KR19980060803U - Electrode Assembly Jig of Electron Gun - Google Patents

Abstract

The present invention relates to an electrode assembly jig of an electron gun formed of a support plate and a support rod formed on an upper end of the support plate and inserted into a beam passing hole of an electrode constituting the electron gun to align the electrodes. It characterized in that the cutting plane to give a free space so as not to be in close contact with each other when the beam through hole of the electrode and the support rod is thermal expansion.

The present invention is designed to improve the quality of the cathode ray tube by preventing the deformation caused by the interference with the support rod to provide a clearance for the asymmetric thermal expansion of the beam passing hole.

Description

Electrode Assembly Jig of Electron Gun

The present invention relates to an electrode assembly jig of an electron gun, and more particularly, to an electrode assembly jig of an electron gun suitable for minimizing deformation during a bead glass fusion process of an electron gun electrode of a cathode ray tube.

In general, the structure of a cathode ray tube electron gun is composed of a plurality of electrodes to form a screen by focusing, diverging and accelerating the electron beam emitted from the cathode to land on the fluorescent surface. Such electrodes are usually composed of a plurality of electrodes of the first to sixth electrodes, and are sequentially arranged on the electron beam propagation path with respect to the cathode to control, accelerate, and focus the electron beam.

However, in such electrodes, the characteristics of the electron gun may be deteriorated if the beam through holes formed in the electrodes are not precisely aligned in a straight line or do not maintain a constant distance from each other. Therefore, in the electrode assembly work, the electrodes are uniformly arranged on the electrode assembly jig, and then the ribs protruding from the side of each electrode are integrally embedded in a support called bead glass. do.

1 shows a conventional electrode assembly jig 2 and a state in which a plurality of electrodes G1 to G6 are aligned with the electrode assembly jig 2, and a conventional electrode assembly jig 2 is shown. Has a structure in which a supporting plate 4 and a supporting rod 6 corresponding to the beam passing holes 10 of the electrodes G1 to G6 are formed on the upper end of the supporting plate 4.

In FIG. 1, reference numeral 20 denotes a spacer interposed to maintain a gap between the electrodes G1 to G6.

In addition, the supporting rod 6 is generally composed of a large diameter portion 6a and a small diameter portion 6b, and the large diameter portion 6a has a beam through hole of the sixth electrode G6 to the third electrode G3. (10) is inserted and sequentially loaded from the upper surface of the support plate (4), and the beam passing hole (10) of the second electrode (G2) and the first electrode (G1) are sequentially loaded on the small diameter portion (6b). Then, as shown in FIG. 2, when the bead glass 40 heated by the torch 30 is brought into close contact with the bead glass 40, the protruding ribs 12 of the electrodes G1 to G6 are attached to the bead glass 40. ) Is buried and fixed.

The support rod 6 is coupled to the beam passing hole 10 of the electrodes G1 to G6 so that there is almost no gap, in particular, due to the high heat generated by heating the bead glass 40 during the assembly operation. The first and second electrodes G1 and G2 and the supporting rod 6 that are close to the cutoff 30 and have a smaller diameter of the beam passing hole 10 are expanded greatly. In this case, the first and second electrodes G1 and G2 are larger than the longitudinal directions of the electrodes G1 and G2. The transverse portion where the bead glass 40 is located is quickly heated. Accordingly, the transverse expansion amount becomes larger than the longitudinal expansion amount of the beam passing holes 10 of the electrodes G1 and G2, so that the diameter in the longitudinal direction decreases with respect to the increase in the transverse diameter, and eventually the supporting rod 6 expands. The beam passing holes 10 are asymmetrically deformed by close contact with the longitudinal direction of the beam passing holes 10. This lowers the degree of alignment of the beam passing holes 10 of the electrodes G1 and G2, which in turn lowers the overall quality of the cathode ray tube.

Therefore, the present invention has been devised to solve the above problems, and prevents deformation of the beam through hole by preventing contact between the support rod and the electrode when the thermal expansion of the electrode, thereby improving the quality of the cathode ray tube accordingly The purpose is to provide an electrode assembly jig of.

In order to achieve the above object, the present invention, in the electrode assembly jig of the electron gun consisting of a support plate and a support rod which is formed on the upper end of the support plate and inserted into the beam through hole of the electrode constituting the electron gun to align them, The circumferential side of the beam through hole and the support rod is formed in the cutting plane to give a free space so as not to be in close contact with each other when the thermal expansion of the rod, characterized in that the support rod and the beam passing hole is prevented from being in close contact by the thermal expansion .

1 is a cross-sectional view showing a state in which electrodes are assembled in a conventional electrode assembly jig.

