact that the magnetic flux created by the coil closes in the air and does not create a strong magnetic field in the metal.

The closest in technical essence to the proposed device is a device for measuring stresses 20 in metals, containing a flat single-layer flexible coil, the coils of which are elongated in the direction of one axis, and a substrate of elastic magnetodielectric, to which the coil is attached [2]. The well-known device allows to measure voltages on curved surfaces, but it has the disadvantage that in it the dielectric covers both the long and short sides of the coil; it's not 30

2

Improves the accuracy of the transducer.

The purpose of the invention is to improve the accuracy of measuring voltages in the direction of the long axis of the coil.

This goal is achieved due to the fact that the elastic magnetodielectric of the substrate covers only the long sides of the coil, and its short sides are outside the magnetodielectric. In this case, the distance at which the short sides of the coil are placed from the external circuit of the magnetodielectric is not less than half and no more than the full width of the coil.

The drawing shows a schematic of the proposed device.

The device contains a flat single-layer drawn in the direction of one axis of the coil 1, which is attached to the substrate 2 of an elastic ferromagnetic material, such as soft magnetic rubber. In order to eliminate the influence on the measurement results of the short sides of the coil, the ferromagnetic material covers only the long sides, and the short sides can additionally be bent upwards by 90 °.

The device works as follows.

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In the control process, the device is pressed against the object to be controlled so that the coil is between the object surface and the ferromagnetic substrate material and takes the form of the surface 5 of this object. The magnetic flux created by the coil closes across the layer of ferromagnetic substrate material and the material layer of the object under study, and a change in voltage in the object under study Yu in the direction of the long axis of the coil causes a change in the output signal of the coil.

The device of the present invention increases the sensitivity due to the increased magnetic field in the metal and improves the measurement accuracy, since it eliminates the influence of the air gap due to the elasticity of the coil-rubber system and the effect of the short sides of the coil 20 due to the fact that the substrate covers only the long sides of the coil.

Claims (2)

Claim 25 1. A device for measuring mechanical stresses in machine elements and structures made of ferromagnetic metals, containing a flat single-layer flexible coil, the coils of which are elongated in the direction of one axis, and a substrate of elastic magnetodielectric, to which the coil is attached, characterized in that, in order to improve the accuracy of measuring stresses in the direction of the long axis of the coil, there is an elastic The substrate magnet dielectric covers only the long sides of the coil, and its short sides are outside the magnetodielectric. 2. The device according to claim 2, characterized in that the distance at which the short sides of the coil are placed from the external circuit of the magnetodielectric is not less than half and no more than the full width of the coil.