KR100206282B1 - Cathode-ray tube - Google Patents

Abstract

Disclosed is a method of installing a tension shadow mask of a cathode ray tube and a positioning pin for frame loading using a beam to install a positioning pin based on a centeringdine frame and a shadow mask. The method comprises the steps of: supporting a frame having an opening in the center of the lower surface of both short sides and both long sides on the lower base according to the curvature of the upper holder and the position of the welding electrode; Positioning a shadow mask having pores near an end of a center of both short sides and both long sides at an upper portion of the frame; Forming fine light rays passing through the apertures of the frame and the pores of the shadow mask with the lower and upper light sources inside the frame and at the top of the shadow mask; Moving the shadow mask to cross the light beam from its upper and lower light sources; And fixing each positioning pin to the lower base so as to contact the frame and the shadow mask. This makes it possible to easily identify the intersection of the rays with the naked eye and greatly reduce the incidence of errors since the pores are formed simultaneously with the slits of the shadow mask, and center the shadow mask and frame simply and accurately. In the centered state, the positioning pin or block can be installed accurately without trial and error.

Description

How to install tension shadow mask and positioning pin for frame loading of cathode ray tube

1 is an exploded perspective view of a shadow mask-frame assembly.

2 is a cross-sectional view showing one example of a device in which a positioning pin is installed according to the method of the present invention.

3 is a perspective view for explaining a method for installing a positioning pin in accordance with the method of the present invention.

* Explanation of symbols for main parts of the drawings

10 frame 10a long side portion

10b: short side 10c: opening

20: shadow mask 20a: long side

20b: short side portion 20c: pores

21: slit 30: heating device

31: Upper holder (Jig) 32: Lower base (Jig)

33, 34: positioning pin (block) 41: upper light source

42: lower light source

The present invention relates to a tension shadow mask and a frame loading positioning pin installation method of the cathode ray tube, more specifically to the positioning pin based on the frame and the shadow mask centered on the frame and shadow mask using the light beam It is about a method.

Typically, the shadow mask of the cathode ray tube is fixedly supported on the frame, the shadow mask-frame assembly being detachable from a stud pin fixed to the panel by a holder to maintain a constant distance (q) from the panel. Is fixed. This shadow mask is molded by a press molding process so as to have a curvature coinciding with the front surface of the panel.

A clip of bimetal material having different thermal expansion coefficients is welded between the frame and the holder mounted in this manner to compensate for the deformation of the shadow mask due to the thermal expansion of the electron beam in the cathode ray tube.

In addition, in the case of a large brown tube, the doping phenomenon of the shadow mask is suppressed by spray coating of frit glass containing lead oxide as a main component on the inner surface of the shadow mask to increase the thermal conductivity.

However, in the case of bimetallic clips, the degree of dominant deformation becomes severe after a long time watching TV, and a desired correction effect cannot be obtained.It is not only expensive to suppress the dominant deformation by spraying frit glass, but also a small CRT tube. There is a drawback that is not applicable.

In view of these problems, a technique has been proposed in which a shadow mask is tensioned when the shadow mask is assembled to the frame while the shadow mask is tensioned to apply a tension to the shadow mask. The tension shadow mask has a straight cross section in the short axis direction, and only the cross section in the barrier axis direction is formed with a constant curvature to pull and stretch both long sides to weld the frame to complete the tension shadow mask-frame assembly.

However, since the shadow mask is a thin plate of about 0.1 mm, it may be deformed or torn the slit (slit) formed on the shadow mask in the stretching process. Under these constraints, the shadow mask is thin and generally takes a flat surface, so when tensioning, both sides of the shadow mask are fixed and tensioned so that the shadow mask slips out of the clamp, making it difficult to apply the desired tension. In addition, in order to prevent this to form a separate bead to clamp the bead to tension, but this also occurs to some extent there is a limit to the provision of tensile force, there is a problem that unnecessary processes, devices and materials are required.

In FIG. 1, the frame 10 is composed of both long side portions 10a having a predetermined curvature at the tip and both short side portions 10b in a straight line, and the shadow mask 20, which is tension-assembled, has a flat flat surface. It is a normal mask in which many slits 21 were formed in a short axis direction as a mask.

In the welding assembly of the flat shadow mask 20 to the frame 10, when the mutual position is distorted, a plurality of slit rows 21 of the shadow mask 20 are parallel to the short sides of the frame 10. It is not parallel to the (short axis) and the screen of the cathode ray tube is twisted.

