KR950001083B1 - Crt - Google Patents

Abstract

The device improves the brightness and the focusing of cathode-ray tube by shaping the center of face pannel flat. The circumference (12)(12') of the face pannel (10) is formed in a spherical shape, and the area of flat part of the face pannel (10) occupies about 10-50 percent of the raster area. The emitted beam from the electron gun collides with the luminescent material of the face pannel (10), and the collided beam is projected into the screen (30) through the lens (20). The brightness is increased as the collected light are projected into the screen (30).

Description

Projection CRT

1 and 2 are cross-sectional views showing face panels of a conventional projection type CRT.

3 and 4 are cross-sectional views showing one embodiment of the projection type tube according to the present invention.

* Explanation of symbols for main parts of the drawings

10: face panel 11: fluorescent film

12, 12 ': Peripheral part 13: Central part

14: deflection trajectory 20: lens

30: screen

The present invention relates to a projection type CRT used in a high-definition television, and more particularly, a periphery is formed in a spherical shape in the structure of a face panel, and a central portion of the face panel is formed into a plate so that brightness and focusing are increased. The present invention relates to a projection type CRT that can obtain high image quality.

In a high definition television using a general projection type CRT, a plurality of single colors are projected onto a projection screen by a projection type CRT to obtain a bright image, and a color image is obtained by synthesizing each monochrome image projected on the screen. As shown in FIG. 1, the conventional projection type CRT tube is formed in a shape in which a fluorescent surface coated with a phosphor of a face panel is flat, and also disclosed in Japanese Patent Application Laid-Open No. 63-181246. The fluorescent surface is formed as an aspheric surface. Referring to the case where the fluorescent surface is flat, as shown in FIG. 1, a beam scanned from an electron gun not shown in the figure collides with the fluorescent surface 2 of the face panel 1, where light is emitted. The light is projected through the lens onto the screen. In this case, the beam scanned by the electron gun is deflected by a deflection yoke not shown in the drawing, and the focal point trajectory of the deflected beam is as shown in FIG. In addition, the light fluorescence by the phosphor is reflected in the forward direction, the brightness is lowered.

The conventional solution for solving such a problem is to form the fluorescent surface 2 'as a spherical surface as shown in FIG. As described above, the beam scanned from the electron gun of the spherical projection CRT is projected onto the screen through the lens. At this time, the beam collided with the phosphor is concentrated in one place as shown in FIG. 2, so that the luminance is increased than when the fluorescent surface 2 'is flatly formed. However, in the CRT formed with the spherical fluorescent surface of the face panel as described above, aberration is generated by x between the connection point trajectory of the beam deflected by the deflection yoke and the fluorescent surface, thereby reducing the focusing at the periphery of the screen. .

The present invention has been made to solve the above problems, and an object of the present invention is to form a spherical surface of the face panel, the center portion of the face panel is formed to be flat, so that the brightness is increased focusing, the projection type to obtain a high quality To provide a CRT.

In order to achieve the above object, the present invention provides a projection type CRT tube in which a face panel coated with a fluorescent surface is used on its inner surface, wherein a periphery of the face panel is formed as a spherical surface, and a central portion of the face panel is formed to be flat. It's in a projection CRT.

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

3 and 4 are cross-sectional views showing an embodiment of the projection type CRT according to the present invention, wherein the peripheral portion 12 is formed as a spherical surface on the inner surface of the face panel 10 having the fluorescent surface 11 formed on the inner surface thereof. The central part 13 of the inner surface of the panel 10 is formed in flat. The flat portion of the central portion 13 is formed at about 10 to 50% of the raster area.

In the projection CRT formed as described above, a beam scanned from an electron gun not shown in the figure collides with the phosphor of the face panel 10, and the collided beam is projected onto the screen 30 through the lens 20. That is, the central portion 13 of the face panel 10 is formed in a flat manner so that defocusing between the deflection trajectory 14 and the fluorescent surface 11 of the scanned beam is less than that of the fluorescent surface. Therefore, the resolution of the video signal displayed on the screen 30 increases. In addition, the peripheral portions 12 and 12 ′ of the face panel 10 are formed in a spherical shape, and light generated by colliding with the fluorescent surface 11 is concentrated in one direction, and the concentrated light is projected onto the screen 30. As a result, the luminance is increased from the face panel on which the conventional flat fluorescent surface is formed.

As described above, in the present invention, the periphery of the inner surface of the face panel is spherical so that the light emitted by the phosphors is concentrated, and thus, the luminance is higher than that of the conventional flat panel. As a result, the focus is improved compared to the face panel formed with the existing spherical surface, thereby improving the resolution.

Claims (2)

In a projection CRT tube in which a face panel coated with a fluorescent surface is used on an inner surface, peripheral portions 12 and 12 'of the face panel 10 are formed in a spherical shape, and a central portion 13 of the face panel 10 is formed in a flat surface. Projection type CRT tube, characterized in that formed. The projection CRT according to claim 1, wherein the flat portion of the weight portion (13) of the face panel (10) is 10 to 50% of the raster area.