SU1137383A1 - Magnetizing system for magnetic inspection - Google Patents

Abstract

MAGNETIC SYSTEM FOR A MAGNETIC CONTOLE, containing an open magnetic circuit and a magnetizing winding located on it, b tl and h a yush a so that, in order to increase its functional capabilities and improve accuracy, it is equipped with a magnetic element installed in the gap of the magnetic circuit, in the form of a wedge with grooves on the side surfaces, and cavities formed by the magnetic poles and side surfaces of the I wedge, are filled with magnesium paste. W with to | C "d 00 WITH

Description

The invention relates to the field of physical research, in particular non-destructive testing of ferromagnetic materials, and can be used for structural analysis of cylindrical products. 5

The closest to the invention in technical essence is a magnetizing system for magnetic control, containing an open magnetic circuit and a magnetizing winding located on it, while the magnetic circuit is made U-shaped, and its ends are in the form of convex cylindrical surfaces, which allows you to control products of different diameters [1 ].

However, the control process does not provide the necessary accuracy, since it is known

The drawing shows a magnetizing system for magnetic control.

The magnetizing system for magnetic control contains an open magnetic circuit 1 and a magnetizing winding 2 located on it, a non-magnetic element installed in the gap of the magnetic circuit 1, made in the form of a wedge 3 with grooves 4 on its side surfaces, and the cavities formed by the poles 10 of the magnetic circuit 1 and the side surfaces of the wedge 3, are filled with magnetic paste 5, consisting, for example, of a ferromagnetic powder as a base and a low-melting component in the form of gallium.

! 5 The magnetizing system works as follows.

A magnetizing system is placed on which truncation of the pole tip of the magnetic circuit significantly increases the influence of the air gap on the accuracy of control. In addition, magnetic control of cylindrical products, the diameter of which does not exceed the distance between the ends of the U-shaped magnetic circuit, due to the size of the magnetizing coil, is impossible, which narrows the functional capabilities of the system.

The aim of the invention is to expand the functionality and improve the accuracy of control.

The goal is achieved in that the HA ₃₀ magnetization-reversing system for a magnetic control comprising open magnetic circuit disposed thereon and a field winding, is provided mounted in the gap magnetic by nonmagnetic element vypblnennym in the form of a wedge with grooves on its side surfaces, and the cavities formed by the magnetic poles and side surfaces of the wedge, filled with magnetic paste.

This constructive implementation of the magnetizing system is explained by the fact that the magnetic paste filling the cavities between the poles of the magnetic circuit and the lateral ones on top of the surface of the cylindrical part and wiping it with a magnetic paste 5 filling the cavities between the poles of the magnetic circuit 1 and the side surfaces of the wedge 3.

An alternating current of high frequency is passed through the magnetizing winding 2, and due to the Foucault currents arising in the particles of the ferromagnetic powder of the paste 5, the internal regions between the poles of the magnetic circuit 1 and the wedge 3 are melted (and the free surface of the paste 5 is kept). magnetic paste 5 adjacent to the surfaces of the poles of the magnetic circuit 1 and the wedge 3 remain soldered.

By means of the magnetic circuit 1 and magnetic paste 5, which acts as the pole pieces of the magnetic circuit 1, the surface layer of the product is magnetized between the poles of the magnetizing system, the parameters of the pole distance and the area of the poles of which allow measurements to be made with the necessary! accuracy.

Thus, by melting the paste 5, they give the desired shape of its free surface and establish the corresponding position of the wedge 3 when the nonmagnetic element is placed in the form of a wedge with magnetizing elements, acts as pole tips and allows using the wedge to adjust the values of the pole area and the distance between the poles of the magnetizing system to achieve their optimal ratio in the complete absence of air gap.

systems on a controlled cylindrical surface of any diameter.

The invention improves the accuracy of control, as well as expand the functionality of the system by expanding the range of diameters of controlled products.

Claims (1)

A MAGNETIZING SYSTEM FOR MAGNETIC CONTROL, which contains an open magnetic circuit and a magnetizing winding located on it, so that in order to expand its functionality and improve accuracy, it is equipped with a non-magnetic element installed in the gap of the magnetic circuit, made in the form of a wedge with grooves on the lateral surfaces, and the cavities formed by the poles of the magnetic circuit and the lateral surfaces of the wedge are filled with magnetic paste. 00 m from QO with