JP2009242764A - Coating liquid reduced in adhesion of dactylogram, method for producing the same, and article coated with the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide: a coating liquid being reduced in the adhesion of a dactylogram which gives an interannual antifouling function over several months to a base material consisting of a substance such as glass or a metal and which semipermanently prevents the adhesion of an oily substance of dactylogram; its production method; and an article prepared by coating a base material with the dactylogram adhesion reduction coating liquid. <P>SOLUTION: The coating liquid being reduced in the adhesion of dactylogram is produced by mixing an organic compound having a ketone group with an organic nitrogen compound, each in an amount of 10-40% solid content per total solution, to make a mixed solution and then adding an antifouling additive in an amount of 0.1-20.0% of a solid content of the mixed solution to the mixed solution. A method for producing the coating liquid and an article coated with the dactylogram adhesion reduction coating liquid are also provided. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a fingerprint adhesion reducing coating liquid for preventing fingerprint adhesion in glass or metal, a manufacturing method thereof, and an article coated with the fingerprint adhesion reducing coating liquid.

  Generally, the fingerprint component is composed of an aqueous substance such as sweat and an oily substance, and the fingerprint stain is considered to be a composite of an aqueous substance and an oily substance.

  On the other hand, sweat contains inorganic components such as sodium chloride and potassium chloride, organic components such as lactic acid and amino acids, and free fatty acids in addition to water. Therefore, it has both functions of making water resistant to sweat, making it easier to remove water-based stains, and making it easier to remove oil-based stains and making it easier to remove oil stains. It is necessary to coat the surface with ingredients.

  Conventionally, as shown in Patent Document 1, for example, a solution coat is known in which a water-repellent solution coating solution is coated with glass or metal to prevent adhesion of fingerprints.

  That is, Patent Document 1 discloses (A) a functional group obtained by copolymerizing a functional group-containing fluorinated ethylenic monomer having at least one of a hydroxyl group, a carboxyl group, and a carboxylate. A coating composition comprising a fluorine-containing ethylenic polymer, (B) a metal oxide sol, and (C) a solvent is described.

The fluorine-containing ethylenic polymer (A) having a functional group is
Formula: CX2 = CX1-Rf-Y
(In the formula, Y is —CH ₂ OH, —COOH, a carboxylate or an epoxy group, X 2 and X 1 are the same or different, both are hydrogen atoms or fluorine atoms, and Rf has 1 to 40 carbon atoms. A divalent fluorine-containing alkylene group or a divalent fluorine-containing alkylene group containing an ether bond having 1 to 40 carbon atoms)
And at least one functional group-containing fluorine-containing ethylenic monomer.

  The functional group-containing fluorine-containing ethylenic monomer 0.05 to 50 mol% is copolymerized with at least one copolymerizable fluorine-containing ethylenic monomer 50 to 99.95 mol% to obtain a functional group. A fluorine-containing ethylenic polymer having

In addition, since the water-repellent solution coating liquid cannot sufficiently remove the oily substance of fingerprints, a coating liquid using a hydrophilic solution coating liquid is known as disclosed in Patent Document 2, for example. . On the base material, a) a hydrophilic polymer, b) a metal alkoxide compound selected from Si, Ti, Zr, and Al, and c) a hydrophilic film containing a metal complex catalyst are coated to form a hydrophilic member. Form. The metal complex catalyst of c) is a metal element selected from groups 2A, 3B, 4A and 5A of the periodic table and a β-diketone, ketoester, hydroxycarboxylic acid or ester thereof, amino alcohol, enolic active hydrogen compound. It is comprised from the oxo or hydroxy oxygen containing compound chosen from these.
Japanese Patent No. 3389605 JP 2007-254265 A

  However, since the hydrophilic member as shown in Patent Document 2 requires a metal alkoxide compound selected from Si, Ti, Zr, and Al, the hydrophilic member contains a hydrophilic polymer and a metal complex catalyst. Bonding with the film is weak, and there is a possibility that deterioration of the antifouling function over a period of several months may occur.

  Accordingly, the present invention can provide a substrate made of a material such as glass or metal with an antifouling function over a period of several months, and without causing deterioration of the antifouling function, the fingerprint is semipermanently obtained. It is an object of the present invention to provide a fingerprint adhesion reducing coating liquid capable of preventing the adhesion of an oily substance, a manufacturing method thereof, and an article coated with the fingerprint adhesion reducing coating liquid.

  In order to solve the above-described problems, the present invention is characterized by matters described in the claims.

  As described above, according to the present invention, a material such as glass or metal can be provided with an antifouling function over a period of several months, and without causing deterioration of the antifouling function, such as fingerprints semipermanently. The adhesion of oily substances can be prevented.

  The fingerprint adhesion-reducing coating liquid according to the present invention is a mixture of an organic compound having a ketone group and an organic nitrogen compound at a solid content of 10% to 40%, respectively, with respect to the total solution. It is made by adding 0.1% to 20.0% antifouling additive to the mixed solution based on the solid content of the mixed solution. The balance is an organic solvent mainly composed of propylene glycol monomethyl ether and methyl isobutyl ketone.

  Preferably, KRS6154 (trade name) manufactured by JRS and Beam Set 575CB (trade name) manufactured by Arakawa Chemical are blended to prepare a mixed solution for purification.

