KR100474355B1 - A Flat Color CRT - Google Patents

Abstract

The present invention relates to a panel for a color cathode ray tube, and more particularly, to a color cathode ray tube having a high transmittance panel, and to a low transmittance panel, thereby reducing the manufacturing cost of the panel and coating the cathode ray tube and improving luminance uniformity. The present invention relates to a planar colored cathode ray tube.

In order to achieve the object of the present invention, the outer surface is almost planar, the inner surface has a constant curvature, a panel having a screen, a funnel mounted to the rear of the panel, an electron gun inserted into the neck portion of the funnel to emit an electron beam toward the screen And a deflecting device for displaying an image by deflecting the electron beam emitted from the electron gun horizontally and vertically of a screen, and a color mask tube having a shadow mask disposed at a predetermined distance from the screen of the panel, the curvature of the outer surface of the panel. Radius (R) It has a range of the ratio of the corner transmittance to the center portion of the shadow mask Characterized in having a range of.

Description

Flat Color Cathode Ray Tubes {A Flat Color CRT}

The present invention relates to a panel for a color cathode ray tube, and more particularly, to a color cathode ray tube having a high transmittance panel, and to a low transmittance panel, thereby reducing the manufacturing cost of the panel and coating the cathode ray tube and improving luminance uniformity. The present invention relates to a planar colored cathode ray tube.

In general, as shown in FIG. 1, the color cathode ray tube is combined with a front glass called a panel 1 and a rear glass called a funnel 2, and an inside thereof has a fluorescent surface for emitting a predetermined light and an electron beam for emitting a fluorescent surface. ), A shadow mask (3) for selecting colors to emit light of a predetermined phosphor, and a frame (4) for supporting the electron gun (8), which is the source of the?).

In addition, a spring (5) for allowing the frame assembly to be coupled to the panel and an inner shield (7) for shielding so that the cathode ray tube is less affected by external geomagnetic fields during operation are sealed in a high vacuum through a sieve fixed to the frame. .

Since the cathode ray tube is made of high vacuum, it may be easily deflated due to external impact, so that the stress of the cathode ray tube in the high vacuum state is dispersed by attaching a reinforcing band 12 to the skirt of the panel 1 to prevent this. , My shock performance is secured.

According to the curvature of the outer surface and the inner surface of the panel in the color cathode ray tube having the configuration as described above affects the explosion-proof characteristics and visibility.

In particular, the curvature of the inner surface of the panel greatly affects the visibility due to the flatness of the image and whether the image is distorted, and facilitates the distinction between the panel transmittance, the brightness uniformity of the screen, and the contrast. It plays an important role in implementing the coffin.

The operating principle of the color cathode ray tube is a fluorescent surface formed on the inner surface of the panel 1 by an anode voltage applied to the cathode ray tube by an electron gun embedded in the neck portion of the panel 2. At this time, the electron beam is deflected up, down, left, and right by the deflection yoke 9 before reaching the fluorescent surface to realize an image.

On the other hand, the inner curvature of the color cathode ray tube panel may be expressed as a wedge ratio, which is a ratio of the thickness of the center portion of the panel to the diagonal end.

In general, a flat cathode ray tube having a wedge rate of more than 200% usually has a wedge rate of about 130%, compared to a cathode ray tube having a certain curvature on the outside of the panel. The difference between the transmittance at the center and the transmittance at the periphery becomes large.

Accordingly, when the image is formed, the brightness of the image of the center portion and the peripheral portion shows a great difference, thereby providing visual inconvenience.

Therefore, in the related art, a planar cathode ray tube having a thick thickness of the peripheral part uses a panel having a high transmittance of 80% or more in order to increase the transmittance of the peripheral part.

The cathode ray tube having an outer surface curvature having almost the same thickness as the peripheral portion and the center portion was a low transmittance panel having a panel center transmittance of about 55%.

Accordingly, there is a problem in that the price of the high transmittance panel is higher than that of the low transmittance panel due to the same glass material but the amount of pigment is wrong, due to the decrease in production yield and the increase in defect rate, and the flat cathode ray tube is a conventional outer curvature. Compared to the cathode ray tube having a high transmittance at the center of the panel to solve this problem has to use a coating method of higher cost than the conventional to match the transmittance of the central portion and the peripheral portion.

In addition, a flat cathode ray tube and a cathode ray tube having a conventional outer surface curvature have a problem in that dual costs such as an increase in the price of the glass and an increase in the price of the coating are increased by using a different color panel.

Accordingly, an object of the present invention is to solve the above-described problems, and by optimizing the curvature structure of the panel and the shadow mask transmittance, it is possible to improve the distinction of contrast without degrading brightness and brightness uniformity. An object of the present invention is to provide a planar cathode ray tube capable of relieving visual discomfort and improving visibility characteristics.

Technical solution of the present invention for achieving the above object, the outer surface is almost flat, the inner surface has a certain curvature, the screen is formed panel, the funnel mounted on the rear of the panel, the funnel is inserted into the neck portion of the funnel screen Transmittance in a color cathode ray tube comprising an electron gun which emits an electron beam toward the body, a deflector which displays an image by deflecting the electron beam emitted from the electron gun horizontally and vertically on a screen, and a shadow mask arranged at a predetermined distance from the screen of the panel This low dark or dark tint is employed and the curvature radius R of the outer surface of the panel It has a range of the ratio of the corner transmittance to the center portion of the shadow mask Characterized in having a range of.

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

2 is a perspective view showing a curvature shape of a conventional panel outer surface, Figure 3 is a perspective view showing the shape of a panel outer curvature according to the present invention.

