KR19990036403U - Electrode structure of electron gun for color cathode ray tube - Google Patents

Abstract

The present invention relates to the electrode structure of the electron gun for color cathode ray tube, and in particular, the shape of the focusing and acceleration electrodes, which are the main lens forming electrodes of the electron beam, is modified to simplify the work process for attaching the auxiliary electrode to the position retracted from the opening by a certain distance. The purpose is to improve the productivity and quality of the.

In order to realize this, the present invention is common to the three electron beams generated from the cathode, and a plurality of main lens electrodes forming the main lens are provided in a shape bent in two stages so as to support the auxiliary electrode at a position where the rim portion is retracted a predetermined distance. .

Description

Electrode structure of electron gun for color cathode ray tube

The present invention relates to an electron gun for a color cathode ray tube, and more particularly, to an electrode structure for simplifying a work process and increasing productivity by modifying a structure of a main lens forming electrode in an electron gun that emits an electron beam.

Looking at the configuration of a general color cathode ray tube, the panel 6 mounted on the front surface of the CRT as shown in FIG. A fluorescent surface 3, a shadow mask 4 having a color discrimination function of an electron beam incident on the fluorescent surface 3, and a funnel 5 coupled to a rear surface of the panel 6 to maintain an interior in a vacuum state; And surrounding the outer side of the funnel 5 with a tubular neck portion 1 retracted to the rear of the funnel 5, an electron gun mounted inside the neck portion 1, and emitting an electron beam. And a deflection yoke 14 for deflecting the electron beam.

The electron gun mounted in the neck 1 includes a heater 2 that generates heat by being supplied with power through the stem pin 19 as shown in FIG. 2, a heater support 22 that supports the heater 2, and the A cathode 7 in which hot electrons are emitted by the heating of the heater 2, a cathode support 23 supporting the cathode 7, and first and second grids sequentially arranged in front of the cathode 7; Electrodes 9, 10 and main lens electrodes 11, 12, and bead glass 24 for supporting the electrodes on both sides, the shield cup 14 in front of the acceleration electrode 12 of the main lens electrodes ) Is placed.

The main lens electrodes 11 and 12 of the conventional electron gun are formed by the potential difference between each other, and the main lens common to the R, G, and B lenses has a vertical focusing / acceleration in the vertical direction compared to the horizontal focusing / acceleration field. Because of the stronger influence of the accelerating electric field, the shape of the three electron beams after passing through the main lens shows a horizontal phenomenon in which the horizontal is longer than vertical.

Therefore, the auxiliary electrodes 20 and 21 are disposed on the focusing electrode 11 and the acceleration electrode 12 at a predetermined distance L from each rim 30 to compensate for the horizontalization of the electron beam. The perspective view of is shown in FIG.

The main lens structure described above can obtain the focusing force (hereinafter, referred to as positive convergence, STC) of the side beam itself to the center beam, which is an important feature for the side beams by the retreat of the auxiliary electrodes 20 and 21.

However, the auxiliary electrodes 20 and 21 serving as described above are coupled to the main lens electrodes 11 and 12 through laser welding (a) during the manufacturing process, and have a predetermined distance L from each rim 30. In order to maintain), as shown in Figure 4, the upper and lower jigs (31, 32) to maintain the correct position there was a problem such as difficult manufacturing process.

In order to solve this problem, the present invention forms a two-stage bending shape in which the auxiliary electrode coupling portion of the main lens electrode is bent, thereby simplifying the work process of the product by fixing the position of the auxiliary electrode using only one position fixing jig. And to improve productivity.

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

2 is an electrode structure diagram of a conventional electron gun.

3 is a perspective view of a conventional auxiliary electrode.

Figure 4 is a state diagram during the auxiliary electrode bonding process of the conventional main lens electrode.

5 is a cross-sectional structural view of the subject lens electrode of the present invention.

Figure 6 is a state diagram during the auxiliary electrode bonding process of the main lens electrode of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

101: main lens electrode 102: rim

103: auxiliary electrode 104: position fixing jig

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

First, the structure of the main lens electrode 101 of the present invention has a shape bent in two stages so as to support the auxiliary electrode 103 at a position where the predetermined distance L is retracted from the rim 102 as shown in FIG. 5. Formed.

Looking at the auxiliary electrode bonding process of the main lens electrode 101 having such a structure as follows.

First, the auxiliary electrode 103 is positioned in the bent portion of the main lens electrode 101, and then the position fixing jig 104 is pushed in. One side of the auxiliary electrode 103 is formed by the bent portion of the main lens electrode and the other side thereof. Supported by the position fixing jig 104 is to be located at a predetermined interval (L) retracted from the rim (102).

The bonding process is completed by coupling the auxiliary electrode 103 to the inner wall of the main lens electrode 101 through the laser welding (b) in a fixed position as described above.

That is, the present invention simplifies the work process by using only one of two fixing jigs for supporting the auxiliary electrode, and supports the bent portion of the auxiliary electrode to solve the problem of poor position as in the prior art. It can be.

As described above, the main lens electrode structure of the present invention has an effect of improving the productivity and quality of the product by simplifying a work process for attaching the auxiliary electrode to a position retracted a predetermined distance from the opening.

Claims (1)

The plurality of main lens electrodes common to the three electron beams generated from the cathode and forming the main lens are formed in a shape bent in two stages to support the auxiliary electrode at a position where the rim portion is retracted a predetermined distance. Electrode structure of electron gun.