KR20020046015A - The panel structure of color cathode ray tube - Google Patents

Abstract

PURPOSE: A structure of a panel of a color cathode ray tube is provided to prevent effectively an electrification phenomenon and enhance a contrast characteristic by improving the structure of the panel. CONSTITUTION: A colored coating layer(30e) is formed by coating a coloring agent including an organic paint on a panel(1). The coloring agent is coated on the panel(1) by using a spray method. A colorless coating layer(30f) is formed on the colored coating layer(30e) by using a coating layer including SiO2. The coating layer including SiO2 is coated by using a spin coating method. The colored coating layer(30e) is used as an anti-electrified layer by adding the SnO2 to the colored coating layer(30e). The thickness of the colored coating layer(30e) is 120 to 270 angstrom. The thickness of the colorless coating layer(30f) is 1200 to 1400 angstrom. The coating process is completed by performing a thermal process.

Description

The panel structure of color cathode ray tube}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of a panel of a color cathode ray tube, and relates to a panel structure of a color cathode ray tube having a coating film formed on an outer surface of the panel in order to prevent charging of the panel and to improve contrast characteristics.

1 is a schematic configuration diagram of a general color cathode ray tube, which will be described briefly with reference to the color cathode ray tube.

A neck portion 3 is mounted on the rear of the tube consisting of the panel 1 and the funnel 2 and is maintained in a vacuum state, and an electron gun 4 is formed inside the neck portion 3 to form an electron beam 5. do. The electron beam 5 generated by the electron gun 4 is deflected and refracted by the deflection yoke 6, and the deflected electron beam 5 passes through the shadow mask 7 for performing color screening and then the fluorescent surface 8 Hit to form the screen.

On the other hand, the front surface of the panel (1) serves as an antistatic film that can remove the electrical charge (Charge) generated on the front surface by the high pressure applied to the cathode ray tube when the power supply ON / OFF, the appearance quality and contrast In order to improve the coating film 30 is formed.

In particular, in the case of a planar brown tube in which a high transmittance clear panel is used to improve the brightness of the corner portion, it is essential to apply a colored coating to obtain a color and contrast, such as a tint panel having a low transmittance. Required.

Referring to the type of the conventional coating film through FIGS. 2 to 4, first, Figure 2 is a cross-sectional view of the coating film coated by the conventional spin method, the antimony (Sb) component 3 to 5 on the panel (1) A sol (Sol) solution containing% dispersed SnO ₂ (tin oxide) and an organic pigment is spin-coated, and SnO ₂ (tin oxide) is a component included to prevent charging, and the organic pigment is colored It is an ingredient for.

Meanwhile, the spin method refers to a method in which a sol (Sol) solution is injected into the center of the upper surface of the panel 1 while the cathode ray tube is rotated so that they naturally spread by centrifugal force.

However, the spin coating film 30b coated in such a spin method takes a lot of coating liquid when forming the coating film, and due to the organic pigment contained in the solution, the coating property is disadvantageous, so that a stain occurs on the coating surface, and thus a defective product is often produced. In the case where the color cathode ray tube is large, there is a disadvantage that the luminance is not uniform because the coating film is not formed uniformly at the corners and the center of the panel.

In addition, in order to overcome such drawbacks, there have been introduced two methods of spraying a sol solution onto the panel 1 and forming a one-layer film by spin method, followed by forming a two-layer film by spray method. As the spray coating film 30a formed by the spray method as shown in FIG. 3 does not form a smooth coating film, light formed on the fluorescent surface (see 8 of FIG. 1) is diffusely reflected through the small particles of the coating film, resulting in haze of the coating film. ) Is high and good image quality cannot be obtained.

In addition, as shown in FIG. 4, the formed coating films 30c and 30d to which the spin method and the spray method are applied in turn have both the disadvantages of the spin method and the spray method.

In view of the above problems, the panel structure of the color cathode ray tube according to the present invention effectively suppresses the charging phenomenon of the panel and increases the contrast of the screen, and at the same time, the uneven coating of the sol solution, which has been a problem in the past, It is an object of the present invention to provide a panel structure with a color cathode ray that can effectively reduce the applicability and diffuse reflection on the surface of the panel to further improve image quality.

1 is a schematic configuration diagram of a general color cathode ray tube.

2 is a cross-sectional view of a coating film coated by a conventional spin method.

3 is a cross-sectional view of a coating film coated by a conventional spray method.

Figure 4 is a cross-sectional view of the coating film coated by applying a conventional spin method and the spray method in turn.

5 is a cross-sectional view of the coating film according to an embodiment of the present invention.

6 is a cross-sectional view of a coating film according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

1 ............... Panel 2 .............. Funnel

3 ............. Neck part 4 .............. Electron gun

5 ............... electron beam 6 .............. deflection yoke

7 .................. Shadow Mask 8 .............. Fluorescent Surface

30 .............. Coating Film 30b ............ Spin Coating Film

Spray coating 30e, 30g .. Colored coating

30f, 30h ........ colorless coating

In order to achieve the above object, the panel structure of the color cathode ray tube according to the present invention is a panel that transmits a screen made from a fluorescent surface coated on an inner surface to form a screen, and is provided on an outer surface of the panel to increase contrast. It is characterized by consisting of a color coating film coated in a spray method, and a colorless coating film is provided on the upper surface of the color coating film is coated in a spin method so that the surface is smoothly processed to lower the haze.

