KR20010018581A - Inner shield used in CPT - Google Patents

Abstract

PURPOSE: A terrestrial magnetism shield of a color brown tube is provided to disperse stress being generated after forming a reinforcing bead in order to be equalized entirely, thereby preventing heat transformation according to the stress and the deterioration of terrestrial magnetism shield characteristic. CONSTITUTION: The terrestrial magnetism shield of a color brown tube includes following units. A terrestrial magnetism shield(200) is combined to the rear end of a shadow mask frame by using a clip. A V-notch(22) is formed to the rear end of the terrestrial magnetism shield(200) in order to reduce the amount of N-S direction movement and may be formed a long side, a short side or four sides. A reinforce bead(202) is formed to a long side, a short side or four sides of the terrestrial magnetism shield(200). The reinforce bead(202) is formed a side of terrestrial magnetism shield(200) formed the V-notch(22) and a uniform interval is formed between the reinforce bead(202) and the V-notch, thereby solving the concentration of stress in proportion to the sectional area.

Description

Geomagnetic shield of color CRT {Inner shield used in CPT}

The present invention relates to shielding the influence of an electron beam by a geomagnetic field, and more particularly, to a geomagnetic shield of a color CRT, which can improve the geomagnetic shielding property by preventing stress concentration and thermal deformation.

The color CRT displays a desired color image by deflecting the B, G and R electron beams emitted from the electron gun by landing on the R, G and B phosphors formed on the inner surface of the panel by deflection yoke.

Such a color CRT tube is formed by combining the panel 2, the funnel 4, the neck 6 integrally as in the structure shown in Figure 3, and mounts the electron gun 8 to the neck 6, The phosphor 10 is formed on the inner surface of the panel 2, and a shadow mask 12 having a color screening function is mounted at a distance from the phosphor 10.

The shadow mask 12 is welded to the frame 14 to form a mask frame assembly, and the support spring 16 is fixedly installed at a corner portion or three or more centers of the frame 14 to support the support spring 16. Hole is suspended from the stud pin 18 fixed to the inner surface of the side wall of the panel 2.

A geomagnetic shield 20 is provided at the rear end of the frame 14 (left side of the drawing), which changes the path of the electron beam to reduce purity characteristics, raster distortion and convergence characteristics of the screen. To shield the influence of the geomagnetic field.

The geomagnetic shield 20 has a polygonal shape in which one or two products are assembled as shown in FIG. 4, and is manufactured using a thin metal material having a high permeability, and a piercing portion of the V-notch 22 and the side surface thereof. After being made to have 24, it is coupled to the frame 14 using a clip 28 inserted into the fastening hole 26.

By the way, since the geomagnetic shield 20 made of a thin metal plate can be easily deformed, conventionally, as a countermeasure against this, a reinforcing bead 30 is formed on the side to maintain a shape after molding.

However, in the conventional geomagnetic shield 20, when the press forming the reinforcing bead 30, the metal material is stretched to generate stress, which is a V-notch having a small cross-sectional area as indicated by a and b in the drawing. It concentrates on the central portion a of (22) and acts to deform its shape. That is, the stress concentrated in the central portion a of the V-notch 22 causes a heat concentration phenomenon during the blackening process performed at 400 to 500 ° C. during the manufacturing process, which is the outer or the like as the dotted line 22a shown in FIG. 5. Thermal deformation inwardly occurs, resulting in deformation of the product and deterioration of the geomagnetic shielding properties.

In order to solve the problems of the prior art described above, the present invention by dispersing the stress generated after the molding of the reinforcing bead uniformly as a whole, thereby preventing the thermal deformation and deterioration of geomagnetic shielding properties accordingly The aim is to provide a geomagnetic shield for the earth.

To this end, in the present invention, when forming the reinforcement bead on the side of the geomagnetic shield on which the V-notch is formed, the spacing between the edge of the reinforcement bead and the side edge on which the V-notch is formed is the same as a whole, and the reinforcement ratio The stress generated by the press forming of the id is distributed evenly between the reinforcing beads and the side edges.

The edges of the reinforcing beads and the side edges are formed parallel to each other and have the same spacing on at least one side, and the remaining sides may have different spacings.

In addition, the geomagnetic shield according to the present invention can adopt a structure in which reinforcing beads are formed on the long side, the short side, or the four sides, and the assembly structure can be formed in one piece or in a plurality of separate types.

