JP5146865B2 - Decorating aluminum molded products - Google Patents

Description

  The present invention relates to a method for decorating an aluminum molded product, and more specifically, a cellular phone, a digital camera, an AV device, an electronic component, a vehicle interior, a vehicle exterior part, a personal computer, a PDA related part, and a cosmetic container. The present invention relates to a method in which an anodized film is formed on an aluminum molded product to be used for decorating by forming a metal film, a metal oxide film or an oxide compound film which is hard and very thin and excellent in wear resistance. Is.

  In general, a multi-color multilayer film in which metal, metal oxide, or oxide compound is laminated by vapor deposition technology is beautiful because it can be decorated with rainbow colors, etc. Usually, printing, plating, or forming an anodized film, that is, anodizing is performed.

  However, when an aluminum molded product is impregnated with a chemical solution and subjected to a chemical conversion treatment that forms a thin aluminum film by a chemical reaction on the surface, the corrosion resistance and paint adhesion are improved, but there is a problem with wear resistance. In addition, when paint is applied with a brush, spray, etc. or ink is printed with a printing machine, colors and patterns can be freely applied with pigments and dyes, but there is a possibility of damage and peeling. When the metal film is formed on the surface by plating, the aluminum is hidden by the ink and the ink is lost. When formed, the anodized film has a large number of micropores and microcracks generated so as to connect the micropores, and these micropores and microcracks are made of aluminum. Oxidation of aluminum has reached to the surface of the molded article, and, anodizing coating has required the sealing treatment in order to made a factor for peeling.

  As a general sealing treatment, an aluminum molded article on which an anodized film is formed is dyed and then placed in water vapor, hot water, or a heavy metal salt solution such as nickel acetate, cobalt acetate, boric acid, etc. It causes a sum reaction and swells, and the surface of the micropores is sealed, improving the corrosion resistance and fastness.

As the sealing treatment, for example, the previously disclosed vinyl polymerizable monomer comprising 5 to 70% by weight of the monofunctional vinyl polymerizable monomer and 30 to 90% by weight of the polyfunctional vinyl polymerizable monomer. As a method of applying a photo-curable resin composition containing a body mixture as a main component to the surface of a ceramic spray coating and curing it by irradiation with visible light (see Patent Document 1), an aluminum casing, and a method for producing the same Is an electronic device housing in which a vapor-deposited film is formed on the surface of an anodized aluminum panel. A water repellent film may be formed on the surface of the deposited film. Moreover, a display part may be formed by screen printing on the anodized aluminum panel surface, and a vapor deposition film may be formed covering this display part. For example, the deposited film is formed by laminating an Al2O3 layer, a ZrO2 layer, and a SiO2 layer. Such an electronic device housing is created by forming a deposited film on the surface of an anodized aluminum panel. At this time, for example, if an aluminum panel is inclined and installed with respect to the steam flow, a gradation effect can be obtained (see Patent Document 2).
Japanese Patent No. 3165926 Japanese Patent Laid-Open No. 10-147857

  However, a photocurable resin composition containing, as a main component, a vinyl polymerizable monomer mixture composed of 5 to 70% by weight of a monofunctional vinyl polymerizable monomer and 30 to 90% by weight of a polyfunctional vinyl polymerizable monomer. Is applied to the surface of the ceramic spray coating and cured by irradiation with visible light, which relates to the sealing treatment, but the photocurable resin composition is applied to the surface of the ceramic spray coating and visible light is applied. Irradiation and curing are performed and sealing treatment is performed, but this is sealing treatment for ceramics.

  Furthermore, it is an electronic device housing in which a deposited film is formed on the surface of an anodized aluminum panel, which is provided with a metal deposited layer on the aluminum housing. A water repellent film may be formed on the surface of the deposited film. Moreover, a display part may be formed by screen printing on the anodized aluminum panel surface, and a vapor deposition film may be formed covering this display part. For example, the deposited film is formed by laminating an Al2O3 layer, a ZrO2 layer, and a SiO2 layer. Such an electronic device housing is created by forming a deposited film on the surface of an anodized aluminum panel. At this time, for example, if the aluminum panel is installed obliquely with respect to the steam flow, a gradation effect can be obtained, and a vapor deposition film is formed on the surface of the anodized aluminum panel. The deposited film is deposited on the upper surface, the correlation between the sealing film and the base of the multilayer metal film is poor, and microcracks and poor adhesion frequently occur on the surface. Films and sealing films are very hard films. When a harder metal film is deposited on the top of the film, the strength of the entire layer decreases and the films are pulled together, causing microcracks and poor adhesion. To be considered.

