SU1408350A1 - Magnetic-television flaw detector - Google Patents

Abstract

The invention relates to non-destructive testing and can be used to control the structure of ferromagnetic objects. The aim of the invention is to increase the sensitivity to multi-oriented defects by changing the direction of the magnetization vector. The control object 11 is scanned by the magnetically sensitive unit 3 synchronously with the electron beam moving across the screen of the video monitoring unit 5. The program control unit 9 controls the adjustable DC source 10, as a result of which the total magnetization vector of the control object 11 is rotated. When the vector reaches a position perpendicular to the direction of the defect, it triggers the threshold block 7, as a result of which this direction of the magnetization vector is fixed, which ensures a maximum sensitivity of 3 P1. “A c

Description

The invention relates to nondestructive testing and can be used to control the structure of ferromagnetic objects.

The purpose of the invention is to increase the sensitivity to misoriented defects by changing the direction of the magnetization vector.

In FIG. 1 shows a structural diagram of the proposed flaw detector; in FIG. 2 - design of an electromagnet; in FIG. 3 is the same side view.

The flaw detector contains a serially connected unregulated source of direct current 1 and an electromagnet 2 connected in series to a magnetically sensitive unit 3, an amplitude selector 4 and a video control unit 5, a scan unit 6, the outputs of which are connected to a magnetically sensitive unit 3 and a video control unit 5, and connected in series with a threshold block 7, the input of which is connected to the output of the amplitude selector 4, measuring block 8, block? software control and unregulated source 10 constant tone, the output of which is connected to an electromagnet 2 and the second input of the measuring unit 8. In FIG. 1 also shows the object of control 11.

Electromagnet 2 (Fig. 2) is made in the form of two mutually perpendicular-shaped plates 12 and 13, at the ends of which windings 14, 15 and 16, 17 are placed.

Magnetotelevision flaw detector operates as follows.

The control object 11 is scanned by a Shagnochtochisitelny node 3, the output signal of which after amplitude selection is fed to the input of the brightness modulator of the video control unit 5. The scan unit 6 performs synchronous movement of the electronic. The beam of the video control unit 5 and the sensitivity area of the magnetically sensitive node 3. Since the windings 14-17 are mutually perpendi. ocularly, when the current changes, the total vector of the magnetizing field changes its direction. At the moment when the vector of the magnetizing field is a right angle with the defect orientation direction, the scattering magnetic field takes a maximum value. In this case, the threshold unit 7 is triggered, it includes the measurement unit 8, and this current value is fixed by the program control unit 9.

Claims (1)

Claim A magnetotelevision flaw detector containing an adjustable current source, connected in series with an unregulated current source and an U-shaped electromagnet with windings at the extreme poles of the electromagnet, connected in series with a magnetically sensitive unit, an amplitude selector and a video control unit, as well as a scan unit connected to a magnetically sensitive unit and a video control unit, characterized in that, in order to increase the sensitivity to mis-oriented defects, it is equipped with connected a threshold unit connected to an amplitude selector, a measuring unit, the second input of which is connected to an adjustable current source, the th program control unit, the output of which is connected to the control input of an adjustable current source, and the electromagnet is made with two additional poles located in a plane perpendicular the plane of the available poles, with two additional windings connected to the output of an adjustable current source. rig.2