KR0136176Y1 - Electron gun for inline type electrode structure - Google Patents

Abstract

The present invention not only has no fear of cracking the bead glass, but also the auxiliary electrode can be disposed at the correct position in the focusing electrode, and by providing a focusing electrode assembly to prevent intrusion of foreign matters, etc., it is possible to form an accurate electron beam lens. An electron gun for inline cathode ray tubes is provided.

The focused electrode assembly 1 has a common large-diameter portion 10 'through which three electron beams pass, and a flange portion 18 on the lower portion thereof, and a predetermined distance from the flange portion 18. A cup-shaped focusing electrode 10 having a stepped portion 20 formed on both sidewall portions parallel to a plane in which three electron beam through holes are arranged; The plate-shaped auxiliary electrode 12 is inserted into the focusing electrode 10 and attached to the step portion 20 of the focusing electrode 10 by laser welding, and has three electron beam through holes 14 formed therein. Characterized in that it comprises a focusing electrode assembly (1).

Description

Electron gun for cathode ray tube with in-line electrode structure

1 is a plan view of a focusing electrode assembly of a cathode ray tube electron gun according to the prior art.

2 is a cross-sectional view of the focusing electrode assembly according to FIG. 1.

3 is a plan view of a focusing electrode assembly of a cathode ray tube electron gun according to the present invention.

4 is a cross-sectional view of the focusing electrode assembly according to FIG.

5 is a cross-sectional view of FIG.

6 is a plan view of an auxiliary electrode of a focusing electrode assembly of an electron gun for a cathode ray tube according to the present invention.

* Explanation of symbols for main parts of the drawings

10: focusing electrode 12: auxiliary electrode

14 electron beam passing hole 16 welding point

18,18 ': flange portion 20: step portion

The present invention relates to an electron gun for a cathode ray tube, and more particularly for a cathode ray tube of an inline electrode structure having a focusing electrode assembly having a plate-shaped auxiliary electrode attached to an inner side of the focusing electrode having a common large diameter portion. It's about an electron gun.

The electron gun for a cathode ray tube which is commonly used is composed of a cathode assembly, a first grid assembly and a second grid assembly, a tripolar portion for drawing hot electrons from the cathode, and a hot electron drawn out of the third to sixth grid assemblies. The main lens unit focusing the electron beam of the electron beam is accelerated or focused through the electrode assembly to emit the phosphor on the cathode ray tube screen.

A plurality of focusing electrode assemblies constituting the main lens portion form a lens for accelerating or focusing the electron beam, the typical configuration of which is shown in FIGS. 1 and 2. As shown in FIG. 1, an auxiliary electrode 12 having an electron beam passing hole 14 is inserted into the focusing electrode 10 having a common large diameter portion formed thereon, and an electron beam passing hole 14 of the auxiliary electrode. ) Are arranged inline.

Also, as can be seen from FIG. 2, the auxiliary electrode 12 is formed in a cup shape, spaced apart from the common large diameter part by a predetermined depth, and fits inside the focusing electrode 10, and the focusing electrode 10 and the auxiliary electrode 12. The electrodes 12 are inserted and fixed together in the bead glass by respective flange portions 18, 18 'formed at their lower ends.

In the conventional cathode ray tube electron gun provided with the focusing electrode assembly having such a configuration, the auxiliary electrode 12 does not fit in the correct position in the focusing electrode, or the electron beam through hole 14 is not properly purified, so that the gap is caused by the fitting tolerance. Since foreign matter penetrates, there is a problem that an electrode which accelerates or focuses each electron beam does not form an accurate lens.

In addition, since the two flange portions 18 and 18 'of the focusing electrode 10 and the auxiliary electrode 12 must both be inserted into the bead glass, when the bead glass is fused and solidified due to the insertion gap, There is also a problem that cracks are likely to occur, and even minute cracks may develop and affect the precision assembly state of the electron gun.

Accordingly, an object of the present invention is to solve the above problems, there is no fear of cracking bead glass, the auxiliary electrode can be placed in the correct position in the focusing electrode, the focusing electrode assembly is prevented from intrusion of foreign matter, etc. It is to provide an electron gun for inline type cathode ray tube that can form a lens of an accurate electron beam by having a.

