DE2409026A1 - COLOR TUBE AND METHOD OF MANUFACTURING IT - Google Patents

Description

Patent Attorneys DlpK-Ing. R. B ^ - E TZ Dipl- lnj. K. LAMP REAL

Diving. R. BEETZ Jr.
«Manchen22, Steinedorfetr. 1§

81-22.234P (22.235H) February 25, 197 ¹ *

HITACHI, LTD., Tokyo (Japan)

Color picture tube and process for their manufacture

The invention relates to a color picture tube and a method for their manufacture.

In general, in a black matrix type color picture tube, the brightness of the fluorescent surface is increased by filling in the space between fluorescent dots or strips of the three primary colors, red, green and blue, e.g. improved with graphite, because this way the reflection of the Outside light is reduced and thus the permeability of the screen glass or glass screen is improved, without the contrast of the fluorescent

81- (POS 32 523) -Tr (8)

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to reduce points or stripes. Although the black matrix type is excellent, on the one hand the contrast improvement is only below simultaneous reduction in the permeability of the screen and thus at the expense of the brightness achieved, and on the other hand can to improve the brightness, increase the permeability of the screen glass only at the expense of the contrast. So there are conflicting factors in terms of brightness and contrast, which are very important factors for the quality of the image.

Even if the reflection of the outside light by inserting a light absorbing material such as. B. graphite, is reduced between the phosphor dots or stripes, more than about 50 % of the total surface is covered by phosphor having a relatively high reflectivity, so that the contrast in a low-brightness image is significantly reduced to impair the image quality.

In order to overcome the above disadvantages, a method has been proposed after which filters of the same colors as that emitted from the phosphor dots or stripes of the three primary colors Light in the places in the form of. Dots or stripes are attached, on which the phosphor dots or strips are to be arranged, and the phosphor dots or strips are applied over them. According to this method occurs due to the presence of the filters of the same colors as that of the light emitted by the phosphors not only do there not be any loss of the light emitted by the phosphors when passing through the screen glass, but the reflection of the white

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Outside light is also significantly reduced, so the reduction the contrast due to the outside light is prevented, because among the components of the white light incident on the filters only those of the same colors as the colors of the filters are reflected and the remaining components are absorbed by it.

It is an object of the invention to develop a color picture tube which is useful in preventing the decrease in contrast due to the outside light by reducing the reflection of white light and at the same time the outside light absorption effect as with Having black matrix type. In addition, a method for producing such a color picture tube is to be specified within the scope of the invention which is superior to the explained known method.

The subject of the invention, with which this object is achieved, is a color picture tube having a number of phosphor elements of three types for emitting light of the three primary colors, d. H. Red Green and blue, on the inside of the panel glass of the color picture tube, three kinds of the colors of the fluorescent elements emitted light corresponding, in each case at the points of the phosphor elements between these and the glass screen arranged color filters and a space between the phosphor elements filling outside light absorber, marked that a first color filter type of the three color filter types is part of a first colored glass layer corresponding to a first color of the three primary colors that is formed on the entire surface of the glass screen with the exception of the places where light of the second and third color emitting

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Phosphor elements are arranged so that a second type of color filter of the three types of color filters is part are that a third Farbfilterart of the three color filter types part is ärfarben a third colored glass layer corresponding to the third color of the three primary, which is formed on the entire surface of the glass screen mic exception of bodies, light at which the first and second color-emitting phosphor elements are arranged, and that the external light absorber is the stack of the first, second and third colored glass layers.

The invention also relates to a method for production of such a color picture tube, characterized in that a first color glass filter base layer corresponding to a first color of the three primary colors on the entire surface of the glass screen with the exception of the specific places where light forms the second and the third color-emitting phosphor elements are to be arranged that a second colored glass filter base layer corresponding to the second Color of the three primary colors on the whole surface of the glass screen with the exception of the specific places where light of the first and third color-emitting phosphor elements are formed are to be arranged that a third color glass filter base schidit accordingly the third color of the three primary colors on the entire surface of the luminescent screen with the exception of certain areas, where light of the first and second color emitting light

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Fabric elements are to be arranged that you can see the individual colored glass filter base layers into the corresponding colored glass filters and at the same time the stack of the three colored glass filter base layers into the external light absorber converts, and that one finally attaches the phosphor elements to the corresponding colored glass filters.