2 is a side view of FIG. 1

3 is a plan view of an assembly jig assembled with electrodes according to the present invention;

Figure 4 is a cross-sectional view showing a state in which the electrode is assembled to the electrode assembly jig of the present invention

Explanation of symbols for main parts of the drawings

2: electrode assembly jig 4: support plate

6: support rod 6c: cutting plane

10: beam passing hole G1 to G6: electrode

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

3 is a plan view of an assembly jig assembled with electrodes according to the present invention, and FIG. 4 is a cross-sectional view illustrating a state in which an electrode is assembled to the electrode assembly jig of the present invention.

As shown in the present invention, the support plate 4 is inserted into the beam passing hole 10 of the electrodes G1 to G6 constituting the electron gun and formed at the upper end of the support plate 4 to align them. In the electrode assembly jig (2) of the electron gun made of), the cutting plane (6c) is formed on the circumferential side of the support bar (6).

The illustrated embodiment shows a state in which the cutting plane 6c is formed only in the small-diameter portion 6b of the support rod 6 of the first and second electrodes G1 and G2, which are most affected by heat. However, the present invention is not limited to this, as well as the small-diameter portion 6b, as well as the large-diameter portion 6b, that is, can form a cutting plane (6c) covering the entire support rod 6, which is the claim of the present invention Of course.

In addition, the cutting plane 6c includes the beam passing hole 10 of the electrodes G1 to G6 and the beam passing hole 10 of the electrodes G1 to G6 and the support rod in preparation for thermal expansion of the support rod 6. 6) is to provide a free space so as not to be in close contact with each other when thermal expansion, the thermal expansion of the beam through hole 10 should be formed in a relatively small portion. That is, the cutting plane 6c is provided in the longitudinal direction of the electrodes G1 to G6 having relatively less thermal expansion. More specifically, as shown in FIG. 4, a line connecting the centers of the beam passing holes 10 of the electrodes G1 to G6, that is, a line connecting the centers of the supporting rods 6 of the electrode assembly jig 2. The cutting plane 6c is formed at right angles to the surface.

In the illustrated embodiment, the cutting planes 6c are formed on both sides of the three support rods 6, but arbitrary selection can be performed by experimentally measuring the thermal effect in the actual assembly work. That is, one or two or three supporting rods 6 may be divided and applied, and / or may be divided into one side and both sides.

According to the present invention, the electrodes G1 to G6 are aligned with the supporting rods 6 of the assembling jig 2, and when the bead glass 40 is fused, the electrodes are heated by heat to heat the bead glass 40. The beam passing holes 10 of G1 to G6 are asymmetrically expanded so as not to be permanently deformed, and the electrodes G6 to G6 through the supporting rod 6 of the electron gun electrode assembly jig of the present invention in the same manner as in the conventional assembly procedure. G1) is sandwiched and then placed in close proximity to the bead glass 40 toward the lip 12 formed on the sides of the electrodes G1 to G6, and then the bead glass 40 is heated by the torch 30. Done.

Then, the bead glass 40 is heated, and the electrodes G1 to G6 and the supporting rod 6 are also heated and expanded by the heat of the torch 30. At this time, the portion of the beam passing hole 10 of the electrodes G1 to G6 that is close to the torch 30 expands a lot, and the portion that is far from the torch 30 expands to a portion close to the torch 30. Due to the tensile action and relatively little heat effect by the expansion and relatively less than the portion close to the torch 30, at the same time the support rod 6 is also expanded to increase the diameter. Accordingly, the beam passing holes 10 and the support rods 6 of the relatively less expanded electrodes G1 to G6 are in close contact with each other, but the support rods 6 are relatively less expanded. Since the part is formed in the cutting plane 6c correspondingly, the cutting plane 6c provides a clearance for the expansion of the beam passing hole 10 and the supporting rod 6.

Accordingly, a phenomenon in which the beam passing hole 10 and the support rod 6 are in close contact and repulsion, which is a conventional problem, does not occur.

As described above, according to the electrode assembly jig of the electron gun of the present invention, it is possible to prevent the beam passing hole from being deformed by closely contacting and repelling the beam passing hole and the supporting rod by the cutting plane of the supporting rod during the bead glass fusion process.

As a result, according to the present invention, since the asymmetrical deformation of the beam passing hole due to the heat effect is prevented, there is an effect of improving the overall quality of the cathode ray tube to which it is applied.

Claims (3)

In the electrode assembly jig of the electron gun consisting of a support plate and a support rod which is formed on the top of the support plate and inserted into the beam passing hole of the electrode constituting the electron gun to align the electrodes, Electrode assembly jig of the electron gun, characterized in that formed on the circumferential side of the support bar a cutting plane for providing a clearance space so as not to be in close contact with each other when the beam through hole of the electrode and the support rod is thermal expansion. The method of claim 1, The cutting plane is an electrode assembly jig of the electron gun, characterized in that the plane is formed in a direction perpendicular to the line connecting the center of each support rod. The method according to claim 1 or 2, An electrode assembly jig for an electron gun, wherein the formation plane of the cutting plane is arbitrarily selected and formed for each of the supporting rods.