KR100274876B1 - Electrode of electron gun - Google Patents

Abstract

The present invention provides an auxiliary electrode having an independent small diameter electron beam through hole arranged in an inline form, and an external electrode having a large diameter electron beam through hole formed therein so that the auxiliary electrode passes through the electron beam passing through the electron beam through hole. The present invention relates to an electrode of an electron gun having a plate electrode provided at an end of the external electrode.

Description

Electrode of electron gun

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrode, and more particularly, to an electrode of an electron gun in which a part of an electrode of an electron gun enclosed in a neck portion of a cathode ray tube is changed.

In general, the cathode ray tube employs an inline electron gun that emits an electron beam so as to collide with a fluorescent film applied to an inner surface of a panel to emit phosphors. The electron gun includes a three-pole portion consisting of a cathode, a control electrode, and a screen electrode, a plurality of focus electrodes disposed to face the screen electrode to form a prefocus lens, and formed to face the focus electrode to form a main focus lens portion. It consists of the final acceleration electrode.

FIG. 1 illustrates an example of such a conventional electrode 10, and FIG. 2 is a cross-sectional view of FIG. 1 taken along the line I-I.

1 and 2, an external electrode 11 having a large diameter electron beam through hole 11a through which red, green, and blue electron beams emitted from three cathodes can pass together. ) Is provided. On the inner surface of the external electrode 11 is provided an auxiliary electrode 12 in which three independent electron beam through holes 12a are arranged in an inline form so that the electron beams can pass therethrough. Here, the external electrode 11 has a burring portion 11b formed at the tip portion thereof.

In order to manufacture the electrode 10 having such a shape, the external electrode 11 is formed by a blanking process, a drawing process, a burring process, etc. using a raw material of a flat plate, and separately formed on a predetermined portion of an inner surface of the external electrode 11. The auxiliary electrode 12 manufactured by the process of welding is completed.

However, when the burring portion 11b is not bent at a desired angle in the process of punching a mold to form the burring portion 11b, or is twisted or partially deformed, a corresponding voltage is applied when the voltage is applied. The distribution of equipotential lines formed between the electrodes changes every time the electrode is manufactured, making it difficult to manufacture an electron gun having a certain quality.

In addition, the auxiliary electrode 12 installed inside the external electrode 11 may form a bending part 12b at an end portion to facilitate welding of the parts, and the bending part 12b is fixed for each part. Since the electron beam does not pass the electron beam through hole 12a at a desired position, the electron beam is difficult to focus.

The present invention was devised to solve the above problems, and an object of the present invention is to provide an electrode of an electron gun, which is easy to assemble, by improving a part of an electrode constituting a part of an electron gun enclosed in a neck portion of a cathode ray tube.

1 is a perspective view showing a conventional electrode,

2 is a cross-sectional view of the electrode of FIG. 1 taken along the line I-I;

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

4 is a cross-sectional view of the electrode of FIG. 3;

<Brief description of symbols for the main parts of the drawings>

10,30. electrode

11,31. External electrode

11a, 31a. Small caliber electron beam through hole

12,32. Auxiliary electrode

12a, 32a. Large Diameter Electron Beam Through Hole

33. Plate electrode

In order to achieve the above object, the electrode of the electron gun according to an aspect of the present invention,

An electron beam passing through the electron beam through hole having an auxiliary electrode having three small electron beam through holes of independent small diameters arranged in an inline form to pass through the red, green, and blue electron beams emitted from the cathode, and a space to allow the auxiliary electrode to be installed. An electrode of an electron gun having an external electrode having a large-diameter electron beam passing hole formed therethrough, wherein the plate-shaped electrode is provided at an end of the external electrode.

In addition, the plate-shaped electrode is characterized in that the through hole corresponding to the electron beam through hole of the large diameter is formed, it is fixed in surface contact along the edge of the end.

Hereinafter, an electrode of the electron gun according to the present invention will be described in detail with reference to the accompanying drawings.

3 illustrates an electrode 30 according to the present invention, and FIG. 4 illustrates a state in which the electrode 30 of FIG. 3 is cut in an assembled state.

Referring to FIGS. 3 and 4, the electrode 30 has a cylindrical outer electrode 31 in which a large diameter electron beam through hole 31a is formed so that red, green, and blue electron beams emitted from the cathode of the electron gun pass through together. ) Is provided. At one edge of the external electrode 31, a buried portion 31b is provided to embed the electrode 30 in the bead glass when the electron gun is installed in the neck portion of the cathode ray tube.

A predetermined portion of the inner surface of the external electrode 31 is provided with an auxiliary electrode 32 in which three independent electron beam through holes 32a are arranged in an in-line shape so that the electron beams can pass through each. The auxiliary electrode 32 has a thickness larger than that of the conventional auxiliary electrodes (FIGS. 2 and 12) in order to reduce deformation of the assembly process.

At the end of the external electrode 31, a plate electrode 33 having a through hole 33a having a size corresponding to the electron beam through hole 31a of the external electrode 31 is provided. The plate electrode 33 may be laser-welded by surface contact along the edge of the end of the external electrode 31.

In order to manufacture the electrode 30, an external electrode 31 having a predetermined thickness is manufactured by a blanking process and a drawing process using a raw material of a flat plate, and a plate-shaped auxiliary electrode 32 is formed on an inner surface of the external electrode 31. ) Will be placed and welded.

The lower surface of the plate electrode 33 is in surface contact with the edge of the end of the external electrode 31 to perform laser welding. At this time, the interval between the auxiliary electrode 32 and the plate electrode 33 can be adjusted.

The electrode 30 configured as described above emits an electron beam from three cathodes provided in the electron gun, focuses and accelerates through an electron lens unit formed between each electrode, and collides with a fluorescent film coated on an inner surface of the panel to emit light. The image will be implemented.

At this time, the electron beam passes through the three small-diameter electron beam passing holes 32a arranged in an in-line form, and then passes through the large-diameter electron beam passing holes 33a through which the red, green, and blue electron beams pass together. In this way, a predetermined voltage is applied between the two electrodes which are installed to face each other to allow a smooth distribution of the equipotential lines while passing through the electron beam through hole.

As described above, in the electrode of the electron gun of the present invention, an auxiliary electrode having a predetermined thickness is fixed to an inner surface of the external electrode, and a plate-shaped electrode is attached to an end of the external electrode, whereby an electrode without a burring portion can be manufactured. Focusing and accelerating the electron beam is possible at In addition, the distance between the large-diameter electron beam passing hole of the external electrode and the small-diameter electron beam passing hole of the auxiliary electrode can be easily adjusted, and thus the equipotential line distribution can be adjusted.

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

Claims (2)

An electron beam passing through the electron beam through hole having an auxiliary electrode having three small electron beam through holes of independent small diameters arranged in an inline form to pass through the red, green, and blue electron beams emitted from the cathode, and a space to allow the auxiliary electrode to be installed. In the electrode of the electron gun provided with an external electrode formed with a large-diameter electron beam passing hole so as to pass all together, Electrode of the electron gun, characterized in that the plate-shaped electrode is installed at the end of the external electrode. The method of claim 1, The plate electrode has a through hole corresponding to the electron beam through hole of the large diameter is formed, the electrode of the electron gun, characterized in that the surface contact is fixed along the edge of the end.