KR940010981B1 - Color cathode-ray tube - Google Patents

Abstract

The assembly for preventing the domming phenomenon caused by the thermal expansion of the shadow mask includes at least two welding points between the shadow mask (21) and the frame (22), which satisfies the equations of L1/l=0.5 and S1/l'=0.5 where l and l' are half lengths of horizontal and vertical directions of the shadow mask respectively and L1 and S1 are lengths from the centers of the horizontal and vertical side to the arbitrary point.

Description

Colored cathode ray tube

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

2 is a perspective view of a frame assembly of a conventional shadow mask.

3 is a perspective view of a shadowmask frame assembly of a color cathode ray tube according to the present invention.

4 to 6 are views showing the relationship between the number of weld points of the shadow mask and the frame and the amount of mislanding.

* Explanation of symbols for main parts of the drawings

21: shadow mask 22: frame

21c: skirt part (with shadow mask)

The present invention relates to a color cathode ray tube, and more particularly, to a shadow mask frame assembly for a color cathode ray tube, which is capable of minimizing a doming phenomenon according to thermal expansion of a shadow mask by improving a welding state of a shadow mask and a frame.

In general, a color cathode ray tube is a panel 2 and a funnel 3 sealed as shown in FIG. 1, and a shadow mask frame assembly 10 is installed inside the panel 2 and a shadow mask 11 is provided. A fluorescent film is formed on the inner surface of the panel 2 opposite to and the electron gun 5 is enclosed in the neck portion 3a of the funnel 3. The cathode ray tube 1 configured as described above is formed as one pixel by electron beams emitted from the electron gun 5, ie, hot electrons, passing through a shadow mask 11 having a color selection function and landing on a fluorescent film. One screen is formed. Since the electron beam emitted from the electron gun 5 does not pass through all of the shadow mask 11 but only partially passes through, the shadow mask 11 is heated by hot electrons that do not pass through the electron beam passing hole. To be. Therefore, as shown in FIG. 2, the shadow mask 11 in which the skirt portion 11a is welded to the frame 12 has a dominant phenomenon due to the inherent thermal expansion amount of the material.

The dominant phenomenon of the shadow mask 11 is that the electron beam through hole of the shadow mask 11 is moved with respect to the fluorescent film on the inner surface of the panel 2 so that the electron beam is not accurately landed at the fluorescent points of the respective fluorescent films, thereby reducing the resolution of the screen. This causes problems. In order to solve such a problem, conventionally, the material of the shadow mask 11 has a low thermal expansion coefficient, or the end of the skirt portion 11a of the shadow mask 11 welded to the frame 12 is cut to a predetermined width. Several methods have been suggested. However, the problem of the amount of domming according to the welding position of the shadow mask 11 and the frame 12 was not considered, and thus the ultimate solution for the doming phenomenon could not be solved.

The present invention has been created to solve the above problems, it is possible to reduce the dominant phenomenon of the shadow mask by the hot electrons by changing the welding position of the shadow mask and the frame, and furthermore, the electron beam emitted from the electron gun accurately landing on the fluorescent film The purpose is to provide a color cathode ray tube which can improve its resolution and improve its commercial value.

In order to achieve the above object, the present invention is a color cathode ray tube comprising a shadow mask formed with a plurality of electron beam through holes and a frame welded to the skirt portion of the shadow mask to support the shadow mask, wherein the long side portion of the shadow mask is provided. And 1/2 of the length of short side are 1,1 ', respectively, and the length from the center of the length of each chapter and the short side to an arbitrary point is L1, S1, respectively. It characterized in that the two or more welding points for welding the shadow mask and the frame within the range to satisfy the.

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

As shown in FIG. 1, the color cathode ray tube has a shadow mask frame assembly 20 installed inside a panel 2 having a fluorescent film formed therein, and the panel 2 has an electron gun 5 at its neck. It is sealed with the sealed funnel (3). Here, as shown in FIG. 3, the shadow mask frame assembly 20 includes a hole 21a having a plurality of electron beam through holes and a hole 21b extending a predetermined length from an edge of the hole 21a, and The frame 22 which has the shadow mask 21 having the skirt portion 21c bent at approximately right angles from the edge of the non-hole portion 21b and the skirt portion 21c is welded to the shadow mask 21 to support the shadow mask 21. In this case, the welding position of the frame 22 and the skirt portion 21c is 1,1 'of the length of the shadow mask skirt portion 21c and the length of the short side portion, respectively, according to the characteristics of the present invention. When the length from the center of each long and short side of the skirt portion 21c to an arbitrary point is L1, S1, respectively, within the range satisfying the formulas L1 / 1 = 0.5 and S1 / 1 '= 0.5 The number of the welding portions 30 of the skirt portion 21C of the shadow mask 21 and the frame 22 is two It is adapted to the present. At this time, the height of the welding point 30 is preferably located in the lower end of the skirt portion (21c).

