SU1250839A2 - Eddy-current transducer - Google Patents

Abstract

The invention relates to a measuring and control technique, can be used to control the thickness of a sheet of highly conductive material during its rolling, and is an improvement of the invention according to the authors. St. No. 1097933. The purpose of the invention is to improve the accuracy of measuring the thicknesses, inn of a sheet, by eliminating the influence on the results of measuring the speed of mixing of the sheet under test. The eddy current transducer is equipped with a second magnetic conductor 26, identical to the first magnetic conductor 4 with identical exciting 27, measuring 29 and 30, and compensatory 31 and 32 windings, integrated by its node 3, with an input to the output windings of the second magnetic conductor, and the output to the output ends of the first magnetic circuit 4 so that the signals from the winding of the first magnetic core and the output of the integrating unit 3 are in antiphase, and the exciting winding 27 of the second magnetic core 26 is intended to be connected to a constant source Nnogo current. 1 il. € (L 3533to ate o oo 00 co 9

Description

The invention relates to an instrumentation technique and can be used to control the thickness of a sheet of highly conductive material during its rolling in the field of mechanical engineering and is an improvement of the known device described in ed. St. No. 1097933.

The aim of the invention is to improve the measurement accuracy.

The drawing shows a diagram, as shown in the figure, and the drying of the proposed device.

The eddy current transducer contains main 1, additional 2 and integrating 3 nodes.

The main node I contains a F-shaped magnetic core 4, exciting a winding 5 mounted on the middle rod 6 of the magnetic core 4.

The side rods of the magnetic conductor are made with grooves 7–10 section of each rod into two branches 11 --- 17. On the internal branches x 15 and 18 are placed compensation windings 19 and 20, connected in series oppositely. The measuring windings 21 and 22 cover the inner branches 17 and 16, respectively, and the outer branches 14 and 12, respectively. They are also connected in series counter. The measuring and compensation windings are interconnected in series with each other. The side rods of the magnetic circuit are provided with gaps 23 and 24 for accommodating the controlled 25 and reference sheets.

Additional node 2 is provided with a second identical first, magnetic core 26 with identical windings — an excitation winding 27 intended to be connected to a DC source placed on the middle rod 28, measuring 29-30 and compensatory 31- 32 windings connected respectively in series oppositely . The integrating node 3 is connected to the output ends of the windings of the second magnetic circuit 26, and the output to the output ends of the windings of the first magnetic circuit 4 so that the signals from the windings of the first magnetic conductor and the outputs of the integrating node are turned on in antiphase.

The magnetic core 26 is made with identical gaps 33 and 34 for accommodating a controlled 25 and a reference sheet (not shown in the drawing).

The device works as follows.

Iri connecting the excitation winding 5 of the eddy current transducer to a source of alternating voltage due to the sym.Compiler .4. Bodrov

Editor T. ParfenovaTehred I. VeresKorrektor M.Maksimishinei

Order 4398/34 Circulation 670 Subscription

VNIIPI USSR State Committee

for inventions. h discoveries

113035, Moscow, Zh-35, Raushsk nab. 4/5

Fil.ial POP "Patent, Uzhgorod, st. Project, 4

There is no signal for the magnetic circuit tia output terminals of the converter. When there is a test sheet 25 in the gap 24, a signal appears at the output terminals of the converter, the value of which is proportional to both the thickness of the sheet being tested and the speed of the rolled sheet. The presence in the measuring signal of a component due to the speed of the rolled sheet causes a measurement error that needs to be compensated for in order to improve the measurement accuracy. Therefore, the eddy current transducer is equipped with an additional node 2, the magnetic circuit of which has

same parameters as the magnetic converter circuit. The middle rod 28 of the magnetic circuit of the subassembly is provided with windings connected to a constant voltage source, the value of which is chosen in such a way as to ensure

in gaps 33 and 34, induction equal to the induction in gaps 23 and 24 of the converter. At the same time, a signal appears at the output terminals of the subassembly, which is proportional to the acceleration of the test sheet. After

integrating this signal using node 3, we obtain a signal proportional to the speed of the sheet. Including the output signal of the integrating node 3 with the output signal of the windings of the magnetic circuit of the node 1 antiphase, the output is

signal proportional to the thickness of the sheet being monitored. In this way, the effect of varying the rolling speed on the output signal of the converter is eliminated.

The proposed eddy current transducer increases measurement accuracy by 5%.

due to the exclusion of the speed of the rolled sheet.

Claims (1)

Invention Formula Eddy current transducer according to ed. St. No. 1097933, characterized in that, in order to improve the measurement accuracy, it is equipped with a second magnetic circuit, identical to the first magnetic circuit with identical exciting, measuring and compensating windings, and an integrating node, connected by an input to the output windings of the second magnetic circuit, and the output to the output ends of the winding of the first magnetic circuit so that the signals from the winding of the first magnetic circuit and the output of the integrating unit are in antiphase, and the exciting winding of the second magnetic circuit is designed to be connected a constant current source.