In view of the above-mentioned problems, the present invention is a result of keen study, and the method for decorating an aluminum molded product according to claim 1 includes the steps of forming an anodic oxide coating on the surface of the aluminum molded product, and the anodic oxide coating. A process of dyeing transparent or colored dye or pigment particles in a large number of micropores and microcracks, or filling and heating thermosetting resin fine powder powder, and after dyeing treatment, the following ( a) forming an undercoat layer of 1 to 50 microns by any one of a), forming a single-layer or multi-layer vapor deposition film by any of the following (b) on the upper surface of the undercoat layer, and A step of forming a topcoat layer of 1 to 50 microns by means of applying a UV curable resin, a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin. Decorative way of non-aluminum moldings.
(A) is (a1) UV curable resin paint, (a2) 1 liquid urethane acrylic resin paint, (a3) 2 liquid urethane acrylic resin paint, (a4) acrylic silicon resin paint, (a1) or (a2) ) or by spray coating the (a3) or (a4), (a1) or (a2) or (by a3) or (a4) to dipping painting, (a1) or (a2) or (a3) or ( by spin coating a a4), (a5) transfer foil, by direct thermal transfer of (a5), by water directly transferred (a5), (b) is, (b1) a metal, the (b1) by a vacuum deposition method, a sputtering method (b1), an ion plating method (b1), by the CVD method (b1), (b2) a metal oxide or an oxide compound, Electricity and (b2) By Kubimu type vacuum deposition method.

Furthermore, the method for decorating an aluminum molded product according to claim 2 includes a step of forming an anodized film on the surface of the aluminum molded product, and a number of micropores and microcracks generated in the anodized film are transparent or colored. Prints on the surface of the molded product after dyeing treatment by adsorbing dye or pigment particles or filling with curable resin fine powder powder and heating, and printing by hot stamping or transfer processing A step of forming a layer, a step of forming an undercoat layer of 1 to 50 microns after any of the following (a) after forming a printed layer, and a single layer or any of the following (b) on the upper surface of the undercoat layer: A step of forming a multilayer vapor deposition film, a step of laser marking on the upper surface of the vapor deposition film and engraving a laser marking at least directly above the printed layer, and a laser marking Aluminum molded article comprising a step of forming a top coat layer of 1 to 50 microns by means of applying a UV curable resin or a liquid acrylic-urethane resin or two-liquid acrylic-urethane resin or two-liquid acrylic silicone resin on the upper surface Decorating method.
(A) is (a1) UV curable resin paint, (a2) 1 liquid urethane acrylic resin paint, (a3) 2 liquid urethane acrylic resin paint, (a4) acrylic silicon resin paint, (a1) or (a2) ) or by spray coating the (a3) or (a4), (a1) or (a2) or (by a3) or (a4) to dipping painting, (a1) or (a2) or (a3) or ( by spin coating a a4), (a5) transfer foil, by direct thermal transfer of (a5), by water directly transferred (a5), (b) is, (b1) a metal, the (b1) by a vacuum deposition method, a sputtering method (b1), an ion plating method (b1), by the CVD method (b1), (b2) a metal oxide or an oxide compound, Electricity and (b2) By Kubimu type vacuum deposition method.

Furthermore, the method for decorating an aluminum molded product according to claim 3 includes a step of forming an anodic oxide coating on the surface of the aluminum molded product, and transparent or colored to a large number of micropores and microcracks generated in the anodic oxide coating. The dyeing and pigmenting particles are adsorbed or dyed by heating with thermosetting resin fine powder, and the printed layer is printed or hot stamped or transferred on the surface after dyeing. A step of forming an undercoat layer of 1 to 50 microns after any of the following (a) after forming the printed layer, and a single layer or a multilayer on the upper surface of the undercoat layer by any of the following (b) A step of forming a vapor deposition film, a step of laser marking on the upper surface of the vapor deposition film and engraving the laser marking at least directly above the printed layer, and an upper surface on which the laser marking is engraved A step of forming an intermediate coating layer of 1 to 50 microns by means of applying a UV curable resin, a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin; and an upper surface of the intermediate coating layer Decorating aluminum molded products including a step of forming a 1-50 micron topcoat layer by means of applying UV curable resin, 1 liquid acrylic urethane resin, 2 liquid acrylic urethane resin or 2 liquid acrylic silicon resin Method.
(A) is (a1) UV curable resin paint, (a2) 1 liquid urethane acrylic resin paint, (a3) 2 liquid urethane acrylic resin paint, (a4) acrylic silicon resin paint, (a1) or (a2) ) or by spray coating the (a3) or (a4), (a1) or (a2) or (by a3) or (a4) to dipping painting, (a1) or (a2) or (a3) or ( by spin coating a a4), (a5) transfer foil, by direct thermal transfer of (a5), by water directly transferred (a5), (b) is, (b1) a metal, the (b1) by a vacuum deposition method, a sputtering method (b1), an ion plating method (b1), by the CVD method (b1), (b2) a metal oxide or an oxide compound, Electricity and (b2) By Kubimu type vacuum deposition method.