The invention thus discloses a color picture tube of the three primary color type and a process for their production, wherein between the phosphor elements of the three colors and the glass screen filter of the the same colors as the associated phosphor elements are inserted and the space between the phosphor elements with a Outside light absorber is filled. The filters and the outside light absorber are formed by making individual layers of slurries for the corresponding colors and a triple layer of slurries for the three colors that coincide with the slurries for the filter is applied, baked out. This outdoor light absorber is equivalent to that of the black matrix type.

The invention is based on several exemplary embodiments, in particular explained in more detail using the exemplary embodiment illustrated in the drawing; show in it:

Figure 1 is a cross-section of a glass screen on which a slurry is provided for the formation of a first colored glass filter,

2 shows a cross section of the glass screen on which a first Glass filter base layer is formed,

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FIG. 3 shows a cross section of the glass screen according to FIG. 2 on which a second glass filter base layer is formed, and FIG

Fig. 4 shows a cross section of the glass screen according to Fig. 3, on which a third glass filter base layer is formed.

example 1

A low-melting glass material with essentially the same coefficient of expansion as that of the glass screen, e.g. low-melting glass, mainly containing lead borate base components, and various metal oxides that act as colorants, are mixed according to Table I in a certain ratio, at about 1000 ° C for about 1-2 hours for the purpose of melting together heated to a glassy state and then rapidly cooled to be ground into a coarse powder. Then it will be the material was further ground with a ball mill for 3-5 hours to a fine powder with a grain size of 3-10 µm. After that, will by mixing 10 parts of this glass powder with 50-100 parts of a positive photoresist, such as ζ. B. "Kodak KAR-3" (TM) one Slurry generated to form a color filter.

(Table I, page 7)

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Table 1 - Mixing ratio of the filter glass (parts by weight)

Components green blue red

Boric acid lead oxide silica acid copper oxide iron oxide cobalt oxide chromium oxide

45 45 45 165 165 165 10 10 10 4th - - 3 3 - mm 1

Then one of the slurries so prepared is used to form the color filters, e.g. B. the slurry for green, applied to the entire surface of a screen 1 by a known rotary painting or coating process to form a slurry sschicht 2 ¹ for the green glass filter and then dried at 70 to 80 C for about 15 minutes. ^{Thereafter, the portion of the slurry layer 2 r} containing the photoresist corresponding to the positions where the blue and red phosphor dots or stripes are to be arranged is gradually or simultaneously light of about 300 Lx emitted by a high pressure mercury lamp for 10 minutes exposed to a shadow or shadow mask. Subsequently, after removing the perforated or shadow mask, the slurry layer 2 'for the green filter is developed with a suitable developer, including, for example, a "Kodak KÄR-3" (trademark) developer, doubled in weight with water

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is diluted, sprayed on for about 2 minutes with a pressure of 1.0 kg / cm to remove the portion of the slurry 2 'for the green filter that will dot or stripe the blue and red fluorescent material is equivalent to. Thus, the green filter base layer 2 remains with the formation of the green filter only on the part which or the green phosphor stripes, and between the fluorescent dots or stripes, as Fig. 2 shows.

Then a slurry for one of the remaining colors, i.e. H. Blue and red, e.g. B. the slurry for forming the blue glass filter on the entire surface of the glass screen while covering the green glass filter base layer 2 applied, and corresponding process steps such as those for the green glass filter base layer 2 are repeated. Thereafter, as shown in FIG. 3, a blue glass filter base layer remains 3 only on the part corresponding to the blue fluorescent dots or stripes and between the fluorescent dots or -strip. As can also be seen in FIG. 3, the green glass filter base layer is 2 and the blue glass filter base layer 3 are stacked between the phosphor dots or strips.

Finally, a red glass filter base layer 4 similar to that is then made Blue glass filter base layer 3 is formed. The red glass filter base layer is thereby used 4 further points or strips applied to the blue glass filter base layer 3 between the phosphor, as shown in FIG. 4, so that in between there is a stack of three layers.