1 is a perspective view showing a geomagnetic shield of a color CRT according to the present invention;

2 is a cross-sectional view of main parts of the present invention.

3 is a cross-sectional view illustrating the overall configuration of a general color CRT.

4 is a front view of a conventionally known geomagnetic shield.

5 is a plan view of a conventionally known geomagnetic shield.

* Description of the symbols for the main parts of the drawings *

22-V-Notch 200-Earth Field Shield

202-reinforced beads

EMBODIMENT OF THE INVENTION Hereinafter, preferred embodiment for implementing this invention is demonstrated in detail based on an accompanying drawing. For reference, in describing the present invention, the same reference numerals will be given to the same parts as the configurations of the drawings cited in the related art.

1 shows the overall configuration of a geomagnetic shield of a color CRT according to the present invention, and FIG. 2 shows a longitudinal cross-sectional view of FIG.

In the present invention, the appearance of the geomagnetic shield 200 may be formed in an integral form or a polygonal shape in which two or more plates are assembled, but the integrated structure shown as an example will be described.

The geomagnetic shield 200 is coupled to the rear end of the shadow mask frame using a clip and forms a V-notch 22 at the rear end to reduce the amount of movement in the NS direction, which is formed on the long side, the short side, or the four sides. can do.

In addition, the geomagnetic shield 200 of the present invention forms a reinforcing bead 202 on a long side, a short side, or four sides, which is formed by a press and thus involves stretching of a metal material and subsequent stress generation.

The present invention is a means for solving the problems of the prior art in which the above-mentioned stress is concentrated in a part, the reinforcement bead 202 is formed on the side of the geomagnetic shield is formed V-notch 22, the reinforcement ratio An even gap is formed between the id 202 and the V-notch, thereby solving the stress concentration proportional to the cross-sectional area.

More specifically, the reinforcing beads 202 and the V-notches 22 are parallel to each other, and the spacing between them is formed to be the same overall. In addition, the space between the edge of the reinforcing bead 202 and the edge where the V-notch 22 is formed may be formed evenly as a whole. At this time, the piercing portion 24 of the side may be formed to have a constant interval between the outline and the edge of the reinforcement bead 202.

The reinforcing bead 202 is typically formed in an outwardly protruding shape, but vice versa.

The reinforcement bead 202 of the present invention thus formed maintains the same spacing "A" with respect to the V-notch 22, and furthermore the same spacing for the entire edge of the reinforcement bead 202 and the side edges. By maintaining, unlike the prior art, there is no particularly small portion of the cross-sectional area and consequently no stress concentration occurs, thereby maintaining a uniform distribution of stress throughout.

Therefore, according to the present invention, even after the reinforcing bead 202 is formed, thermal deformation does not occur even if the blackening process is performed in an atmosphere of 400 to 500 ° C.

The geomagnetic shield 200 of the present invention manufactured as described above is disposed at the rear end of the frame on which the shadow mask is mounted, and is firmly mounted using a clip inserted into the fastening hole 26, and then fired from the electron gun. It serves to improve the display quality of the color CRT by protecting the path of the electron beam from the geomagnetic field.

As can be seen through the configuration and operation described above, the present invention is formed evenly between the reinforcing bead on the side edge, in particular the V-notch, so as to concentrate the stress generated during press molding of the reinforcing bead It can be prevented, and furthermore, it is possible to prevent thermal deformation occurring during the high temperature manufacturing process, it is possible to obtain the effect of improving the geomagnetic shielding properties after assembling the product.

Claims (4)

A V-notch formed in the rear end opening and a reinforcement bead formed on the side to shield the geomagnetic field that is coupled to the shadow mask frame and affects the electron beam, and includes a gap between the V-notch and the reinforcement bead. A geomagnetic shield of a color CRT including an arrangement that is formed evenly so that stress generated between the reinforcing beads and the V-notch is dispersed. The geomagnetic shield of a color CRT according to claim 1, wherein an interval between the edge of the reinforcing bead and the edge of the side on which the V-notch is formed is evenly formed on at least one side. The geomagnetic shield of a color CRT according to claim 1, wherein the reinforcing bead is formed on a long side, a short side or four sides. The geomagnetic shield of claim 1, wherein the piercing portion formed on the side is a color CRT.