KR100815474B1 - A method for implementing hologram in aluminium plate - Google Patents

Abstract

A method for forming a hologram on an aluminum plate is provided to prevent harmful matter generated during a plating process, by excluding an electroforming method in forming the hologram and to reduce the manufacturing time. A method for forming a hologram on an aluminum plate(10) comprises the steps of: removing an oxidized layer(12) by chemically treating the aluminum plate, in order to print a fine hologram pattern; forming a pattern duplicate plate(30) having the hologram pattern, by roll-printing the aluminum plate by using a pattern original plate(20); and making a hologram duplicate plate(40) by forming a desirable hologram image on the pattern duplicate plate by using screen printing or digital printing. The chemical treatment step includes a step for dipping the aluminum plate in calcium carbonate aqueous solution and then cutting the surface by using a brush polisher.

Description

A method for implementing hologram in aluminum plate

1 is a view showing a hologram implementation method using a conventional electroplating method.

2 is a diagram illustrating a hologram implementing method according to the present invention.

3A and 3B are diagrams illustrating a rolling printing process.

4 is a diagram illustrating a method of forming the hologram replica plate 40 from the pattern replica plate 30.

5 is a diagram illustrating a hologram product according to various embodiments.

6 is a view showing the plane and side shape of the hologram product formed in accordance with the present invention.

The present invention relates to a method for implementing a hologram, and more particularly, to a method for implementing a hologram on a specific gravity metal such as aluminum that is harmless to a human body.

A hologram is a device that can hold a single wavelength and a single frequency for a long time and record phase information of a coherent laser beam to realize various colors, three-dimensional shapes, or dynamic images. Because the unique image of the hologram is optically generated and reproduced, only a part of the optical information is printed when it is copied by a conventional color copying machine and a precision scanner. It is commercialized in the form of labels, stickers and stamping foils.

There are various types of holograms, and the commonly used holograms are embossed holograms. The embossed hologram includes a hologram pattern layer made of fine concavo-convex in the form of a sine wave having a depth and length of several hundreds to thousands of nanometers, and a metal deposition layer to facilitate the observation of reflected light reflected from fine iron on the hologram pattern. The metal deposition layer is formed of Al, Ag, ZnS, ZnO, SiO 2, or the like.

In addition, embossed holograms may need to be implemented in the metal, depending on the application. In general, when the hologram pattern layer is expressed on metal, electroplating is used.

1 is a view showing a hologram implementation method using a conventional electroplating method.

First, the mother board 1 is prepared. The mother board 1 is formed with a hologram pattern 2 in the form of a peeling film. The base plate 1 is usually a glass plate.

In step 10, a first metal electrodeposition layer 3 is formed on the mother plate 1, and in step 20, the first metal electrodeposition layer 3 is separated from the mother plate 1. The first metal electrodeposition layer 3 has a concave-convex shape in a direction opposite to the base plate 1.

In step 30, the separation coating layer 4 is formed on the uneven surface of the lower portion of the first metal electrodeposition layer 3.

In step 40, a second metal electrodeposition layer 5 is formed under the separation coating layer 4.

In step 50, the second metal electrodeposition layer 5 is separated. The second metal electrodeposition layer 5 has an uneven shape in the same direction as the base plate 1. That is, the second metal electrodeposition layer 5 is a metal replica of the mother plate 1.

However, according to the conventional method, the metal used as the second metal electrodeposition layer should be conductive, and in fact, nickel is mainly used. This nickel metal not only has the problem of heavy metal poisoning, but also the handling and hologram products during manufacture. There is a problem that causes a metal allergy to the user.

In addition, the electroplating method has a problem that causes environmental pollution due to harmful substances generated in the plating process itself.

In addition, the electroplating method has a disadvantage that takes a lot of manufacturing time.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to provide a method for implementing a metallic hologram that is environmentally friendly, does not cause allergy of the user.

In order to solve the above problems, the present invention provides a method for implementing a hologram on an aluminum plate, the method comprising: removing an oxide layer by performing a chemical treatment on the aluminum plate so that a fine hologram pattern is printable; Forming a pattern replica plate on which the hologram pattern is formed by performing pressure-overprinting on the aluminum plate using a pattern disc; And generating a holographic replica by implementing a hologram image of only a desired shape on the pattern replica using a printing method of either screen printing or photographic printing.

Here, the chemical treatment step, and the step of precipitating the aluminum plate in a calcium carbonate solution and shaving the surface using a brush polishing machine.

Here, the chemical treatment step, comprising the step of precipitating the aluminum plate in sodium hydroxide solution and washing with water.

Here, the elongation of the aluminum plate is 18 or less, characterized in that any one of the 1000, 2000, 3000, 5000, 6000 series aluminum alloy.

In one embodiment, the rolling time of the rolling printing is characterized in that 0.05 seconds to 0.1 seconds.

In one embodiment, the rolling pressure of the rolling printing is characterized in that 20 to 40 Kgf / ㎠.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

2 is a diagram illustrating a hologram implementing method according to the present invention.

