JP2005056863A - Color cathode ray tube - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a color cathode ray tube of high brightness and high contrast including a filter with good transmitting property. <P>SOLUTION: In this color cathode ray tube according to the present invention, a filter layer, e.g. a blue filter, of which transmission factor of light having a wave length 455 nm is larger than that of light having a wave length 550 nm, is provided in blue and green light emission areas on an inner surface of a panel, and green and red filter layers are provided in green and red light emission area on the blue filter layer, respectively. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a color cathode ray tube, and more particularly to a color cathode ray tube provided with a phosphor layer with a filter.

  Conventionally, in a color cathode ray tube, it is known that an optical filter layer corresponding to the emission color of the phosphor is provided between the phosphor layer on the inner surface of the face plate panel to form a filter-equipped phosphor layer.

  That is, in a normal color cathode ray tube, a phosphor pattern in which phosphor layers of blue, green, and red colors are arranged in a dot shape or a stripe shape is formed on the inner surface of the face plate panel. When the electron beam collides with each other, the phosphor emits light in each color to display an image. The phosphor layer with a filter is provided with a filter layer composed of a pigment layer of each color between the panel and the phosphor layer and transmitting light of the same color as the emission color of the phosphor layer. The green and blue component light is absorbed by the red pigment layer, the green and red component light is absorbed by the blue pigment layer, and the blue and red component light is absorbed by the green pigment layer. It is to improve.

  In order to form such a filter layer, for example, a slurry in which pigment fine particles are dispersed in a photosensitive solution made of polyvinyl alcohol (PVA) and ammonium dichromate (ADC) is applied to the inner surface of the panel by a spin coat method or the like. After drying, a method is used in which a shadow mask is used as an optical mask and ultraviolet exposure is performed and development processing is performed.

  In particular, in the formation of a red filter layer, a resist is applied to the inner surface of the panel, a resist pattern is formed by exposing other than a predetermined position (filter layer forming position), and then a red pigment paste is applied thereon. Then, a method of peeling and removing the resist film and the pigment coating film thereon by reverse development has also been proposed. (For example, see Patent Document 1)

However, these filter layer forming methods have a problem that the number of steps is large and complicated. Therefore, in a color cathode ray tube, it has been required to form a phosphor layer with a filter with fewer simplified steps.
JP-A-5-275008

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a color cathode ray tube having a filter layer with good characteristics and having high luminance and high contrast.

  The color cathode ray tube of the present invention has a phosphor pattern in which an optical filter layer is provided on the inner surface of the face plate panel, and phosphor layers of three colors of blue, green and red are arranged in a predetermined pattern on the filter layer. In the inner surface of the panel, a filter layer having a light transmittance of a wavelength of 450 nm larger than that of a wavelength of 550 nm is provided in the blue and green light emitting regions below the blue and green phosphor layers, and on the filter layer, A green filter layer is provided in the green light emitting region, and a red filter layer is provided in a red light emitting region below the red phosphor layer on the inner surface of the panel.

  The color cathode ray tube of the present invention is equipped with a filter having good transmission characteristics particularly in the blue and green light emitting regions, and has high brightness and excellent contrast characteristics.

  Embodiments of the present invention will be described below.

  In the embodiment of the present invention, examples of the filter layer having a transmittance of light having a wavelength of 450 nm larger than that of the wavelength of 550 nm include a blue filter layer.

  In the embodiment of the present invention, the formation of the filter layers of each color including such a blue filter layer is performed, for example, according to the following procedure.

  That is, first, a pigment dispersion mainly composed of pigment particles of a predetermined color and a polymer electrolyte dispersant is applied to the inner surface of the panel having a black matrix. In addition, although an inorganic or organic pigment can be used as the pigment, it can be uniformly dispersed in the filter layer and is sufficiently transparent to the filter layer without causing light scattering. It is preferable to use a pigment capable of imparting properties. In addition, since the production of a color cathode ray tube includes a high temperature process, it is particularly preferable to use an inorganic pigment. Furthermore, as a method for applying the pigment dispersion, a spin coating method, a roller method, a dipping method, or the like can be used, and can be appropriately selected in consideration of the shape and size of the face plate. In order to obtain a uniform and predetermined film thickness, it is particularly preferable to use a spin coating method.

  After coating the pigment dispersion in this manner, the coating film is dried. The drying method is not particularly limited as long as it can volatilize water and dissociate part of the salt in the polymer electrolyte salt. Without using, various methods such as drying with a heater, drying with hot air, and drying at room temperature for a long time can be used.

