SU1249313A1 - Induction thickness gauge - Google Patents

Abstract

The invention relates to an instrumentation technique and can be used to control the thickness of sheets of electrically conductive material directly during their rolling. The aim of the invention is to improve the measurement accuracy. The goal is achieved by the fact that the magnet tube of the thickness gauge is closed, in the form of a hollow tetrahedral prism with two mutually perpendicular central rods, on which the excitation windings and the measuring winding are placed, as well as by reducing the scattering fluxes and reducing the influence of external magnetic rods. fields on the measurement results. 1 il. 1C 4 00 GO

Description

The invention relates to an instrumentation technique and can be used to control the thickness of sheets of electrically conductive material directly in their rolling stock.

The purpose of the invention is to increase measurement accuracy due to the elimination of the influence of nearby metal products and external magnetic fields.

The drawing shows a constructive implementation of the induction thickness gauge,

The device contains a closed 1Y magnetowire 1 with two symmetric H-gaps 2 and 3, one of which is designed to accommodate the test product 4, the central rod 5 of the magnetowire 1, two excitation windings 6 and 7, the measuring winding 8, the second central rod 9, which forms a cross-shaped jumper 10 with the first central rod 5, with slot gaps 2 and 3 made in the second central rod 9, excitation windings 6 and 7 are placed on the first central rod 5, and .m m- ka 8 vstrechnovklyuchennyh made of two sections which are mounted on second central shaft 9 with two si.mmetrichno hundred- ron tsentralno1 0 from the first shaft 5.

In the design of the proposed thickness gauge, the magnetic core 1 is made in the form of a hollow tetrahedral prism, inside of which central mutually perpendicular rods 5 and 9 are installed along two axes.

Induction thickness gauge works as follows.

When connecting the windings 6 and 7 of the excitation to a power source (not shown) in the absence of a controlled article 4 in the gap 2, the output signal is absent in the measuring winding 8, since

The currents in each section of this winding are identical and mutually balanced. When there is a controlled article 4 in the gap 2, the equilibrium of the magnetic fluxes in the sections of the measuring winding 8 is disturbed, with the result that a signal appears at the output depending on the parameters of the test article 4, in particular the thickness of the product 4.

The use in the proposed thickness gauge of a closed magnetic circuit 1, made in the form of a hollow tetrahedral prism, allows one to reduce the magnetic fluxes of scattering, eliminate the influence of external magnetic fields and thereby increase the sensitivity of the thickness gauge, and, consequently, increase the measurement accuracy.

Claims (1)

Invention Formula An induction thickness gauge containing a closed magnetic circuit with two symmetrical ribs, one of which is designed to house a monitored product, and one with a central rod, two counter-wound field windings and a measuring winding that is different in that accuracy of measurement, the magnetic core is made with the second central rod, which forms a cruciform vault with the first central rod, slot gaps are made in the second central rod, the field windings are placed on the first central rod on both sides of the second central rod, and the measuring winding is made of two counter-connected sections, which are mounted symmetrically on both sides of the first central rod on the second central rod. Editor L1 Blaiar Order 4222/39 Sos Gashggel .-. Black Tehred I. VereeKorrek-mountains M. Pojo Circulation G7 () Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Fi, Pial GSHP "Patet, Uzhgorod, st. Project, 4