SU234265A1 - - Google Patents

Description

METHOD OF MANUFACTURING SCREENS FOR

This invention relates to a method for manufacturing screens for cathode ray tubes.

A known method of manufacturing screens for cathode ray tubes is that a layer of photosensitive lacquer is applied to the screen containing polyvinyl alcohol, a bichromate compound and a luminescent substance, and then exposed, exposed to water and annealed.

The purpose of the invention is to reduce the exposure time.

According to the invention, a method of manufacturing screens for cathode ray tubes consists in applying a layer of photosensitive lacquer containing polyvinyl alcohol, bichromate compound, luminescent substance and a mixture of water with a bipolar, proton-free organic substance soluble in water or miscible with it and having a boiling point higher than the boiling point of water, after the run (; expose, show water and anneal.

The luminescent substance can be suspended in a photosensitive varnish. The suspension is applied to the screen and dried, and then exposed. Exposed portions of the varnish coat become insoluble in the OPTRATION.

pedev eriIyx. solvent x. The binder and luminescent material are removed from the unexposed sites. Then the screen is covered with a layer of luminescent substance at a given pH value.

Sometimes it is undesirable to suspend luminescent substances in a photosensitive lacquer, since some luminescent substances are affected by bichromate compounds and. If these substances are present in the lacquer,

then the varnish sensitivity increases dramatically,

and if they are oxidized, luminescent

properties are completely or partially lost.

The luminescent substance can be used in two ways, and.

According to one method, the unexposed portions of the lacquer coat are washed away, and it is acceptable for the exposed portions to swell and become sticky. Then a suspension of the substance in a suitable solvent is applied to the screen. At the same time, grains of substance stick to the sticky pattern of varnish. In the process of manifestation of a certain liquid, the substance remains only in the figure. CATHODE-BEAM

The memory is after exposure, after which the medium is evaporated. Then, the unexposed lacquer layer removes BjMecTC with grains of the substance. Grains of substance adhering to the exposed portions of the lacquer layer remain.

If the group layer obtained by this method is not dense enough, the whole operation can be repeated.

In the proposed method of producing screens, relatively large surfaces should be coated with a thin layer of uniform thickness with a low water content over the entire surface of the photosensitive varnish. This creates a number of difficulties in drying the lacquer layer. Therefore, the temperature and temperature in the premises where this method is carried out must be precisely controlled.

Photosensitive varnish with different viscosity is used. For this purpose, different concentrations of polyvinyl alcohol are used. If the concentration of polyvinyl alcohol in photosensitive varnishes, in which water is used as a solvent, is reduced, then a sufficiently proportional decrease in the concentration of bchromate to increase the rate of dark reaction. If the dichromate concentration is reduced more than proportionally, the varnish photosensitivity increases.

When using varnishes, according to the invention, the following was found.

The speed of the light reaction to a small extent depends on the water content in the photosensitive varnish layer and, consequently, on the temperature and humidity of the atmosphere in the room where the process and drying are performed.

In addition, it has been found that if the concentration of polyvinyl alcohol decreases, the concentration of dichromate can be reduced proportionally without increasing the rate of the dark reaction. This means that the photosensitive lacquer can be thinned to the desired viscoe.

By using a bipolar apotoin substance, it is possible to weaken a possible decrease in the photosensitivity of lacquer, which is lost due to the reaction of bichromate with a luminescent substance.

PRI me R. A suspension of the following composition is prepared; 1200 ml of water, 60 g watering of pnil alcohol (hydrolyzed polyvinyl acetate, degree of hydrolysis, mol. 70,000, 10 g of ammonium dichromate, 10 ml of N-methyliyrrolidone, 375 g of commonly used lumgenscent substance.

The slurry also contains a small amount of antifoaming agent. To obtain a pattern of dots on the screen of a 25-inch cathode tube, 150 ml of this suspension is applied to a transparent glass screen having an area of approximately 2000 cm2. The screen rotates at an angle and the excess slurry is poured out.

pattern of dots through a shadow frame, which is set in front of the screen. The thickness of the lacquer layer is 15-20 microns.

During the exposure process, a high-pressure mercury lamp is set at the point of electron flux deflection.

The pattern of points to be obtained is arranged in accordance with the shadow frame and the electron bomber of the cathode ray tube produced.

After exposure, the shadow frame is removed and the latent image is developed in water. The peaconised portions of the lacquer layer are removed. A pattern of dots is obtained, which is then dried.

This way, three patterns of dots of red, green and blue luminescent substances are obtained.

After obtaining a pattern of dots, the screen is covered with thin metal metal, for example aluminum. The binder is then burned.

If the lacquer slurry does not contain L-methipyrrolidone, the exposure time is 18 minutes. When using lacquer based on this example, the indicated exposure time is reduced by about 2.3 times, i.e. up to 8 minutes.

If 12 ml of ethylene carbonate is added to the lacquer instead of 10 ml of X-methylpyrrolidone, the exposure time is reduced 2.6 times, i.e. it is 7 minutes.

If 15 ml of ethylene glycol is added to the lacquer instead of a bipolar aprotic substance, the concentration of bichromate should be reduced due to the acceleration of the dark reaction, resulting in a decrease in exposure time only 1.8 times, i.e. 10 minutes.

In connection with the fact that when a bipolar aprotic substance is added, the tempo reaction is suppressed, polyvinyl alcohol is applied, which has a chain length of approximately 90,000 without excessive formation resulting from the passage of the dark reaction.

The required exposure time can be reduced by 30 "/ o, i.e. to 5.5 minutes in the example with the addition of N-methylpprolidone or to 5 minutes in the presence of ethylene carbonate.

Added 1e bipolar aprotic substances do not adversely affect the brightness of luminescent substances.

The shadow frame used in this method and containing a metal plate with holes made by etching forms the main part of the shadow frame tube and can be made photomechanically according to the invention with a varnish.

The subject matter of the invention is 5 and a luminescent substance, exposure, manifestation and dehydration, characterized in that a mixture of water with a bipolar, not containing proto-organic matter, soluble in water or miscible with it and having a temperature higher than boiling point of water.