  The above-mentioned KZ6154 (trade name) manufactured by JRS is mainly composed of methyl ethyl ketone, methyl isobutyl ketone, and cyclohexanone. Arakawa Chemical's beam set 575CB (trade name) is mainly composed of N-vinylformamide (NVF) and the chemical formula CH = CH-NH-CHO.

  An antifouling additive containing a component having a very high water and oil repellency function is added to and mixed with the purified mixed solution. For example, Optool DAC (manufactured by Daikin) is used as an antifouling additive.

  Addition is performed so that the additive is 0.5 to 40.0% by solid content ratio with respect to the solid content of the mixed solution. The antifouling additive is most preferably 1.0 to 10.0%, particularly about 4.0%.

  A coating solution for reducing fingerprint adhesion is applied to a substrate such as glass, a lens, or a metal, preferably the surface of the substrate. As a result, a fingerprint adhesion reduction coat that prevents the adhesion of the oily substance of the fingerprint semi-permanently is formed on the surface of the substrate.

  For example, first, as shown on the left side of FIG. 1, a hard coat agent 3 having a water / oil repellent effect made of a mixed solution of an organic compound having a ketone group and an organic nitrogen compound is used as a substrate 1 made of glass, lens, metal or the like. Apply to the surface. Thereafter, the antifouling additive 4 containing a component having a very high water / oil repellent function is added. Then, it will be in the mixed state shown on the right side of FIG. Thereafter, after the solvent is blown off, a curing treatment by UV irradiation is performed to form a fingerprint adhesion reduction coat 2 having a water and oil repellent function. In a thin layer (preferably a layer having a thickness of 0.01 to 0.10 μm) in the vicinity of the surface of the fingerprint adhesion reducing coat 2, the components 5 having a high water and oil repellency function are arranged at high density.

  As described above, the organic compound having a ketone group and the organic nitrogen compound are mixed in a solid content of 10% to 40% with respect to the total solution, respectively, and the mixed solution is mixed with the solid content of the mixed solution. By adding 0.1% to 20.0% antifouling additive to produce a solution coating solution, a fingerprint adhesion reducing coating solution can be produced. Then, by forming a fingerprint adhesion reducing coat on the surface of glass, lens, metal, etc., it is possible to reduce the adhesion of fingerprints while maintaining the gloss (mirror surface state) of the surface of those articles. In addition, the antifouling function over a period of several months is given, and the adhesion of oily substances such as fingerprints can be prevented semipermanently without causing deterioration of the antifouling function.

  Specific examples of the present invention are shown below.

Mixing ratio I
Organic compound: Organic nitrogen compound = 10: 30
Add 7.5% antifouling additive to the solid content of the mixed solution.
Organic compound: Organic nitrogen compound = 10: 40
10.5% antifouling additive is added to the solid content of the mixed solution.
Organic compound: Organic nitrogen compound = 20: 40
Addition of 16.5% antifouling additive to the solid content of the mixed solution Referring to the actually used mixed solution, the organic compound was KZ6154 and the organic nitrogen compound was Beamset 575CB. The antifouling additive was Optool DAC.

  The balance other than the organic compound having a ketone group, the organic nitrogen compound, and the antifouling additive was propylene glycol monomethyl ether.

The curing treatment was 80 ° C. × 3 min UV 365 nm 800 mJ / cm ² .

  In the present specification, “%” is all “mol%”.

A water-repellent and oil-repellent hard coat agent is applied as a mixed solution of an organic compound having a ketone group and an organic nitrogen compound to the surface of a substrate such as glass, lens, or metal. Additives containing ingredients are added as antifouling additives, cured, and the surface with high water and oil repellency functions are arranged in high density on the surface. Explanatory drawing which shows a mode that is formed.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Substrate 2 Coat adhesion reduction coat 3 Hard coat agent with water / oil repellent effect 4 Antifouling additive 5 Ingredient with very high water / oil repellent function

Claims (4)

  A mixed solution in which an organic compound having a ketone group and an organic nitrogen compound are mixed in a solid content of 10% to 40% with respect to the total solution, and the mixed solution has a solid content of 0. A coating solution for reducing fingerprint adhesion, which is a composition with an antifouling additive added at 1% to 20.0%.   An organic compound having a ketone group and an organic nitrogen compound are mixed at a solid content of 10% to 40% with respect to the total solution to form a mixed solution, and the mixed solution is added to the solid content of the mixed solution. A method for producing a coating solution for reducing fingerprint adhesion, comprising adding 0.1% to 20.0% of an antifouling additive to produce a solution coating solution.   An organic compound having a ketone group and an organic nitrogen compound are mixed in a solid content of 10% to 40% with respect to the total solution to form a mixed solution, and the mixed solution is mixed with the solid content of the mixed solution. 0.1% to 20.0% of an antifouling additive is added to form a fingerprint adhesion reducing coating liquid, and the fingerprint adhesion reducing coating liquid is applied to a substrate. Goods.   The fingerprint adhesion reduction coating solution is cured, and the surface has high water and oil repellency components arranged in high density to form a fingerprint adhesion reduction coat with water and oil repellency. The article according to claim 3.

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