In addition, the method for decorating an aluminum molded product according to claim 4 includes a step of forming an anodic oxide coating on the surface of the aluminum molded product, and a transparent or colored color in a large number of micropores and microcracks generated in the anodic oxide coating. or adsorb the dye or pigment particles, the steps of the dyeing process of heating by filling the thermosetting resin fine powder, molding the printing or hot stamping or transfer machining the surface after the dyeing process single forming a printed layer, a step of forming a subbing layer of 1 to 50 microns by any of the following (a) after forming the printed layer, the upper surface of the undercoat layer by any of the following (b) to Applying UV curable resin, 1-component acrylurethane resin, 2-component acrylurethane resin, or 2-component acrylsilicone resin to the upper surface of the deposited film A step of forming an intermediate coating layer of 1 to 50 microns by means of the above, a step of laser marking treatment on the upper surface of the intermediate coating layer and engraving laser marking at least directly above the printing layer, and an upper surface on which the laser marking is engraved Addition of an aluminum molded product including a step of forming a 1-50 micron topcoat layer by means of applying a UV curable resin, a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin Decoration method.
(A) is (a1) UV curable resin paint, (a2) 1 liquid urethane acrylic resin paint, (a3) 2 liquid urethane acrylic resin paint, (a4) acrylic silicon resin paint, (a1) or (a2) ) or by spray coating the (a3) or (a4), (a1) or (a2) or (by a3) or (a4) to dipping painting, (a1) or (a2) or (a3) or ( by spin coating a a4), (a5) transfer foil, by direct thermal transfer of (a5), by water directly transferred (a5), (b) is, (b1) a metal, the (b1) by a vacuum deposition method, a sputtering method (b1), an ion plating method (b1), by the CVD method (b1), (b2) a metal oxide or an oxide compound, Electricity and (b2) By Kubimu type vacuum deposition method.

Furthermore, the method for decorating an aluminum molded product according to claim 5 includes a step of forming an anodized film on the surface of the aluminum molded product, and a number of micropores and microcracks generated in the anodized film are transparent or colored. The dyeing and pigment particles are adsorbed, or the dyeing process is performed by filling the thermosetting resin fine powder powder and heating, and the surface after the dyeing process is printed, hot stamped, or transferred to a molded product A step of forming a printed layer, a step of forming an undercoat layer of 1 to 50 microns after any of the following (a) after forming the printed layer, and a single layer on any of the following (b) on the upper surface of the undercoat layer Alternatively, a UV curable resin, a one-component acrylurethane resin, a two-component acrylurethane resin, or a two-component acrylsilicone resin is applied to the upper surface of the deposited film. Forming a first intermediate coating layer of 1 to 50 microns by means, laser marking treatment on the upper surface of the first intermediate coating layer, and engraving laser marking at least directly above the printing layer, and laser marking A second intermediate coating layer of 1 to 50 microns is formed by means of applying a UV curable resin, a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin on the top surface engraved with Top coat layer of 1 to 50 microns by the process and means for applying UV curable resin, 1 liquid acrylic urethane resin, 2 liquid acrylic urethane resin or 2 liquid acrylic silicon resin on the upper surface of the second intermediate coating layer A method for decorating an aluminum molded product, including a step of forming a film.
(A) is (a1) UV curable resin paint, (a2) 1 liquid urethane acrylic resin paint, (a3) 2 liquid urethane acrylic resin paint, (a4) acrylic silicon resin paint, (a1) or (a2) ) or by spray coating the (a3) or (a4), (a1) or (a2) or (by a3) or (a4) to dipping painting, (a1) or (a2) or (a3) or ( by spin coating a a4), (a5) transfer foil, by direct thermal transfer of (a5), by water directly transferred (a5), (b) is, (b1) a metal, the (b1) by a vacuum deposition method, a sputtering method (b1), an ion plating method (b1), by the CVD method (b1), (b2) a metal oxide or an oxide compound, Electricity and (b2) By Kubimu type vacuum deposition method.

  In the method for decorating an aluminum molded product of the present invention, the anodized film formed on the aluminum molded product is dyed, and an undercoat layer is provided thereon to deposit a metal film or the like in multiple layers to form a deposited film. Because it forms, a relatively soft undercoat layer is interposed in the hard anodic oxide film, and the occurrence of cracks and poor adhesion is prevented from depositing a hard metal film in multiple layers on the upper surface, Multi-layer deposition film decoration and color decoration dyeing treatment using dyes and pigments can be used effectively, and the multilayer deposition film has improved strength, adhesion, weather resistance, sealing properties, etc. It is an epoch-making and highly practical invention that can improve functionality.

