KR20020003643A - Projection color CRT in capable of minimizing the curvature of the screen of the glass bulb panel - Google Patents

Abstract

PURPOSE: A projection color cathode ray tube for minimizing a curvature of a glass bulb panel screen is provided to form a main panel of a projection cathode ray tube having a screen for maintaining a minimum curvature by reducing an inner curvature of a screen for focusing projection light. CONSTITUTION: An existing glass bulb(100) of a projection color cathode ray tube formed with an optical glass of a silicate series has a refractive index about 1.5 and a curvature of a screen(150) is about 1/350R. A present glass bulb(200) of the projection color cathode ray tube is formed with one of optical glass materials of a TaSF-TaF-TaK series. The glass bulb(200) has the refractive index about 1.8. The curvature of a screen(250) is about 1/560R. An identical focus length is formed by using the small curvature of a glass bulb screen forming a main body of the projection cathode ray tube.

Description

Projection color CRT in capable of minimizing the curvature of the screen of the glass bulb panel}

The present invention relates to a projection color cathode ray tube (Projection color CRT), and more particularly to a projection color cathode ray tube that can minimize the inner curvature of the glass bulb (glass bulb) panel constituting the cathode ray tube body.

In general, projection color cathode ray tubes are used in projection display devices such as projection televisions. For example in projection television, this forms an image of the three primary colors of light, red, green and blue colors, through three cathode ray tubes, respectively, and the images are lens and mirror. This allows you to zoom in, synthesize and reflect through the screen. Projection televisions include two types, a front projection type and a rear projection type. The front projection type allows the image enlarged through the lens to be viewed directly on the reflective screen, while the rear projection type reflects the image enlarged through the lens through the mirror and then projects it onto a separately installed screen. It was made to see.

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

Referring to the drawings, the refrigerant frame 12 is installed in front of the panel of the cathode ray tube body 11, and the lens frame 13 is installed in front of the refrigerant frame 12. The refrigerant frame 12 and the lens frame 13 generally have a cylindrical shape. The refrigerant is charged inside the refrigerant frame 12, and the refrigerant 17 is filled in the space formed between the front panel of the cathode ray tube body 11 and the lens frame 13. A plurality of lenses are provided inside the lens frame 13. In the operation of the projection color cathode ray tube, an image formed from the cathode ray tube main body 11 is enlarged through a plurality of lenses, and heat generated in the cathode ray tube main body 11 is transferred by the refrigerant 17. Is cooled.

Typically, projection televisions are provided with three projection color cathode ray tubes as shown in FIG. 1 to correspond to the colors of red, green and blue.

2 shows a cross section of the glass bulb panel constituting the cathode ray tube body 11. As illustrated, a screen 115 coated with a fluorescent film is formed on an inner surface of the front end portion of the glass bulb panel 11. An electron gun 110 is mounted on the rear end of the glass bulb panel 11, and the electron beam emitted from the electron gun 110 excites a fluorescent film applied to the screen to form projection light. In this case, the screen 115 is formed to have a predetermined curvature to serve as a lens that focuses the projection light primarily.

However, the curvature of the screen 115 makes it difficult to manufacture the screen and makes it difficult to uniformly apply the fluorescent film, the intermediate film, and the Al deposition film applied to the screen. In addition, when the electron beam emitted from the cathode ray tube lands on the screen 115, the corner-to-center ratio of the spot size is distorted by the inner surface curvature of the screen.

Accordingly, it is necessary to minimize the internal curvature of the screen formed on the inner surface of the cathode ray tube body panel.

The present invention satisfies the above needs. It is an object of the present invention to provide a projection color cathode ray tube body panel which minimizes the internal curvature of the screen which serves to focus the projection light. According to the present invention, there is provided a projection-type color cathode ray tube body panel having a screen that faithfully performs the role of primary focusing and maintains a minimum curvature.

Projection type color cathode ray tube body panel according to the present invention is made of a glass bulb (glass bulb). Here, the glass bulb is made of an optical glass material having a high refractive index of 1.8 or more. As the optical glass material having the high refractive index, high refractive glass of TaSF-TaF-TaK series is preferable. Thus, by forming a glass bulb panel constituting the body of the cathode ray tube made of optical glass having a high refractive index material, the inner surface curvature of the screen portion can be minimized for the same focal length.

