KR0177002B1 - Method of prevention of damage in electronic gun - Google Patents

Abstract

The present invention relates to a method for preventing electron gun damage of a cathode ray tube, and when a high pressure is applied without heating of a heater during a manufacturing process, a corresponding voltage of 150 to 250 V or more is applied to the cathode, thereby reducing the voltage difference on the cathode. Damage to the cathode K electrode due to excessive electron emission of the wood K can be prevented, and a spark gap with a predetermined interval is provided in the second grid G2 and the third grid G3. By discharging through the spark gap by a desired voltage difference, even if a breakdown voltage such as impurities are inserted between both grids, discharge by the spark gap can prevent damage to the second grid. It is effective.

Description

How to prevent damage to your gun

1 is a cross-sectional view showing the structure of a cathode ray tube.

2 shows a schematic diagram of an electron gun for explaining the damage prevention system of the electron gun according to the present invention.

* Explanation of symbols for main parts of the drawings

10 glass tube 12 fluorescent surface

14: electron gun H: heater

K: cathode G1 to G6: grid

The present invention relates to an electron gun of a cathode ray tube, and more particularly, to a damage prevention system of an electron gun for preventing damage to a cathode and a lower electrode below a second grid (G2), which may be generated when high pressure is applied to the electron gun. will be.

Generally, the cathode ray tube has a glass tube 10 that maintains a high vacuum state, a fluorescent surface 12 that emits light when electrons collide, and an electron gun 14 that generates electrons, as shown in FIG. The electron gun 14 emits heat from the heater by a voltage applied from the outside, and electrons of the cathode are emitted to control, accelerate, and direct the electrode to reach the fluorescent surface to emit the fluorescent surface. To make an image.

The cathode K is made of a metal oxide such as barium or styronium so as to emit hot electrons well, and the cathode H is heated to about 800 ° C. to emit electrons. However, during the manufacturing process, a high pressure of 25KV or more is applied without heating the heater H to discharge or rasterize internal foreign substances, so that the electrons are emitted when the cathode is not heated by the heater. (K) There was a problem that a case of damaging the electrode occurs.

In addition, the second grid G2 supplies a voltage of several hundred volts so that the electrons emitted from the cathode K can reach the fluorescent film, and the third grid G3 supplies the second grid G2. In this case, the electrons focused at the second side are accelerated to the second by supplying a voltage of several 10 KV or more, and at this time, the voltage difference between the second grid G2 and the third grid G3 becomes large, and impurities are interposed between these electrodes. There was a problem that the defect is generated a momentary high-pressure spark damage the second grid (G2).

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to provide a method of preventing damage to an electron gun such that the electrodes of the cathode are not damaged even during the high pressure treatment in the manufacturing process.

In addition, another object of the present invention is to provide a method of preventing damage to an electron gun in which a high pressure spark is prevented from occurring even when impurities are inserted between the second grid and the third grid so that the second grid is not damaged. .

The electron gun damage prevention system of the present invention for achieving the above object is characterized by applying a predetermined voltage or more to the cathode during the high pressure treatment during the manufacturing process, the corresponding voltage applied to the cathode (K) Is preferably from 150 to 250V.

In addition, the electron gun damage prevention method of the present invention for achieving another object of the present invention is to install a spark gap of a predetermined interval on the second grid and the third grid to discharge to the spark gap at a predetermined high pressure or more. It is characterized by.

According to the present invention, when a high pressure is applied without heating the heater during the manufacturing process, a corresponding voltage of 150 to 250 V or more is applied to the cathode, thereby reducing the voltage difference between the cathode and the positive electrode, thereby preventing excessive electron emission of the cathode. There is an effect that can prevent damage to the cathode electrode.

In addition, since a spark gap with a predetermined interval is provided in the second grid and the third grid to be discharged by a desired voltage difference, the discharge caused by the spark gap even when a breakdown voltage defect such as an impurity is inserted between both grids occurs. As a result, it is possible to prevent damage to the second grid.

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

The cathode K of the electron gun emits electrons by the voltage difference when a high voltage is applied to the positive electrode, but in order to emit electrons from the cathode K smoothly, it is heated by a heater H to generate hot electrons. You must do it.

However, especially during getter flashing or raster aging, which activates foreign substances in the manufacturing process, high voltage is applied without heating the heater (H), forcing electron emission from the cathode (K), and excessive electrons. Since the cathode K is damaged by the emission, in order to prevent such damage, the cathode K is applied a predetermined positive voltage, preferably a corresponding voltage of 150 to 250 V. It is possible to suppress damage and electron emission and to improve the pressure-resistant quality.

On the other hand, the second grid (G2) and the third grid (G3) has a voltage difference of several 10KV and is spaced apart by a predetermined distance, so there is no problem because the normal spark does not occur, but the second grid (G2) and When foreign matter is inserted between the third grid G3, instantaneous high pressure spark occurs, and the second grid is damaged by the high voltage of the spark.

Therefore, even if foreign matters are inserted between the second grid G2 and the third grid G3, the electrode is prevented from being damaged by the generation of high-voltage sparks by being discharged at a low voltage at a specific portion.

As described above, when high pressure is applied without heating of the heater during the manufacturing process, a corresponding voltage of 150 to 250 V or more is applied to the cathode K to reduce the voltage difference between the cathode K and the positive electrode. There is an effect that can prevent damage to the cathode (K) electrode by excessive electron emission of the wood.

In addition, even if a breakdown pressure such as impurity is inserted between both grids by providing a spark gap with a predetermined interval between the second grid and the third grid, the damage caused by the spark gap can be minimized by the discharge caused by the spark gap. There is an effect that can be prevented.

Claims (4)

An electron gun damage prevention method for preventing damage to an electron gun caused by a high voltage, wherein an electron gun damage prevention method is characterized by applying a predetermined voltage or more to a cathode (K) during high voltage processing during a manufacturing process. . 2. The electron gun damage prevention method according to claim 1, wherein said predetermined or more corresponding voltage is 150 to 250V. A method of preventing damage to an electron gun caused by damage to an electron gun caused by a high voltage, wherein the second gun G2 and the third grid G3 are provided with spark gaps at predetermined intervals. Prevention method. The method of claim 3, wherein the spark gap is discharged at a high voltage of a predetermined value or more.