SU495716A1 - Degaussing device - Google Patents

Description

one:

The invention relates to the field of electrotechnical, more specifically to the field of the manufacture of electron-beam tubes (CRT). The device can be used for demagnetization of bodies of complex configuration, including electron-optical systems (EOS) of CRT.

Plastoma demagnetizers are not designed primarily for demagnetization of bodies of simple configuration, such as bearing rings, and contain two mutually perpendicular solenoids connected to a power source.

The aim of the invention is to improve the quality of magnetisation of bodies of complex configuration, such as EOS CRT.

For this, the demagnetizer is equipped with two additional solenoids superimposed on the main solenoids and shifted relative to the main solenoids and between themselves at an angle of 120 °. The main and additional solenoids are included as a load in the power supply circuit, which is a three-phase transformer. A rotating magnetic field in one of the systems is shifted by means of a phase switch, an antenna connected between the power source and the amplitude controller, at an angle of 90 ° relative to the field in the other system.

A diagram of a demagnetized device (one of the mutually peri- pendicular systems) is shown in the drawing. The device contains two mutually perpendicular demagnetizing systems, rigidly connected with each other. Each system consists of a main solenoid 1 and additional solenoids 2 and 3 enclosed in the body 4 of an insulating material. Special brackets 5 of nz of non-magnetic material are installed inside the windings, and demagnetized bodies are closed by the KOTOpbix. Solenoids 1, 2 and 3, included as a load in the three-phase current circuit,

form a rotating magnetic field at the site of demagnetization of demagnetized bodies.

The solenoids 2, 3 and all the solenoids of the second system (not shown in the drawing) consist of two sections, between which the main solenoid 1 is located. The axes of the solenoids 1, 2 and 3 are shifted relative to each other by an angle of 120 °. The ends of the solenoids 1, 2 and 3 are connected through an amplitude regulator 6 to the phase shifter 7, which provides a shift of the rotating field of the magic field in the first system and an angle of 90 ° relative to the field in the second system. The demagnetizing system is powered from a three-phase transformer 8. The second demagnetizing system contains those

same elements as the first except for the phase shifter 7.

Thus, in the working state of the device, the body being demagnetized, is planted on KpoiiiUTeihiax 5, dsGuits a lie ;;: OHUiecH magnetic nol, obtained due to disposable solenoids 1, 2 and 3 h., Angle 120 ° co6oii, nitrated from a three-phase strand 8. BpantaioHuiecH magitic zero, affecting the body being demagnetized, in mutually periieidicular systems are shifted relative to each other through the means of the phase shifter 7 and the angle of 90 °. Therefore, the niducci demagnetizing floor in the individual elements of the bodies being demagnetized is uniform, which contributes to their iodine demagnetization.

The proposed demagnetization device as compared to the existing ones allows improving the quality of demagnetization of EOS CRT by 60-80%.

Ф орм ул а and 3 о б р е с с н н

Its demagnetization, containing two dissociable mutants, is not the same;) but co; ieiiOH; i, a. connected with a source of nanthi, o t; n chu yu 1i s e 51 with the fact that, from a ti chyo to improve the quality of the razmatichnvann, but two pre-solo solenoids are applied to yiu; m g; , in KOTOpBix, the solenoids are shifted to one relative-and-another angle of 120 °, ycTpoiicT is connected to the amiditation control, each demagnetizing cJiCTCMa being included as a load in the circuit of the pitI source, which is three-phase; transformer), and the one that is considered to be a fault, Ayuy, its magic zero in from the systems is shifted by means of a phase-shifter connected between the nitangsh source and the amplitude control knob, at an angle of zero to the other.