KR200147969Y1 - Electron gun for cathode ray tube - Google Patents

Abstract

The present invention discloses an electron gun for a cathode ray tube.

The present invention relates to an electron gun for a color cathode ray tube, in which three electron beam through holes are formed and provided with a plurality of electrodes spaced apart from each other, wherein at least one of the electrodes has three electron beam through holes spaced from each other at predetermined intervals, and is made of a conductive material. And a first electrode member and a second electrode member coated with ceramic on at least one side of the first electrode member, which is characterized by a decrease in convergence drift and white balance due to thermal expansion of the electrode. Has a good advantage.

Description

Electron gun for cathode ray tube

1 is a side view of an electron gun for a general color cathode ray tube.

2 is a perspective view showing an electrode of a conventional electron gun for color cathode ray tubes.

3 is a perspective view showing an electrode of the electron gun for the cathode ray tube according to the present invention.

4 is a cross-sectional view along the line A-A shown in FIG.

* Explanation of symbols for main parts of the drawings

31: first electrode member 32: second electrode member

R, G, B: electron beam through hole

The present invention relates to an electron gun for color cathode ray tubes, and more particularly, to an electron gun for color cathode ray tubes with improved electrodes to prevent thermal convergence drift caused by thermal expansion.

Typically, the electron gun for the color cathode ray tube is mounted on the neck of the cathode ray tube and emits an electron beam that excites the fluorescent film, as shown in FIG. 1. The cathode 11, the control electrode 12, and the screen electrode ( 13) and a plurality of focus electrodes 14 and final accelerating electrodes 15 constituting the auxiliary and main lenses. The electron gun for the color cathode ray tube configured as described above is selective according to the dice of the fluorescent film after the electron beam emitted from the cathode 11 is focused and accelerated by a predetermined potential applied to each electrode. Are deflected to land on the fluorescent film. The electron gun for the color cathode ray tube focuses and focusing means for correcting convergence on the fluorescent surface individually or entirely in the process of accelerating and focusing three electron beams emitted from the cathode 11. Means are provided. However, such a concentrating means by applying an external force to the electron beam to converge the outer electron beam toward the central electron beam side, there was a problem that can not compensate until the thermal convergence dog drift phenomenon.

That is, the thermal convergence drift phenomenon is passed through the electron beams on both sides of the three electron beam passing holes formed in the electrode by expanding the control electrode 12 and the screen electrode 13 adjacent to the heater by the heat generated from the heater. The path of the electron beam is varied as the ball is moved to both sides about the electron beam passing hole in the center, and the conventional electrode has three electron beam passing holes (3) in a simple plane electron beam passing plane 12a as shown in FIG. R) (G) (B) was arranged in an inline phase, and thus the amount of thermal expansion as the electrode 12 was heated could not be absorbed.

Therefore, the electron beam passing through the electron beam through holes R and B on both sides during the time that the electrode 12 is heated by the heater to reach the thermal saturation state is moved outward as the electrode is thermally expanded, so that the initial stabilization time of the image is increased. There was a problem of lengthening. In addition, the thermal expansion of the electrode 12 is widened between the cathode 11 and the electrode to reduce the cut-off characteristics of the hot electrons, further deteriorate the white balance state and the focus characteristics of the entire electron gun, the electron beam emitted from the electron gun is fluorescent There is a problem that the resolution of an image formed by landing on a film and exciting a fluorescent film cannot be improved.

The degree of occurrence of the shape depends on various conditions such as the thermal expansion coefficient of the metal constituting the electrode 11, the shape of the electron beam through-holes, etc. In order to solve such a problem, the electrode is made of a material having a small thermal expansion amount. The fabrication reduced the convergence drift phenomenon and deterioration of focus characteristics due to thermal expansion, but there was a problem that a satisfactory effect could not be expected.

The present invention has been made to solve the above-described problems, and the electron gun for color cathode ray tube which can minimize the amount of thermal expansion of the electrode by the heat generated from the heater and improve the focus characteristics and the white balance state of the electron beam The purpose is to provide.

In order to achieve the above object, the present invention, in the electron gun for a color cathode ray tube formed of three electron beam through-holes and provided with a plurality of electrodes spaced at predetermined intervals, at least one of the electrodes passes through three electron beams spaced apart from each other The ball is formed and comprises a first electrode member made of a conductive material, and a second electrode member coated with ceramic on at least one side of the first electrode member.

Hereinafter, a preferred embodiment of the cathode ray tube electron gun according to the present invention will be described in detail with reference to the accompanying drawings. The cathode ray tube electron gun according to the present invention includes a plurality of cathodes and electron beams that emit hot electrons. Electrodes having an electron gun, that is, the front side adjacent to the cathode passes three electron beams through the first electrode member 31 made of a thin conductive metal as shown in FIGS. 3 and 4. Balls (R) (G) and (B) are formed, and at least one side of the first electrode member 31 is formed with a second electrode member 32 formed by coating a ceramic. Herein, the electrode may be formed of ceramic on the second electrode member 32 and a conductive metal may be coated on the surface thereof to form the first electrode member 31. The first electrode member may be formed on the cathode 11 side. It is preferable to fix it to be located at.

The following describes the operation of the electron gun for the color cathode ray tube according to the present invention configured as described above. The electrode 30 of the electron gun for the color cathode ray tube according to the present invention, that is, the electrode 30 adjacent to the cathode is thermally expanded as it is heated by the heat generated from the heater of the cathode, which is the source of hot electron emission, and the electrode 30 is a conductive metal. Since the first electrode member 31 and the second electrode member 32 formed of ceramic are coated, the thermal expansion amount can be minimized.

In more detail, at least one side of the first electrode member 31 made of a conductive metal is formed with the second electrode member 32 coated with ceramic, so that the amount of thermal expansion due to the heating of the electrode is small, so that the electron beam passes through the outside. It is possible to minimize the movement amount of the ball (R) (B) is moved in the right direction and further to prevent the phenomenon of thermal convergence drift of the electron beam.

In addition, since the first electrode member 31 is formed of a thin plate, the thermal saturation state is achieved within a short time, thereby reducing the initial stabilization time of the cathode ray tube employing the same.

In addition, since the second electrode member 32 coated on the first electrode member 31 is made of ceramic, the amount of thermal deformation is extremely small, so that the gap between the cathode and the electrode 30 can be prevented from being deformed. The cutoff characteristic according to the electron beam control can be improved.

As described above, the electron gun for the cathode ray tube of the present invention has the advantage of minimizing the movement of the outer electron beam through hole due to thermal expansion of the electrode, thereby preventing the thermal convergence drift of the electron beam and improving the focus characteristic of the electron beam. .

Claims (3)

Three electron beam through holes are formed, and in the electron gun for a color cathode ray tube having a plurality of electrodes spaced at predetermined intervals from each other, at least one of the funnels 30 is formed with three electron beam through holes RG and B spaced apart from each other by a predetermined distance. And a first electrode member (31) made of a conductive material and a second electrode member (32) coated with ceramic on at least one side of the first electrode member (31). . The electron gun for a color cathode ray tube according to claim 1, wherein the first electrode member (31) is located on a cathode side. In the electron gun for a color cathode ray tube formed of a plurality of electron beam through-holes and provided with a plurality of electrodes spaced apart from each other, at least one of the electrodes 30, the three electron beam through-holes (R, G, B spaced apart from each other) And a second electrode member 32 made of ceramic and a first electrode member 31 coated with a conductive metal on at least one side of the upper second electrode member 32. Tolerance gun.