5 is a cross-sectional view of the panel structure of the color cathode ray tube according to the present invention.

According to the present invention as shown in FIG. 5, the pigments containing organic pigments on the panel 1 are first coated with a colloidal sol to form a colored coating film 30e by spray coating, and secondary oxidation thereon. Spin coating of a coating film composed mainly of silicon (SiO ₂ ) to form a colorless coating film 30f, and a material such as tin oxide (SnO ₂ ), which is added to form an antistatic film, may be sprayed. By including in the coloring coating film 30e, the coloring coating film 30e also serves as an antistatic film.

As described above, by applying a spray method to apply a coloring pigment, and then applying a spin method to form a colorless coating film 30f, the surface of the panel 1 by individual molecules of spray pigments coated by spray coating. The irregularities formed on the surface are prevented from directly contacting the air, and instead, by forming a smooth colorless coating film 30f on the outer surface of the spray coating film by spin method, the light emitted from the fluorescent surface is prevented from passing dizzy without a certain direction. The haze is dropped and the overall picture quality is clearer.

On the other hand, according to the experimental results, it is preferable that the colored coating film 30e formed by the sol which contains the coloring pigment and is applied by the spray method on the surface of the panel has a thickness of 120 to 270 kPa.

In addition, it is preferable that the colorless coating film 30f formed on the coloring coating film 30e has a thickness of 1200-1400 kPa.

Looking at the manufacturing method of the panel structure of the color cathode ray tube according to the present invention as described above, first cleans the entire surface of the color cathode ray tube, and smoothly polishes the entire surface using Cerox (CeO ₂ ).

As such, the surface of the panel 1, having a clean surface, is cleaned by using pure water and alcohol so that no impurities remain and dried. After drying, the color cathode ray tube is placed in a preheating furnace, and the surface of the panel is 35 to 45 Heat to a temperature of about ℃.

After heating as above, the coating method is applied by spraying a coloring pigment by applying a spray method, and coating the silicon oxide (SiO ₂ ) by spin method on it, followed by heat treatment to complete the coating work.

On the other hand, to prevent the charging of the color cathode ray tube, the material applied to the surface of the panel is a compound of indium (In) and tin (Sn), indium (In) and zirconium (Zr) oxide, indium (In) oxide, Oxides of antimony oxide (Sb), antimony (Sb) and tin (Sn) are used, and an antistatic film is formed such that the electrons that collect on the panel after being hit by the fluorescent surface do not remain on the panel but are grounded. It can be prevented from being discharged through the panel, such as sudden sparks occurring in the panel.

Another embodiment within the scope of the present invention with reference to Figure 6, the spin method is applied to a material such as tin (Sn), etc. added to form an antistatic film, not the coloring coating film (30g) Even if the antistatic film is formed by adding to the colorless coating film 30h, it is included in the specific idea of the present invention and there is no difference in the effect of preventing the charging of the panel and increasing the contrast.

Looking at the effect of the present invention with reference to the data obtained by the experiment when forming the coating film as another embodiment of the present invention, the transmittance of the panel is 55% to obtain the same degree as the existing coating method at the same time the front of the center and corners A uniform transmittance was obtained over, and the haze was 2%, which effectively lowered the haze than when the conventional spray method was applied.

In addition, the resistance of the panel surface is 9 × E08 (Ω / ), The same level of surface resistance as that of the conventional method can be obtained.

As described above, the panel structure of the color cathode ray tube according to the present invention forms a colored coating film by a spray method capable of forming a colored coating film having a uniform thickness over the entire surface of the panel to uniformly transmittance across the entire surface of the panel. At the same time, the contrast characteristic can be always formed, and a colorless coating film can be formed on the upper surface of the colored coating film by a spin method that can smoothly process the surface, thereby reducing the surface haze and obtaining a clearer picture quality.

In addition, by taking the structure of such a double coating film, it is possible to effectively reduce the occurrence of defective products due to transmittance, haze, color unevenness, etc. during production of the color cathode ray tube.

Claims (5)

A panel which transmits the screen made from the fluorescent surface coated on the inner surface to form the screen, A coloring coating film provided on the outer surface of the panel and coated with a spray method by including an organic pigment to increase contrast; The panel structure of the color cathode ray tube, characterized in that formed on the upper surface of the colored coating film made of a colorless coating film coated in a spin method so that the surface is smoothly processed to lower the haze. The method of claim 1, The colored coating film is a panel structure of a color cathode ray tube, characterized in that the thickness is provided in 120 ~ 270Å in order to maintain the transmittance at an appropriate level. The method of claim 1, The colorless coating film is a panel structure of a color cathode ray tube, characterized in that the thickness is provided in 1200 ~ 1400Å so that the surface is formed smoothly. The method of claim 1, The panel structure of the color cathode ray tube, characterized in that the antistatic material is added to at least one of the colored coating film and the colorless coating film to form an antistatic film on the outer surface of the panel. The method of claim 4, wherein The antistatic material is a panel structure of a color cathode ray tube, characterized in that at least one of the oxides of indium and tin, oxides of indium and zircon, indium oxide, antimony oxide, antimony and tin.