Therefore, the shadow mask 20 and the frame 10 should be welded and assembled so that the slit rows are arranged parallel to the short axis of the frame 10. For this purpose, as shown in FIG. 2, the frame 10 and the shadow mask ( Positioning pins (blocks) 33 and 34 of 20 should be secured to the lower base, fixture or frame.

In the conventional method for installing such positioning pins (blocks) 33 and 34, the center line is drawn on the shadow mask 20 and the frame 10, and the center line is aligned with each other, or the frame 10 By forming a V-shaped notch in the center of the upper end and forming pores in the corresponding center position in the shadow mask 20 to visually match them, and then fixing the positioning pins 33 and 34 to the lower base. The installation of the positioning pin is completed.

However, these conventional methods generate a lot of errors by visually matching the center line or the pores with the notch, and accordingly, the position of the positioning pin must be finally determined through trial and error. There is a problem such as causing further trial and error due to the accumulation of.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a method for accurately installing a positioning pin (block) without trial and error using a light beam.

In order to achieve the above object, the present invention comprises the steps of supporting the frame having an opening in the center of the lower surface of both short sides and both long sides on the lower base according to the curvature of the upper holder and the position of the welding electrode; Positioning a shadow mask having pores near an end of a center of both short sides and both long sides at an upper portion of the frame; Forming fine light rays passing through the openings of the frame and the pores of the shadow mask with the lower and upper light sources inside the frame and at the top of the shadow mask; Moving the shadow mask to cross light rays from its upper and lower light sources; And it provides a method of installation of the tension shadow mask and the frame loading positioning pin for the cathode ray tube, characterized in that it comprises the step of fixing each positioning pin to the lower base to contact the frame and the shadow mask.

Preferably, one of the upper and lower light sources is red light, and the other is blue light.

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

In FIG. 3, the shadow mask 20 for carrying out the method of the present invention has two pairs of pores near the central end of both the long side portion 20a and the short side portion 20b at the same time as forming a plurality of slits. 20c) is formed. In addition, two pairs of openings 10c are also formed in the center lower surface of both the long side portions 10a and the both end sides 10b of the frame 10. Together with the shadow mask 20 and the frame 10, the upper and lower light sources 41 and 42 of red and blue are preferably prepared.

When the preparation is completed as described above, the frame 10 is first positioned on the lower base 32 in FIG. 2 at a position coinciding with the curved surface of the upper holder 31 or a position of the welding electrode (not shown). Thereafter, the lower light source 42 is positioned therein at the position of each opening 10c of the frame 10, and the shadow mask 20 is placed in contact with the upper end of the frame 10, and then the upper light source ( 41) is irradiated through the respective pores 20c.

The shadow mask 20 is moved so that the upper light source 41 passes through each pore 20c and the lower light source 42 passes through each opening 10c to cross each other. . At this time, when the upper light source 41 and the lower light source 42 are red light and blue light, the intersection point becomes yellow light when the light beams intersect, which makes it easier to visually identify the crossing state.

In this way, by providing a predetermined number of positioning pins (blocks) 33 and 34 in contact with the ends of the frame 10 and the shadow mask 20 in a state where the upper and lower rays cross each other, The installation method according to the present invention is completed.

According to the above-described installation method according to the present invention, the intersection of the light beams can be easily identified with the naked eye, and since the pores are formed at the same time as the slits of the shadow mask, the occurrence of the error is greatly reduced, and accordingly, it is simple and Also, the shadow mask and the frame are accurately centered, and the positioning pin or block can be accurately installed without trial and error in the centered state.

While the invention has been shown and described in connection with specific preferred embodiments thereof, it will be understood that various modifications and variations of the invention can be made without departing from the spirit or field of the invention as set forth in the following claims. It will be readily apparent to those skilled in the art that application is possible.

Claims (2)

Supporting a frame having an opening at a center of a lower surface of both short sides and both long sides on a lower base according to the curvature of the upper holder and the position of the welding electrode; Positioning a shadow mask having pores near an end of a center of both short sides and both long sides at an upper portion of the frame; Forming fine light rays passing through the openings of the frame and the pores of the shadow mask with the lower and upper light sources inside the frame and at the top of the shadow mask; Moving the shadow mask to cross light rays from its upper and lower light sources; And fixing each of the positioning pins to the lower base so as to contact the frame and the shadow mask, and installing the tension shadow mask of the cathode ray tube and the positioning pins for the frame loading. The method of claim 1, wherein the upper and lower light sources are light of different colors, and the shadow shadow mask of the cathode ray tube and the positioning pin for frame loading.