SU856037A1 - Mask kinescope magnetic shielding system - Google Patents

Description

The invention relates to television and can be used in color television receivers. . Magnetic screening systems of a mask kinescope are known, which serve to reduce the effect on the color purity of external magnetic fields, in particular the magnetic field of the Earth, when the position of the television receiver changes after its initial adjustment. These systems are based on the principle of compensating for external magnetic fields inside a magnetic screen with the help of a residual auxiliary field, which is formed during automatic demagnetization of the screen. The system of magnetic shielding of a mask kinescope with a luminescent screen and the output of a second anode on a cone of a cylinder, including an external magnetic screen made of ferromagnetic material, a magnetic circuit of a deflecting system and an automatic demagnetizing unit, are closest to the proposed technical essence and the achieved result. External maggad screen made in the form of a hollow-welded conical-shaped box and attached to an explosion-proof CRT tube. On a magnetic screen There were cutouts for supplying power to the second anode of the kinescope and cutouts for spreading the demagnetization coils 21. In such an external magnetic screen design, the effective magnetically closed surface is smaller than its axial extension due to the cutouts indicated. In this case, edge effects at the cut-out points contribute to the appearance of an uncompensated magnetic field inside the volume of the kinescope. Under these conditions, to ensure the required screening efficiency (level of the refractive magnetic field), it is necessary to increase the screen length, which leads to design complexity and material intensity. The purpose of the invention is to simplify the structure while reducing material intensity and maintaining the effectiveness of shielding. This goal is achieved by the fact that in the system of magnetic shielding of a mask kinescope with a luminescent screen and the output of the second anode on the cone of the cylinder, including an external magnetic screen made of ferromagnetic material, the magnetic circuit of the deflecting system and the coil of the automatic demagnetization unit, the external magnetic screen is made the shape of the box, the faces of which are parallel to the axis of the kinescope, their height is no more than half the distance from the fluorescent screen to the deflector magnetic circuit and at least half the distance from the luminescent screen to output a second anode. In this case, the coil of the automatic demagnetization unit can be placed along the edges of the box, and the box is formed with a continuous magnetic closed loop. The box can be tightly mounted along the contour of the kinescope balloon and perform the functions of explosion protection. In addition, the magnetic screen is made in combination with the bandage of an explosion-proof device of the kinescope, and the coil of the automatic demagnetization unit is located located centrographically directly on the bandage of the explosion-protection device of the kinescope. The drawing shows a kinescope, general view; (Example of the arrangement of the elements of the magnetic shielding system of a mask kinescope). The map shielding system contains an external magnetic screen 1 in the form of a hollow duct close to rectangular shape and with a generator parallel to the axis of the kinescope, a coil 2 of the automatic demagnetization unit, a magnetic circuit 3 of the deflection system. The magnetic screen formed by the tape can be attached to the band 4 of the explosion-proof device 5 of the kinescope using angles or made as a single unit with the band 4. The coil 2 of the automatic demagnetization unit is located concentrically along the edges of the screen I (on the band 4 of the kinescope. Example In the middle between the luminescent screen 6 of the kinescope and the magnetic core 3, the output 7 of the second anode of the kinescope is located on the cone of the cylinder. The magnetic screen 1 has a width (the height of the faces is no more than half the distance between the luminescent screen ohm 6 kinescope and magnetic core 3 of the deflecting system, but not less than half the distance from the luminescent screen 6 to the output 7 of its second anode.If the magnetic screen 1 has a greater width, then the necessary cutout to output 7 the second anode of the kinescope, and with a smaller width becomes 1m lowering the effectiveness of shielding. The magnetic shielding system works as follows. The elements of the shadow mask are permeated, in particular, by the longitudinal components (they of this field. After demagnetization of the magnetic screen 1 using an external alternating damped magnetic field excited by the flow through the coil 2 of the automatic demagnetization unit of the alternating current network at the moment the TV is turned on, the ferromagnetic domains the material of the magnetic screen 1 is installed along the components of the power lines of the Earth’s magnetic field. At the same time, due to the closure of the magnetic screen I inside it creates the residual magnetic field, the power lines of which are directed by the opposite components of the Zekpi magnetic field, thus compensating the components of the Earth’s magnetic field. In the space between the magnetic shield I and the magnetic conductor 3 of the deflecting system, Zenpie’s magnetic field is partially compensated as a result Their interaction. With the chosen configuration and dimensions of the magnetic screen, the required shielding efficiency is ensured with simpler and less motherly aloemkoy his design. Request

Claims (4)

Claim I. The system of magnetic shielding of the mask tube with a luminescent screen and the output of the second anode on the cylinder cone, including an external magnetic screen made of ferromagnetic material, a magnetic circuit of the deflecting system and the coil of the automatic demagnetization unit, characterized in that, in order to simplify the design while reducing material consumption and preserving the effectiveness of shielding, the external magnetic screen is made in the form of a box, the generatrix of which is parallel to the axis of the tube, and their height is not more than half the distance from the luminescent screen to the magnetic 856037 b 2. The system is pop. placed along the edges of the box. 3. The system according to claims I and 2, wherein the, in order to increase the manufacturability of manufacture, the box is formed by a continuous magnetically closed tape. 4. The system according to claims 1 to 3, characterized in that, in order to expand the functionality of the external magnetic screen. By combining the functions of explosion protection, the box is tightly installed along the contour of the tube of the tube. _