TH7385B - "Antistatic coating ingredients, the process for producing such things And a non-stinging and anti-static image plate using this coating " - Google Patents

Abstract

Antistatic coating mixture The process of preparing such substances and a non-stinging and anti-static picture sheet for the production process of coating ingredients. The antistatic solution consists of a process of making a silicate solution by hydrolysis. some silicates Making a conductor solution containing a conductive material formed by mixing compounds. soluble inorganic and various inorganic compounds into the hydroxide of the compound inorganic, soluble in organic compounds and water and mix the silicate solution and the solution Conductor and bring this mixture to hydrolysis and polycondensation. according to this invention The efficiency of anti-static and non-stinging image is greatly improved.

Claims (8)

1. Anti-static coating ingredients Which consists of Silicate solution The preparation was obtained by partial hydrolysis of silicate and conductive solutions. Containing conductive material, which is formed by mixing different types of compounds from inorganic compounds into oxides or hydroxides. Water-containing in a molecular state of soluble inorganic compounds. Where the silicate solution And the conductive solution is mixed For hydrolysis and polycondensation for the preparation of such coating mixtures containing the chemical bond between silicate and conductive material. Claim 1, where such hydrolyzed silicate contains alkyl silicates. Polyconsets of those substances. Or a mixture of those substances 3. Antistatic coating admixture as claimed in claim 1, where the organic solvent contains alcohol, polarized solvent. Or a mixture of those substances 4. Anti-static coating mixtures referred to in claim 1 where such soluble inorganic compounds contain Zr, Li, Sn or In or a mixture of two or more of these substances. 5. Anti-static coating mixture as claimed in claim 1 or 4, where the broken inorganic compound Different This is different from the aforementioned inorganic compounds. Containing Sn compounds or compounds Sb or a mixture of them. 6. The anti-static coating mix as claimed in claim 1, containing 1 to 20 percent of the aforementioned silicate by weight. Based on the total weight of the said coating. 7. The antistatic coating mixture as claimed in claim 1, provided that the conductive material is in the solution. These lead in amounts of 0.03 to 7 percent by weight based on the total weight of the coating mixture. 8. Process for preparing transparent conductive solution Which consists of Making a hydroxide solution Containing hydroxides of soluble inorganic compounds Which is hydrated by adding a small amount of water and / or base And by dissolving soluble inorganic compounds or hydration of that substance. Which is formed by the addition of such soluble inorganic compounds or different metal composites. Into oxides or hydroxides Of water-based inorganic compounds In such molecular conditions And shaking this substance after adding the substance and digestion of the said white solution By adding enough water and acid And by giving Heat and shake the substance. 9. The process referred to in claim 8 by dissolving the aforementioned inorganic compound in Organic solvent or in water. 1 0. The process referred to in claim 9 wherein such soluble inorganic compounds Contains substances - made up of Zr, Li, Sn or In or a mixture of two or more of those compounds. 1 1. Process as claimed in any 8 to 10 claim, whereby the disintegrated inorganic compound Unlike the aforementioned soluble inorganic compounds, Contains Sn or Sb compounds or a mixture of these substances. 1 2. The process referred to in claim 8, where 0.02 to 6 percent of the said conductive solution by weight is based on the total weight of the transparent conductive solution. 1 3. Anti-static and non-burning visual display Which consists of Silicate solution It was prepared by hydrolysis of some silicate materials and conductive solutions, including conductive materials. Which was prepared by adding different inorganic compound mixtures. Into oxides or hydroxides Containing water in the molecular form of soluble inorganic compounds. And the conductors are mixed together Then the hydrolysis and poly condensation are performed. To form an antistatic mixture solution Which consists of Chemical bonds between silicates And conductor material Spread the anti-static mixture solution. On the surface of a transparent sheet of a monitor And the mixed solution that was distributed to the said baking at 80 to 500 degrees Celsius in this way it Will be able to obtain an anti-static and non-stinging coating. 1 4.Anti-static image display And not stinging as claimed in the claim 13, where the transparent sheet It consists of a glass. 1 5. Anti-static image display And not stinging as claimed in the claim 13, where the transparent sheet Synthetic resin And the temperature used for such baking is 80 to 150 degrees Celsius. 1 6.Anti-static image display And not stinging, as claimed in any of the 13 to 15 claims, where the baking time of the enameled piece is 5 to 60 minutes. 7.Anti-static image display And not stinging as claimed in claim 13, with the floor coating Anti-static And not such a burning eye 1 8. Anti-static image display And does not burn the eye as claimed in the claim 13, with the action Spread the said anti-static coating mixture. By using spin coating, dipping or spray coating, or a combination of those methods.