KR100258916B1 - Method for making phosphor layer on panel of crt - Google Patents

Abstract

PURPOSE: A color cathode ray tube and fluorescent film forming method thereof is provided to increase brightness and improve screen quality by spraying phosphor of white series on green, blue, and red phosphor stripe. CONSTITUTION: A black matrix(22) is formed inside panel(21a) of cathode ray tube. Stripe shape fluorescent film by green, blue and red phosphor(23) is formed between above black matrix(22). Phosphor of white series(24) is sprayed on above green, blue, and red phosphor stripe and above black matrix(22). Green, blue, and red phosphor stripe is formed inside panel(21a), black matrix(22) is formed between green, blue, and red phosphor stripe in panel(21a), Funnel is combined with above panel(21a), and electron gun is installed at rear end of funnel. Phosphor of white series(24) is formed all over the surface on above black matrix(22) and green, blue, and red phosphor stripe.

Description

Color Cathode Ray Tube and Formation Method thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color cathode ray tube and a method of forming the fluorescent film, and more particularly, to a color cathode ray tube and a method of forming the fluorescent film having improved image quality by forming a white phosphor layer.

1 shows a conventional colored cathode ray tube in cross section.

Referring to the drawings, the conventional color cathode ray tube 11 has green, blue, and red phosphor 13 stripes formed, and a black matrix 12 formed in a predetermined pattern between the phosphor 13 stripes. The membrane 11 is formed on the inner surface of the panel 11a, the panel 21a is sealed to the funnel, the electron gun 16 enclosed in the neck portion 11b formed on the funnel, and the deflection yoke provided in the cone portion. 14 and a shadow mask 15 provided to be spaced apart from the fluorescent film 10 of the panel 11a by a predetermined interval.

In the conventional method of forming a fluorescent film of a color cathode ray tube, a fluorescent film 10 having a predetermined pattern is manufactured on an inner surface of the panel 11a. Forming a black matrix (12) of a predetermined pattern on the surface, each phosphor slurry (Slurry) is applied to the inner surface of the panel (11a) on which the black matrix 12 is formed, and then exposed and developed to green, blue And forming a red phosphor 13 pattern and depositing a metal thin film on the phosphor layer pattern, although not shown.

The conventional fluorescent film 10 formation process will be described in more detail.

First, the panel 11a is cleaned, and then a photoresist layer (not shown) is formed on the inner surface of the panel 11a. Subsequently, when the photoresist layer is exposed, curing occurs at the exposed portion. After developing with a developer and washed with water to remove the uncured portion, the cured portion is formed into a photoresist pattern.

As described above, the graphite is coated on the panel 11a on which the photoresist pattern is formed to form a graphite layer, and then developed with sulfuric acid solution. The photoresist pattern and the graphite layer formed on the pattern are dissolved and removed, Only the graphite layer formed remains to form the black matrix 12.

Subsequently, the undercoat liquid is applied to protect the black matrix 12 and to allow the phosphor slurry described later to adhere well to the panel. Next, a green, blue and red phosphor slurry is prepared, and then a phosphor layer pattern is formed for each phosphor slurry in the order of green, blue and red slurry. In order to form the phosphor layer pattern, the panel 11a is formed. A coating process for applying the phosphor to the entire inner surface of the film, an exposure process for exposing the green, blue and red phosphors by scanning light according to a predetermined pattern, and phosphors in other portions except for the portions exposed by the exposure process. After the development process is removed from the panel 11a, a metal thin film is deposited on the phosphor 13 and the black matrix 12 patterns of green, blue, and red to complete the phosphor film 10.

However, in the conventional color cathode ray tube 11 and the fluorescent film forming method having the above processes, the electron beam does not emit the target phosphor and causes other phosphors to deteriorate the screen in the color cathode ray tube 11. The image quality deteriorates by emitting light. In order to prevent this, widening the width of the black matrix 12 film may reduce emission of other colors, but there is a problem in that image quality is degraded due to relatively low luminance.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and the method of forming a color cathode ray tube and a method of forming the fluorescent film by improving the brightness by applying a white series of phosphors on the green, blue and red phosphor stripes. The purpose is to provide.

1 is a schematic cross-sectional view of a conventional color cathode ray tube.

Figure 2 is a schematic cross-sectional view of the color cathode ray tube according to the fluorescent film forming method of the present invention.

<Explanation of symbols for main parts of drawing>

10, 20 ... fluorescent membrane 11, 21 ... color cathode ray tube

11a, 21a ... panel

12, 22 ... Black Matrix

13, 23 ... green, blue, red phosphor

14 ... deflection yoke 15 ... Shadow Mask

24 ... white phosphor

The method for forming a fluorescent film of a color cathode ray tube according to the present invention for achieving the above object, forming a black matrix on the inner surface of the panel of the cathode ray tube, the green, blue and red phosphor between the black matrix; Forming a fluorescent film on the stripe, and applying a white series phosphor on the green, blue and red phosphor stripes and the black matrix.

In addition, the color cathode ray tube according to the present invention is combined with a panel and a panel having green, blue and red phosphor stripes formed on the inner surface of the panel and a black matrix formed between the phosphor stripes and an electron gun installed at the rear end thereof. In the color cathode ray tube having a funnel, characterized in that the white-based phosphor is formed entirely on the black matrix and the green, blue and red phosphor stripe.

