SU1364967A1 - Magnetizing device for magnetographic flaw detection - Google Patents

Abstract

The invention relates to non-destructive testing of products using the magnetic inspection method of flaw detection and can be used to magnetize a section of a product when it detects the discontinuity of the material of the product. The aim of the invention is to increase the reliability of the control. The goal is achieved by the fact that the electromagnet is made with wheels 3 of ferromagnetic material located on each branch of the magnetic circuit in a staggered order; moreover, the wheels of one branch of the magnetic core relative to the wheels of the other branch of the magnetic circuit are installed asymmetrically to the longitudinal plane of symmetry of the magnetic circuit, 3 sludge.

Description

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one

The invention relates to the field of non-destructive testing of products in the magnetic field method of flaw detection and can be used to magnetize a section of a product while monitoring the continuity of the material in all areas of engineering.

The aim of the invention is to increase the reliability of control due to a more efficient and uniform distribution of the magnetic field during magnetization of a portion of the product.

FIG. 1 shows the device, general view, in section; in fig. 2 - NMD A in FIG. one; in fig. 3 is a view B in FIG. one.

The magnetizing device contains an electromagnet 1, a U-shaped magnet 2, consisting of two identical side branches 3 and a crossbar 4 on which the magnetizing coil 5 is placed, the wheels 6 of ferromagnetic material, fixed by means of axes 7 of magnetic material on the side branches x magnetic wires 2 on both sides of each branch in a checkerboard pattern. The wheels are mounted on the axle with the possibility of their rotation using bearings 8, and between the sides of the branches of the magnetic conductor and the wheel a gap of 0.2-0.3 mm is formed using a gasket 9. The side branches 3 are fixed to the crossbar 4 with bolts 10, and wheels 6 to the lateral surface of the magnetic circuit - using nuts 11.

The magnetizing device operates as follows.

When a constant electric current is applied to the winding 5 of the electromagnet 1, a magnetic flux occurs in the crossbar plate 4 and the side branches x 3, which is then divided into two component parts. Part of it, the magnetic resistance due to the air gap between the side surfaces of the wheels 6 facing the side branches of the magnetic core 3 and the corresponding planes of the latter, penetrates into the ferromagnetic wheels 6 and through them in the zone of contact of the wheels 6 with the surface of the tested material13649672

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A part of the magnetic flux through the magnetic resistance of the air gap between the poles of the side branches of the 3 m nitrous line and the surface of the test product directly penetrates the material of the product. As a result, the localized area of the controlled area is magnetized and the internal jet of the latter is mapped onto a magnetic tape placed over the controlled wire between the poles of the magnetic circuit 5 The magnetising device is brought into translational motion by one of the known methods, an example is manual, which allows Continuously magnetize new areas of the controlled product. Asymmeter

20

25

thirty

The staggered chess arrangement improves the uniformity of the field distribution in the interpolar space of the electromagnet.

The invention will make it possible to increase the sensitivity of the magnetographic method to subsurface defects and defects of small sizes, which ensures the reliability of the controlled and linear ones.

35

40

five

50

Ф о рм у .л а

invented

A magnetizer for magnethographic flaw detection, containing an electromagnet with a magnet wire and wheels made of ferromagnetic material, installed on both sides of the magnetic circuit with the possibility of their rotation, characterized in that, in order to increase the control reliability, the magnetic circuit is U-shaped. no less than one more n wheels, wheels installed in a chessboard on both sides of each:; howling a branch of the magnetic circuit is installed along the axes of magnetic material; the wheels of one branch of the magnetic circuit are installed s on the wheels of the other branch of the magnetic circuit, an asymmetry in the longitudinal plane of symmetry of the magnetic circuit.

Part of the magnetic flux through the magnetic resistance of the air gap between the poles of the side branches 3 of the magnetic core and the surface of the test product directly penetrates into the product material. As a result, magnetization occurs in the local region of the controlled section of the product and the internal structure of the latter is displayed on a magnetic tape superimposed on the controlled section between the poles of the magnetic circuit. The magnetizing device as a whole is brought into translational motion by any of the known methods, e.g. manual, which allows continuously magnetizing new areas of the tested product. Asymmetrical

This chessboard arrangement of the wheels improves the uniform distribution of the floor in the interpolar space of the electromagnet.

The invention will increase the sensitivity of the magnetographic method to subsurface defects and small size defects, which will ensure the reliability of controlled products.

Ф о рм у .л а

the invention

A magnetizing device for magnetographic flaw detection, containing an electromagnet with a magnetic conductor and wheels of ferromagnetic material installed on both sides of the magnetic circuit with the possibility of their rotation, characterized in that, in order to increase the reliability of control, the magnetic circuit is made U-shaped, the device is additionally equipped with at least than with another pair of wheels, the wheels are installed in a staggered order on both sides of each side:; of the magnetic circuit branch by means of axles of magnetic material, and the wheels discharge branch of the magnetic circuit mounted relative to the wheels of the other branch of the magnetic circuit is asymmetric to the longitudinal plane of symmetry of the magnetic circuit.

ten

Claims (1)

The claims of the magnetizing device for magnetic flaw detection, 35 containing an electromagnet with a magnetic circuit and wheels of ferromagnetic material mounted on both sides of the magnetic circuit with the possibility of 40 rotation, characterized in that, in order to increase the reliability of control, the magnetic circuit is made U-shaped, the device is equipped with at least one more pair of wheels, the wheels are staggered on both sides of each side branch of the magnetic circuit through axes of magnetic material, and the wheels of one branch of the magnetic circuit are mounted relative to the wheels of the other branches of the magnetic circuit asymmetrically to the longitudinal plane of symmetry of the magnetic circuit. FIG. 2