Referring to the operation of the color cathode ray tube according to the present invention configured as described above are as follows.

First, the electron beam emitted from the electron gun 5 mounted on the neck portion 3a of the color cathode ray tube 1 passes through only a portion of the electron beam passing hole provided in the hole 21a of the shadow mask 21, so that it does not pass therethrough. The shadow mask 21 is heated by the failed electron beam. Accordingly, the shadow mask 21 is thermally expanded to show a dominant phenomenon, and furthermore, a drift phenomenon occurs in which the electron beam moves with respect to the set fluorescent point. By limiting the number of welding spots in accordance with the welding of), the dominant phenomenon of the shadow mask 21 due to thermal expansion can be minimized. That is, by limiting the number of welding points according to the welding of the shadow mask 21, the skirt portion 21c, and the frame 22, the bearing force corresponding to the thermal expansion stress of the shadow mask 21 is relatively different in each region. The stress distribution according to the thermal expansion of the shadow mask 21, that is, the thermal distribution of the severe thermal expansion and the non-severe portion of the shadow mask 21 can be made relatively constant, thereby reducing the doming phenomenon.

As a result of the present inventor's experiment on the relationship between the number of welding spots of the shadow mask 21 and the frame 22 and the shadow mask 21 dominant amount, the following results were obtained.

First, as shown in FIG. 4A, the welding of the skirt portion 21a of the shadow mask 21 and the frame 22 is performed by the centers and corners of the long and short sides L and S of the shadow mask 21. In the case of welding at point (C) by one point, as shown in FIG. 4B, as the distance from the center of the shadow mask 21 to the periphery thereof, the miss landing amount of the electron beam landing on the fluorescent film was found to be more severe. That is, it can be seen that the landing state of the electron beam appears irregularly within about 250 to 300 mm in the direction of the X axis from the center of the shadow mask 21. This means that the dope phenomenon of the shadow mask 21 is severely shown in this area.

As shown in FIG. 5A, the number of welding points between the shadow mask 21 and the frame 22 is long and short sides of the skirt portion 21c of the shadow mask 21 welded to the frame 22. In the case where two welding points are located from the center portion / 2 point to the corner portion C side on one side, and one welding point exists at the corner portion C, as shown in FIG. 5B, the center portion of the shadow mask 21 is shown. As can be seen from the periphery, the state of the electron beam mislanded in the fluorescent film increases at a substantially uniform ratio. This means that the dominant phenomenon of the shadow mask 21 is uniformly distributed over the center and the periphery of the shadow mask 21. This dominant phenomenon is almost completely made by the hook spring which compensates the dominant amount of the cathode ray tube. It can be compensated.

As shown in FIG. 6A, the number of welding spots located between the long and short edges of the skirt portion 21c of the shadow mask 21 welded to the frame 22 between one corner portion is three, respectively. When there is one welding point at the corner portion C, as shown in FIG. 6B, the shadow mask is emitted from the electron gun due to the domming phenomenon caused by the heating, so that the amount of mislanding in the fluorescent film is 200 from the center of the shadow mask 21. It can be seen that a significant decrease in the 300 to 300mm point. This means that the doming phenomenon due to the heating of the shadow mask 21 does not appear severely in this region.

As described above, when the number of the welding spots positioned at the corners from the center of the shadow mask 21 and the skirt portion 21c of the shadow mask 21 welded to the frame 22 is greater than or equal to the dominant amount of the shadow mask 21, that is, the fluorescence The amount of mislanding of the electron beam landing on the film can be greatly reduced.

As described above, the color cathode ray tube according to the present invention can reduce the dominant phenomenon of the shadow mask, that is, the amount of miss landing on the fluorescent film, according to the number of welding points of the skirt portion and the frame portion of the shadow mask long and short edges. By allowing the electron beam emitted from the electron gun to be accurately landed, it has the advantage of improving the resolution of the cathode ray tube employing it.

Claims (1)

1. A color cathode ray tube comprising a shadow mask having a plurality of electron beam through holes formed therein and a frame welded to a skirt portion of the shadow mask to support the shadow mask, wherein the length of the long side and the short side of the shadow mask 21 is 1. When / 2 is 1,1 'and the length from the center of each long and short side length to an arbitrary point is L1 and S1, respectively; Color cathode ray tube, characterized in that there are two or more welding points for welding the shadow mask 21 and the frame 22 within the range to satisfy the.