In the first aspect of the invention, the hologram uses a rolling method instead of using electroplating. Therefore, no harmful substances are generated during the manufacturing process, and environmental pollution in manufacturing and health problems of the handling during manufacturing are not generated.

In the second aspect of the present invention, the metal replica plate used in the product in the present invention is a metal harmless to human body, such as aluminum plate. Thus, during manufacture, handlers and users of holographic products are protected from allergies due to heavy metals.

In a third aspect of the invention, a chemical treatment process is added before carrying out rolling on the aluminum plate. Chemical treatment processes allow finer rolling, such as holograms.

First, a human body harmless metal plate, such as an aluminum plate 10, which is a replica, is prepared. Generally, since the aluminum plate 10 is exposed to air, the oxide layer 12 is formed in the aluminum plate 10.

In the present invention, the 'aluminum plate' includes a plate on which a base material is stainless steel or copper, and only its surface is formed of an aluminum film. This is because the hologram can also be formed in the film of the angstrom unit.

In step 100, the oxide layer 12 is removed by performing a chemical treatment process on the aluminum plate 10. The chemical treatment process can be carried out in two ways as follows.

The first method is polishing. First, the aluminum plate 10 is precipitated for several seconds in an aqueous solution of calcium carbonate (CaCO 3). Then, after removing the aluminum plate 10 from the aqueous solution, the surface of the oxide layer is removed by scraping off the surface using a brush polishing machine.

The second method is washing. First, the aluminum plate 10 is precipitated in a sodium hydroxide (NaOH) solution (aka caustic soda) for several seconds. Thereafter, the aluminum plate 10 is removed from the aqueous solution and then washed with water to remove the oxide layer.

In the present invention, the hologram pattern is formed using a rolling method rather than the electroplating method. In general, it is difficult to form fine unevenness of the hologram pattern by the rolling method. However, the applicant has made it possible to more easily form the hologram pattern by improving the chemical properties of the aluminum plate through the chemical treatment process.

In steps 200 and 300, the pattern replica plate 30 on which the hologram pattern is formed is formed by performing rolling printing on the aluminum plate 10 using the pattern disc 20. This is explained in more detail in FIGS. 3A and 3B.

In operation 400, the holographic replica 40 is generated by realizing only the desired shape of the pattern replica plate 30 using screen printing or photographing printing. This is described in more detail in FIG. 4.

3A and 3B are diagrams illustrating a rolling printing process.

In the present invention, the hologram pattern is formed using a rolling method rather than the electroplating method. Rolling is a method of forming a concave-convex pattern on a metal by using a pressing machine such as a roller. In the present invention, by selecting the material of the plate on which the hologram is formed as aluminum to prevent the occurrence of allergy to the user, to solve the problem of the generation of harmful substances in the plating method by adopting the rolling method instead of the electroplating method to form a hologram for aluminum It was. In addition, the problem of difficulty in the formation of fine irregularities, which is a problem that can be caused by the rolling method, was solved by adding a chemical treatment step.

In the present invention, rolling is performed using a roller. First, in the first method of FIG. 3A, the hologram disc 20 having the hologram pattern engraved is fixed to the circumference of the roller M1. The pattern disc 20 is made of a metal having high strength, such as iron and nickel, and the pattern of the hologram (fine unevenness) is inscribed. Since the metal of the pattern disc is ductile, it may be able to withstand some bending. Although the figure shows that the roller has a high degree of curvature, when the diameter of the roller is increased, there is no problem in fixing the disc 20 to the roller M1 because a low degree of curvature, that is, a smooth curve surface is formed. The fixing method can use an adhesive agent and an adhesive. The roller M2 serves to support the aluminum plate 10 from the bottom and is applied by the pressure D. The roller M2 is usually formed of rubber and absorbs pressure if excessively generated.

In the second method of FIG. 3B, the lower support plate 50 is used instead of the roller M2. The lower support plate 50 is manufactured in the form of a plate to support the lower portion of the aluminum plate 10 in the entire plane.

The applicant has carried out several repeated experiments on the rolling conditions after the pretreatment, and the following are the results.

In a preferred embodiment, the rolling time is from 0.05 seconds to 0.1 seconds.

In a preferred embodiment, the rolling pressure is 20 to 40 Kgf / cm 2, more preferably 30 Kgf / cm 2.

In a preferred embodiment, the conditions of the aluminum plate are as follows.

TABLE 1

range thickness 0.05 to 2 mm burglar 1000,2000,3000,5000,6000 series all available Elongation 18 or less

Experimental results of the applicant several times, it was found that the hologram pattern was normally printed under the above conditions.

In the present invention, by adopting the rolling method instead of the electroplating method, problems caused by adopting the plating method, that is, the generation of harmful substances, threats to the health of the operator, etc. do not occur.

In addition, due to the time taken to form the base metal by electroplating (usually 12 hours), the plating method takes a very long time. However, in the present invention, since the holographic plate is completed in one roller passage of the base material, the manufacturing time is greatly reduced. do.

