SU1654735A1 - Monitor-type magnetic-field flaw detector - Google Patents

Abstract

The invention relates to non-destructive testing of materials and products and can be used in industry for visualizing the internal structure of ferromagnets. The purpose of the invention is to increase the reliability of control by increasing the sensitivity of the conversion in the auto-oscillator mode. The structure of a ferromagnet is considered unambiguously related to residual magnetization, which is converted into frequency by using a feedback circuit for amplifier 13: an adjustable voltage divider 14, feedback winding 9, a ferromagnetic core 8, an oscillating circuit from the output winding 10 and a capacitor 11 and switch 12. The result of the conversion is a visible image on the video monitoring unit 6. 1 Il. Have

Description

The invention relates to non-destructive testing of materials and products and can be used in industry to visualize the internal structure of ferromagnets.

The aim of the invention is to increase the reliability of control by increasing the sensitivity of the Converter during self-generating mode.

The drawing shows a structural diagram of a flaw detector.

The flaw detector contains an electromagnet 1, a magnetosensitive unit 2 connected in series, a frequency discriminator 3, a video amplifier 4, a memory unit 5 and a video control unit 6, and a scan unit 7, the outputs of which are connected to the memory unit 5 and the video control unit.

The magnetosensitive assembly 2 contains ferrite cores 8.1-8.M, arranged in a line, feedback winding 9, piercing all cores 8, output windings 10.1-10.N, wrapping respectively ferrite cores 8.1-8.N and capacitors 11,1- 11.N connected in parallel to the corresponding output windings 10.1-10.N. In addition, the magnetically sensitive assembly 2 contains a series-connected switch 12, the control input of which is connected to the scanning unit 7, and the switching inputs are connected to the output windings 10.1-10.N, an amplifier ’13, and an adjustable voltage divider 14 connected to the feedback winding 9.

Flaw detector works as follows.

^! The electromagnet 1 magnetizes a test object (not shown). The magnetically sensitive assembly 2 sequentially scans the surface of the test object. In this case, the switch 12 sequentially switches the output windings 10.1-10.N, and since the feedback winding 9 covers all the ferrite cores 8.1-8.N. then at each switching, a feedback loop arises for the amplifier 13 in a circuit: an adjustable voltage divider 14, a feedback winding 9, a circuit formed by the output winding 10 and the capacitor 11, and the switch 12. The amplifier 13 is excited at a frequency determined by the capacitor 11 and the output inductance winding 10, the magnitude of which depends on the magnetization of the ferrite core 8.

Thus, the distribution of magnetic fields is converted into a frequency-modulated signal, which is detected by the frequency discriminator 4 and stored in the memory unit 5. The received signal is converted into a visible image in the video control unit 6.

Claims (1)

The claims Magnetotelevision flaw detector containing an electromagnet, a magnetically sensitive unit connected in series, made in the form of a line of ferrite cores, a frequency discriminator, a video amplifier, a memory unit and a video control unit and a scan unit, the outputs of which are connected to a memory unit and a video control unit, characterized in that, with In order to increase the reliability of control, it is equipped with a series-connected switch, the control input of which is connected to a scan unit, an amplifier, adjustable voltage divider, feedback winding, covering all ferrite cores. and in parallel connected capacitors and output windings, 40 the number of pairs of which is equal to the number of ferrite. cores, output windings are placed on the corresponding ferrite cores and connected to the corresponding inputs of the switch. 45.