KR100225435B1 - Green phosphor exposing method by double exposing device - Google Patents

Abstract

The present invention relates to a method of exposing a green phosphor by a double exposure apparatus which improves the luminance of a green phosphor so as to be stable and suitable for a high-resolution color cathode ray tube.

In order to improve the brightness of the green phosphor among the three-color phosphors, the green phosphor is exposed using only the eccentricity of the position of any one of the dual light sources during the exposure of the green phosphor.

By using the above method, it is possible to obtain a high-resolution color cathode-ray tube having improved brightness, and each phosphor can be exposed by one exposure apparatus in the BC process, thereby preventing manufacturing errors caused by using a plurality of exposure apparatuses There is an effect of increasing industrial value.

Description

Method of Exposing Green Phosphor by Dual Exposure Apparatus

Figure 1a is a front view of the color cathode ray tube, shown partially cutaway,

Figure 1b is an enlarged view of part A of Figure 1a.

FIG. 2a is a sectional view schematically showing an exposure apparatus of a conventional color cathode ray tube,

Fig. 2b is a schematic view showing the phosphor layer on the fluorescent screen according to Fig. 2a. Fig.

FIG. 3 is a schematic cross-sectional view of a double exposure apparatus of a color cathode-ray tube. FIG.

4A is a schematic view showing the exposure method according to the present invention,

4b is a schematic view showing a phosphor layer on a fluorescent screen according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

2: Phosphor 2a: Red phosphor

2b: green phosphor 2c: blue phosphor

11: Panel 12: Shadow mask

13: Panel mounting portion 14: Shutter

15: correction lens 16: filter

19, 19 ': Light emitting portion 20a, 20b: Double light source portion

26: Swinging device

The present invention relates to a method of exposing a phosphor screen of a color cathode ray tube, and more particularly, to a method of exposing a green phosphor by a dual light source device which improves the luminance of the green phosphor so as to be stable and suitable for a high resolution color cathode ray tube.

1 (a) is an enlarged view of a portion A of FIG. 1 (a). In FIG. 1, 11 is a panel and 2 is a panel Reference numeral 12 denotes a shadow mask 12 provided at the rear of the panel 11. Reference numeral 12a denotes a shadow mask 12 having a constant lateral pitch. Reference numerals 12a, 12b, 12c, And a hole formed in the hole.

2 (a) is a schematic view of a general color cathode ray tube exposure apparatus 10 in which a light source unit 18 is provided on the inner bottom surface of the exposure apparatus 10, Is provided on the front side of the panel.

A correction lens 15 and a filter 16 for correcting the light incident from the light source unit 18 are provided in the exposure apparatus 10 between the light source unit 18 and the panel holding unit 13, And a shutter 14 for passing light therethrough is provided at an upper portion of the shutter 15.

A method of forming the three-color fluorescent substance 2 on the panel 11 using the exposure apparatus 10 configured as described above will be described with reference to FIG. 2 (b).

When the BC (black coating) process is completed, the three-color phosphor 2 is applied to the panel holding portion 13 of the exposure apparatus 10 and the panel 11 provided with the shadow mask 12 on the inner surface thereof When the light source unit 18 is turned on, the light emitted from the light source or the point light source of the light source unit 18 exposes the phosphor in the BGR order. In order to explain the present invention, The green phosphor 2c of the phosphor 2 of G, B is added to the inner surface of the panel 11 and dried, and then the shadow mask 12 is placed at a predetermined position . The green phosphor 2b is formed by precisely positioning the light source unit 18 at the deflection center of the electron beam for emitting the green phosphor 2b and passing through the shutter opening moving through the light emission and the through hole (not shown) . After exposure, remove the shadow mask (12), and spray hot water at a temperature of about 40 ° C at a pressure of ² kg / cm ² to 3 kg / cm ² to wash off the phosphor in the unburned area, And the film is dried with a heater and air. If such a process is repeated three times, only the developed portion remains in the form of stripes or dots. Subsequently, the above-described exposure and development are repeated for the other colors in the same manner, thereby forming the three-color fluorescent substance 2.

Here, since exposure is performed around the deflection of the electron beam, the exposure points of three colors are completed without overlapping. Therefore, when the fluorescent screen is viewed from the deflection center of the green electron beam, only the green fluorescent material 2b is visible through the through hole of the shadow mask 12, and the fluorescent points of the remaining two colors are hidden from the shadow mask 12.

Similarly, only the blue phosphor 2c is visible at the deflection center of the blue electron beam and only the red phosphor 2a at the deflection center of the red electron beam.

However, in the general exposure method as described above, each of the three-color phosphors R, G, and B is formed as shown in FIG. 2 (b).

