KR19990041262U - Electron gun for colored cathode ray tube - Google Patents

Abstract

The present invention relates to an electron gun for a color cathode ray tube, and more particularly, to strengthen the bead glass's bearing capacity for each electrode while maintaining the gap between the electrodes by not overlapping each other when the adjacent bead supports are viewed from the beam passing direction. I would have to.

The present invention for this purpose is that a plurality of electrodes are fused in-line by bead glass; The bead supports 50a and 501 of the adjacent electrodes 50 and 500 are formed in different shapes so as not to overlap each other when viewed in the beam passing direction.

Description

Electron gun for colored cathode ray tube

The present invention relates to the field of color cathode ray tubes, and more particularly to an electron gun for color cathode ray tubes.

In general, the color CRT forms an external shape of a bulb form by integrating a panel 1 and a funnel 2 having a neck 3 at the rear as shown in FIG. 1. The neck portion 3 has an electron gun 5 embedded therein to emit red, green, and blue three-color electron beams 4, and an outer surface of the neck portion 3 of the funnel 2 is radiated by an electron gun. A deflection yoke 6 is provided to deflect the electron beam in the horizontal and vertical directions, and a frame 7 is supported by a plurality of leaf springs 8 inside the panel 1, and the frame 7 The screen 11 is formed on the side of the funnel 2 so that an image is formed when the electron beam 4 emitted from the electron gun 5 strikes, and an inner surface of the funnel 2 and the neck portion 3 are formed. A portion of the inner surface is successively coated with a graphite film (not shown) to apply a high pressure to the electron gun 5.

Therefore, when power is applied to the cathode of the electron gun 5 and the electron beam 4 is generated, the generated electron beam is accelerated and focused while passing through the acceleration electrode and the focusing electrode in turn, and is then deflected by the deflection coil. About 20% of the total passes through the shadow mask 10, and the remaining about 80% of the electron beams are converted into thermal energy while impinging on the inner surface of the shadow mask 10.

The 20% electron beam 4 passing through the shadow mask 10 collides with the screen 11 applied on the inner surface of the panel 1 to emit phosphors, thereby reproducing an image.

Meanwhile, although the number of the electrodes 50 constituting the electron gun 5 varies depending on the product, a cathode for generating hot electrons basically, a control electrode for controlling hot electrons generated from the cathode, and the control electrode It is essentially equipped with an acceleration electrode for pulling out and accelerating hot electrons, and a focusing electrode for collecting hot electrons.

The electron gun 5 is spaced apart from each other such that the plurality of electrodes are perpendicular to the path through which the electron beam passes so that the electron beam 4 emitted from the three cathodes can be controlled in a constant intensity to reach the fluorescent surface. It is arranged in-line.

FIG. 2 shows an example of the electron gun 5 described above, and is primarily assembled in a bead mounted state to maintain a constant distance from the first electrode controlling the electron beam 4 to the sixth electrode to be focused finally, and then the bead The cathode and the heater are assembled to the mount, and after the connector is connected between the electrodes 50, the stem 51 and the shield cup 52 are assembled again to form a complete electron gun.

Meanwhile, in order to assemble the electrodes 50, the bead glass 53, which is a non-conductor, is kept at a high temperature in order to prevent energization between the electrodes while the electrodes 50 are held at a distance of about 1 mm by a jig. After melting and fusion to the edge of the electrode 50 and cooled at room temperature, each electrode 50 is fixed at a predetermined interval by the coagulation force of the bead glass 53, which is called a bead mount.

The bead supporter 50a is formed on both sides of the quadrangle electrode 50 so as to be embedded in the bead glass 53 in order to fuse each electrode 50 to the bead glass 53 as described above. The bead supporter 50a is uniform in the shape of “W” when viewed from the front side (the direction through which the beam passes) of each electrode 50 as shown in FIGS. 3 and 4A in consideration of the bonding force with the bead glass 53. Consists of shape and size.

That is, the bead support 50a has protrusions 50b formed on both sides thereof, and naturally curved grooves 50c are formed between the protrusions to form a streamline as a whole.

This shape is one form for maximizing the fixing force by securing a fusion area between the bead support 50a and the bead glass 53.

As described above, since the bead support 50a of each electrode 50 has a uniform shape and size, when each bead support 50a is embedded in the bead glass 53, some thin electrodes 50 as shown in FIG. 4B are provided. Since the gap between the bead support (h) of the) is dense, the purchase interval for the bead glass 53 also had to be tight.