As shown, the radius of curvature R at any point P (x, y, z) on the outer surface of the panel is represented by the following equation (1).

Equation 1) radius of curvature (R) =

In Equation 1, the radius of curvature (R) is expressed using a spherical coordinate, and the center of the long side of the panel is x, the center of the short side of the panel, y, and the central axis direction of the panel, z, based on the center of the outer surface of the panel. will be.

Table 1 below shows, as an embodiment of the present invention, luminance uniformity according to the panel outer radius of curvature and the vertical height z of the panel diagonal effective surface panel in the 17-inch flat color cathode ray tube.

Panel curvature radius (R mm) Luminance measuring point (B / U) Luminance Uniformity (%) 132.5 / 92 (x, y coordinates) 163/105 (x, y coordinates) z coordinate z coordinate Invention 6000 2.17 3.31 82.4 7000 1.86 2.69 81.3 8000 1.63 2.35 80.4 9000 1.44 2.09 79.7 10000 1.30 1.88 79.2 20000 0.65 0.94 76.8 30000 0.43 0.63 76.1 40000 0.32 0.47 75.7 Conventional 50000 0.26 0.38 75.5

In Table 1, 132.5 / 92 are x and y coordinates which are generally used to measure luminance uniformity of the panel, and 163/105 are diagonal coordinates of the effective screen of the panel.

Conventionally, the radius of curvature R of a 17-inch cathode ray tube is 50,000 mm.

As shown in Table 1, when the outer surface curvature radius R is 10,000 mm or less, the luminance uniformity is improved by about 4% compared to the conventional art.

The best mode of brightness uniformity is most optimal when 100%, but when brightness uniformity is about 80% or more, it does not affect the user's visibility.

And the panel vertical height (z) at the coordinates of the effective surface end point according to the panel outer surface curvature radius (z) is 2.5mm or less to improve the sense of flatness, so the panel outer curvature radius has a range as shown in Equation 2 below. To be satisfied.

Equation 2)

As such, when applying the outer curvature of the panel in the present invention, the luminance uniformity is improved, but in order to further improve the luminance uniformity, the mask transmittance ratio for color-selective action must be adjusted.

4 illustrates the structure of a flat mask in a flat cathode ray tube.

The transmittance of the mask is expressed according to the size of the mask horizontal hole diameter Dh and the vertical hole diameter Dv as shown in Equation 3).

Equation 3

Iii) if Dv> Dh,

Ii) if Dv <Dh,

As shown in Equation 3, the mask transmittance is affected by the size of the mask hole diameters Dv and Dh and the horizontal and vertical unit areas Ph x Pv, which are mask bridge spacings.

The mask hole diameters Dv and Dh and the mask bridge spacing Pv and Ph both affect mask transmittance, but decreasing or increasing the mask bridge spacing increases or decreases the number of dots in the cathode ray tube panel, thereby greatly affecting the luminance. .

Table 2 below shows the mask transmittance (Tm) according to the unit area (Ph × Pv) of the horizontal and vertical pitches, which are mask bridge intervals.

As shown in Table 2, the ratio of the center transmittance to the periphery of the mask is When satisfying the range of, the luminance uniformity is 80% or more, so that the quality of the cathode ray tube can be improved.

In addition, the panel of the cathode ray tube having the mask transmittance employs a low transmittance tint or dark tint, and the preferred panel transmittance is preferably 54% or less and 44% or less, respectively.

In addition, the mask and the panel is preferably applied to the cathode ray tube for the CDT (Color Display Tube).

In addition, preferably, the ratio of the unit area (Ph * Pv) of the vertical and horizontal bridges of the mask center portion to the unit area (Ph * Pv) of the vertical and horizontal bridges of the mask corner portion is preferable. To satisfy the range of.

As such, by optimizing the ratio of the outer surface curvature of the panel and the unit area of the mask horizontal and vertical bridges, the luminance uniformity of at least 5% can be improved as compared to the conventional art.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the present invention optimizes the curvature structure of the panel and the shadow mask transmittance to improve the distinction of contrast without compromising brightness and brightness uniformity, thereby relieving visual discomfort and improving visual characteristics of the user. It can be effected.

1 is a schematic view of a typical planar cathode ray tube.

Figure 2 is a perspective view showing the panel shape of a conventional planar cathode ray tube.

Figure 3 is a perspective view showing the panel shape of the planar cathode ray tube according to the present invention.

Figure 4 is a cross-sectional view showing the structure of a flat mask according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1: panel 2: funnel

3: shadow mask 4: frame

5: spring 6: skirt

7: inner shield 8: gun

9: deflection yoke 10: neck portion

11: electron beam 12: reinforcement band

13: rug

Claims (3)

The outer surface is almost flat, the inner surface has a constant curvature, the screen is formed panel, the funnel mounted on the back of the panel, the electron gun inserted into the neck portion of the funnel to emit an electron beam toward the screen, the electron beam emitted from the electron gun A color cathode ray tube comprising a deflector for displaying an image by deflecting the screen horizontally and vertically, and a shadow mask arranged at a predetermined distance from the screen of the panel. The radius of curvature R of the outer surface of the panel Has a range of, Corner transmittance ratio to the center portion of the shadow mask Flat type cathode ray tube, characterized in that has a range of. The method of claim 1, The ratio of the product of the horizontal and vertical pitches Ph and Pv to the product of the horizontal and vertical pitches Ph and Pv of the corners of the mask. Flat color cathode ray tube satisfying the range of. The method of claim 1, And said panel has a transmittance of 40% or less.