KR20090026972A - A coating method of silver mirror using printer - Google Patents

Abstract

A method for coating a silver mirror is provided to coat a silver mirror on an object precisely and quickly by using an inkjet printer in no need of an etching process which generates harmful materials. A method for coating a silver mirror comprises the following steps of: applying an undercoating on an object and coating a first silver mirror activating solution; coating a second silver mirror activating solution on the first silver mirror activating solution; printing a silver mirror on the object using an inkjet printer wherein a silver acetate solution and a reducing agent are loaded; and coating a silver mirror stabilizing solution after completing a silver mirror print.

Description

Coating method of silver mirror using printer

The present invention is to form a silver diameter on the surface of a variety of materials, in particular, using a inkjet type printer to quickly and precisely form a silver shape of the desired shape on the surface of the subject without a photomask process and an etching process for generating harmful substances The present invention relates to a silver mirror coating method using a printer.

As is well known, metal fragrance or plating has a function to protect the surface of the object and to decorate the exterior while improving insulation and electrical properties, heat resistance, corrosion resistance and chemical resistance, and the metal fragrance is used to express metal color. It contains a pigment, resin, solvent, various additives, and the like, and the plating enables to obtain electrical characteristics while expressing the surface of the object with a specific metal odor.

Patent Registration No. 10-0733788 "Silver Film Formation Method" has been published as a technique for forming a metal film (silver film) on the surface of a subject using a conventional metal fragrance paint.

This prior art improves the idea of silver by forming a silver film using silver solution from the surface of flakes such as synthetic mica, plastic film, glass, etc. in the manufacturing process of pigments of metallic paints used in automobiles and home appliances. In order to obtain an excellent coating surface without the surface treatment step, the surface treatment step of first immersing the substrate consisting of synthetic mica, plastic film, glass, etc. pulverized into a flake in a surface treatment agent to precipitate tin from the surface of the substrate, and the surface treatment According to the step, the surface treatment agent is separated from the substrate on which the tin is deposited on the surface, and the first washing step of repeatedly washing the surface of the substrate with distilled water, and the substrate having been washed according to the first washing step is immersed in silver solution. A silver solution input step to make, and the silver substrate is immersed according to the silver solution input step A reducing agent input step of introducing a reducing agent in the same weight ratio into the solution, a second washing step of separating the silver solution and the reducing agent from the substrate having the silver film coating according to the reducing agent input step, and washing the surface of the substrate with distilled water; According to the second washing step, the drying step of hot-air drying the surface of the washed substrate is sequentially performed.

However, the prior art as described above is a technique of forming a silver film on the coating film by immersing the substrate in a silver solution tank, and has a disadvantage in that it is not possible to selectively produce silver patterns of various patterns or patterns, and also by using an immersion method. Therefore, the washing and drying process takes a lot of time and has a disadvantage that it is difficult to raise a large silver diameter.

On the other hand, silver plating can also be given to the surface of the product through plating, in which case yellowing, whitening, peeling, corrosion, etc. occur easily, and thus, it is difficult to maintain stable silver diameter quality for a long time. In addition, the method of forming a silver film on the surface of the product through plating has a disadvantage in that environmental damage cannot be avoided because harmful heavy metals inevitably occur.

The present invention is to solve the problems of the prior art as described above, the object of the present invention is to form a silver mirror on the surface of a variety of materials without using a photomask process and an etching process to generate harmful substances by using an inkjet type printer The present invention provides a silver coating method using a printer capable of quickly and precisely forming a silver mirror having a desired shape on the surface of a conductor.

The silver mirror coating method using the printer of the present invention for achieving the above object is to perform the under-coating on the coating film of the applied material and the first is to apply a hard activator, and the first is a second hard activator on the hard activator After the application, using a inkjet printer loaded with a silver acetate and a reducing agent in each cartridge, printing the silver pattern on the coating film, and after the printing of the silver pattern is completed, applying a silver stabilizer liquid, washing and drying Characterized in that.

The silver-coating method using the printer of the present invention does not use the photomask process and the etching process inevitably generated during the conventional metal plating, and uses a silver acetate solution cartridge and a printer equipped with a reducing agent cartridge to obtain a desired pattern on the coating film. The pattern can be formed in the form of silver mirror, which shows the unique effect of quickly and precisely forming the eco-friendly silver mirror of the desired shape on the surface of the subject without any spillage of harmful substances.

In addition, according to the present invention, when the silver mirror on the surface of the substrate (substrate) is formed in a circuit wiring form according to a computer program, a circuit pattern can be formed on the substrate without performing a photolithography process and an etching process. Enables the production of

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a process flowchart illustrating the silver diameter coating method of the present invention. As referred to herein, in the first step, undercoating is performed on the coating film of the applied material, and the first silver hard activator is applied thereon and washed with water. Here, the first may use iron chloride as a hard activating solution, and exhibits a surface modification effect.

The applied material is any one of a film, glass or ceramic pottery or wood or metal, and is an object to form a silver diameter on the coating film thereof. The metal here is aluminum.

In the second step, the silver silver pattern is coated on the coating film coated with the second silver hard activator by using an inkjet printer in which the second silver hard activator is applied onto the first silver hard activator, and then the silver acetate solution and the reducing agent are loaded into each cartridge. Print and flush. As the second silver hard activating liquid, a solution such as a first silver hardening liquid may be used.