1 is a schematic cross-sectional view of a typical projection color cathode ray tube;

2 is a cross-sectional view of a glass bulb panel forming a cathode ray tube body;

3 illustrates a case in which a glass bulb of a projection color cathode ray tube is formed of a silicate-based optical glass, which is conventionally used, and a case of using a TaSF-TaF-TaK-based optical glass having a high refractive index according to the present invention. Diagrammatically showing the optical properties of each glass bulb screen surface; And

4 shows optical characteristics of a lens.

<Brief Description of Major Codes in Drawings>

11: cathode ray tube 12: refrigerant frame

17: refrigerant 13: lens

110: electron gun 115: screen

Embodiments of the present invention will be described with reference to the accompanying drawings.

3 illustrates a case in which a glass bulb of a projection color cathode ray tube is formed of a silicate-based optical glass, which is conventionally used, and a case of using a TaSF-TaF-TaK-based optical glass having a high refractive index according to the present invention. The optical characteristics of each glass bulb screen surface are shown schematically.

First, Figure 3 (a) is a glass bulb 100 of the projection-type color cathode ray tube formed of a conventional silicate-based optical glass, the refractive index (n ₁ ) of about 1.5, the curvature of the screen 150 (ρ ₁ ) is formed as about 1 / 350R.

Figure 3 (b) is a glass bulb 200 of the projection-type color cathode ray tube formed of any one of a high refractive index TaSF-TaF-TaK-based optical glass material according to the present invention, the refractive index (n ₂ ) is It is formed as about 1.8 degree. As compared with the case in this case a projection type color cathode ray tube glass bulb (100) is formed by a conventional silicate-based optical glasses of a material shown in FIG. 3 (a), the curvature of the screen 250, for the same focal length (ρ ₂ ) Is small as about 1 / 560R. That is, the same focal length is achieved with a small curvature of the glass bulb screen constituting the cathode ray tube body.

This is because the focal length of the lens is governed by the curvature and refractive index of the lens, as shown in the equation below.

Referring to FIG. 4, where f denotes a focal length, n _ml denotes a relative refractive index, and ρ denotes a curvature of the lens.

In other words, it is possible to adjust the curvature of the lens for the same focal length by adjusting the refractive index.

Therefore, as shown in the embodiment of the present invention when using a material of high refractive index, such as TaSF-TaF-TaK-based optical glass as the material of the glass bulb to achieve the same focal length with a small curvature. Therefore, in the projection color cathode ray tube, the curvature of the screen of the glass bulb can be kept to a minimum, thereby increasing the smoothness of the screen surface.

TaSF-TaF-TaK series optical glass has a refractive index n _d and Abbe number of He's d-ray (587.6nm) In the classification according to, it is an optical glass belonging to high refractive index low dispersion. Of these, TaSF optical glass is formed by using B ₂ O ₃ -La ₂ O ₃ -Gd ₂ 0 ₃ -Y ₂ O ₃ -Ta ₂ O ₅ as a main component, and from these TaSF components, Ta ₂ O ₅ The TaF-TaK system is produced by increasing the glass-forming oxide B ₂ O ₃ by reducing and changing to Gd ₂ 0 _3, Y ₂ O ₃ . Since the TaSF-TaF-TaK-based optical glass is a well-known technique, a detailed description thereof will be omitted. For example, see pages 25-36 of Optical Glass (published by Peninsula Publishing Company, 1991).

Thus, this invention provides the cathode ray tube main body which consists of a glass bulb made of the glass material which has high refractive index in a projection type cathode ray tube. Accordingly, it becomes possible to minimize the curvature of the screen of the inner surface of the glass bulb front end.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, it is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Could be. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Claims (3)

In the projection-type color cathode ray tube comprising an electron gun, a front surface of the front end portion includes a glass bulb formed with a screen portion having a predetermined curvature is coated with a fluorescent layer excited by the electron beam emitted from the electron gun to form a projection light, And the glass bulb is made of an optical glass material having a refractive index of 1.8 or more. The method of claim 1, The glass material having a refractive index of 1.8 or more is selected from any one of TaSF-TaF-TaK-based optical glass material, the projection type color cathode ray tube. The method according to claim 1 or 2, Projection-type color cathode ray tube, characterized in that the curvature of the screen is 1 / 560R or less.