KR930004102Y1 - Electron gun electrode - Google Patents

Abstract

No content.

Description

Electron gun electrode with improved buried structure

Figure 1a, b is a plan view and a side view of the state in which the electrode is embedded in the bead glass to explain the structure of the electrode buried portion of the present invention, respectively.

2 is a plan view of a state in which a conventional electrode is embedded in bead glass.

* Explanation of symbols for main parts of the drawings

1 electrode 2 projection

3: hole 4: protrusion

The present invention relates to an electron gun for a cathode ray tube, and more particularly, to an electron gun electrode having an improved buried structure so that the electrode can be fixed to the bead glass.

The electron gun is inserted into and fixed to the neck portion of the cathode ray tube. Three electron beams radiated for R, G, and B in the electron gun are deflected by an external deflection magnetic field, and the electron beam collides with a predetermined phosphor formed on the inner surface of the face. The phosphor emits light to reproduce the image.

The electron gun has a stamp portion on one side, and a sleeve accommodates a heater therein, and a cathode, which is a hot electron emitting material, is attached to an upper surface outside the sleeve. The sleeve is welded to the cathode support so that the cathode maintains a predetermined distance from the electrode aligned thereon, the alignment of the cathode with the electron beam through hole formed in the electrode coincides, and then the cathode support is fused and fixed to the bead glass. When the heater accommodated in the aforementioned sleeve receives a predetermined voltage and generates heat, the cathode is heated to emit hot electrons.

On the cathode, a plurality of electrodes are connected in series from the first electrode to the fourth electrode or the fifth electrode and fixed to the bead glass. The hot electrons emitted from the cathode are focused and collected by a unique electron lens formed at each electrode. Accelerated to electron beam.

The plurality of electrodes, the support, and the like are fused and fixed to the bead glass by a predetermined assembling method, a jig, and the like, and a buried portion structure in which a conventional electrode is embedded in the bead glass and fused is shown in FIG. . In the conventional buried portion structure of the electrode A, the buried portion of the buried portion is divided into two by a hole B having a predetermined shape in the center of the buried portion as the buried portion has a flat shape. have. Therefore, when the electrode having the structure of the buried portion is fused and buried in the bead glass D, the electrode A is easily detached from the bead glass D or slip deformation occurs, and thus a firm fixing force cannot be obtained. When the welding conditions are not met, the electrode may be pulled out or the electrode itself may be shaken.

As described above, the fixing force of the electrode A to be fused to the bead glass D is weak because the electrode A to be fused to the bead glass D is made of a metallic material, and thus the welding is not completely fused. . Therefore, even if a slight external force or impact applied to the cathode ray tube, the electrode A fused to the bead glass (D) is separated or slip-deformed so that the alignment between the cathode and the electrode arranged thereon is not aligned. It will cause a change in the gap.

As such, when a gap is not matched between a plurality of electrodes constituting the electron gun, focus and emission performance, which are inherent to the electron gun, are deteriorated, and when the electrode is not aligned with the electron beam passing hole and the cathode. However, the synthesis of the electron beam of RGB becomes poor, so-called white balance is not matched with the image of the color cathode ray tube, which makes it difficult to reproduce a good image. Therefore, it is natural that the components constituting the electron gun must be firmly fixed to the bead glass in place.

The present invention is designed to prevent the above problems by the electrode constituting the electron gun is firmly fixed to the bead glass, and when the electrode is fused to the bead glass is embedded, the structure of the buried portion is improved to have a firm fixing force The object is to provide an electron gun electrode.

According to the above object, the present invention forms a pair of protrusions lower than the plane of the electrode, and forms a pair of protrusions, drills a predetermined hole at the tip of each protrusion, and forms a plate-shaped electrode surface above the space formed between the protrusions. It is characterized by extending to form protrusions.

When described in detail according to the accompanying drawings to help understand the present invention is as follows.

1 is for explaining the structure of the buried portion of the electrode of the present invention, a is a plan view of the electrode fixed to the bead glass, b is a front view.

As shown in the figure, the protrusions 2 formed lower than the plane of the electrode 1 are formed in pairs, and predetermined holes 3 are formed at the tip of each protrusion 2, and both protrusions 2 The protrusions 4 extending in parallel to the electrodes 1 of the electrode 1 are formed between the two electrodes.

As shown in FIG. 2B, the buried portion of the electrode 1, in which the electrode 1 is embedded in the bead glass 5 and fixed, and the electron beam passing holes 6, 7 of red, green, and blue, 7 The groove 9 is formed between the planar portions on which the 8 and 8 are formed, which is formed to prevent the influence of the spring back when forming the electrode 1. When the electrode 1 is fused to the bead glass 5, the bead glass 5 is melted in the hole 3 formed at the tip of the buried portion protrusion 2 so that the buried portion protrusion 2 of the electrode 1 is formed. It is completely structured to wrap. In addition, the plate-like protrusions 4 formed by welding horizontally on the plane of the electrode 1 form a layer with the protrusions 2 described above, so that they are respectively embedded in the bead glass 5.

When the electrode is embedded in the bead glass 5 as described above, the bead glass 5 is melted and injected into the hole 3 formed in the protrusion 2 of the buried portion, so that the bead glass 5 is engaged with the upper and lower parts. (1) does not fall out, and between the projections (2) is formed between the plate-like protrusions (4) in the upper portion is fixed together so that the electrode (1) is firmly fixed so as not to flow in the bead glass (5) at all I can do it.

As described above, when fixing the electrode 1 having the improved buried portion to the bead glass 5 as in the present invention, a material existing between the metal material of the electrode 1 and the glass material of the bead glass 5. Although not completely combined by the characteristics of the present invention, the present invention can compensate for such drawbacks will greatly increase the fixing force. As a result, problems such as the flow or dropping of the electrode, which have occurred conventionally, can be completely solved. Therefore, problems such as the focus of the natural gun, the characteristics of the emission, and the white balance can be solved. It can be improved.

Claims (1)

In the electron gun electrode, the projections 2 are formed in pairs lower than the plane of the electrode 1, and a predetermined hole 3 is formed at the tip of each projection 2, and the projections 2 are formed. An electron gun electrode with an improved buried structure, characterized in that the protrusion (4) is formed by extending in the plane of the electrode (1) above the space formed therebetween.