SU1587323A1 - Built-up eddy-current transducer - Google Patents

Abstract

The invention relates to a measurement technique and can be used, for example, to control the thickness of non-conductive coatings on an electrically conductive base. The aim of the invention is to improve the accuracy of control and the expansion of the measurement range. The goal is achieved by localizing the electromagnetic field in the working area due to the fact that the invoice eddy current transducer containing a core magnetic circuit, exciting and measuring windings, a magnetic concentrator having the shape of a conjugate cylinder and a truncated cone and covering the core magnetic core is additionally equipped with a ferromagnetic washer , covering the core of the magnetic core and the magnetic hub at the working end of the converter. 1 hp f-ly, 2 ill.

Description

Nick of the alternating current. The electromagnetic flux F generated in this case passes through the core magnetic conductor 1, then its main part Phi crosses the coil /. The measuring winding 5 and then through the magnetic concentrator 6 through the opening of the screen 7 and the surface 3 of the tested product falls on the working end 2 of the core magnetic circuit 1. At the same time, the flow Phi by the magnetic concentrator 6 is localized around the hemispherical working end of the core magnetic circuit 1. In addition, The part of the Phi flux that does not pass through the magnetic concentrator 6 induces eddy currents on the surface of the screen 7.

Under the action of the flux Fv of eddy currents, the measuring flux Phi is additionally localized near the working end of the core magnetic circuit 1.

The flow Phi, the passage through the measuring winding 5, induces an emf in it, the value of which is recorded by the indicator device 11. Judging by the magnitude of the recorded signal, using a calibration schedule, a controlled parameter is judged.

The converter design contributes to the localization of the electromagnetic flux Phi, which significantly improves the measurement accuracy of the monitored parameter, since the effect of the electromagnetic properties of materials lying outside the working end of the core magnetic circuit 1 is minimized.

In addition, due to the localization of the Phi flux, the influence of the edge effect on the measurement accuracy decreases by a factor of 7-10. it

expands the range of use of the transducer, as it allows control of products of small sizes or complex configurations.

The design of the magnetic concentrator 6 from a set of thin, isolated from each other rods reduces losses in it by eddy currents, which simultaneously with the localization of the flow

Fi increases the sensitivity of the transducer.

Claims (2)

1. An in-line eddy current transducer for measuring the thickness of non-conductive coatings on an electrically conductive base, containing a core magnetic core with exciting and measuring windings and coaxial with magnetic core magnetic hub spanning core and made in the form of a conjugated cylinder and a truncated a cone, the smaller base of which is located on the working end of the converter, characterized in that, in order to increase the accuracy and expand the measurement range, it is provided with a ferromagnetic shield in the form of a washer located at the working end of the converter, coaxially with the magnetic concentrator and covering the concentrator along its outer surface. 2. Pop-1 transducer, differing from the fact that the concentrator is recruited from insulated rods: .jt. 2 Compiled by O. Baryshnikova Tehred M.MorgentalKorrektor V.Girn to Editor V.Danko Order 2411 Circulation 504 Subscription VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 13035, Moscow, Zh-35. Raushska nab., 4/5