KR920010724B1 - Color cathode ray tube - Google Patents

Abstract

The screen of the color cathode ray tube has a stripe shape to prevent blur caused by vertical terrestrial magnetism. The color CRT includes R.G.B fluorescence stripe formed in horizontal direction of a panel, black matrix formed in horizontal direction of a panel, an electron gun for shooting electron beams in vertical directions to match the fluorescence stripes, and shadow mask having electron beam passing holes arranged in horizontal direction.

Description

Color cathode ray tube

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

2 is a partially enlarged front view of the screen surface of a conventional stripe-shaped color cathode ray tube.

3A and 3B are enlarged cross-sectional views of a screen surface showing a state in which a beam spot is formed on a screen surface of a conventional cathode ray tube.

4 is a partially enlarged front view of the screen surface of the color cathode ray tube according to the present invention.

5 is an enlarged cross-sectional view of a screen surface showing a state in which a beam spot is formed on the screen surface in the color cathode ray tube of the present invention.

* Explanation of symbols for the main parts of the drawings

11: neck of a funnel 12 inline electron gun

13: deflection yoke 14: funnel

15 shadow mask frame assembly 16 panel

R, G, B: Phosphor B (stripe) B: Black matrix

W: Stripe-like phosphor width BS: Electron beam spot

The present invention relates to a color cathode ray tube, and more particularly, to an improvement of a color cathode ray tube in which a screen film is striped.

As shown in FIG. 1, the color cathode ray tube 10 generally includes a funnel 14 and a shadow having an inline electron gun 12 and a deflection yoke 13 mounted inside and outside the neck 11, respectively. The mask frame assembly 15 consists of a panel 16 mounted on its inner side. In such a cathode ray tube, a screen film S is formed on an inner surface of the panel 16. As shown in FIGS. 1 and 2, the screen film S is provided with a shadow mask 15a and a predetermined surface. A stripe-like R, G, B phosphor arranged vertically (y-axis) on the inner surface of the panel maintained at intervals of and a black matrix (BM) in which the R, G, B phosphor film is located between stripes. In the conventional color cathode ray tube, each electron beam emitted from the inline electron gun 12 mounted inside the neck portion 11 of the funnel 14 is deflected by the deflection yoke 13 to have a color discrimination function. It passes through the electron beam passing hole of the shadow mask 15a and lands on the R, G, and B phosphors of the screen layer to form pixels, and these pixels are gathered to form one screen. The color cathode ray tube is classified into a positive method and a negative method according to the state in which the electron beam is landed on the screen film. When the electron beam emitted from the electron gun is landed on the screen film S, as shown in FIG. When the size of the spot BS is larger than the stripe-type phosphor and the width W, it is called a negative method. As shown in FIG. 3B, the size of the electron beam spot BS is larger than the width W of the phosphor. If is small, it is called a positive (Positive) method. In the conventional cathode ray tube, color spots are generated when the electron beam caused by the geomagnetic field causes mis-landing. In detail, it is generally known that the earth's magnetic field is stronger than the horizontal magnetic field, and consequently, the amount of beam movement caused by the earth's magnetic field appears to be large in the horizontal direction. There is a high possibility that some will reach from other fluorescent stripes across the black matrix.

As a result, the beam may deviate greatly from the fluorescent stripe and the luminance may be lowered. In some cases, the color purity may be degraded by landing on another fluorescent stripe.

Accordingly, an object of the present invention is to provide an in-line color cathode ray tube with improved color purity by preventing color staining due to the direction of the vertical geomagnetic field.

In order to achieve the above object, the present invention provides a color cathode ray tube in which a stripe of R, G, and B phosphors is formed on an inner surface of a panel, and a black matrix is formed between the stripe and strips of the R, G, and B phosphors. Is characterized in that is formed to extend in the horizontal direction of the panel.