  Furthermore, by forming a topcoat layer on the surface of the multilayer deposited film, the wear resistance of the topcoat layer is improved at a stretch, so products with a decorative or design requirement and wear resistance are required. Can be suitably used.

The present invention relates to a method for decorating an aluminum molded product, and more specifically, a cellular phone, a digital camera, an AV device, an electronic component, a vehicle interior, a vehicle exterior part, a personal computer, a PDA related part, and a cosmetic container. The present invention relates to a method in which an anodized film is formed on an aluminum molded product to be used for decorating by forming a metal film, a metal oxide film or an oxide compound film which is hard and very thin and excellent in wear resistance. The method for decorating an aluminum molded product according to claim 1 includes a step of forming an anodic oxide coating Aa on the surface of the aluminum molded product A, and a large number of micropores and micropores generated in the anodic oxide coating Aa. a step or adsorbing the transparent or color dyes or pigments particles crack, the dyeing process Ab heating by filling the thermosetting resin fine powder, the Forming a subbing layer 1 either by 1-50 microns below (a) after the color processing Ab, single or multi-layer deposited films by any of the following (b) to the upper surface of the undercoat layer 1 2 and a means for applying a UV curable resin, a one-component acrylurethane resin, a two-component acrylurethane resin, or a two-component acrylsilicone resin to the upper surface of the vapor-deposited film 2. A method for decorating an aluminum molded product, comprising a step of forming a coat layer 3.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method.

Furthermore, the method for decorating an aluminum molded product according to claim 2 includes a step of forming an anodic oxide coating Aa on the surface of the aluminum molded product A, and a number of micropores and microcracks generated in the anodic oxide coating Aa. Printing on the surface of the molded product after the dyeing treatment Ab is performed by adsorbing particles of transparent or colored dyes or pigments, filling with thermosetting resin fine powder powder, and heating A step of forming the printing layer 4 by hot stamping or transfer processing, a step of forming an undercoat layer 1 of 1 to 50 microns by any one of the following (a) after forming the printing layer 4, and the undercoat layer 1 laser marking directly on the forming a deposited film 2 of the single-layer or multi-layer by any of the following (b) to the upper surface, at least the print layer by laser marking process on the upper surface of the vapor deposition film 2 1 to 50 by means of applying a UV curable resin, a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin to the upper surface where the laser marking 5 is engraved. A method for decorating an aluminum molded product, comprising a step of forming a micron topcoat layer 3.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method.

Furthermore, the method for decorating an aluminum molded product according to claim 3 includes a step of forming an anodic oxide coating Aa on the surface of the aluminum molded product A, and a large number of micropores and microcracks generated in the anodic oxide coating Aa. A step of performing a dyeing treatment Ab in which particles of transparent or colored dye or pigment are adsorbed on the surface or filling with thermosetting resin fine powder powder and heating, and printing or hot stamping on the surface after the dyeing treatment Ab is carried out A step of forming the printing layer 4 by processing or transfer processing, a step of forming the undercoat layer 1 of 1 to 50 microns by any of the following (a) after forming the printing layer 4, and the upper surface of the undercoat layer 1 forming a deposited film 2 of the single-layer or multi-layer by any of the following (b), the laser marking 5 directly on at least the print layer 4 by processing laser marking on the top surface of the vapor deposition film 2 1 to 50 microns by means of applying a UV curable resin, a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin on the upper surface where the laser marking 5 is engraved The step of forming the intermediate coating layer 6 and means for applying a UV curable resin, a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin on the upper surface of the intermediate coating layer 6 A method for decorating an aluminum molded product, comprising a step of forming a 50 micron topcoat layer 3.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method.

In addition, the method for decorating an aluminum molded product according to claim 4 includes a step of forming an anodic oxide coating Aa on the surface of the aluminum molded product A, and a large number of micropores and microcracks generated in the anodic oxide coating Aa. A step of performing a dyeing treatment Ab in which particles of transparent or colored dye or pigment are adsorbed on the surface or filling with thermosetting resin fine powder powder and heating, and printing or hot stamping on the surface after the dyeing treatment Ab is carried out A step of forming a printing layer 4 on a molded product by processing or transfer processing , a step of forming an undercoat layer 1 of 1 to 50 microns by any of the following (a) after forming the printing layer 4, and the undercoat layer monolayer or multilayer forming a deposited film 2, UV-curable resin or a liquid acrylic-urethane resin or two-liquid acrylic-urethane on the upper surface of the vapor deposition film 2 by any of the following (b) to 1 of the upper surface A step of forming an intermediate coating layer 6 of 1 to 50 microns by means of applying a fat or a two-component acrylic silicon resin, and a laser marking treatment on the upper surface of the intermediate coating layer 6 and a laser at least directly above the printing layer 4 1 by means of applying a UV curable resin, 1 liquid acrylic urethane resin, 2 liquid acrylic urethane resin or 2 liquid acrylic silicon resin on the top surface of the laser marking 5 A method for decorating an aluminum molded product, comprising a step of forming a top coat layer 3 of ˜50 microns.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method.