The glass screen 1, on which the green, blue and red glass filter

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base layers 2, 3 and 4 at the points where the green, blue or red phosphor dots or strips are to be arranged, and on which the stack of green, blue and red glass filter base layers are also formed between the phosphor dots or strips, is then about 0.5 to 1 hour a baking process at 500-550 C subjected to the green, blue and red glass filter base layers 2, 3 and 4 to make homogeneous glass filters and the layering over each other or the stack of the three types of Convert layers by diffusion into a single layer that absorbs almost all of the white light. This latter composite layer has the same effect as a graphite layer as an external light absorber in the black matrix type. Finally, each of the three color filters is coated with the associated color phosphor.

Example 2

The materials used to form the green, blue and red filters with the ingredient ratio shown in Table 2 are mixed sufficiently and in a ball mill for 3-5 hours to fine Ground powder with a grain size of 3-10 µm. 10 parts of this powder are mixed with 50-100 parts of, for example, "Kodak KAR-3" photoresist mixed similarly to Example 1 to prepare a slurry for each of the colored glass filters. These slurries are successively applied to the glass screen according to Example 1, exposed and developed to form green, blue and red glass filter base layers and to form the stack of the three kinds of layers.

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Then the glass screen coated with the slurries in Air baked at 450 - 500 C for 1 - 2 hours to allow metal ions to diffuse into the glass screen by thermal diffusion. The glass screen is then subjected to a further baking process in a reducing process consisting of nitrogen mixed with hydrogen Atmosphere at 400-450C exposed for 0.5-1 hour to reduce the metal ions that grow into colloidal metals, to color the parts of the glass screen where the fluorescent dots or strips are to be placed. Ih the part of the glass shade The colloidal metals mix between those locations where the phosphor dots or strips are to be arranged with each other to form the outside light absorber part. After the latter baking process, the glass filter base layers do not contain any More metal ions, so that these layers can or cannot be removed according to the invention. Finally, the phosphors Applied at the points where the fluorescent dots ^ or stripes are to be arranged. Incidentally, as the salts in Table 2, nitrates, hydrochlorides and SiIfides can be selected.

Table 2 - Mixing ratio of the filter glass (percent by weight) component green blue red

Silver salt 10

Zinc salt 10

Copper salt - - 10

Tone 90 90 90

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Example 3

In Examples 1 and 2, a positive photoresist material, such as. B. "KAR-3" is used, the exposed Part is dissolved and removed by developing - in this example a negative photoresist material is now to be used.

A 2 per cent aqueous solution of polyvinyl alcohol (PVA), the ammonium bichromate in an amount of 5 - 10 contains i "of PVA, is applied to the inner surface of the glass screen by a known Rotationsmalverfahren as a photoresist, and dried at 50 to 70 C. The photoresist material is gradually or simultaneously exposed through a pinhole or shadow mask for any two colors, for example blue and red, and then through water with one

2
Pressure of 1.0 kg / cm was developed for about 3 minutes to remove the part thereof other than the part on which blue and red fluorescent dots or stripes are to be placed. After drying for 3 minutes at 50-70 ° C., a slurry for the green filter of 5 parts of the fine powder for forming the glass filter as described in Example 1 and 95 parts of a 1 percent water glass solution is applied to the entire surface. After drying at 50-100 ° C., the entire surface is treated with a 5% aqueous solution of hydrogen peroxide in order to make the part of the photoresist where the blue and red fluorescent dots or strips are to be placed brittle. Then by means of development

2 Spraying water with a pressure of about 3.5 kg / cm during 3 minutes this part of the photoresist peeled off so the glass screen

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to expose here, and the remaining part is covered with a green filter base layer 2 covered. By repeating similar operations, single layers and a triple layer similar to Example 1 are formed. Then, by baking the glass screen at 500-550 C for about 0.5-1 hour, three homogeneous glass filters and a stacking layer are made that absorbs almost all of the white light. The latter layer is used as an outside light absorber when the graphite layer is used Black matrix type equivalent. Eventually the three become different Color phosphors attached to the appropriate places. This method, i.e. H. the use of the negative photoresist material, can also be used in connection with the embodiment according to example 2.

