KR100404576B1 - Color CRT Having The Improved Mask Supporter - Google Patents

Abstract

The present invention relates to an improvement of a support frame for a color cathode ray tube, comprising: a panel having a fluorescent surface formed on an inner surface thereof, a shadow mask disposed at regular intervals on a fluorescent surface of the inner surface of the panel, and a color cathode ray tube provided with a support frame supporting the shadow mask. The support frame includes: a bottom portion formed in a direction crossing the tube axis and a skirt portion extending substantially parallel to the tube axis; The skirt portion is composed of a long side portion, a short side portion, and a corner portion; The corner portion is characterized by protruding at least toward the tube axis.

Accordingly, the present invention can optimize the curvature of each side of the support frame to minimize the thermal deformation of the shadow mask due to thermal expansion of the support frame to improve the color purity of the color cathode ray tube.

Description

Color CRT Having The Improved Mask Supporter

The present invention relates to a color cathode ray tube, and more particularly, a shadow mask and a raw material of a frame supporting the shadow mask are different from each other so as to prevent deterioration of color purity due to a large amount of change in the longitudinal direction of a frame having a large coefficient of thermal expansion. A support frame improvement for one color cathode ray tube.

In the general color cathode ray tube, as shown in FIG. 1, the front glass called the panel 1 and the rear glass called the funnel 2 are combined, and a fluorescent surface 4 having a predetermined light emitting role therein, and the fluorescent surface An electron gun 6, which is the source of the electron beam 6 that emits light, and a shadow mask 3 that selects colors to emit a predetermined phosphor, and a support frame 7 that supports the shadow mask.

In addition, a spring 8 for allowing the frame assembly to be coupled to the panel and an inner shield 9 for allowing the cathode ray tube to be less influenced by external geomagnetism during operation are coupled to the frame and sealed in a high vacuum.

Next, the operation principle of the color cathode ray tube will be explained. In the electron gun embedded in the neck of the funnel 2, the fluorescent surface formed on the inner surface of the panel 1 by the anode voltage applied to the cathode ray tube (4), the electron beam is deflected up and down, left and right by the deflection yoke (5) before reaching the fluorescent surface to form a screen.

In addition, there are 2, 4, and 6 pole magnets 10 that correct the traveling trajectory so that the electron beam 6 strikes a predetermined phosphor, thereby preventing poor color purity.

The support frame for supporting the shadow mask of the conventional color cathode ray tube is generally composed of a constant curvature of the long side, the short side, and the corner, and the center point of the curvature exists on the inner surface of the support frame. In this case, thermal expansion occurs in the direction away from the center point by the heat transferred from the shadow mask.

Therefore, in the conventional color cathode ray tube as described above, in the case of the high-definition data processing cathode ray tube, it is difficult to secure color purity, which is a quality item that is always a problem among quality characteristics.

In the case of a material or a structure of a shadow mask for a color cathode ray tube or a support frame as in the related art, a change amount of a support frame having a relatively large thermal expansion coefficient is large, which causes a decrease in color purity.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to change the thermal expansion amount in the longitudinal direction by changing the shape of the frame to the difference in the thermal expansion caused by the different raw materials of the shadow mask and the frame It is to provide a support frame for color cathode ray tube to reduce color and improve color purity.

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

2 is a view showing a frame for a conventional color cathode ray tube,

3 is a view showing a frame for a color cathode ray tube according to the present invention;

4 is a side view of the support frame, and

5 is a view showing the effect of color purity improvement according to the corner curvature of the frame.

<Description of Symbols for Major Parts of Drawings>

1: panel 2: funnel

3: shadow mask 4: fluorescent surface

5: deflection yoke 6: electron beam

7: support frame 8: spring

9: inner shield 10: magnet

11: reinforcement band

Technical solution of the present invention for achieving the above object is, a panel having a fluorescent surface formed on the inner surface, a shadow mask disposed at a predetermined interval on the fluorescent surface of the inner surface of the panel, and a color cathode ray tube provided with a support frame for supporting the shadow mask The support frame includes: a bottom portion formed in a direction crossing the tube axis and a skirt portion extending substantially parallel to the tube axis; The skirt portion is composed of a long side portion, a short side portion, and a corner portion; The corner portion is characterized by protruding at least toward the tube axis.

In addition, the radius of curvature of the protruding corner portion is preferably set within the range of 30 mm to 80 mm.

Further, the long side portion and / or the short side portion of the skirt portion protrude toward the tube axis, and the radius of curvature of the protruding long side portion and / or the short side portion may be set within the range of 300 mm to 1500 mm.

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

The present invention is to solve the problem of poor color purity, which is the above-described problem, the present invention, as shown in Figure 3, by moving the center point of the curvature of the long side, short side, corner of the support frame is located on the inner surface of the conventional frame to the outer surface thermal expansion When this occurs, the change amount is configured to be reduced.

The skirt of the shadow mask welded by the long side, short side, and corner variation of the frame also opens in the same direction. Thus, the position of the shadow mask moves at a constant distance from the panel, which results in disadvantageous color purity.

As shown in Figure 4, the frame is the amount of expansion (P) occurs in the longitudinal direction by the heat (Q) transmitted from the shadow mask, when the conventional frame, as shown in Figure 2, the long side, short side, In the present invention, when the change amounts of the corners are represented by α, β, and γ, and the change amounts of the long sides, short sides, and corner sides of the frame are represented by α ', β', and γ ', α> α', β> β ', and γ> As in γ ', the amount of change is reduced.

Therefore, the amount of change in position between the shadow mask and the panel is also reduced, thereby reducing the amount of change in color purity.

According to the above-described method, the color purity improvement effect was tested while varying the radius of curvature R of the corner portion protruding toward the tube axis. As shown in FIG. The improvement was effective. In addition, when the radius of curvature R is smaller than 30 mm, the fracture due to stress concentration increases during molding, and when larger than 80 mm, the effect of improving color purity by doming is reduced.

Similarly, the curvature radii of the long side portions and the short side portions protruding toward the tube axis were tested, and as shown in FIG. 6, the long side portions were 15-20% or more in the range of 300 mm to 1500 mm, respectively, and the short side portions were 10 as shown in FIG. 7. The improvement effect was 15% or more. In addition, when the radius of curvature R of the long side portion and the short side portion is smaller than 300 mm, the effective screen size is excessively reduced, and when larger than 1500 mm, the color purity effect due to doming is reduced.

As described above, according to the present invention, it is possible to improve the color purity of the color cathode ray tube by about 25% by designing the curvature of each side of the support frame with optimization.

Claims (4)

In the color cathode ray tube provided with a panel having a fluorescent surface on the inner surface, a shadow mask disposed at a predetermined interval on the fluorescent surface of the inner surface of the panel, and a support frame for supporting the shadow mask, The support frame comprises a bottom portion formed in a direction crossing the tube axis and a skirt portion extending substantially parallel to the tube axis; The skirt portion is composed of a long side portion, a short side portion, and a corner portion; The long side portion, the short side portion and the corner portion of the skirt portion protrude with a predetermined radius of curvature toward the tube axis, wherein the radius of curvature of the corner portion is a color cathode ray tube, characterized in that in the range of 30mm to 80mm. delete delete The method of claim 1, The radius of curvature of the protruding long side and / or short side is in the range of 300 mm to 1500 mm.