Furthermore, the method for decorating an aluminum molded product according to claim 5 includes a step of forming the anodized film Aa on the surface of the aluminum molded product A, and a number of micropores and microcracks generated in the anodized film Aa. A process of adsorbing transparent or colored dye or pigment particles, or a dyeing treatment Ab in which a thermosetting resin fine powder is filled and heated, and printing or hot stamping on the surface after the dyeing treatment Ab Alternatively, the step of forming the printing layer 4 on the molded product by transfer processing, the step of forming the undercoat layer 1 of 1 to 50 microns by any of the following (a) after forming the printing layer 4, and the undercoat layer 1 forming a deposited film 2 of the single-layer or multi-layer by any of the following (b) to the upper surface of, UV curable resin or a liquid acrylic-urethane resin or two-component acrylic urethane-based resin on the upper surface of the vapor deposition film 2 Or a step of forming a first intermediate coating layer 6a having a thickness of 1 to 50 microns by means of applying a two-component acrylic silicon resin, and at least the printing layer by performing laser marking on the upper surface of the first intermediate coating layer 6a. A step of engraving a laser marking 5 immediately above the surface, and a UV curable resin, a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin applied to the upper surface of the laser marking 5 engraved A step of forming a second intermediate coating layer 6b of 1 to 50 microns by means of: a UV curable resin, a one-part acrylic urethane resin, or a two-part acrylic urethane resin on the upper surface of the second intermediate coating layer 6b Or a step of forming a topcoat layer 3 of 1 to 50 microns by means of applying a two-component acrylic silicon resin. Decorating method of Miniumu moldings.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method.

  Hereinafter, the decoration method of the aluminum molded product of the present invention will be described in detail with reference to the drawings of the embodiments. FIG. 1 is an explanatory diagram for explaining the first embodiment of the decoration method of the aluminum molded products of the present invention. FIG. 2 is an explanatory diagram for explaining Example 2 of the method for decorating an aluminum molded product of the present invention, and FIG. 3 is for explaining Example 3 of the method for decorating an aluminum molded product of the present invention. FIG. 4 is an explanatory diagram for explaining Example 4 of the method for decorating an aluminum molded product of the present invention, and FIG. 5 is Example 5 of the method for decorating an aluminum molded product of the present invention. It is explanatory drawing for description.

  That is, Example 1 of the method for decorating an aluminum molded product according to the present invention includes an aluminum molded product A, an anodic oxide coating Aa, a dyeing treatment Ab, an undercoat layer 1, a vapor deposition film 2, and a topcoat layer as shown in FIG. 3.

  Since the aluminum molded product A is light, easy to process, and has a certain strength, the cellular phone, digital camera, AV equipment, electronic parts, interior of the vehicle, exterior parts of the vehicle, personal computer, Although it is widely used for PDA-related parts, cosmetic containers, etc., it is easy to oxidize and is soft so that the step of forming an anodic oxide coating Aa on the surface is carried out.

  Next, the step of forming the anodic oxide coating Aa is performed by immersing the aluminum molded product A in a thin sulfuric acid aqueous solution, using the aluminum molded product A as an anode, and using a lead plate or a carbon plate not affected by the sulfuric acid aqueous solution as a cathode, By passing a direct current, the surface of the aluminum molded product A connected to the anode is oxidized to grow an aluminum oxide film. The formed anodized film Aa has substantially the same chemical composition and properties as ruby. It is hard and stable.

  However, the anodic oxide coating Aa is a non-porous coating formed in the first stage, but becomes porous as the coating grows, and microcracks are formed so as to connect innumerable micropores and micropores to micropores. These countless fine holes and microcracks reach the surface of the aluminum molded product A, and when used over time, the surface of the aluminum molded product A is oxidized to cause the anodic oxide coating Aa to peel off. .

  For this purpose, the dyeing process Ab is performed on innumerable micropores and microcracks, and transparent or colored dye or pigment particles are adsorbed in innumerable micropores or microcracks, or heat The anodic oxide coating Aa is filled with curable resin fine powder powder and heated, and the anodized film Aa can be colored while maintaining its original metallic luster.

