KR200164387Y1 - Electron gun for cathode ray tube - Google Patents

Abstract

An electron gun of an inline array cathode ray tube that focuses three electron beams emitted from an anterior triode and lands on a corresponding phosphor of a screen. In order to improve the quality of the cathode and to keep the cathode cut-off voltage distribution uniform,

Three cathodes that emit electron beams, and a triode tube portion including a first grid electrode and a second grid electrode each having an electron beam passing hole, and two beads formed on the first grid electrode facing each other in front and rear surfaces. It is characterized by consisting of a continuous two-stage bending.

Description

Electron gun of cathode ray tube

1 is a cross-sectional view showing a cathode ray tube according to the present invention,

2 is a partial cross-sectional view showing an electron gun related to the present invention,

3 is a cross-sectional view showing an electron gun according to the prior art.

* Explanation of symbols for main parts of the drawings

7: Bead 71: Buffer Bead

[Industrial use]

The present invention relates to an electron gun of a cathode ray tube, and more particularly, to an inline array electron gun that focuses three electron beams emitted from an anterior triode part at a main lens part and converges on a screen.

[Prior art]

As is known, as the cathode ray tube becomes colored, an inline array structure is proposed in which an electron gun accelerates and connects three electron beams through a plurality of electrodes, and converges them to land on corresponding R, G, and B phosphors on a screen. .

Thus, a conventionally known in-line array electron gun is shown in FIG.

As shown, the electron gun has an anterior triode tube portion 1, which includes a base metal coated with an electron-emitting material, and a sleeve that supports the same and houses a heater at the same time. It consists of the cathode structure 3 and the 1st grid electrode G1 and the 2nd grid electrode G2 which form the electron electrons which radiate | emitted the hot electrons radiated | emitted from this cathode structure 3.

The three electron beams emitted from the triode 1 are focused and diverged from the main lens unit 5 to pass through the aperture of the shadow mask 11 and land on the phosphor on the screen 13.

In addition, the triode tube portion 1 having the above-described configuration and the third and fourth grid electrodes G3 and G4 constituting the main lens portion 5 are supported by the bead glass B1 disposed on both sides. .

[Problem trying to solve]

As described above, the plurality of electrodes of the electron gun are fused and fixed by the bead glass. An example of such a manufacturing method is described in Korean Patent Publication No. 92-3356.

On the other hand, the first grid electrode (G1) of the electron gun according to the prior art has a bead (7) protruding only in one direction, as can be seen through Figure 2, which This results in electrode deformation during assembly.

That is, the plurality of electrodes of the electron gun are fused and fixed by a beading device while being assembled in a predetermined form by a jig, wherein the bead glass is fixed to two arms and softened by heating means, Both sides are crimped and fused at the same time by the pivoting movement.

In this case, however, a predetermined pressure is applied to the first grid electrode G1. At this time, the first grid electrode G1 is bent finely in the opposite direction in which beads are formed around the beam passing hole. You lose.

Such deformation of the electrode causes an alignment error between the R, G, and B electron beams and the plurality of electrodes, and thus acts to deteriorate the focus specification of the electron gun.

In addition, the deformation of the first grid electrode increases the spread-off voltage distribution of the cathode, thereby degrading the thermal electron emission characteristics of the electron gun.

[Means to solve the problem]

In order to solve the above-described problems of the prior art, an object of the present invention is to prevent the deformation of the electrode, in particular, the first grid electrode, to improve the alignment distribution of the beam through hole and the resulting focus characteristics of the cathode ray tube To provide an electron gun.

In addition, the present invention has another purpose to maintain a uniform cut-off voltage distribution of the cathode.

Accordingly, the electron gun of the cathode ray tube according to the present invention has the following characteristics.

That is, three cathodes emitting electron beams, and a triode tube portion each including a first grid electrode and a second grid electrode each having an electron beam passing hole are provided.

In addition, the main lens unit includes a third and a fourth grid electrode for focusing three electron beams emitted from the triode through the center thereof.

In particular, the first grid electrode between the bead includes a bead formed opposite to each other to the front and rear, which is formed in two consecutive banding.

EXAMPLE

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

1 is a cross-sectional view showing a cathode ray tube related to this deceased.

As shown in the drawing, the cathode ray tube includes a face panel 9, a funnel 11 bonded to the panel 9, and a neck 13 continuously fused to the funnel 11, as in the prior art. The inner container constitutes an outer container that is in a vacuum state.

In the neck 13, an electron gun 15 generating three electron beams 12 is received.

In addition, the outer surfaces of the funnel 11 and the neck 13 have a horizontal deflection coil for generating a magnetic field for deflecting the three electron beams 12 in the horizontal direction, and a vertical for generating a magnetic field for deflecting in the vertical direction. A deflection device 17 having a deflection coil is provided.

Phosphor l5 is formed on the inner side of the panel 9, and a substantially rectangular shadow mask 9 is provided inside the tube at predetermined intervals to face the phosphor 15.

A plurality of stem pins 23 are provided at the end of the neck 13. Although not shown, the electron gun 15 is electrically connected to the stem pin 23 to which power is applied from the outside.

Here, an enlarged view of the electron gun in more detail is shown in FIG.

As can be seen from the drawing, the triode tube 1 comprising a cathode 3 for generating electrons and a plate-shaped first grid electrode G1 and a second grid electrode G2 each having an electron beam passing hole. ).

Here, the first grid electrode G1 has a buffer bead 71 protruding forward of the plate-like plate and a bead 7 protruding backward as in the prior art.

The above-mentioned buffer bead 71 is for preventing deformation of the electrode when fused with the bead grease B, and acts to cushion the one-way deformation caused by the conventional one bead 7.

That is, the above-mentioned buffer bead 71 is formed to be opposed to the conventional bead 7 in succession, thereby deforming the electrode by dispersing the pressure received in one direction in both directions during fusion by the conventional bead glass B. Will be substantially removed.

[Effect of design]

As can be seen through the embodiments described above, the electron gun of the cathode ray tube according to the present invention improves the first grid electrode for dissipating the hot electrons emitted from the cathode to the electron beam, the compressive force when the buried glass is embedded in the bead It is to prevent the deformation of the electrode by.

Therefore, according to the present invention, it is possible to improve the alignment scattering defect generated during the assembly of the plurality of electrodes for the electron gun, and to improve the focus characteristic of the transferred beam.

In addition, the present invention can uniformly maintain the cut-off voltage distribution of the cathode by the first grid electrode.

On the other hand, the bidirectional bead of the present invention described above is not limited to the first grid electrode, it is applicable to both the plate-shaped electrode.

Claims (1)

A triode tube portion including three cathodes emitting an electron beam, a first grid electrode and a second grid electrode, and a third and fourth grid electrode for focusing three electron beams emitted from the triode portion and landing on a corresponding phosphor of a screen In the electron gun of the cathode ray tube composed of a main lens unit including a buffer bead 71 of the beads (7) facing each other on the first grid electrode (G1), the beads (7) and Electron gun of the cathode ray tube, characterized in that the buffer bead 71 is connected to each other and banded.