KR100400836B1 - Deflection Yoke of CRT of Transposed scan - Google Patents

Abstract

The present invention relates to a vertical scan type cathode ray tube, wherein the deflection yoke includes a vertical deflection coil for vertically deflecting an electron beam emitted from an electron gun, a horizontal deflection coil for deflecting the electron beam in a horizontal direction, and the vertical deflection coil and a horizontal deflection coil. Ferrite core which serves to reduce the loss of magnetic force generated from the coil to improve the magnetic efficiency, and the vertical deflection coil, the horizontal deflection coil and the ferrite core outside the vertical deflection coil in a fixed position, the vertical deflection coil and the horizontal deflection coil A holder for insulation therebetween; In a state where the deflection yoke is mounted on the funnel cone portion, the shortest distance from the short side of the funnel cone portion to the ferrite core is smaller than the shortest distance from the long side portion of the funnel cone portion to the ferrite core.

Therefore, according to the present invention, it is possible to reduce the waste of the magnetic field generated in the deflection coil to increase the deflection efficiency.

Description

Deflection Yoke of CRT of Transposed scan

The present invention relates to a vertical scanning type cathode ray tube, and more particularly, to a vertical yoke type deflection yoke for preventing the magnetic field loss of the deflection yoke to improve the deflection sensitivity.

1 is a vertical cross-sectional view of a vertical scanning cathode ray tube, in which a panel 1 coated with a phosphor 3 on an inner surface thereof is fused using a frit glass to a rear of the panel, and a body portion, a rectangular cone portion, and a neck Electron gun 4 in which three cathodes which generate negatively formed funnels 2, R (Red), G (Green), and B (Blue) three color electron beams (8, 9, 10) are arranged in a vertical inline And a screen 11 for reproducing color by the electron beam emitted from the electron gun hitting a fluorescent surface, a vertical deflection coil for forming a pincushion magnetic field for deflecting the electron beam in a short axis direction, and a barrel-type deflection for deflecting the electron beam in the long axis direction. And a rectangular deflection yoke 5 composed of a horizontal deflection coil forming a magnetic field, and a shadow mask 6 having long holes 7 having long axes through which the electron beam passes.

The cathode ray tube of FIG. 1 configured as described above is accelerated and focused while the electron beams of three colors R, G, and B, in which an electron beam is generated from the cathode, are sequentially passed through a plurality of electrodes, and then deflected. Scanned toward the screen 11 in a state deflected in the vertical and horizontal directions by the magnetic field of the yoke 5.

The electron beam scanned as described above passes through the long electron beam passing hole 7 at the long axis of the shadow mask 6, which serves as color screening, and emits the phosphor 3 coated on the inner surface of the panel 1, thereby reproducing an image. do.

Fig. 2 is a schematic diagram of a vertical scanning yoke, a vertical deflection coil 41 for vertically deflecting an electron beam emitted from the electron gun 5 inside the cathode ray tube, and a vertical deflection coil and a horizontal deflection coil on the outside thereof. And a ferrite core fixed at a predetermined position, and a comma generated by a holder (43) for insulation between the vertical deflection coil and the horizontal deflection coil and a horizontal barrel magnetic field mainly installed on the neck side of the holder 43. A comma precoil 45 for improving aberration, a ring band 46 provided at the neck end of the holder 43 to mechanically couple the cathode ray tube and the deflection yoke 5, and the deflection. A magnet 47 is mainly provided at the end of the opening of the yoke and used to correct raster distortion on the screen.

In particular, the deflection yoke 5 of the rectangular cross section as described above has a vertical deflection coil, a horizontal deflection coil 41 and 42 and the ferrite core 44 in a rectangular shape, and thus the distance from the electron beam is conical deflection yoke. Because it is close to, the deflection sensitivity is improved.

3 is a schematic diagram of a deflection yoke of a horizontal scanning cathode ray tube. In a conventional horizontal scanning cathode ray tube including a rectangular cone portion, as shown in FIG. 3, the shortest distance from the short side of the funnel cone portion 2a to the ferrite core ( a) was formed larger than the shortest distance (b) from the long side of the funnel cone portion to the ferrite core.

However, in the vertical scan type cathode ray tube as shown in FIG.

Since the ferrite core 44 has an inner surface shape having a shortest distance from the electron beam, the deflection sensitivity is improved, so that the same ratio of the funnel cone portion of the horizontal scan type cathode ray tube as shown in FIG. Unnecessary gaps occur when ferrite cores are formed at a rate.

Accordingly, an object of the present invention is to solve the conventional problems, and to improve the deflection sensitivity by preventing the loss of the deflection magnetic field of the deflection yoke for the vertical scanning type cathode ray tube.

1 is a vertical cross-sectional view of the vertical scanning cathode ray tube.

2 is a schematic diagram of a vertical injection yoke.

Figure 3 is a schematic diagram of the deflection yoke of the horizontal scanning cathode ray tube.

4 is a schematic diagram of a deflection yoke according to the present invention;

Explanation of symbols on the main parts of the drawings

5: deflection yoke 44: ferrite core

41 ': Horizontal deflection coil of horizontal scanning cathode ray tube

42 ': Vertical deflection coil in horizontal scan cathode ray tube

41: Vertical deflection coil of vertical scanning cathode ray tube

42: Horizontal deflection coil of vertical scanning cathode ray tube

Technical solution of the present invention for achieving the above object is a fusion spliced to the rear of the panel using a frit glass, a funnel consisting of a body portion, a rectangular cone portion, and a neck portion, 3 to generate three color electron beams In the vertical scanning cathode ray tube comprising an electron gun arranged in a vertical inline, the electron beam emitted from the electron gun hit the fluorescent surface to reproduce the color, and a deflection yoke for vertically scanning the electron beam emitted from the electron gun The deflection yoke includes a vertical deflection coil vertically deflecting an electron beam emitted from an electron gun, a horizontal deflection coil deflecting the electron beam in a horizontal direction, and a loss of magnetic force generated from the vertical deflection coil and a horizontal deflection coil. Ferrite core to increase the efficiency, and vertical deflection nose outside the vertical deflection coil One, holding the horizontal deflection coil and the ferrite core in a predetermined position and including a holder for insulation between the vertical deflection coil and the horizontal deflection coil; In a state where the deflection yoke is mounted on the funnel cone portion, the shortest distance from the short side of the funnel cone portion to the ferrite core is smaller than the shortest distance from the long side portion of the funnel cone portion to the ferrite core.

