KR0164872B1 - Electronic gun for color cathode tube - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electron gun used for installation in a color receiver, and more particularly, to an intermediate electrode provided between a focus electrode and an anode electrode, which are main lenses.

Conventionally, the structure of the intermediate electrode 17 provided to solve the voltage difference between the focus electrode 14 to which low voltage is applied and the anode electrode 15 to which high voltage is applied is one elliptical shape on a plate having a predetermined thickness as shown in FIG. The electron beam passing hole 17a is perforated at right angles, and due to the sudden bending of the electric field formed by the electron beam, the electron beam cannot be landed accurately at the desired point of the fluorescent screen, and the color is invaded and the deterioration of the convergence characteristic at the periphery of the screen is caused. There was a problem that brought about.

Accordingly, an object of the present invention is to provide a smooth shape in the middle electrode of the electric field distribution generated by the electron beam in view of such a conventional problem, so that the electron beam is focused at the desired point of the fluorescent surface in an optimal state. To prevent the over-convergence caused by narrowing the electron beam of the receiving tube to provide an image gun for the color receiving tube to improve the focus characteristics and the quality of the screen to sharpen the image, the present invention for achieving this object is a plate-shaped intermediate electrode An elliptical electron beam through hole is formed in the hole, and a recess of a predetermined size is formed in the plate-shaped intermediate electrode, and then an electron beam through hole is formed on the concentric axis of the recess.

Description

Color gun

1 is a front view showing the main portion of a conventional electron gun.

2 is an explanatory diagram showing an electric field distribution of a part of a conventional grid electrode.

3 is a perspective view of an intermediate electrode according to the present invention.

4 is an explanatory diagram showing an electric field distribution of a portion where an intermediate electrode according to the present invention is installed.

* Explanation of symbols for main parts of the drawings

1 electron gun 14 focus electrode

15: anode electrode 17: intermediate electrode

17a: Electron non-pass hole 17a ': Recess

The present invention relates to an electron gun installed in a color receiver, and more particularly, to an intermediate electrode provided between a focus electrode and an anode electrode, which are main lenses, to reduce the voltage difference thereof and to prevent the electron beam from being distorted.

As is well known, an electron gun is installed at the neck of the color receiving tube to reproduce the color image by emitting electron beams of blue, green, and red on the fluorescent surface of the corresponding receiving tube, and the structure thereof is shown in FIG. The plurality of grid electrodes provided with the electron electrode passing holes of blue, green, and red while being installed to be coaxially disposed between the cathode electrode 10 disposed side by side in the horizontal direction and the convergence cup 16 at the upper portion thereof ( 11) (12) (13) (14) (15) and the like. In the conventional electron gun (1) configured as described above, in particular, two electrodes of the main lens of the present invention, that is, an anode to which a high voltage is applied 15 and the focus electrode 14 to which the low voltage is applied, the electric field distribution generated in the blue and red electron beams of both sides due to the voltage difference between the two electrodes 14 and 15 is the anode electrode 15 to the focus electrode 14. Digging in and the electron beam path is crushed As the electron beam is overfocused from a desired point toward the edge of the fluorescent surface, the quality of the screen is extremely deteriorated, and in particular, the spot shape is distorted. In order to prevent this, conventionally, as shown in FIG. One or more intermediate electrodes 17 are formed between the two electrodes 14 and 15 to apply an intermediate voltage, thereby reducing the voltage difference between these two electrodes 14 and 15 step by step to reduce the electrostatic charge. This prevents overconvergence caused by focusing the electron beam of the receiving tube to improve the focus characteristic for sharpening the image, and at the same time improves the dynamic characteristics of the electron beam.

However, the structure of the intermediate electrode 17 provided to solve the voltage difference between the focus electrode 14 to which low voltage is applied and the anode electrode 15 to which high voltage is applied is one elliptical electron on a plate of a predetermined thickness as shown in FIG. Because the non-pass hole 17a is drilled at right angles, the electron beam does not focus accurately at the desired point of the fluorescent surface due to the sudden bending of the electric field formed by the electron beam, and the color is violated, causing deterioration of the convergence characteristic at the periphery of the screen. There was a problem.