Next, the step of forming the undercoat layer 1 is for forming a vapor deposition film 2 to be described later. After performing the step of dyeing the anodic oxide coating Aa, any of the following (a) 1 to 50 microns undercoat layer 1 is formed, (a), (a1) is a UV curable resin paint, (a2) is a one-pack urethane acrylic resin paint, (a3) is It is a two-component urethane acrylic resin paint, (a4) is an acrylic silicon resin paint, and (a1) or (a2) or (a3) or (a4) is spray-coated to form the undercoat layer 1 , Alternatively, (a1) or (a2) or (a3) or (a4) is formed by dipping to form the undercoat layer 1 or (a1) or (a2) or (a3) or (a4) is spin-coated form an undercoat layer 1 and Is intended to, even, (a5) is a transfer foil, directly transfer to intended to form an undercoat layer 1, In addition, the undercoat layer 1 and water directly transferred (a5) (a5) The undercoat layer 1 is formed by any of the methods described above .

Next, in the step of forming the vapor deposition film 2 , a single layer or multilayer vapor deposition film 2 is formed on the upper surface of the undercoat layer 1 by any of the following (b). , Chromium, titanium, gold, silver, tin or the like, and (b1) forms a single-layer or multilayer vapor-deposited film 2 by a vacuum deposition method, or (b1) a single-layer by a sputtering method Alternatively, a multilayer deposited film is formed , or (b1) is formed by a single layer or multilayer deposited film by an ion plating method, or (b1) is formed by a CVD method by a single layer or multilayer. is intended to form a deposited film, and, (b2) is a metal oxide or an oxide compound, is intended to form a monolayer or multilayer vapor-deposited film by vacuum deposition Electric beam-type (b2), by any of the foregoing, forming a vapor deposited film 2 A shall, for example, it is to decorating the rainbow colors or iridescence by laminating the deposited film 2 in the multilayer.

Further, a step of forming a topcoat layer 3 having excellent wear resistance on the surface of the multilayer vapor-deposited film 2 is carried out. On the upper surface of the vapor-deposited film 2, a UV curable resin, a one-component acrylic urethane resin, or a two-component The topcoat layer 3 of 1 to 50 microns is formed by means of applying an acrylic urethane resin or a two-component acrylic silicon resin.

That is, in Example 1 of the decoration method of the aluminum molded product of the present invention, the anodized film Aa is formed on the surface of the aluminum molded product A, and the dyeing treatment Ab is performed on the micropores and microcracks of the anodized film Aa. Next, an undercoat layer 1 is formed without sealing treatment, and further, a multilayer deposited film 2 is formed with a metal, and a top coat layer 3 having excellent wear resistance is formed. Even if the multilayer deposited film 2 is formed of a harder metal on Aa, the relatively soft undercoat layer 1 is interposed so that peeling and cracking can be prevented. In addition, the undercoat layer 1 is an anode. The micropores and microcracks of the oxide film Aa are sealed and no sealing treatment is required.

  Furthermore, in the second embodiment of the method for decorating an aluminum molded product of the present invention, as shown in FIG. 2, the aluminum molded product A, the anodic oxide coating Aa, the dyeing treatment Ab, the printed layer 4, the undercoat layer 1, and the deposited film 2 are used. And the laser marking 5 and the top coat layer 3.

That is, in addition to Example 1 , the anodized film Aa is formed on the surface of the aluminum molded product A, and the upper surface where the fine pores and microcracks of the anodized film Aa are dyed is printed or hot stamped or Including the step of forming the printing layer 4 by transfer processing or the like, and further performing the step of laser marking the deposited film 2 and engraving the laser marking 5, and the laser marking 5 is printed on the aluminum molded product A When the layer 4 is formed, it is engraved at least directly above the printing layer 4 so that it can be seen from above the deposited film 2. Next, after the laser marking 5 is engraved, the UV curable resin or 1 to form a 1-50 micron top coat layer 3 of a liquid acrylic-urethane resin or two-liquid acrylic-urethane resin or two-liquid acrylic silicon resin It is intended to implement the extent, and hence is omitted a detailed description of other steps to overlap with the first embodiment.

  Further, in Example 3 of the method for decorating an aluminum molded product of the present invention, as shown in FIG. 3, an aluminum molded product A, an anodic oxide coating Aa, a dyeing treatment Ab, a printed layer 4, an undercoat layer 1, and a deposited film 2 are used. And the laser marking 5, the intermediate coating layer 6, and the topcoat layer 3.

That is, in Example 3, in addition to Example 2, after laser marking treatment was performed on the vapor deposition film 2 and at least the laser marking 5 was engraved immediately above the printing layer 4, a UV curable resin or a one-component acrylic urethane resin or An intermediate coating layer 6 having a thickness of 1 to 50 microns is formed from a two-component acrylic urethane resin or a two-component acrylic silicon resin, and a UV curable resin, a one-component acrylic urethane resin, or a two-component liquid is formed on the upper surface of the intermediate coating layer 6. The topcoat layer 3 of 1 to 50 microns is formed from an acrylic urethane resin or a two-component acrylic silicon resin, and the details of the other steps are the same as those in the first and second embodiments, and are therefore omitted.

