KR100479712B1 - Heat transcription film transcribing gold or silver foil using scratch durability and method of manufacturing it - Google Patents

Abstract

The present invention relates to a gold and silver foil thermal transfer film using a scratch-resistant and developed to have a metallic effect of natural and special gold and silver foil pattern by rubbing a desired portion with a metal scrubber after thermal transfer to wood or plastic material, and a manufacturing method thereof , Base film layer 10; A release agent layer 20 coated on the surface of the base film layer 10 to have peelability; A scratch resistant printed layer 30 coated on the surface of the release agent layer 20; A transparent color printed layer 40 coated on the surface of the scratch resistant printed layer 30; An aluminum deposition layer 50 vacuum-deposited with aluminum on the surface of the transparent color printing layer 40; And an adhesive layer 60 on which an adhesive is applied on the surface of the aluminum deposition layer 50. When the desired part is rubbed after transferring to the thermal transfer paper with a metallic scrubber, the gold-silver foil film which does not have a scratch-resistant coating film is peeled off and the scratch-resistant coating part retains the color or design of the gold-silver foil as it is. . Accordingly, the present invention provides a thermal transfer film that can create a natural and new pattern design and various patterns.

Description

Heat transcription film transcribing gold or silver foil using scratch durability and method of manufacturing it}

The present invention relates to a thermal transfer film for surface decoration, and more specifically, the scratch-resistant developed to have a metallic effect of a natural and special gold and silver foil pattern by rubbing a desired portion with a metal scrubber after thermal transfer to wood or plastic materials. It relates to a gold and silver foil thermal transfer film used and a method of manufacturing the same.

In general, when manufacturing a frame frame using a paint or a transfer film, and then again to produce a product that exhibits the effect of a special metal pattern, in order to form a natural metal effect coating film on the outer surface is as follows. That is, to transfer the gold and silver foil transfer paper formed with a natural pattern on the transfer target to be transferred to the secondary to form a desired design, or to paint only the desired part with metallic paint or to use the other method of gold or The silver pattern is embodied.

However, products made by silk-screen printing using ink mixed with metal powder or painted with silver and gold with paint have little effect and excessive manufacturing time due to the complexity and hassle of the manufacturing process, resulting in high manufacturing cost. . Therefore, there has been a continuous demand for measures for the effectiveness of natural metallic effects.

The present invention has been made to solve the above problems, the object of the present invention. It is to provide a gold and silver foil thermal transfer film using a scratch resistance that can easily form a special metal layer pattern, work efficiency is improved and work time is progressed quickly to create a pattern of a variety of natural metal effect patterns and a manufacturing method thereof.

The object of the present invention as described above, the base film layer 10 made of a matte film coated with a matte polyester film or a matte to the polyester film; A release agent layer 20 coated with a release agent manufactured by using an acrylic resin as a base resin to have peelability on a surface of the base film layer 10;

An inner resin composed of an acrylic resin, an acrylic urethane resin, a UV resin or a urethane resin coated on the surface of the release agent layer 20, a ketone solvent, an acetate solvent or an aromatic solvent as a solvent, a dye, a pigment, and a curing agent. Scratchable printed layer 30; Dappe resin, acrylic resin, acrylurethane resin or nitrocellulose resin coated on the surface of the scratch-resistant printing layer 30, as a solvent, ketone solvent, acetate solvent or aromatic solvent, dye and hardener A transparent color printed layer 40;

An aluminum deposition layer 50 vacuum-deposited with aluminum on the surface of the transparent color printing layer 40; And an adhesive layer 60 on which an adhesive made of an acrylic resin or a polyester resin as a resin and a ketone solvent, an acetate solvent, or an aromatic solvent is coated on the surface of the aluminum deposition layer 50. It is achieved by a gold and silver foil thermal transfer film using a scratch resistance to the production method.

The present invention dry bonds the thermal transfer film only by heat and pressure of synthetic rubber rolls by direct thermal transfer method with a frame frame made of wood or plastic material, and rubs the desired parts with a metallic scrubber to make a natural yet unique gold and silver foil layer. It was created with the idea that it can be formed by one transfer process.

Other objects, specific advantages, and novel features of the present invention will become more apparent from the following detailed description of the invention and the preferred embodiments in connection with the accompanying drawings.