Accordingly, an object of the present invention is to provide a smooth shape in the middle electrode of the electric field distribution generated by the electron beam in view of such a conventional problem, so that the electron beam is focused at a desired point on the desired surface of the fluorescent surface. It is to provide an electron gun for a color water pipe which improves the focus characteristics and the screen quality of the screen by preventing the over-focus due to narrowing the electron beam of the water tube, the present invention for achieving this object is a plate-shaped intermediate electrode An elliptical electron beam through hole is formed in the hole, and a recess of a predetermined size is formed in the plate-shaped intermediate electrode, and then an electron beam through hole is formed on the concentric axis of the recess.

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

1 is a front view showing the main portion of a conventional electron gun, and is installed so as to be located on the same axis between the cathode electrode 10 and the upper convergence cup 16 arranged side by side in the horizontal direction, In the electron gun composed of a plurality of grid electrodes 11, 12, 13, 14, 15, etc., provided with green and red electron beam passing holes, an anode electrode corresponding to the main lens as shown in FIG. A plate-shaped intermediate electrode 17 is provided between the 15 and the focus electrode 14, and the intermediate electrode 17 is positioned on the same axis as the other grid electrodes 11, 12 and 13 on the intermediate electrode 17 described above. An elliptical concave portion 17a 'having a predetermined diameter is formed, and then an electron beam passing hole 17a through which an electron beam of blue, green, and red having a smaller diameter than this is passed is drilled in the center thereof.

The structure of the anode electrode 15 and the focus electrode 14, which are the main lenses described above, is only one possible embodiment of the present invention. For example, one recess 17a 'formed in the intermediate electrode 17 is formed, Although the concave portion 17a 'may be formed on both sides of the intermediate electrode 17 as in the present invention, the concave portion 17a' is formed only on one surface of the intermediate electrode 17 adjacent to the anode electrode 15. One electron beam passing hole 17a may be drilled, and a recess 17a 'and an electron beam passing hole 17a are formed between the anode electrode 15 and the focus electrode 14 corresponding to the main lens. One or more plate-shaped intermediate electrodes 17 may be provided.

Thus, the present invention is the same as the other grid electrodes 11, 12, 13 in the intermediate electrode 17, which is provided between the focus electrode 14 and the anode electrode 15, which is the main lens, as shown in FIG. One concave portion 17a 'having a predetermined diameter is formed so as to be located on the axis line, and then a hole is passed through the electron beam passing hole 17a through which electron beams of blue, green, and red having a smaller diameter pass through the center thereof. Thus, the electric field distribution formed between the anode electrode 15 and the intermediate electrode 17 has a gentle curvature around the electron beam passing hole 17a, so that the electron beam is optimally at a desired point of the fluorescent surface. By focusing the electron beam to focus on the desired point on the fluorescent screen, it prevents overconvergence by the electrostatic lens, narrowing the electron beam of the receiving tube, improving the focus characteristic to sharpen the image, and at the same time Improve the convergence characteristics such that the landing exactly on a point on the phosphor screen of the electron beam emitted from the total desired to the effect that improves the quality of the screen.

Claims (1)

The plurality of grid electrodes 11 provided with electron beam passing holes of blue, green, and red while being installed to be coaxially disposed between the cathode electrode 10 disposed in the horizontal direction and the convergence cup 16 on the upper side thereof. In the electron gun 1 composed of (12), (13), (14) and (15), grid electrodes (11) (12) (between the anode electrode (15) and the focus electrode (14) corresponding to the main lens. The intermediate electrode 17 is formed by forming one concave portion 17a 'at a point coaxial with 13), and drilling an electron beam through hole 17a having a smaller diameter in the center thereof. Electron guns for color-level pipes installed in or above them.