RU2035791C1 - Mask cathode-ray tube for visualization, in particular, for colour television - Google Patents

Abstract

FIELD: colour television. SUBSTANCE: cathode-ray tube has screen and steel mask. Surface of mask opposite to screen is coated with mixture of heavy metal with stomic number higher than 70 or with its mixture with silicate of alkali metal, for instance, potassium silicate. Ratio of masses of heavy metal and silicate is chosen from 7 to 17 and predominantly equal to 12. EFFECT: enhanced operational characteristics. 4 cl, 2 dwg

Description

 The invention relates to the creation of a masked cathode ray tube for imaging, in particular for color television.

 The masked cathode ray tube for color television contains a glass ampoule ending in a screen on which a phosphor is applied. Upon impact of electrons, light emission occurs, usually red, green or blue. The phosphor particles are arranged on the screen in triples, each of which contains a green phosphor particle, a red phosphor particle and a blue phosphor particle, each particle being excited by a corresponding electron beam.

 A mask is located in front of the tube, having openings of such a size and so arranged that in each triple a phosphor of a certain color is excited only by its electron beam.

 Most of the electrons of the three beams are stopped by the mask. The impact of electrons heats the mask, which leads to its deformation, which can impair the color of the image on the screen.

 To reduce the heating of the mask, it is proposed to cover the steel surface of the mask, which is turned to the electron guns (side opposite the screen), with a layer of heavy metal or a compound of a heavy metal with an atomic number above 70. This heavy metal, which may be, for example, bismuth, represents a reflective effect for electrons, which reduces their absorption, and, consequently, the heating of the mask.

 Coating with a heavy metal or compound of a heavy metal mask has uniformity defects and such defects impair the reflectivity of the coating.

 The aim of the invention is to remedy this drawback.

 The invention is characterized in that the heavy metal or heavy metal compound is mixed with alkali silicate, wherein the ratio between the weight of the heavy metal or heavy metal compound and the weight of silicate is from 7 to 17, preferably 12.

 Alkali silicate is selected, for example, from at least one of the following silicates: potassium silicate, lithium silicate and sodium silicate.

 The addition of an alkaline silicate, such as potassium silicate, improves adhesion to the metal mask, as well as increases the uniformity of the mixture of heavy metal or compound of heavy metal with silicate. The amount of heavy metal deposited per surface unit in this case is greater than when using known techniques. The selected proportion of silicate is insignificant and does not practically worsen the effect of reducing the heating, which is provided by a heavy metal. In addition, this ratio between the weight of the heavy metal or compound of the heavy metal and the weight of silicate provides optimal adhesion to the metal mask and allows the coating to be realized by spraying or ejection. In addition, it was found that if the proportion of the heavy metal or compound of the heavy metal is lower than the above limit of 7, then it is not possible to obtain a good adhesion of the coating to the mask. In addition, when the heavy metal compound is bismuth oxide and the alkali silicate is potassium silicate, bismuth silicate is not formed, especially at a ratio of 12, since there is a lack of silica with respect to bismuth.

Alkali silicate is stable at high temperatures exceeding 400 ^{° C,} allowing it to withstand the heat treatment, which is subjected to the mask during the manufacturing cathode-ray tube.

 For best results, it is preferable that the mixture of a heavy metal or a compound of a heavy metal with an alkali silicate have granules of 0.5-0.8 microns in size.

 When using a mixture of heavy metal or a compound of heavy metal with alkali silicate, a significant decrease in the temperature of the steel-based tube was found, which results in a 35-45% reduction in the deformation of the mask from the beginning of the tube's operation.

 In FIG. 1 shows under electron microscope the surface of a mask of a color television tube coated with bismuth using classical techniques; in FIG. 2 the same, but when using the invention, namely the surface of the mask coated with a mixture of potassium silicate and bismuth.

 In FIG. 1 and 2, the lighter the mask, the higher the density of bismuth. It can be seen that the white areas in FIG. 2 (zones 1) have a larger surface than white zones 1 in FIG. 1. Thus, in accordance with the invention, the surface density of bismuth is higher. In addition, it was found that the invention also allows to increase the bulk density of bismuth.

Claims (4)

 1. MASKED ELECTRON BEAM TUBE FOR VISUALIZATION, IN PARTICULAR, FOR COLOR TELEVISION, comprising a screen and a steel mask, the surface of which, opposite to the screen, is coated with a layer of material containing a heavy metal with atomic number greater than 70, or its connection characterized in that, in order to improve image quality by increasing the reflectivity of the coating, a mixture of heavy meta was used as a material containing a heavy metal with an atomic number greater than 70, or its compound la or a compound with an alkali metal silicate wherein the ratio by weight of heavy metal or its compounds and alkali metal silicate is selected from 7 to 17, preferably equal to 12.  2. The tube according to claim 1, characterized in that a mixture of a heavy metal or its compound with an alkali metal silicate in the form of granules with a size of 0.5 to 0.8 μm is used.  3. The handset in paragraphs. 1 and 2, characterized in that bismuth is used as a heavy metal.  4. The tube according to paragraphs. 1 to 3, characterized in that the potassium silicate, sodium silicate or lithium silicate is used as the alkali metal silicate.

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