  Further, in the fourth embodiment of the method for decorating an aluminum molded product of the present invention, as shown in FIG. 4, the aluminum molded product A, the anodized film Aa, the dyeing treatment Ab, the printed layer 4, the undercoat layer 1, and the deposited film 2 are used. , Intermediate coating layer 6, laser marking 5, and topcoat layer 3.

That is, in Example 4, in addition to the method of decorating the aluminum molded product of Example 3, the vapor deposition film 2 has a UV curable resin, a one-part acrylurethane resin, a two-part acrylurethane resin, or a two-part acrylsilicone resin. After forming the intermediate layer 6 of 1 to 50 microns and forming the intermediate layer 6, the laser marking process is performed to engrave the laser marking 5. The laser marking process is performed depending on the laser irradiation time. The engraving of only the layer 6 or the engraving up to the vapor deposition film 2 can be freely performed as shown in the figure, and the detailed description of the other steps is omitted because it overlaps with the first to third embodiments.

  Further, in the fifth embodiment of the method for decorating an aluminum molded product of the present invention, as shown in FIG. 5, an aluminum molded product A, an anodic oxide coating Aa, a dyeing treatment Ab, a printed layer 4, an undercoat layer 1, and a deposited film 2 are used. And the first intermediate coating layer 6 a, the laser marking 5, the second intermediate coating layer 6 b, and the topcoat layer 3.

In other words, in addition to Example 4, Example 5 is a UV curable resin, a one-part acrylic urethane-based resin, a two-part acrylic urethane-based resin, or a two-part acrylic silicon-based resin for the vapor deposition film 2. After the intermediate coating layer 6a is formed and the first intermediate coating layer 6a is formed, laser marking treatment is performed to engrave the laser marking 5 at least directly above the printing layer 4, and further, a UV curable resin or one liquid The second intermediate coating layer 6b of 1 to 50 microns is formed from an acrylic urethane resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin, and details of other steps are the same as those in Example 4. I will omit it.

  The method for decorating an aluminum molded product of the present invention is a method in which the above-described steps are sequentially performed. That is, the surface of the aluminum molded product is oxidized to form an anodized film, and a multilayer rainbow color or the like is formed thereon. And improving the functionality such as film strength, adhesion, weather resistance, sealing properties, etc., which has been a problem in the past because of forming an undercoat layer instead of sealing treatment. In addition to improving the wear resistance of the topcoat layer, it can be suitably used for products that require design and wear resistance.

FIG. 1 is a cross-sectional view for explaining Example 1 of the method for decorating an aluminum molded product of the present invention. FIG. 2 is a cross-sectional view for explaining Example 2 of the method for decorating an aluminum molded product of the present invention. FIG. 3 is a cross-sectional view for explaining Example 3 of the method for decorating an aluminum molded product of the present invention. FIG. 4: is sectional drawing for description of Example 4 of the decorating method of the aluminum molded product of this invention. FIG. 5: is sectional drawing for description of Example 5 of the decoration method of the aluminum molded product of this invention.

A Aluminum molded product Aa Anodized film Ab Dyeing treatment 1 Undercoat layer 2 Deposition film 3 Topcoat layer 4 Print layer 5 Laser marking 6 Intermediate layer 6a First intermediate layer 6b Second intermediate layer

Claims (5)

