SU1226266A1 - Induction magnetization unit to apparatus for inspecting ferromagnetic objects - Google Patents

Abstract

The invention relates to non-destructive testing and can be used for flaw detection of ferromagnetic objects. Improving the accuracy and reliability of control is ensured by allowing the magnetic neutral to be aligned with the plane passing through the axis of the magnetically sensitive elements, such as fluxgate transducers, which is provided by using an additional winding, potentiometer, variable capacitor and additional capacitor. By adjusting the load of the sections of the additional winding using a potentiometer and capacitors, one can redistribute the magnetic flux of each of the rods of the magnetic circuit between the main flux and the scattered flux, thereby achieving symmetrization. 2 3.p. f-ly, 1 ill. i СЛ to Ю 35 Ю О О5

Description

The invention relates to non-destructive testing and can be used for the inspection of ferromagnetic objects.

The purpose of the invention is to show the accuracy and reliability of the control.

The drawing shows the magnetization block diagram.

The induction magnetization unit to a device for controlling ferromagnetic objects contains an electromagnet 1 with an open magnetic circuit 2, a frame 3 for disengaging: magnetic sensitive elements, fixed in the interpolar space of electromagnet I, an additional winding 4 placed symmetrically at the ends of the magnetic circuit 2, potentiometer 5, connected in parallel to the additional winding 4 and connected by an average output to the middle point of the additional winding 4, a variable capacitor 6, is connected between the middle point additional winding and one of the terminals of the potentiometer 5, and an additional capacitor 7 connected between the middle point of the additional winding 4 and the other of the potentiometer 5.

The induction magnetization unit to a device for controlling ferromagnetic objects works as follows.

The winding of electromagnet 1 is connected to a source of alternating voltage. The current flowing through this winding creates a magnetic flux, a part of which is closed through a controlled product (not shown), and the other part forms scattering flows. In a symmetric system formed by the magnetic conductor 1 with the winding, the magnetic fluxes are scattered by a bullet in the plane passing through the axis of symmetry of the magnetic circuit 2 and perpendicular to the plane of the drawing. Thus, in the ideal case, the magnetic neutral coincides with the indicated plane of the magnetic circuit 2, and the sockets designed to accommodate magnesium sensitive elements, such as flux-gate transducers, are aligned with this plane.

However, the real magnetic 7 neutral is shifted relative to the plane of symmetry due to the following: i GVA and variations of electromagnetic properties along the magnetic circuit 2. This leads to the influence of the magnetic field scattered on flux-gate transducers (not shown), which reduces the reliability of the control. Adjustable with potentiometer 5 and capacitor 6

The load of the sections of the additional winding 4 is redistributed by the magnetic flux of each of the rods of the magnetic circuit between, the main flux and the scattering flux, achieving symmetry.

The smaller the active resistance connected to the section of the additional winding 4, the greater part of the magnetic flux is displaced from the magnetic circuit, increasing the fluxes

scatter either. The phase of these streams is controlled by a capacitor 6.

Thus, in the induction magnetization unit, it is possible to move the magnetic neutral for

its alignment with the plane passing through the axes of the magnetically sensitive elements (cores of fluxgate transducers). If the frequency of the power winding of the electromagnet 1 current

low, then the phase shift can be neglected and capacitors 6 and 7 may be absent. At frequencies of the supply current leading to phase-shifting magnetic fluxes, it is preferable to connect capacitors 6 and 7 x to both sections of the additional winding 4. This is due to the higher temperature stability of symmetrization, since with a simultaneous and proportional change in magnitude

the neutral capacity of both tanks is not shifted, and, moreover, it is not known in advance which capacity of the loads connected to sections of the additional winding 4 should be increased.

Thus, the induction magnetizing unit eliminates the effect of magnetic flux scattering on fluxgate transducers.

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which in turn leads

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improving the reliability of detecting defects in a controlled object and the accuracy of estimating the parameters of defects.

Claims (3)

1. An induction magnetization unit to a device for controlling ferromagnetic objects, comprising an open magnet electromagnet and a frame for accommodating magnetically sensitive elements fixed in the interpolar space of an electromagnet, characterized by that, in order to increase the accuracy and reliability of the control, it is provided with an additional winding placed symmetrically at the ends of the magnetic circuit and a potentiometer connected in parallel with the additional winding and connected with the middle point of the secondary winding, 2. The unit according to claim 1, characterized in that it is provided with a variable capacitor connected between the middle point of the additional winding and one of the transients of the potentiometer. 3. The unit according to claim 2, characterized in that it is provided with an additional capacitor connected between the middle point of the additional winding and. another pin of the potentiometer. Editor I. Derbak Compiled by I. Rekunov Tehred I. Veres Order 2121/39 Circulation 778 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Corrector C, Cherni Subscription