Radiation imagery chemistry: process – composition – or product th – Producing cathode-ray tube or element thereof – Using specific control or specific modification of exposure,...
Reexamination Certificate
1999-10-04
2002-09-10
Angebranndt, Martin (Department: 1756)
Radiation imagery chemistry: process, composition, or product th
Producing cathode-ray tube or element thereof
Using specific control or specific modification of exposure,...
C430S023000, C396S546000, C396S547000, C204S192280, C204S192270, C427S069000, C427S109000, C427S166000, C427S282000
Reexamination Certificate
active
06447963
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a light quantity correction filter used for manufacturing a color cathode ray tube, and more particularly to a light quantity correction filter that can implement the desired transmittance distribution precisely and easily without complicating an exposure system, and a method of making the same.
BACKGROUND OF THE INVENTION
In general, a phosphor dot layer of three colors, that is, blue, green, and red, is regularly formed on the inner surface of the front panel of a color cathode ray tube by a photographic method. A light absorption layer, which is referred to as a black matrix, is formed around the phosphor dots of three colors to improve the contrast. When forming the phosphor layer and the black matrix on the inner surface of the front panel, an exposure system for manufacturing a color cathode ray tube is used.
FIG. 8
shows a schematic diagram of an exposure system for manufacturing a color cathode ray tube. As shown in
FIG. 8
, the exposure system comprises a light source portion
9
, a correction lens
10
, and a light quantity correction filter
11
. Light irradiated from the light source portion
9
passes through the correction lens
10
and the light quantity correction filter
11
and exposes a phosphor screen on the inner surface of a front panel
12
. The light quantity correction filter
11
corrects the light quantity distribution of the light that passed through the correction lens
10
from the light source portion
9
to make it uniform on the inner surface of the front panel
12
.
Methods for correcting the light quantity distribution of the light irradiated from the light source portion by using a light quantity correction filter having the above function include providing a predetermined light transmittance distribution by using a light quantity correction filter in which a plurality of stripe-shaped shielding portions are provided and in which the area ratio of the shielding portions to light transmission portions between the shielding portions is adjusted by the width of the shielding portions, as disclosed in Japanese Patent Application (Tokko Sho) No. 58-43853. Another method is, for example, to control the light transmittance by using a light quantity correction filter comprising an evaporated film, as disclosed in Japanese Patent Application (Tokkai Hei) No. 6-103895.
The light quantity correction filter comprising an evaporated film is manufactured, for example, by using an apparatus as shown in FIG.
9
.
FIG. 9
shows a schematic diagram of an apparatus for manufacturing a light quantity correction filter according to the prior art. A shielding sheet (an evaporation pattern)
13
having an opening
14
is provided between a transparent substrate
3
and an evaporation source
2
. In this apparatus, the desired transmittance distribution for correction is obtained on the transparent substrate
3
by rotating the shielding sheet
13
, changing the rotational speed according to the angle, and controlling the evaporation amount by the time integration ratio of the opening to the shielding portion.
Recently, in high-definition color monitor display tubes and color cathode ray tubes for high-definition televisions, reproducibility of colors and a white uniformity have been precisely required along with a large size, a wide angle deflection, and the flatness of the screen surface. Therefore, a complicated highly precise exposure correction is required during the process of forming a phosphor screen, especially the process of forming a black matrix. Accordingly, the effect of the collection and divergence of the lens becomes complicated, and a transmittance distribution for performing the corresponding complicated highly precise correction is required for a light quantity correction filter that controls the size of a back matrix.
With the correction method using the light quantity correction filter comprising a plurality of stripe-shaped shielding portions according to the prior art, however, a mechanism for oscillating the light quantity correction filter should be provided in the exposure system. Therefore, the structure of the exposure systems, a large number of which are used in the process of manufacturing color cathode ray tubes, becomes complicated. With the method of making the light quantity correction filter comprising an evaporated film according to the prior art, the evaporation amount is indirectly controlled by the time integration ratio of the opening to the shielding portion that depends on the shape of the opening, the rotational speed, and the like. Therefore, the attainable transmittance distribution is limited, and the control of the transmittance distribution is very complicated. Consequently, it is very difficult to provide the desired black matrix size distribution with a tolerance of 5% or less and obtain a sufficient white quality.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a light quantity correction filter that can implement the desired transmittance distribution precisely and easily without complicating an exposure system, a method of making the light quantity correction filter, and a method of manufacturing a color cathode ray tube using the light quantity correction filter.
In order to accomplish the above object, the present invention provides a method of making a light quantity correction filter comprising providing in an evacuated container an evaporation source, a transparent substrate on which material from the evaporation source is to be deposited to form a light quantity correction filter and an evaporation amount distribution controlling sheet that has a plurality of openings and is disposed between the evaporation source and the transparent substrate, evaporating material from the evaporation source for deposition on the transparent substrate, and controlling the amount of evaporated material deposited on the transparent substrate with the distribution controlling sheet to provide a desired transmittance distribution of evaporated material on the transparent substrate. According to the method of making a light quantity correction filter of the present invention, a light quantity correction filter having the desired transmittance distribution can be manufactured precisely and easily.
It is preferable that the openings in the distribution controlling sheet have a shape of parallel stripes. According to the preferable example, the fine nonuniformity in the transmittance distribution corresponding to the pitch of the openings in the vertical direction can be eliminated easily.
It is preferable that the controlling step comprises oscillating at least one of the evaporation source, the transparent substrate and the distribution controlling sheet with respect to the others during the evaporation step. According to the preferable example, the fine nonuniformity in the transmittance distribution corresponding to the pitch of the openings can be eliminated easily.
It is preferable that the openings in the distribution controlling sheet are formed to have a longitudinal direction component, and the direction of oscillating is substantially perpendicular to the longitudinal direction of the openings in the distribution controlling sheet. According to the preferable example, the fine nonuniformity in the transmittance distribution corresponding to the pitch of the openings can be eliminated more effectively.
It is preferable that the evaporation source is formed in a shape that is substantially linear or planar. According to the preferable example, the fine nonuniformity in the transmittance distribution corresponding to the pitch of the openings can be eliminated more effectively, and the control of the transmittance can be more simplified in forming the light quantity correction filter.
It is preferable that the evaporating step comprises sputtering. According to the preferable example, the nonuniformity of the evaporation amount among the evaporation positions is eliminated, and therefore a light quantity correction filter having the d
Angebranndt Martin
Matsushita Electric - Industrial Co., Ltd.
Merchant & Gould P.C.
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