A process of forming an anodized film on the surface of an aluminum molded product, and a transparent or colored dye or pigment particle is adsorbed in a large number of micropores and microcracks generated in the anodized film, or a thermosetting resin fine powder A step of dyeing treatment in which powder is charged and heated , a step of forming an undercoat layer of 1 to 50 microns after any of the following (a) after the dyeing treatment, and the following (b forming a monolayer or multilayer vapor-deposited film by any of) the UV-curable resin or a liquid acrylic urethane on the upper surface of the vapor deposition film-based resin or a 2-liquid acrylic-urethane resin or two-liquid acrylic silicon resin A method for decorating an aluminum molded product, comprising a step of forming a topcoat layer of 1 to 50 microns by means of applying.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method. A process of forming an anodized film on the surface of an aluminum molded product, and a transparent or colored dye or pigment particle is adsorbed in a large number of micropores and microcracks generated in the anodized film, or a thermosetting resin fine powder After performing the dyeing process of filling and heating the powder, forming the printed layer on the surface of the molded product after the dyeing process by printing, hot stamping or transfer, and after forming the printed layer A step of forming an undercoat layer of 1 to 50 microns by any one of the following (a), a step of forming a single layer or a multilayer deposited film by any of the following (b) on the upper surface of the undercoat layer, and the deposition Laser marking treatment on the upper surface of the film and engraving laser marking at least directly on the printed layer; and UV curable resin or one-part acrylic on the upper surface on which the laser marking is engraved Urethane resin or two-liquid decorating method of an aluminum molded article which comprises a step of forming a top coat layer of 1 to 50 microns by means of applying an acrylic urethane resin or two-liquid acrylic silicone resin.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method. A process of forming an anodized film on the surface of an aluminum molded product, and a transparent or colored dye or pigment particle is adsorbed in a large number of micropores and microcracks generated in the anodized film, or a thermosetting resin fine powder A step of dyeing treatment in which powder is filled and heated , a step of forming a printing layer by printing or hot stamping or transfer processing on the surface after the dyeing treatment, and the following (a ) To form an undercoat layer of 1 to 50 microns, on the upper surface of the undercoat layer, to form a monolayer or multilayer deposited film according to any of the following (b), and to the upper surface of the deposited film A laser marking process to engrave a laser marking at least directly above the printed layer, and a UV curable resin or a one-component acrylic urethane on the laser engraved upper surface A step of forming an intermediate coating layer of 1 to 50 microns by means of applying a resin, a two-component acrylic urethane-based resin or a two-component acrylic silicon-based resin, and a UV curable resin or a one-component acrylic urethane on the upper surface of the intermediate coating layer A method for decorating an aluminum molded product, comprising a step of forming a topcoat layer of 1 to 50 microns by means of applying a resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method. A process of forming an anodized film on the surface of an aluminum molded product, and a transparent or colored dye or pigment particle is adsorbed in a large number of micropores and microcracks generated in the anodized film, or a thermosetting resin fine powder a step of staining process of heating and filling the powder, and forming a print layer on the molded article by printing or hot stamping or transfer machining the surface after the dyeing process, after forming the printed layer A step of forming an undercoat layer of 1 to 50 microns by any one of the following (a), a step of forming a single layer or a multilayer deposited film by any of the following (b) on the upper surface of the undercoat layer, and the deposition Form a 1-50 micron intermediate coating on the upper surface of the film by means of applying UV curable resin, 1 liquid acrylic urethane resin, 2 liquid acrylic urethane resin or 2 liquid acrylic silicon resin A step of laser marking on the upper surface of the intermediate coating layer and engraving the laser marking at least directly on the printed layer, and a UV curable resin or a one-component acrylic urethane on the upper surface of the laser marking. A method for decorating an aluminum molded product, comprising a step of forming a topcoat layer of 1 to 50 microns by means of applying a resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method. A process of forming an anodized film on the surface of an aluminum molded product, and a transparent or colored dye or pigment particle is adsorbed in a large number of micropores and microcracks generated in the anodized film, or a thermosetting resin fine powder After performing the dyeing process of filling and heating the powder, forming the printed layer on the molded product by printing or hot stamping or transferring on the surface after the dyeing process, and after forming the printed layer A step of forming an undercoat layer of 1 to 50 microns by any one of the following (a), a step of forming a single layer or a multilayer deposited film by any of the following (b) on the upper surface of the undercoat layer, and the deposition First intermediate coating layer of 1 to 50 microns by means of applying UV curable resin, 1 liquid acrylic urethane resin, 2 liquid acrylic urethane resin or 2 liquid acrylic silicon resin on the upper surface of the film A step of forming, a step of laser marking on the upper surface of the first intermediate coating layer and engraving the laser marking at least directly above the printed layer, and a UV curable resin or an upper surface engraved with the laser marking Forming a second intermediate coating layer of 1 to 50 microns by means of applying a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin; Including a step of forming a topcoat layer of 1 to 50 microns on the upper surface by means of applying a UV curable resin, a one-component acrylic urethane-based resin, a two-component acrylic urethane-based resin, or a two-component acrylic silicon-based resin. To decorate molded aluminum products.
(A)
(A1) UV curable resin paint,
(A2) 1-component urethane acrylic resin paint,
(A3) two-component urethane acrylic resin paint,
(A4) acrylic silicone resin paint,
By spraying (a1) or (a2) or (a3) or (a4),
(A1) or by (a2) or (a3) or (a4) to dipping painting,
By spin coating (a1) or (a2) or (a3) or (a4),
(A5) transfer foil,
(A5) by directly thermally transferred,
(A5) by water directly transferred,
(B)
(B1) metal,
By a vacuum deposition method (b1),
The (b1) by a sputtering method,
The (b1) by ion plating,
The (b1) by the CVD method,
(B2) metal oxide or oxide compound,
The (b2) by electric-beam vacuum evaporation method.

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