SU859899A1 - Matrix converter of magnetic fields - Google Patents

Description

(54) MATRIX T SOFTWARE MAGNETIC FIELDS

The invention relates to a measuring technique and can be used to control the quality of the structure of ferromagnetic materials and products, such as sheet metal. The electron beam transducer of magnetic aols to structure scopes containing magnetic heads and the associated oscillographic indicator TI is known. However, the performance of the control by the known transducer is insufficient, since the scanning of the object surface by line requires a large amount of time. A flux-gate magnetic field transducer to a struktroskop is known, which contains a magnetically sensitive node, a rod-shaped electron-beam electron-beam device with a unicon type, on the screen of which are lamellae, a video monitoring unit, the input of which is connected to the output of the video amplifier, scanner 12. However, this device has insufficient performance and the reliability of the control of flat objects, the hook as a magnetically sensitive node is made in the vice of several successively arranged flux-probes. Such a converter has insufficient reliability and sensitivity. A matrix converter of magnetic fields to a structural microscope is known, a magnetically sensitive node made in the form of a matrix, rod-shaped lamellae associated with it, an electron-beam device of the unicon type, on the screen of which lamellae are located, a vice-monitoring unit and a unit for scanning GZ. The known converter has insufficient reliability and sensitivity. The purpose of the invention is to increase the productivity and reliability of the control. The goal is achieved by the fact that the converter is equipped with a series-connected high-power amplifier

frequency, detector and vice amplifier, the magnetically sensitive node being connected to the high frequency amplifier, the video monitoring unit connected to the output of the video amplifier and the scanning unit, the second output connected to the unicon, and the magnetically sensitive node made in the form of a matrix of ferrozondov.

The drawing shows the block diagram of the Converter.

The device contains a flat control object 1, for example, a sheet of ferromagnetic material, a magnetically sensitive node 2 made in the form of a matrix of ferrozond, rod-shaped lamellae 3, associated with the fluxgate, located on the screen 4 of the unicon 5 and connected to the series-connected high-frequency amplifier 6, detector 7 and video amplifier 8, video monitoring unit 9 is connected to the output of video amplifier 8 and GnoKGM 10 sweeps, the second output connected to unicon 5, the electron beam 11 scans Zcran 4 unicon.

The Converter operates as follows.

The magnetic field of object 1, which characterizes its structure, creates a certain magnetic relief affecting the flux-probes of the node 2 matrix. The voltage amplitude of the second harmonic taken from the matrix flux-probes is proportional to the magnetic field strength acting on the corresponding flux probe. Since the matrix using rod-shaped lamellae 3 with unicon 5, when scanning the amplitude distributions of the second voltage harmonics taken from the output of the flux-gates using the electron beam 11, a video signal is formed in the form of oscillations with the frequency of the second harmonic, amplitude modulated in accordance with the law of change in the harshness of the magnetic field characterizing the structure of the object

In order to obtain a video signal corresponding to the distribution of the magnetic pop at the input of the magnetically sensitive node 2, the alternating modulated voltage taken from the output of the unicon 5 is amplified in the high b amplifier, and then detected in the detector 7,

The amplified signal after amplification in video amplifier 8 is used to modulate the beam in the video monitor unit 9, the scanning of the electron beam of which is carried out synchronously with the scanning of the beam 11 in the unicon 5 with the help of the scanner module 10. Thus, the optical light image obtained on the screen of the video monitoring unit 9 will correspond to the distribution of the magnetic field intensity at the input of the magnetically sensitive node 2 and characterize the structure of the controlled ferromagnetic material.

The use of a ferrozonal magnetic field converter will significantly improve the reliability and performance of monitoring flat objects.

Invention Formula

Matrix transducer of magnetic fields to a structuroscope containing magnesium. a sensitive node made in the form of a matrix, rod-shaped lamellae associated with it, an electron-beam device of the unicon type, on the screen of which are lamellae, a vice-coping unit and a scanner unit, characterized in that it is equipped with a series-connected amplifier high-frequency detector and video amplifier, the output of the magnetically sensitive node is connected to the high-frequency amplifier, the video monitoring unit is connected to the output of the video amplifier and the unit once the second output is connected to the unicon, and the magnetically sensitive node is made in the form of a matrix of flux glands.

Sources of information taken into account in the examination

1. Khusanov M. X .. Magnet-sensitive control of welds. Nedra, M., 1973, p. 183-19O.

2. Authors certificate of the USSR M 189613, cl. Q 01 N 27/86, 1965.

3. USSR author's certificate N 616860, cl. Q 01N 27/82, 1977 (prototype).

Claims (1)

Claim A matrix transducer of magnetic fields to a structuroscope containing a magneto-sensitive unit made in the form of a matrix, rod-related lamellae — various lamellae, a Unicon-type electron beam device, on the screen of which there are lamellas, a vice-control unit and a scan unit, characterized in that, in order to increase performance and reliability of control, it is equipped with a high-frequency amplifier, a detector and a video amplifier connected in series, the output of the magnetically sensitive unit is connected to a high-power amplifier frequency, the control unit is connected to the output by a video amplifier and a scan unit, the second output is connected to a unicon, and the magneto-sensing unit is made in the form of a matrix of flux gates.