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

1 and 4 show a typical cathode ray tube and a screen surface S ′ of a colored cathode ray tube according to the present invention, the inner side of the neck portion 11 of the funnel 14 respectively. Accordingly, a vertical inline electron gun 12 is provided, while a deflection yoke 13 is mounted on the outside of the panel 16, which is sealed with the edge of the funnel 14, on the outside of the installation method. The shadow mask frame assembly 15 is mounted at a predetermined distance from the screen surface S ′ provided on the inner surface of the panel. In addition, according to a feature of the present invention, the screen surface S ′ has a stripe-like R, G, and B phosphors arranged on the inner surface of the panel 16 in a horizontal direction (x-axis direction), respectively, and absorbs non-luminescent light between the phosphors. It consists of a horizontal black matrix (BW) filled with material. In this case, the inline electron gun 12 should be arranged in a vertical direction from a conventional horizontal direction of the arrangement of R, G, B electron guns corresponding to the fluorescent stripe arrangement structure, and the electron beam passing holes of the shadow mask 15a. The heat should be horizontal as with the fluorescent stripe. In the deflection means, the conventional method, that is, the deflection method of deflecting from left to right and from top to bottom is applied as it is.

In addition, it may be necessary to change the width of the fluorescent stripe and the black matrix, which corresponds to the density of the screen, and according to the usual design criteria. And other circuits for scanning of the electron beam apply the normal ones without any change. This is due to the spot of red, blue, and green pixels, which has the basic operating principle and configuration for the electron beam from the electron gun to be focused on the shadow mask and then to each corresponding stripe. This is because the width can be adjusted.

The color cathode ray tube according to the present invention configured as described above has an electron beam emitted from an inline electron gun 12 mounted on the neck portion 11 of the funnel 14, and is deflected by the deflection yoke 13 based on a conventional method. R, G, and B phosphors of the screen surface S 'passing through the electron beam through holes of the shadow mask 15a arranged in a horizontal direction after their deflection in the desired direction from left to right and up and down. Is landed on at least one phosphor to form one pixel. Herein, even if the electron beam emitted from the inline electron gun 12 is distorted to the left or right by a geomagnetic field, in particular by a vertical magnetic field, the electron beam spot BS landing on the phosphor on the horizontal stripe does not leave the phosphor. It is possible to prevent the occurrence of color stains and to improve the color purity. That is, since the geomagnetic field is stronger in the vertical magnetic field than in the horizontal magnetic field, the electron beam emitted by the in-line electron gun 12 becomes more distorted in the horizontal direction than in the vertical direction. As shown in FIG. The beam spot BS landing on the phosphor moves in the horizontal direction, and since the R, G, and B phosphors on the stripe are formed in the horizontal direction, color spots do not occur because they do not land on other phosphors. As a result, the color purity is improved, and it is possible to manufacture a cathode ray tube with vivid harmonic properties.

As described above, the present invention can compensate for the mis-landing of the electron beam by the geomagnetic field by forming the R, G, B phosphors and the black matrix of the screen film provided on the inner surface of the panel from the vertical direction to the horizontal direction, thereby preventing color staining and color purity. There is an advantage that can produce an improved high-definition cathode ray tube.

Furthermore, by applying a conventional method in the manufacturing process, the color cathode ray tube of the present invention can be manufactured by changing the arrangement direction of the electron gun and the arrangement of the fluorescent stripe and the shadow mask.

Claims (1)

In a color cathode ray tube having a stripe of R, G, and B phosphors on the inner surface of the panel, a black matrix between the phosphor stripes, an inline electron gun provided on the neck thereof, and a shadow mask provided on the inner space of the panel. Stripes and black matrices of G, B phosphors are formed to extend in the horizontal direction of the panel, and the electron gun is capable of emitting R, G, B electron beams in a vertical direction corresponding to the stripes of the R, G, B phosphors. It is installed, the shadow mask is a color cathode ray tube, characterized in that the longitudinal direction has an electron beam through hole arranged in a horizontal direction.

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