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

The color cathode ray tube by the fluorescent film formation method of this invention is shown by sectional drawing in FIG. Here, the same reference numerals as in the above-described drawings indicate the same components.

Referring to the drawings, the color cathode ray tube 21 according to the method of forming a fluorescent film according to the present invention is formed of a green, blue and red phosphor 23 stripe and the green, blue and red phosphor 23 stripe. The fluorescent film 20 having the black matrix 22 formed in a predetermined pattern therebetween is formed on the inner surface of the panel 21a, and the panel 21a is sealed to the panel 21a and the neck portion 21b formed on the funnel. And an electron gun 16 enclosed in it, a deflection yoke 14 provided in the cone portion 21c, and a shadow mask 15 provided to be spaced apart from the fluorescent film 20 of the panel 21a by a predetermined interval.

In addition, the phosphor film 20 includes a stripe of the green, blue, and red phosphors 23 interposed between the black matrix 22 and the black matrix 22 formed on the panel 21a, and the phosphors ( 23) The white phosphor 24 is formed on the stripe and the black matrix 22.

The color cathode ray tube 21 and the method of forming the fluorescent film 21 according to the present invention for forming the above-described fluorescent film 20 is applied to apply green, blue and red phosphors 23 to the entire inner surface of the panel 21a. A process of removing the green, blue, and red phosphors 23 of the non-exposed part from the panel 21a except for the portions exposed by the exposure process. Process.

The same process as the green fluorescent film layer. It is performed in the process of forming a red fluorescent film layer and a blue fluorescent film layer, respectively.

The process of forming the fluorescent film 20 will be described in more detail. First, the panel 21a is cleaned, and then a photoresist layer is formed on the inner surface of the panel 21a. Subsequently, when the panel 21a is exposed, curing occurs at the exposed portion and no curing occurs at the unexposed portion. Next, when the panel 21a is developed with a developer and washed with water, the soluble uncured portion is removed to expose the glass panel 21a, and a photoresist pattern is formed only at the cured portion. In this way, the graphite layer is formed by applying graphite on the panel 21a on which the photoresist pattern is formed, and then developing, the photoresist pattern and the graphite layer formed on the pattern are dissolved and removed, and the graphite layer is formed on the uncured portion. Only remains form black matrix 22.

Subsequently, an undercoat solution is applied so that the green, blue and red phosphor slurry to be applied later is well adhered onto the panel 21a while protecting the black matrix 22.

Next, a phosphor 23 slurry corresponding to green, blue, and red is prepared, and each phosphor slurry is coated to form a phosphor film pattern, wherein the application sequence is in the order of green, blue, and red slurry. Conduct.

Finally, the phosphor 24 of the white series is coated on the green, blue, and red phosphors, and a metal thin film is deposited on the pattern to complete the manufacture of the phosphor 20 according to the present invention.

In addition, in the green, blue and red phosphor 23 forming step, it is to add a predetermined amount by supplementing the pigment of the green, blue and red phosphor 23 by the white-based phosphor 24 desirable.

In addition, in the forming of the green, blue and red phosphors 23, the sizes of the green, blue and red phosphors 23 may be smaller than that of the black matrix 22.

The color cathode ray tube 21 according to the present invention having the structure as described above acts as follows.

First, in the color cathode ray tube 21 according to the present invention, the electron beam emitted from the electron gun 16 in the fluorescent film 20, which is a feature thereof, is selectively applied to each fluorescent point of the fluorescent film 20 by the deflection yoke 14. In the process of landing to excite the green, blue, and red phosphor 23 layers to form an image, the white phosphor phosphor 24 emits light even if the electron beam emits other colors. It does not emit other colors by its characteristic.

In addition, as the electron beam emitted from the electron gun 16 emits the phosphor 24 of the white series, the color concentration of the green, blue, and red phosphors 23 becomes totally softened. The color concentration is increased by, for example, supplementing a predetermined amount of pigment with In this case, the luminance can be increased and the margin can be increased.

In addition, the luminous efficiency can be further increased by forming the green, blue and red phosphors 23 smaller than the black matrix 22 and applying the white phosphor 24 on the thus formed film.

As described above, the color cathode ray tube and the fluorescent film forming method according to the present invention have the following advantages.

First, the image quality is improved by increasing the margin while maintaining the luminance.

Secondly, the manufacturing process can be simplified and can be easily improved in the current process.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the technical protection scope of the present invention should be defined by the technical spirit of the claimed claims.

Claims (2)

Forming a black matrix on an inner surface of the cathode ray tube panel; Forming a fluorescent film on a stripe by green, blue and red phosphors between the black matrix; Coating a white series phosphor on the green, blue and red phosphor stripes and the black matrix; Method for producing a fluorescent film comprising a. A panel having a green, blue and red phosphor stripe formed therein and a black matrix formed between the green, blue and red phosphor stripe and a funnel having an electron gun installed at a rear end thereof, which is combined with the panel. In the color cathode ray tube to say, The color cathode ray tube, characterized in that the white-based phosphor is formed entirely on the black matrix and the green, blue and red phosphor stripe.