In order to achieve the object of the present invention, the present invention has a main lens portion consisting of a three-pole portion for drawing hot electrons from the cathode, and a plurality of focusing electrode assembly for focusing the hot electrons drawn from the three poles with a predetermined electron beam In an electron gun for inline cathode ray tube; A common large diameter portion 10 'through which three electron beams pass is formed, and a flange portion 18 is formed on the lower side thereof, and three electron beam through holes are arranged at a predetermined distance from the flange portion 18. A cup-shaped focusing electrode 10 having a stepped portion 20 formed on both sidewalls parallel to the plane; The plate-shaped auxiliary electrode 12 is inserted into the focusing electrode 10 and attached to the step portion 20 of the focusing electrode 10 by laser welding, and has three electron beam through holes 14 formed therein. Provided is an electron gun for an in-line cathode ray tube, characterized in that comprising a focusing electrode assembly (1).

Further, it is preferable that the auxiliary electrode is performed at four welding points adjacent to four corner portions of the auxiliary electrode when attached to the stepped portion of the focusing electrode by laser welding.

Hereinafter, embodiments of the present invention will be described with reference to FIGS. 3 to 6.

3 and 4 show the focusing electrode assembly 1 of the electron gun for inline type cathode ray tube according to the present invention, respectively, in a plan view and a sectional view. As shown in these figures, the focusing electrode assembly 1 is composed of a cup-shaped focusing electrode 10 and a plate-shaped auxiliary electrode 12. A common large-diameter portion 10 'through which three electron beams pass is formed on the focusing electrode 10, and a flange portion 18 is formed on the outer periphery of the lower portion. The focusing electrode 10 has a stepped portion 20 formed at both sidewall portions parallel to a plane in which the three electron beam through holes 14 are arranged at a predetermined distance from the flange portion 18.

In addition, as shown in the plan view of FIG. 6, the auxiliary electrode 12 is formed in a plate shape and has three electron beam through holes 14. These three electron beam through holes 14 are formed in an in-line type. As shown in FIG. 4, the auxiliary electrode 12 is inserted into the focusing electrode 10 and both sides thereof are attached to the stepped portion 20 of the focusing electrode 10. Combined. The attachment of the auxiliary electrode 12 can be simply performed by laser welding, in which four points adjacent to four corners of the auxiliary electrode 12 are selected as the welding points 16, 16, 16, and 16. By minimizing the thermal effect by the three it is possible to more accurately maintain the position of the three electron beam through hole (14).

5 is a cross sectional view of FIG. 4. Before fixing the focusing electrode assembly 1 to the bead glass, the auxiliary electrode 12 is attached to the stepped portion 20 of the focusing electrode 10 in the correct position so that the three electron beam passing holes 14 are positioned at the correct position. It can be seen that formed in parallel. That is, the gap due to the conventional fitting tolerance does not occur, and thus intrusion of foreign matters and the like can be prevented. As a result, the focusing electrode assembly can form a more accurate lens to focus the electron beam more accurately.

As such, since accurate positioning is possible, spherical aberration formed in an electric field expansion-type focusing electrode such as an in-line electrode structure and astigmatism, which is the opposite effect thereof, are minimized, thereby achieving excellent image quality.

In addition, since only the flange portion 18 of the focusing electrode 10 is inserted and fixed in the bead glass, the focusing electrode assembly 1 of the electron gun for inline cathode ray tube according to the present invention has an effect of reducing the crack formed in the bead glass. Have

As described above, the present invention has been described by specific embodiments, but the present invention is not limited thereto, and it will be understood by those skilled in the art that various modifications and applications are possible without departing from the spirit and scope of the appended claims.

Claims (2)

An electron gun for inline cathode ray tubes, comprising: a main lens portion composed of a three-pole portion for drawing hot electrons from a cathode and a plurality of focusing electrode assemblies for focusing the hot electrons drawn from the three-pole portions with a predetermined electron beam; A common large diameter portion 10 'through which three electron beams pass is formed, and a flange portion 18 is formed on the lower side thereof, and three electron beam through holes are arranged at a predetermined distance from the flange portion 18. A cup-shaped focusing electrode 10 having a stepped portion 20 formed on both sidewalls parallel to the plane; The plate-shaped auxiliary electrode 12 is inserted into the focusing electrode 10 and attached to the step portion 20 of the focusing electrode 10 by laser welding, and has three electron beam through holes 14 formed therein. An electron gun for an inline cathode ray tube, comprising a focusing electrode assembly (1). An electron gun for an inline cathode ray tube according to claim 1, wherein the laser welding is performed at four welding points (16, 16, 16, 16) adjacent to four corner portions of the auxiliary electrode.