Hereinafter, the configuration of the gold and silver foil thermal transfer film using the scratch resistance according to the present invention and a manufacturing method thereof will be described.

1 is a cross-sectional view of a gold and silver foil thermal transfer film using scratch resistance according to an embodiment of the present invention, Figure 2 is a manufacturing method of a gold and silver foil thermal transfer film using scratch resistance according to another embodiment of the present invention Is a flowchart. As shown in Figure 1, Figure 2, the gold and silver foil thermal transfer film using the scratch resistance according to the present invention has a total of six layer structure of the cross section.

Gold and silver foil thermal transfer film using scratch resistance according to the present invention is a base film layer 10, release agent layer 20, scratch-resistant printing layer 30, transparent color printing layer 40, aluminum deposition layer 50 ) And an adhesive layer 60.

First, step S1 is a step of forming the base film layer 10. The base film layer 10 is composed of a polyester film having excellent thermal stability of matte or matt or a matte film coated with a matte on the polyester film.

Thereafter, step S2 is a step in which the release agent layer 20 is applied to the surface of the base film layer 10. In the release agent layer 20, an acrylic resin is uniformly dissolved in a ketone-based, acetate-based or aromatic solvent. The release agent layer 20 achieves peelability between the scratch resistant printing layer 30 or the transparent color printing layer 40 and the base film layer 10. The resin weight of the release agent layer 20 is preferably 14 to 18 parts by weight.

Thereafter, step S3 is a step of applying the scratch resistant print layer 30 to form various colors while giving scratch resistance on the release agent layer 20. The scratch resistant printed layer 30 is composed of an acrylic resin, an acrylic urethane resin, a UV resin or a urethane resin as a resin, a ketone, acetate or aromatic solvent, a dye, a pigment, and a curing agent as a solvent.

Thereafter, step S4 is a step of applying the transparent color printing layer 40 to give the effect of the transparent color on the scratch-resistant printing layer (30). The transparent printed layer 40 is a resin having excellent heat resistance as a DAP resin, an acrylic resin, an acryl urethane resin or a nitrocellulose resin, as a solvent, a ketone-based, acetate-based or aromatic solvent, a dye, and a curing agent. It is composed.

Subsequently, step S5 is a step of forming an aluminum deposition layer 50 by performing vacuum deposition on the aluminum component on the transparent color printing layer 40.

Finally, step S6 is a step of applying the adhesive layer 60 on the surface of the aluminum deposition layer 50 in order to simultaneously exert the adhesive effect to the transfer object while maintaining the adhesion and the metal coating film of the deposition film is completed. The adhesive layer 60 is prepared by mixing an acrylic resin or a polyester resin as a resin and a ketone solvent, an acetate solvent, or an aromatic solvent as a solvent. This completes the gold and silver foil thermal transfer film using scratch resistance according to the present invention.

The transfer paper prepared as described above is simply thermally transferred to a frame frame or other transfer object made of wood or plastic material and then rubbed with a metallic handmade rice to receive a transfer paper having a desired natural gold or silver pattern design.

At this time, it is preferable that the pressure roller squeeze the transfer paper at a temperature of about 130 ° C. and a speed of about 3 to 5 m / min, but is not limited thereto.

Hereinafter, the operation and examples of the gold and silver foil thermal transfer film using the scratch resistance according to the present invention and a manufacturing method thereof will be described.

The principle of forming a special pattern on the thermal transfer film as described above will be described. When the desired portion of the thermal transfer film is rubbed with a metallic scrubber as described above, the gold and silver foil coating film, in which the scratch resistant film is not formed, is scratched and peeled off, and the portion of the scratch resistant coating film is maintained in the color or design of the gold and silver foil. . As a result, a thermal transfer film that can create a natural and new pattern design and various pattern patterns is provided.

<Example>

Releasing agent layer 20 (resin weight: 14-18 parts by weight) with respect to base film layer 10 made of matte / coated polyester film having a thickness of 12-25 microns or a matte film coated with a polyester film ), The scratch-resistant printing layer 30 for imparting scratch resistance, the transparent color printing layer 40 made of a resin having excellent heat resistance, the aluminum deposition layer 50, the adhesion with the aluminum deposition layer 50 The gold and silver foil thermal transfer film according to the present invention is prepared by sequentially laminating the adhesive layer 60 exhibiting the adhesive effect while maintaining.