  Next, a predetermined pattern is formed from the obtained pigment layer. To perform patterning using only the pigment layer, ADC / PVA, sodium dichromate (SDC) / PVA, diazonium salt / PVA, etc. are used in the pigment dispersion. The photoresist may be included. If a pigment layer containing such a photoresist is applied and formed, the portion irradiated with light (ultraviolet rays) is cured by exposure using a high-pressure mercury lamp or the like, and then the polymer becomes insoluble in water or the like. A filter layer having a predetermined pattern can be formed by developing with an alkaline aqueous solution containing a substance that solubilizes the electrolyte.

  Further, instead of containing the photoresist in the pigment dispersion as described above, a pigment layer can be applied and formed, and then a photoresist layer can be formed thereon to perform exposure and development. In this case, the photosensitive characteristics can be improved, that is, the exposure time can be shortened and the adhesion can be improved, and the thickness range of the formed filter layer can be expanded.

  In the embodiment of the present invention, the blue filter layer is formed in the blue and green light emitting regions immediately below the phosphor layer having blue and green light emitting colors on the inner surface of the panel by first performing these series of steps for blue. The filter layers having the colors corresponding to the predetermined regions are formed by repeating the formation in the order of green, red, or red and green. Further, blue, green, and red phosphor layers are respectively formed in a predetermined pattern on the filter layer thus formed by an ordinary slurry method.

  Here, a blue filter layer is provided on the entire inner surface of the panel, and in the green and red light emitting regions (regions immediately below the phosphor layers having green and red light emission colors), green and red corresponding to each color are provided. When each filter layer is provided, patterning is not required for forming the blue filter layer, the process can be simplified, and a filter layer having good transmission characteristics can be obtained.

  That is, since only the blue filter layer is formed in the blue light emitting region immediately below the phosphor layer having the blue light emitting color, contrast and color purity are improved, and luminance is hardly lowered. Also, in the green light emitting area, a blue filter layer is provided in the lower layer in the same manner as the blue light emitting area, and a green filter layer is further formed thereon, so a green filter layer is provided alone. Compared to the case, the transmittance of light in the green region is high, and it has more excellent spectral transmission characteristics as a green filter. Furthermore, in the red light emitting area, the red filter layer is formed on the blue filter layer provided on the entire panel inner surface, so that the transmitted light is more neutral, but the red filter It has sufficiently good spectral transmission characteristics.

  And, in the color cathode ray tube having a filter layer with good light transmission efficiency in the blue and green regions in this way, compared with a color cathode ray tube provided with phosphor layers of blue, green and red colors without a filter, High brightness and excellent contrast characteristics.

  On the other hand, in the embodiment of the present invention, the blue filter layer is provided only in the blue and green light emitting areas, not the entire panel inner surface, and the green light emitting area is green on the filter layer. The filter layer is overlapped and the red filter layer is provided in the red light emitting area on the inner surface of the panel, so that the purity of the transmitted light in the green light emitting area is improved, while the color purity in the red light emitting area is improved. There is no decrease in Therefore, by using such a filter, a color cathode ray tube having higher luminance and excellent contrast characteristics can be obtained.

  Next, the present invention will be described in more detail with specific examples, but the present invention is not limited to the following examples.

Reference Example As a black matrix, for example, a filter of each color (blue, green, red) having the transmittance shown in FIG. 1 is formed on the panel inner surface of a color cathode ray tube in which a light absorption layer having a predetermined pattern made of graphite is formed by a known method. First, a blue filter layer was formed on the entire surface of the panel, and then a green filter layer was formed on the green light emitting region thereon, and a red filter layer was laminated on the red light emitting region in this order. In addition, formation of the filter layer of each color was performed as shown below.

That is, 30% by weight of cobalt blue X (particle size 0.01 μm to 0.02 μm, manufactured by Toyo Pigment) as blue pigment particles, 0.5% by weight of PVA to which ADC is added as a photoresist, and polyacrylic acid copolymer as a polymer electrolyte A combined ammonium salt (trade name Dispec GA-40, manufactured by Allied Colloid Co., Ltd.) was dispersed in pure water at a ratio of 0.7% by weight to prepare a blue pigment dispersion. In addition, 30% by weight of Dipyroxide TM Green # 3320 (particle size 0.01 μm to 0.02 μm, manufactured by Dainichi Seika Co., Ltd.) as green pigment particles, 2% by weight of ADC / PVA as a photoresist, acrylic acid as a polymer electrolyte A sodium pigment dispersion (trade name Dispec N-40) was dispersed in pure water at a ratio of 0.7% by weight to prepare a green pigment dispersion. Further, Fe ₂ O ₃ fine particles (particle size 0.01 μm to 0.02 μm) as red pigment particles are 30% by weight, ADC / PVA is 2% by weight as a photoresist, and polyoxyethylene alkyl ether sulfate ammonium salt as a polymer electrolyte. (Haitenol 08, manufactured by Daiichi Kogyo Seiyaku Co., Ltd.) was dispersed in pure water at a ratio of 0.7% by weight to prepare a red pigment dispersion. First, the blue pigment dispersion is applied to the inner surface of the color cathode ray tube panel maintained at a temperature of 30 ° C., the panel is rotated at 100 to 150 rpm, the excess pigment dispersion is shaken off, and the coating layer has a constant film thickness. After that, drying was performed at a heater temperature of 120 ° C. for 3 to 4 minutes to form a blue filter layer on the entire surface of the panel.

