KR200160127Y1 - Cathode ray tube - Google Patents

Abstract

The present invention relates to a Freesnel panel type cathode ray tube which improves visibility by diffusely reflecting external light by forming a predetermined curvature rather than a smooth plane on the outer surface of the panel where pixels are formed in the color cathode ray tube.

The present invention provides a cathode ray tube of a vacuum bulb structure in which a panel is joined to a front panel: On the outer surface P of the panel 21, a plurality of identical lens surfaces from Pa to Pn are formed at a predetermined ratio from the peripheral portion to the center portion thereof. It is a configuration that is formed to be reduced to.

Therefore, instead of applying black coating on the outer surface of the panel, the outer surface itself is formed in a predetermined curvature rather than a smooth plane, thereby converging light emission of the panel and diffusely reflecting external light, thereby improving visibility of the cathode ray tube.

Description

Freesnel Panel Type Cathode Ray Tube

1 is a schematic partial cross-sectional view of a color cathode ray tube.

2 is an embodiment according to the present invention, (a) is a front view of the panel, (b) is an X-X cross-sectional view of (a).

<Description of the symbols for the main parts of the drawings>

11: panel (conventional) 12: funnel

13: shadow mask 14: electron gun

15: fluorescent surface 21: panel (this invention)

R, G, B: Phosphor P: Exterior

Pa, Pb... Pn: lens surface Ra, Rb,... Rn: radius of curvature

The present invention relates to a cathode ray tube, and more particularly, to a fresnel panel type cathode ray tube which improves visibility by diffusely reflecting external light by forming a predetermined curvature rather than a smooth plane on an outer surface of a panel in which a pixel is formed.

1, generally, the cathode ray tube has a vacuum bulb structure in which a panel 11 and a funnel 12 are made of glass, and shadow masks 13 and front are respectively moved forward and rearward therein. The electron gun 14 is mounted, and a deflection yoke (not shown) is mounted on the outside of the electron gun 14 to complete the cathode ray tube assembly.

The electron gun 14 is composed of a cathode (not shown) and a plurality of lenses (not shown). The R, G, and B electron beams emitted from the cathode are focused and accelerated by various lens systems and applied through an anode. It is greatly accelerated by the high voltage and then deflected by the deflection yoke to reach the shadow mask 13. In the shadow mask 13 having a myriad of fine pores (hereinafter referred to as apertures), electron beams passing through the respective apertures S in turn are scanned by the fluorescent surface 15 formed on the inner surface of the panel 11 to R, G, and B. By excitation of the fluorescent substance constituted, each pixel corresponding to the aperture S emits light in a color in which red, green, and blue are combined.

At this time, the intensity of the wave generated in the R, G, and B phosphors by the scanned electron beam can be represented by the wave energy passing through the unit area in unit time. Since the density and propagation speed of the medium are the same, it is proportional to the square of the frequency. There is a relationship. In particular, the red light generated from the R phosphor has the longest wavelength and therefore has the lowest frequency, and thus has the disadvantage that the luminance is inferior due to the relatively inferior wave energy.

In recent years, the drawback of the cathode ray tube may be more prominent according to the trend toward larger size and planarization, and various methods such as black coating have been attempted. Black coating is a means of reducing the reflectivity of the panel 11 by applying an antireflective black pigment to the outer surface of the panel 11, when the black pigment is applied to the outer surface of the panel 11 because there is a defect that absorbs the emission of the phosphor itself Significant attention is paid to the particle diameter and the coating thickness.

Therefore, the present invention is a freesnel panel type cathode ray tube which diffusely reflects external light and improves visibility by forming the outer surface itself in a predetermined bend rather than a smooth plane instead of black coating on the outer surface of the panel where the pixel is formed in the color cathode ray tube. The purpose is to provide.

In order to achieve the above object, the present invention provides a cathode ray tube of a vacuum bulb structure in which a panel is joined to a front panel: the outer surface (P) of the panel (21) has a large number from Pa to Pn from its periphery to its center. Provided is a fresnel panel type cathode ray tube characterized in that the same lens surface is reduced in a predetermined ratio.

In this case, the lens surfaces Pa, Pb… Pn are formed of Fresnel lenses having different curvature radii Ra, Rb… Rn.

Hereinafter, the present invention will be described in detail a preferred embodiment according to the attached Figure 2. 2 is an embodiment according to the present invention, where (a) is a front view of the panel and (b) is an X-X cross-sectional view of (a).

In FIG. 2 (a), on the outer surface P of the panel 21, a plurality of identical lens surfaces from Pa to Pn are reduced in a predetermined ratio while reaching from the peripheral portion to the center portion. The outer circumferential shape of the plurality of lens surfaces is the same as the outer circumferential surface shape of the panel 21, and only the size thereof is reduced step by step. As shown in the figure, each lens surface from Pa to Pn is arranged at equal intervals. As the number of lens surfaces is increased in a myriad of steps, the effect desired by the present invention becomes more pronounced.

In FIG. 2B, the lens surfaces Pa, Pb... Pn are formed of Fresnel lenses having different curvature radii Ra, Rb..Rn. A freesnel lens generally refers to a condensing lens designed by dividing a plurality of concentric rings in order to reduce the thickness of a large-diameter lens, and the lens surface of Pa is a predetermined angle with a radius of curvature of Ra toward the center from the periphery of the panel 21. After the formation, the lens surface of Pb is formed at a predetermined angle from the lens surface of Pa toward the central portion by a predetermined radius, and finally, the lens surface of Rn having the radius of curvature of Rn is formed.

In this configuration, the outer surface P of the panel 21 in which the lens of countless steps is formed focuses the light emitted from the phosphor to some extent and transmits the light to the viewer, and diffuses the light reaching the panel from the outside in a myriad of directions. Do not let your viewers feel glare. In this case, since the black coating for applying the anti-reflective black pigment is omitted, the defect that the black pigment absorbs light emission of the phosphor itself and lowers the luminance is eliminated.

As described through the above embodiments, instead of applying a black coating on the outer surface of the panel, the outer surface itself is formed in a predetermined curvature rather than a smooth plane, thereby concentrating light emission of the panel and diffusely reflecting external light to improve visibility of the cathode ray tube. It works.

Although the present invention has been shown and described in relation to certain preferred embodiments, the present invention has been variously modified and changed without departing from the spirit or the field of the present invention provided by the scope of the following utility model registration claims. It will be readily apparent to one of ordinary skill in the art that it can be used.

Claims (2)

In the cathode ray tube of a vacuum bulb structure in which a panel is bonded to the front side: On the outer surface P of the panel 21, a plurality of identical lens surfaces from Pa to Pn are reduced at a predetermined ratio from the peripheral portion to the center portion. A fresnel panel type cathode ray tube, characterized in that formed. The fresnel panel type cathode ray according to claim 1, wherein the lens surfaces Pa, Pb… Pn are formed of fresnel lenses having different curvature radii Ra, Rb… Rn. tube.