KR0152567B1 - Phosphor film of cathode ray tube and forming method thereof - Google Patents

Abstract

The present invention discloses a fluorescent film of a cathode ray tube and a method of forming the same.

The present invention provides a non-light-emitting first absorbing film formed in a predetermined pattern on an inner surface of a panel, a phosphor layer formed between the first absorbing film, an aluminum reflecting film formed on an upper surface of the non-light-emitting absorbing film and the phosphor layer, It is characterized by a fluorescent film having a non-luminescent second absorbing film formed on the upper surface of the same pattern as the non-luminescent first absorbing film and overlapping the same, and the fluorescent film and the method of forming the fluorescent film. This has the advantage of being able to prevent light emission.

Description

Fluorescent film of cathode ray tube and its formation method

1 is a cross-sectional view of a typical cathode ray tube.

2 is a partially enlarged sectional view showing a fluorescent film formed on an inner surface of a panel of a cathode ray tube.

3 is a plan view showing a state in which the electron beam is landing on the fluorescent film.

4 is an enlarged cross sectional view showing a fluorescent film of a cathode ray tube according to the present invention;

5 is a block diagram showing a fluorescent film forming method according to the present invention.

* Explanation of symbols for main parts of the drawings

20: panel 32: electron gun

41: (non-luminescent) first absorption film 42: phosphor layer

45: second absorption film

The present invention relates to a cathode ray tube, and more particularly, to a fluorescent film of a cathode ray tube that emits light when an electron beam is excited, and a method of forming the same.

Typically, the color cathode ray tube is sealed with the panel 20 and the panel 20 provided with the shadow mask frame assembly 21 so as to be spaced apart from the fluorescent film 10 formed on the inner surface thereof as shown in FIG. The electron gun 32 is enclosed in the neck part 31, and the funnel 30 provided with the deflection yoke 33 in the cone part is comprised. In the cathode ray tube configured as described above, the electron beam emitted from the electron gun 32 is selectively deflected by the deflection yoke 33 according to the dice of the fluorescent film so that each fluorescent point of the fluorescent film, for example, the red, green, and blue phosphors is predetermined. The image is formed by landing at a fluorescent point of a fluorescent film formed in a pattern to excite the fluorescent film.

Therefore, in order to form a clearer image, it is important to accurately land the electron beam emitted from the electron gun at the fluorescent point of the fluorescent film.

However, in the fluorescent film of the conventional cathode ray tube, as shown in FIG. 2, a non-luminescent absorbing film 11 made of black stripes 11a is formed on the inner surface of the panel so as to be spaced a predetermined distance apart, and each black is formed on the inner surface of the panel 20. A phosphor layer 12 having a red phosphor R, a green phosphor G, and a blue phosphor B formed in a stripe shape with a stripe 11a interposed therebetween is provided. The non-luminescent absorbing film 11 and the phosphor layer 12 are provided. ) Is formed by forming an aluminum reflecting film 13 reflecting light emitted from the phosphor layer 12 by emitting light, and there is a problem that adjacent phosphors emit light when the electron beam emitted from the electron gun is not accurately scanned. .

In more detail, the black stripe of the non-luminous absorbing film 11 has an electron beam interposed between each of the red, blue, and green phosphors R, (G), and B, as shown in FIG. When the 100 is not correctly landed, the phosphor of another color is prevented from emitting light, but there is a problem in that the scanning of the electron beam is prevented from being slightly scanned by another phosphor.

The present invention has been made to solve the above-mentioned problems, and when the electron beam is miss landing on the fluorescent film, a fluorescent film of a cathode ray tube and a method of forming the fluorescent film can improve the landing characteristics of the electron beam by preventing adjacent phosphors from emitting light. The purpose is to provide.

In order to achieve the above object, the present invention provides a non-luminescent first absorption film formed in a predetermined pattern on an inner surface of a panel, a phosphor layer formed between the non-luminescent first absorption film, and an upper surface of the first absorption film and the phosphor response. And a second non-light-emitting absorbing film formed on the upper surface of the reflective film in the same pattern as the first non-light-emitting absorbing film and overlapping with each other.

