SU1193567A1 - Superposed electromagnetic converter - Google Patents

Abstract

BILL electromagnetic transducer comprising a first exciting coil of rectangular shape, mounted perpendicularly to the working surface of the transducer, identical in size a first and second, third and fourth pick-up coils of rectangular shape, mounted respectively mutually perpendicularly, of which the first and third sensing coils mounted parallel to the working surface of the transducer, the intersection line of the first and second measuring coils coincides with the closest to the working The surface of the transducer with the side of the first excitation coil, and the plane formed by the last and the intersection line of the third and fourth measuring coils, is parallel to the working surface of the transducer, characterized in that it is equipped with a second rectangular excitation coil installed between the pairs of measuring coils to improve the accuracy at the same distance from them parallel to the first exciting coil, first and second, on the third and fourth compensation coils, respectively, mutually perpendicularly symmetrically with respect to the second excitation coil, and connected in series and counter respectively with the first and second, third and fourth measuring coils, and the intersection line of the first and second compensators 00 00 9dation coils coincides with the first excitation coil. vj

Description

one

The invention relates to the field of non-destructive testing, in particular to the simultaneous measurement of the diameter and thickness of insulating coatings of cylindrical conductors of products, can be used in the machine-building, metallurgical and other industries.

The purpose of the invention is to improve accuracy.

The drawing shows a diagram of the electromagnetic converter.

The surface-mounted electromagnetic transducer contains the first excitation coil 1 of rectangular shape, installed perpendicular to the working surface of the transducer, the same size nepByjo 2 and second 3, third 4 and fourth 5 measuring coils of rectangular shape, respectively mutually perpendicular, of which the first 2 and The third 4 measuring coils are installed parallel to the working surface of the converter; the intersection line of the first 2 and second 3 measuring coils coincides with the closest one to the working one. the surface of the transducer with the side of the first excitation coil 1, the plane formed by the last and the intersection line of the third 4th and fourth 5 measuring coils parallel to the working surface of the transducer.

The converter also contains a second excitation coil 6 of rectangular shape, installed between pairs of measuring coils 2, 3 and 4.5 at the same distance from them parallel to the first excitation coil 1, the first 7 and the second 8 third 9 and fourth 10 compensation coils installed respectively, mutually perpendicular, symmetrically with respect to the second excitation coil 6 and included in series and counter respectively with the first 2 and second 3, third 4 and fourth 5 measuring coils, and the transverse line During the first 7 and second 8 compensation coils, the first side of the first excitation coil 1 transforms into the far from the working surface.

The Converter operates as follows.

93567

When adjusting the transducer in the absence of a measurement object — a cylindrical article 11 — the total voltage removed from any 5 measuring and corresponding compensation coils is set to zero. The converter should be installed on the measurement object in such a way that its 10 working surface is parallel to the axis of the cylindrical article 11, and

the second exciting coil 6 was lying in the same plane with the axis of the cylinder.

Product 11. For this purpose, the second excitation coil 6 excites eddy currents in the cylindrical product 11, which are recorded with the aid of the first 2, second 3, third 4 and fourth 5 measuring coils. In the case when the ratio of the voltages induced in the first 2 and second 3 measuring coils is equal to the ratio of the voltages induced in the third 4 and fourth 5 measuring coils, we assume that the converter is installed correctly. Further, the second exciting coil 6 is turned off and does not directly participate in the measurements.

The first excitation coil 1 excites eddy currents in the cylindrical article 11. It can be assumed that eddy currents are excited in a controlled, electrically conductive cylinder 5 of the product 11, mainly near the working surface of the converter, with the side of the first excitation coil 1, which is a linear conductor. The influence of three Other sides (linear conductors) of the first exciting coil 1 on the field of eddy currents in a plane perpendicular to the linear conductor (the bottom side of the first exciting

 coil 1) can be neglected. The magnetic field pattern of a linear conductor with a current in a plane perpendicular to the conductor is a concentric circle with

50 centered at the intersection of the plane with the conductor. The values of the norms of the Hjjj nz tangential D,, H components of the vectors H,. The magnetic field component of a field of 5 rushing currents is determined at the points A and B using the first 2, third 4, second 3, fourth 5 measuring coils.

Claims (1)

An overhead ELECTROMAGNETIC TRANSMITTER containing a first square-shaped exciting coil mounted perpendicular to the working surface of the transducer, the same sized first and second, third and fourth measuring coils of rectangular shape mounted mutually perpendicularly respectively, of which the first and third measuring coils are mounted parallel to the working surface , the line of intersection of the first and second measuring coils coincides with the line closest to the working the transducer side of the first excitation coil, and the plane formed by the last and the intersection line of the third and fourth measuring coils is parallel to the working surface of the transducer, characterized in that, in order to improve accuracy, it is equipped with a second rectangular excitation coil mounted between the pairs of measuring coils on equal distance from them parallel to the first exciting coil, the first and second, third and fourth compensation coils, installed respectively but mutually perpendicular symmetrically relative to the second guide coil is excited, and connected in series and in opposition with the first and second, third and fourth measuring coils, and the intersection of the first and second compensating coils coincides with the distance from the working surface of the transducer side of the first exciting coil. >