In order to develop each of the three-color phosphors 2, there is a relation with the incidence angle of the light beams incident on the light source portion 20. Therefore, in the conventional exposure method, the light reaching the diagonal axis D of the fluorescent surface becomes green phosphor 2b, And the light reaching the lower side of the large diagonal axis D causes the phenomenon that the green phosphor 2b moves close to the vertical axis Y direction. As described above, when the green phosphor 2b is tilted and developed, not only the color purity drops but also a higher luminance is required when the color cathode ray tube is used for a high resolution application such as a computer display. In the conventional exposure apparatus It is difficult to improve the luminance.

Further, in order to solve such a problem, it is necessary to separate and expose the three-color phosphor 2, but in this case, there arises a problem in the management of the size of the phosphor.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to improve the brightness of a green phosphor by increasing the light efficiency by using a single light source unit eccentric by a predetermined amount of movement, It has its purpose.

In order to accomplish the above object, the present invention provides a method for exposing a fluorescent screen of a color cathode-ray tube having a three-color phosphor to a fluorescent screen of a color cathode ray tube by exposing the fluorescent screen by swinging the double light source portion, The green phosphor is exposed using only the eccentricity of the position of any one of the dual light sources in the Y direction of the panel.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In all the drawings for explaining the embodiments, the same reference numerals are used for the same parts and the repetitive description thereof will be omitted.

FIG. 3 shows a double exposure apparatus suitable for exposing the green phosphor 2b according to the present invention. First, a three-color phosphor 2 is applied to the inner surface of a panel 11, and a shadow mask The panel 11 provided with the links 12 and 12 is placed on the panel holding portion 13 of the exposure apparatus 10 and then the inner surface of the exposure apparatus 10 is provided with a link and a lever Two independent dual light source units 20a and 20b for causing light to be incident on each other by swinging by a swinging device 26 made up of a combination of the two light source units 20a and 20b, A correction lens 15 and a filter 16 are provided in the exposure apparatus 10 between the teeth 13.

Further, a shutter 14 is provided on the upper part of the correction lens 15.

The green phosphor exposure method using the double exposure apparatus constructed as above will be described in detail with reference to FIGS. 4 (a) and 4 (b).

First, when the dual light source units 20a and 20b provided on the bottom surface of the exposure apparatus 10 are operated by a light modulation device (not shown), light is emitted from the dual light source units 20a and 20b, The two light sources 20a and 20b are partly and partially exposed to each other while oscillating reciprocatingly while being inclined between the center of the panel and the skirt.

Firstly, a photosensitive material hardening is applied to the red phosphor 2a, and is coated on the inner surface of the panel 11, followed by drying. Then, the shadow mask 12 is placed at a predetermined position. The double light source units 20a and 20b are positioned precisely at the deflection center of the electron beam that emits the red phosphor 2a and emit light and are corrected by the filter 16, the correction lens 15 and the shutter 14, And the red phosphor 2a is exposed through the through hole of the mask 12. [ After the exposure, the shadow mask 12 is peeled off, developed, and washed with water, so that only a part of the photosensitive phosphor is left in the form of stripe or dot.

When the next green phosphor is to be exposed, as shown in FIGS. 4B and 4C, the double light source portions 20a and 20b mutually reciprocate between the center portion of the panel 11 and the skirt portion, By using only one of the double light source portions 20a and 20b which is eccentric by the moving amount of the panel 11 in the vertical axis Y in advance, by increasing the light efficiency and the pixel line width, the light ray reaching the upper diagonal axis D of the fluorescent surface The green phosphor 2b moves closer to the vertical axis Y direction and the light rays reaching the lower side of the diagonal axis D move the green phosphor 2b away from the vertical axis Y direction.

When the green phosphor 2b exposed by the green phosphor 2b exposure method is stripped of the shadow mask 12 after exposure and developed and washed with water as in the conventional development method, the phosphor is striped or dotted It remains. By continuously exposing the green phosphor 2b in the same manner, a stable arrangement structure can be obtained.

Next, when the blue phosphor 2c is exposed, the same method as the red phosphor 2a exposure method will be described.

As described above, by exposing the green phosphor by using only one of the light source portions shifted and eccentrically moved in advance, it is possible to obtain a high-resolution color cathode ray tube with improved brightness, and each phosphor can be exposed by one exposure apparatus in the BC process It is possible to prevent manufacturing errors caused when a plurality of exposure apparatuses are used, thereby increasing industrial value.

While the present invention has been described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

Claims (1)

A method for exposing a fluorescent screen of a color cathode ray tube having a three-color fluorescent substance (2) to a fluorescent screen of a color cathode ray tube by exposing the fluorescent screen by oscillating the double light source portions (20a, 20b) In order to improve the brightness of the green phosphor 2b, only one of the positions of the double light source portions 20a and 20b is eccentrically eccentric by the Y-direction moving amount of the panel 11 before exposure. (Method for Exposing Green Phosphor by Dual Exposure Apparatus).