  Next, in the same manner, the green pigment dispersion is applied and dried to form a green pigment coating layer on the entire blue filter layer, and then exposed to a predetermined pattern by irradiating ultraviolet rays through a shadow mask. A green filter layer was formed in the green light emitting region by spraying a developer, for example, an alkaline aqueous solution of pH 9 containing LiCl. Further, a red pigment dispersion is applied and dried over the green filter layer thus formed and the blue filter layer described above, and the exposure, development and drying processes are similarly performed, and a red filter layer is formed in the red light emitting region. Formed.

  Thereafter, the blue phosphor layer is formed on the blue filter layer thus formed (the exposed portion not covered with the green and red filter layers), the green phosphor layer is formed on the green filter layer, and the red filter layer is formed. A red phosphor layer was formed in order on each of them by a usual slurry method.

  In the phosphor layer with a filter formed on the inner surface of the panel in this way, only the blue filter layer is provided in the blue light emitting region under the blue phosphor layer, so that contrast and color purity are improved, and luminance is improved. There is almost no decline. Further, in the green light emitting region under the green phosphor layer, a green filter layer is further provided on the blue filter layer, so that it is clear from the transmittance graph shown in FIG. Since the transmittance of light in the wavelength region of 550 to 600 nm, which is highly sensitive, is reduced, and the transmittance of light in the green region of wavelength 500 to 550 nm is relatively high, the case where the green filter layer is provided alone and Compared with the color purity of transmitted light, it has better transmission characteristics as a green filter. Incidentally, the green filter layer alone cannot sufficiently reduce the transmittance of light in the wavelength region of 550 to 600 nm, and transmitted light with high color purity cannot be obtained. Further, in the red light emitting region under the red phosphor layer, since the red filter layer is further superimposed on the blue filter layer, as shown in the graph of FIG. Although it is close to neutral, it has sufficiently good transmission characteristics as a red filter.

  When the BCP (luminance / contrast characteristics) of a color cathode ray tube having such a filter layer was obtained, a value of 1.077 times that of a color cathode ray tube without a filter layer was obtained, and the contrast characteristics were high. It was found to be excellent.

Example A blue, green, and red filter layer having the transmittance shown in FIG. 1 is formed on the inner surface of a color cathode ray tube panel in which a light absorption layer having a predetermined pattern as a black matrix is formed. After forming the blue filter layer, the green filter layer is placed on the green light emitting area above it, and the red filter layer is placed on the remaining part of the panel's inner surface (red light emitting area) where the blue filter layer is not formed. It was formed by the same method.

  Next, the blue phosphor layer is formed on the blue filter layer (exposed portion not covered with the green filter layer) of the filter pattern thus formed, the green phosphor layer is disposed on the green filter layer, and the red filter layer is disposed on the red filter layer. A red phosphor layer was formed in order by a usual slurry method.

  When the BCP of a color cathode ray tube having such a filter-equipped phosphor layer was obtained, a value of 1.105 times was obtained compared to a color cathode ray tube without a filter layer, and the luminance was higher than that of the reference example and the contrast characteristics were excellent. I found out.

It is a graph which shows the transmittance | permeability of the filter layer of each color formed in the reference example and Example of this invention, respectively. It is a graph which shows the transmittance | permeability in a green light emission area | region in the filter pattern obtained by the reference example and Example of this invention. It is a graph which shows the transmittance | permeability in a red light emission area | region in the filter pattern obtained by the reference example of this invention.

Claims (1)

In a color cathode ray tube having a phosphor pattern in which an optical filter layer is provided on the inner surface of the face plate panel, and phosphor layers of three colors of blue, green, and red are arranged in a predetermined pattern thereon.
On the inner surface of the panel, a filter layer having a transmittance of light having a wavelength of 450 nm larger than that of a wavelength of 550 nm is provided in the blue and green light emitting regions below the blue and green phosphor layers, and on the filter layer, A color cathode ray tube, wherein a green filter layer is provided in a green light emitting region, and a red filter layer is provided in a red light emitting region below the red phosphor layer on the inner surface of the panel.

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