The method of the present invention for forming such a fluorescent film of the cathode ray tube, the step of forming a non-light-emitting first absorption film of a predetermined pattern on the inner surface of the panel, forming a phosphor layer between the non-light-emitting first absorption film, A method of forming a fluorescent film of a cathode ray tube, comprising: depositing aluminum on an upper surface of a first absorbing film and a phosphor layer to form a reflecting film, the first absorbing film being formed on an upper surface of a reflecting film formed by forming a reflecting film of aluminum. And forming an overlapping non-light-emitting second absorbing film.

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

In the fluorescent film of the cathode ray tube according to the present invention, as shown in FIGS. 1 and 4, the phosphor layer is excited and emitted by an electron beam emitted from the electron gun 32 to form an image, and a predetermined pattern is formed on the inner surface of the panel. A phosphor layer having a non-luminous first absorbing film 41 formed thereon and having red, blue, and green phosphors R, G, and B formed in a predetermined pattern with the first absorbing film 41 therebetween. 42 is provided. On the upper surface of the phosphor layer 42 and the first absorption film 41, a reflective film 43 formed by depositing aluminum is formed, and on the upper surface of the reflective film 43, that is, the surface facing the electron gun 32, The non-luminescent second absorption layer 45 is formed in the same pattern as the first absorption layer 41 and overlaps the first absorption layer 41. The second absorption layer 45 is preferably formed of graphite.

In the method for forming the fluorescent film of the cathode ray tube described above, as shown in FIG. 5, the method includes forming a non-light-emitting first absorbing film having a predetermined pattern on an inner surface of the panel, and forming a phosphor layer between the non-light-emitting first absorbing film. Forming a reflective film by depositing aluminum on the upper surfaces of the first absorbing film and the phosphor layer and overlapping the upper surface of the reflective film formed by the reflective film forming step of aluminum with the same pattern as the first absorbing film. And forming a non-light-emitting second absorbing film. Here, in the forming of the second absorbing film, it is preferable to form a photoresist film having a predetermined pattern by using the photosensitive principle of the photosensitive resin, apply graphite to it, dry it, and then develop it under high pressure.

As described above, the fluorescent film formed on the inner surface of the panel by the fluorescent film forming method has a non-luminescent second absorption film formed on the upper surface of the aluminum reflective film, thereby preventing adjacent phosphors from emitting light by an electron beam missed on the fluorescent film. have. That is, when the electron beam emitted from the electron gun 32 is miss landing, the trajectory of the electron beam deviates from the phosphor to emit light. Since the second absorption film 45 is formed on the surface of the reflective film, it is shown in FIG. As described above, the electron beam missed by the height difference between the phosphor layer 42 and the second absorbing layer 45 is blocked, thereby preventing the adjacent phosphor from emitting light.

As described above, the fluorescent film of the cathode ray tube of the present invention and the method of forming the same have an advantage of preventing the electron beam from being miss landing on the fluorescent film and preventing the color bleeding phenomenon or the resolution of the image formed by excitation of the phosphor.

Claims (2)

A non-luminous first absorbing film formed in a predetermined pattern on an inner surface of the panel, a phosphor layer formed between the non-luminous first absorbing film, a reflecting film formed on an upper surface of the first absorbing film and the phosphor layer, and an upper surface of the reflecting film And a non-light-emitting second absorbing film formed in the same pattern as the first absorbing film and overlapping with each other. Forming a non-light-emitting first absorbing film having a predetermined pattern on the inner surface of the panel, forming a phosphor layer between the non-light-emitting first absorbing film, and depositing aluminum on the upper surface of the first absorbing film and the phosphor layer. A method of forming a fluorescent film of a cathode ray tube including forming a reflective film, the method comprising: forming a non-light-emitting second absorption film overlapping the first absorption film on an upper surface of the deposition film formed by the deposition film deposition process of aluminum; Method for forming a fluorescent film of the cathode ray tube, characterized in that it comprises.