In the third step, after the printing of the silver mirror pattern is completed, the silver mirror stabilizer is applied, followed by washing with water and pure water air blowing and drying. After that, the top coating is performed on it.

Here, the application material is a substrate and the silver diameter pattern may be a conductive circuit wiring pattern on the substrate. This means that the circuit pattern can be formed on the PCB using the silver mirror coating process of the present invention.

The PCB circuit wiring patterning process using the silver mirror coating process of the present invention does not require a separate photolithography process and an etching process unlike the conventional PCB process, so that wastewater and harmful substances inevitably generated in these photolithography processes and etching processes are eliminated. Emissions can be prevented and environmental pollution can be prevented.

Figure 2 is an exemplary arrangement structure of the cartridge in which the silver diameter solution and the reducing agent solution of the printer device for carrying out the silver diameter coating of the present invention.

As referred to herein, the silver acetate solution and the reducing agent solution are separately loaded into a pair of cartridges adjacent to each other in the inkjet printer 10. That is, the silver acetate solution cartridge 13 and the reducing agent solution cartridge 14 have a structure capable of simultaneously moving on the cartridge movement guide shaft and under the control of the controller 15, the silver acetate solution and the reducing agent solution are applied to the coating film of the applied material 11. Spraying at almost the same time forms a silver mirror in the area to be coated.

In particular, when the program data value set in the computer 20 connected to the control unit 15 is registered, the pattern, image or circuit pattern programmed according to the data value is automatically printed on the coating film of the applied material in the form of silver mirror.

3 is a layout view of a silver solution and a color ink cartridge for simultaneously performing silver coating and color printing on the surface of an application material such as a metal substrate, particularly an aluminum plate, as another embodiment of the present invention.

In this embodiment, the applied material is aluminum oxide-coated aluminum, and the color acetate cartridge 16 is disposed adjacent to the silver acetate solution cartridge 13 and the reducing agent solution cartridge 14 in which the silver acetate solution and the reducing agent solution are respectively loaded, and the silver ink coating is disposed. Prior to the implementation, a coloring process is first performed using a color ink cartridge 16 on the aluminum base oxide film.

Thereafter, the silver nitrate solution and the reducing agent solution may be silver-coated by inkjet printing on the applied material subjected to the engrafting process, followed by a top coating, thereby forming a full-color image of colored metallic texture.

On the other hand, as a type of another embodiment of the present invention, by forming a silver mirror on a thin film and applying it to a specific material, it is possible to apply to various applications.

That is, by applying a first silver hard activator on the film of the resin material, and applying a second silver hard activator on the first silver hard activator, using an inkjet printer in which a silver acetate solution and a reducing agent solution are loaded into each cartridge A silver diameter pattern is printed on the coating film.

Next, after the printing of the silver mirror pattern is completed, the silver mirror stabilizer is applied, washed with water and dried.

Subsequently, a practical silver diameter coating effect may be obtained by laminating a film of a resin material on which the dried silver diameter pattern is printed on an application material of any one of glass or ceramic pottery or wood or metal.

1 is a process flowchart illustrating the silver diameter coating method of the present invention.

Figure 2 is an exemplary arrangement of the silver solution cartridge of the printer device for carrying out the silver mirror coating of the present invention.

3 is a layout diagram of a silver solution and a color ink cartridge for simultaneously performing silver coating and color printing on the surface of an applied material (metal substrate) according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: inkjet printer 11: applied materials

12 support base 13: silver acetate solution cartridge

14: reducing agent solution cartridge 15: printer control unit

16: color ink cartridge 20: computer

Claims (5)

An inkjet printer in which an undercoating is applied to a coating film of an applied material, a first application of a hard activator, a first application of a second hard activator, and a silver acetate solution and a reducing agent loaded into each cartridge. Printing a silver diameter pattern on the coating film by using, and after the printing of the silver diameter pattern, the silver mirror coating method comprising the step of applying a silver stabilizer, washing and drying. The method of claim 1, wherein the applied material is a film or glass or ceramic pottery, or a silver-coated coating method using a printer, characterized in that any one of wood or metal. The method of claim 1, wherein the applied material is a substrate and the silver diameter pattern is a conductive circuit wiring pattern on a substrate. The method of claim 1, wherein the applied material is an aluminum oxide film is formed on the aluminum base oxide film using a color ink cartridge disposed in a position adjacent to the cartridge containing the silver acetate solution and the reducing agent solution, respectively, Thereafter, silver-silver coating by silver jet coating of the silver acetate solution and the reducing agent solution is performed, followed by top-coating, to form a full-color image of colored metallic texture. Applying the first silver hard activator onto the film of resin material, and applying the second silver hard activator onto the first hard activator, followed by using an ink jet printer in which a silver acetate solution and a reducing agent are loaded into each cartridge. Printing a silver mirror pattern on the surface, applying a silver stabilizer solution after completion of printing the silver mirror pattern, washing with water, and drying the film of a resin material on which the dried silver mirror pattern is printed. The silver-coating method using a printer, characterized in that it comprises the step of laminating on one applied material.

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