In addition, by selecting the material of the hologram as aluminum that is harmless to the human body, it is possible to prevent the occurrence of allergies of consumers using the actual product.

4 is a diagram illustrating a method of forming the hologram replica plate 40 from the pattern replica plate 30.

The pattern replica plate 30 means an aluminum plate 10 having a hologram pattern formed on its entire surface. The hologram replica plate 40 means a product in which a hologram pattern is formed only on a desired portion.

The method is performed using two screen printing methods and photographic printing method.

In the first method, the screen printing method, in step 411, a print layer 31 having an image formed only on a desired portion is formed on the pattern replica plate 30 using a mask, and then in step 412, the pattern replica plate 30 is formed. By removing the hologram pattern of the other part while leaving only the image part by corroding, the hologram replica plate 40 is produced.

In the second method, the photographing printing method, in step 421, the photoresist layer 32 is formed on the pattern replica plate 30, and in steps 422 and 423, a desired portion 34 on the surface of the photoresist layer 32 is formed. The holographic replica plate in which the hologram is formed only on the desired portion 42 by removing the image 35 by irradiating (exposure) to the laser beam and removing the unexposed photoresist layer and the hologram pattern thereunder through corrosion in step 424. 40 is formed.

5 is a diagram illustrating a hologram product according to various embodiments.

The hologram replica plate 40 has a hologram pattern formed on a desired portion of the aluminum plate 10. In a modified embodiment, it is also possible to form any one or a combination of the following layers on the top or bottom of the holographic replica plate 40 to be a hologram product.

The metal thin film layer 51 is a layer on which inorganic compounds, such as Al, Ag, ZnS, and SiO2, are deposited, and makes it easier to observe the reflected light reflected from the roughness of the hologram pattern 42. Generally 100-1000 micrometers.

The colored primer layer 52 is formed by coating a thermosetting racker having a color and expresses a color effect.

The base film layer 53 is a layer for protecting the hologram replica plate 40 from the outside and can be selected as a plastic film.

The adhesive layer 54 is for attaching the hologram replica plate 40 to the surface of an external object and is mainly formed when a hologram is used for a sticker or the like.

 6 is a view showing the plane and side shape of the hologram product formed in accordance with the present invention.

In the left view, the plate P is a lamination of the various layers of FIG. 5. The hologram image H is a portion selected and designed as a desired part of the hologram pattern.

In the right figure, the plate P1 comprises a portion H1 in which the desired image portion is embossed and the plate P2 comprises a portion H2 in which the desired image portion is embossed. By manufacturing the pattern original plate 20 in an intaglio or embossed, the hologram image of the holographic replica plate 40 having the opposite shape can be embossed or engraved. The same is true for holographic image effects, whether engraved or embossed.

On the other hand, the hologram implementation method according to the invention can be written in a computer program. Codes and code segments constituting the program can be easily inferred by a computer programmer in the art. In addition, the program is stored in a computer readable media, and read and executed by a computer to implement the hologram implementation method. The information storage medium includes a magnetic recording medium, an optical recording medium, and a carrier wave medium.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

As described above, according to the present invention, since the mother of the product on which the hologram is formed is aluminum, it is possible to prevent heavy metal allergy from occurring.

In addition, according to the present invention, since the hologram does not use the electroplating method, various problems that occur during the plating process, that is, the generation of harmful substances and the threat of health of the operator, are solved.

In addition, the present invention significantly reduces the production time compared to the plating method.

Further, according to the present invention, by adding a chemical treatment step, even finer irregularities can be formed even if the rolling method is selected.

Claims (8)

In the method of implementing a hologram on an aluminum plate, Removing the oxide layer by performing a chemical treatment on the aluminum plate so that a fine hologram pattern is printable; Forming a pattern replica plate (30) having a hologram pattern by performing rolling printing on the aluminum plate (10) using the pattern disc (20); And The hologram replica method comprising the step of generating a holographic replica plate 40 by implementing only the desired shape for the pattern replica plate 30 using the screen printing or photographing printing method. The method of claim 1, wherein the chemical treatment step, And depositing the aluminum plate in an aqueous calcium carbonate solution, and then scraping the surface using a brush polishing machine. The method of claim 1, wherein the chemical treatment step, After the aluminum plate is precipitated in sodium hydroxide solution, the hologram comprising the step of including the step of washing with water. The method of claim 1, wherein the elongation of the aluminum plate is 18 or less. The method of claim 1, wherein the aluminum plate is any one of 1000, 2000, 3000, 5000, 6000 series of aluminum. The method of claim 1, wherein the rolling time is about 0.05 seconds to about 0.1 seconds. The method of claim 1, wherein the rolling pressure of the roll printing is 20 to 40 Kgf / ㎠. The method of claim 1, wherein the aluminum plate comprises a plate having an aluminum thin film formed on a metal surface of any one of stainless steel and copper.

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