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Claims (9)

Claims 1. j color picture tube with a number of phosphor elements of three types for emitting light of the three primary colors, i. Red, green and blue, on the inside of the panel glass of the color picture tube, three kinds of the colors of the fluorescent elements emitted light corresponding, each arranged at the points of the phosphor elements between these and the glass screen Color filters and an external light absorber filling the space between the fluorescent elements, characterized in that that a first type of color filter of the three types of color filters is part of a first colored glass layer (2) corresponding to a first Is the color of the three primary colors, which is formed on the entire surface of the glass screen (1) with the exception of the places where light the second and third color-emitting phosphor elements are arranged that a second type of color filter of the three types of color filters part a second colored glass layer (3) corresponding to the second color of the three primary colors, which is on the entire surface of the glass screen (l) is formed except for the places where light is the first and third color-emitting phosphor elements are arranged that a third type of color filter of the three types of color filters is part of a third colored glass layer (4) Corresponding to the third color of the three primary colors, which is on the entire surface of the glass screen except for (l) the places where light of the first and second color is formed emitting phosphor elements are arranged, and that the outer layer absorber is the stack of the first, second and third colored glass layers (2, 3, 4). 40 9 8 46/0682 2. Color picture tube with a number of phosphor elements of three types for emitting light of the three primary colors, d. h-red, Green and blue, on the inside of the glass screen of the color picture tube, three types of light corresponding to the colors of the light emitted by the fluorescent elements, respectively at the locations of the Fluorescent elements between these and the glass screen arranged color filters and a space between the fluorescent elements filling external light absorber, characterized in that that a first type of color filter of the three types of color filters is a layer in the glass screen that contains the colloidal metal that is of a first color corresponding to the three primary colors, Metal ions diffused into the glass screen is reduced and grown that a second type of color filter of the three types of color filters is a layer in the glass screen that contains the colloidal metal that is of a second color corresponding to the three primary colors, Metal ions diffused into the glass screen are reduced and grown is that a third type of color filter of the three types of color filters is a layer in the glass screen that contains the colloidal metal, the metal ions that have diffused into the glass screen and correspond to a third color of the three primary colors are reduced and grown is, and that the outside light absorber is a layer in the glass screen that contains the colloidal metals in a mixture that is determined by the All three primary colors corresponding to the metal ions diffused into the glass screen are reduced and grown. 3. A method for manufacturing a color picture tube according to claim or 2, characterized in that a first colored glass filter 409846/0682 base layer corresponding to a first color of the three primary colors on the entire surface of the glass screen with the exception of the specific places where the light of the second and third Color-emitting phosphor elements are to be arranged that you have a second color glass filter base layer corresponding to the second color of the three primary colors on the entire surface of the glass screen with the exception of the specific places where the light first and third color-emitting phosphor elements are to be arranged that you have a third colored glass filter base layer accordingly applies the third color of the three primary colors to the entire surface of the screen with the exception of certain areas, on which fluorescent elements emitting light of the first and second colors are to be arranged that the individual colored glass filter base layers into the corresponding colored glass filters and at the same time converting the stack of the three colored glass filter base layers into converts the external light absorber, and that finally the phosphor elements are attached to the corresponding colored glass filters. 4. The method according to claim 3, characterized in that the production of the first, second and third colored glass filter base layer each is made by using a positive type photoresist-containing slurry for the color glass filter base layer to be formed applies to the entire inner surface of the glass screen, the part of the applied which corresponds to the specific locations Exposed slurry and developed the exposed slurry layer. 5. The method according to claim 4, characterized in that for 409846/0682 Formation of the color filter and the external light absorber the first, second and third colored glass filter base layer are baked out at the same time. 6. The method according to claim 4, characterized in that the Formation of the color filter and the external light absorber by a first simultaneous baking step of the first, second and third colored glass filter base layer in air and a second baking step of the so far baked colored glass filter base layers in a reducing atmosphere he follows. 7. The method according to claim 6, characterized in that nitrogen mixed with hydrogen as a reducing atmosphere is used. 8. The method according to claim 3, characterized in that to form the first, second and third colored glass filter base layers, a negative photoresist film is applied to the entire inner surface of the glass screen, exposes the part of the photoresist film corresponding to the specific locations, the exposed photoresist film part developed a slurry for the colored glass filter base layer to be formed to remove the unexposed portion thereof applies to the entire inner surface of the glass screen, treats the remaining photoresist film with a certain solution, to make it brittle, and the so weakened photoresist residual film peeled off with the slurry thereon. A09846 / 0682 9. The method according to claim 8, characterized in that the baking to form the color filter and the external light absorber the first, second and third colored glass filter layers at the same time is made. 409846/0682 L e rs e i t e