Hereinafter, with reference to the accompanying drawings, the present invention to achieve the above object will be described in detail.

According to the present invention, as shown in FIG. 1, a panel 1 having a phosphor 3 coated on an inner surface thereof, and a funnel composed of a body part, a rectangular cone part, and a neck part fused using a frit glass on the back of the panel ( 2), an electron gun 4 in which three cathodes generating electron beams 8, 9, and 10 of R (Red), G (Green), and B (Blue) are arranged in a vertical line, and in the electron gun A horizontal screen forming a screen 11 for reproducing color by the emitted electron beam hitting the fluorescent surface, a vertical deflection coil for forming a pincushion magnetic field for deflecting the electron beam in a short axis direction, and a horizontal deflection magnetic field for deflecting the electron beam in the long axis direction. It is a vertical scanning cathode ray tube consisting of a rectangular deflection yoke 5 composed of deflection coils and a shadow mask 6 having long holes 7 having long axes through which the electron beam passes.

In general, the coil thickness of the vertical deflection coil formed in the deflection yoke is about 50% thicker than the thickness of the coil of the horizontal deflection coil. As a result, as shown in Fig. 3, in the conventional horizontal scanning deflection yoke, the horizontal deflection coil 41 'is disposed on the upper side and the lower side, and the vertical deflection coil 42' is disposed on the left and right sides, and the funnel cone portion 2a is disposed. The shortest distance a from the short side of the funnel cone portion 2a to the ferrite core 44 in the state where the deflection yoke is mounted is the shortest distance from the long side portion of the funnel cone portion 2a to the ferrite core 44. It is designed to be larger than (b).

However, in the vertical scan type cathode ray tube as shown in FIG. 1, since the vertical deflection coil 41 is disposed on the left and right sides as shown in FIG. 4 and the horizontal deflection coil 42 is disposed on the upper side and the lower side, the horizontal beam as shown in FIG. When ferrite cores are formed at the same ratio as the funnel cone portion ratio of the scan type cathode ray tube, an unnecessary gap causes waste of deflection efficiency.

In the present invention, in order to solve such a problem in the related art, in the state where the deflection yoke is mounted on the funnel cone portion 2a, the shortest distance a from the short side portion of the funnel cone portion 2a to the ferrite core 44 is the funnel. It was designed to be smaller than the shortest distance b from the long side portion of the cone portion 2a to the ferrite core 44.

And when the shortest distance from the short side of the funnel cone part to the ferrite core is a, and the shortest distance from the long side of the funnel cone part to the ferrite core is b, a range value of 1 <b / a &lt; It is desirable to be satisfied.

If the value of the range b / a> 3, the distance between the funnel cone portion 2a and the ferrite core 44 is far away to reduce the deflection efficiency, and if the range of b / a ≤ 1, 15.75kHz The deflection current flowing through the copper wire of the vertical deflection coil in which the high frequency flows above flows only on the surface of the copper wire, which causes heat generation of the deflection yoke.

Therefore, when b / a ≤ 1, the area or thickness of the vertical deflection coil is reduced,

At R = p * l / s, the area s decreases and the resistance R rises, causing heat generation from the deflection yoke.

Therefore, according to the present invention, the shortest distance a from the short side of the funnel cone portion to the ferrite core is smaller than the shortest distance b from the long side portion of the funnel cone portion to the ferrite core. Because it can reduce waste, not only can the deflection yoke's deflection efficiency be increased, but also the ferrite core can be reduced in size, thereby reducing the cost of materials.

Claims (2)

A funnel composed of a body portion, a rectangular cone portion, and a neck portion, fused using a frit glass to the rear of the panel, an electron gun in which three cathodes generating three color electron beams are arranged in a vertical line, and an electron beam emitted from the electron gun In the vertical scanning cathode ray tube comprising a screen for hitting the fluorescent surface to reproduce color, and a deflection yoke for vertically scanning the electron beam emitted from the electron gun, The deflection yoke includes a vertical deflection coil for vertically deflecting an electron beam emitted from an electron gun, a horizontal deflection coil for deflecting the electron beam in a horizontal direction, and a loss of magnetic force generated from the vertical deflection coil and a horizontal deflection coil to reduce magnetic efficiency. A ferrite core, which serves to increase a height, and a holder for fixing the vertical deflection coil, the horizontal deflection coil and the ferrite core to a predetermined position outside the vertical deflection coil, and for insulation between the vertical deflection coil and the horizontal deflection coil; When the deflection yoke is mounted on the funnel cone portion, the shortest distance from the short side of the funnel cone portion to the ferrite core is smaller than the shortest distance from the long side portion of the funnel cone portion to the ferrite core (TPS). : Transposed scan) Deflection yoke of cathode ray tube. The method of claim 1, When the shortest distance from the short side of the funnel cone portion to the ferrite core is a, and the shortest distance b from the long side of the funnel cone portion to the ferrite core is satisfied, the following formula 1 <b / a ≤ 3 is satisfied. A deflection yoke of a vertically scanned (TPS) cathode ray tube.