Therefore, a crack is generated in the bead glass 53 between the bead supports 50a arranged at close intervals, which causes a problem that the bearing capacity of the electrode 50 and the conduction area are weakened. Most of them have been discarded and have been a factor in lowering productivity.

To this end, it is necessary to improve the structure so as to widen the interval between the bead support (50a) for the bead glass (53).

The present invention has been made to solve the conventional problems as described above, the purpose is to prevent the damage of the bead glass by widening the embedding interval of the bead support for the bead glass while maintaining the actual gap between the electrodes.

The present invention for achieving the above object is a plurality of electrodes are fused in-line by bead glass; According to another aspect of the present invention, there is provided an electron gun for a color cathode ray tube, wherein the bead supports of the adjacent electrodes are formed in different shapes so as not to overlap each other when viewed in a beam passing direction.

1 is a side cross-sectional view showing an example of a general color cathode ray tube;

2 is a front view showing an example of an electron gun;

3 is a front view showing a conventional electrode

Figure 4a is a perspective view showing a state where the conventional electrodes are arranged inline

Figure 4b is a front view showing a state in which the conventional electrodes are fused by bead glass

5 is a front view showing an example of the electrode of the present invention

Figure 6 is a perspective view of a state in which the electrodes of the present invention are arranged inline

Explanation of symbols for main parts of the drawings

50, 500: electrode 50a, 501: bead supporter

50b: protrusion 53: bead glass

Hereinafter, with reference to the accompanying Figures 5 to 6 will be described in detail with respect to the electrode structure of the present invention.

5 is a front view showing an embodiment of the electrode of the present invention, Figure 6 is an exploded perspective view of the electrode of the present invention.

The electron gun of the present invention is a plurality of electrodes are fused in-line by bead glass; The bead support of the adjacent electrodes has a different shape so as not to overlap each other when viewed in the beam passing direction.

That is, one electrode is formed between the electrode having the bead support 50a having a protruding shape on both sides, and the electrode having the bead support 501 having a width b smaller than the distance between the two protruding portions 50b of the bead support 50a. The bead support 50a, 501 is prevented from overlapping when viewed one by one in the beam passing direction.

This will be described in more detail below.

An electrode having a bead support 50a having a shape in which both sides protrude out of the plurality of electrodes is called an A electrode 50, and a bead having a width b smaller than an interval between both protrusions 50b of the bead support 50a. Assume that the electrode on which the support 501 is formed is the B electrode 500.

In the bead support 50a formed on the A electrode 50, projections 50b are formed on both sides of the bead support 50a, and grooves 50c are naturally formed by the projections therebetween.

On the other hand, the bead support 501 formed in the B electrode 500 has a rectangular shape when viewed from the beam passing direction, and the width b is a groove 50c formed in the bead support 50a of the A electrode 50. It is small or at least the same size as the gap between

6, the bead support 50a of the A electrode 50 when the A electrode 50 and the B electrode 500 are alternately arranged in-line with each other and then fused by the bead glass 53 as shown in FIG. And the melting area of the bead support 501 of the B electrode 500 is different from each other to widen the distance between adjacent bead supports.

That is, although the substantial spacing of the bead supporters 50a and 501 embedded in the bead glass 53 does not change, the bead support 501 formed in the B electrode 500 is viewed from the A electrode ( Since it is located between the protrusion part 50b of the bead support 50a formed in 50, each adjacent bead support becomes a state which does not overlap.

As a result, the interval between each bead support embedded in the bead glass 53 is about twice as large as before, so that the strength of the bead glass 53 formed between the bead supports is enhanced to improve the bearing capacity of the electrode. It is possible to improve productivity by significantly reducing the defective rate.

As described above, the electron gun of the present invention is constructed by displacing portions of the bead supporter of each electrode embedded in the adjacent bead glass, which overlap each other, thereby securing the thickness of the bead glass positioned between the supporters twice than before. While maintaining the spacing is effective to strengthen the beadgrass stiffness.

Claims (2)

Wherein a plurality of electrodes are fused in-line by bead glass; Electron gun for a color cathode ray tube, characterized in that different shapes so as not to overlap each other when the bead support of the adjacent electrodes in the beam passing direction. The method of claim 1, The electrode having the bead support of the protruding form on both sides and the electrode on which the bead support having a width smaller than the gap between the protrusions on both sides of the bead support are arranged one by one to prevent each bead support from overlapping. Electron gun for colored cathode ray tubes.