This is a synthetic rubber roll having a temperature condition of about 130 ℃ on a frame frame or other transfer target to transfer the gold and silver foil thermal transfer paper using scratch resistance. Due to the variety of types, the transfer temperature and transfer speed may be different) and rubbed with a metal scrubber to produce the desired product.

Comparative Example 1

When the first transfer to the existing gold and silver foil thermal transfer paper and the second transfer to the gold and silver foil transfer paper formed in a natural pattern design, the desired gold and silver foil design is formed, but the lower transfer film of the first transfer layer is polished by the heat of the squeezed rubber roll. There is a problem that the value of the product is deteriorated due to extinction or deformation.

Comparative Example 2

After the transfer to the existing gold and silver foil thermal transfer, only the desired part is painted with gold or silver paint to produce the product coated with gold or silver with a double color, but the manufacturing cost is long because the processing time is long and complicated. There is a problem that rises.

As mentioned above, according to the gold and silver foil thermal transfer film using the scratch resistance according to the present invention, by using a material such as a metal scrubber brush in a product of various fields such as a frame frame, furniture, building interior materials, etc. It can give a decorative effect of natural and special gold and silver foil.

In addition, according to the gold and silver foil thermal transfer film using the scratch resistance according to the present invention, in the production of a decoration simply by dry-bonding the thermal transfer film only by heat and pressure through a synthetic rubber roll and rubbing with a metal scrubber to achieve the desired natural effect It is possible not only to form special gold and silver foil patterns, but also to reduce the manufacturing cost by simplifying the work process as well as excellent surface patterns.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims include such modifications and variations as fall within the spirit of the invention.

1 is a cross-sectional view of a gold and silver foil thermal transfer film using scratch resistance according to an embodiment of the present invention.

2 is a flowchart illustrating a method of manufacturing a gold and silver foil thermal transfer film using scratch resistance according to another embodiment of the present invention.

* Explanation of symbols on the main parts of the drawing

10: base film layer

20: release agent layer

30: scratch resistant printed layer

40: transparent color printing layer

50: aluminum deposition layer

60: adhesive layer

Claims (2)

A base film layer (10) made of a matte polyester film or a matte film coated with a matting agent on the polyester film; A release agent layer 20 coated with an acrylic resin and a release agent made of a ketone solvent, an acetate solvent, or an aromatic solvent so as to have peelability on the surface of the base film layer 10; It is coated while forming a pattern on the surface of the release agent layer 20, acrylic resin, acryl urethane resin, UV resin or urethane resin, ketone solvent, acetate solvent or aromatic solvent, dye, pigment and A scratch resistant printed layer 30 made of a curing agent; It is coated on the surface of the scratch-resistant printing layer 30, and made of a dap resin, an acrylic resin, an acryl urethane resin or a nitrocellulose resin, a ketone solvent, an acetate solvent or an aromatic solvent, a dye, and a curing agent. Color print layer 40; An aluminum deposition layer 50 vacuum-deposited with aluminum on the surface of the transparent color printing layer 40; And An adhesive layer 60 coated on a surface of the aluminum deposition layer 50 and coated with an adhesive made of an acrylic resin or a polyester resin and a ketone solvent, an acetate solvent, or an aromatic solvent; Gold and silver foil thermal transfer film using scratch resistance. Forming a base film layer (10) made of a matte polyester film or a matte film coated with a matte on the polyester film (S1); Applying an acrylic resin and a release agent layer 20 made of a ketone solvent, an acetate solvent, or an aromatic solvent to have a peelability on the surface of the base film layer 10 (S2); It is coated while forming a pattern on the surface of the release agent layer 20, A step of printing a scratch-resistant printing layer 30 made of an acrylic resin, an acrylic urethane resin, a UV resin or a urethane resin, a ketone solvent, an acetate solvent or an aromatic solvent, a dye, a pigment, and a curing agent ( S3); It is coated on the surface of the scratch-resistant printing layer 30, and mixed with a dop resin, an acrylic resin, an acryl urethane resin or a nitrocellulose resin, a ketone solvent, an acetate solvent or an aromatic solvent, a dye, and a curing agent. A step S4 of printing the transparent color printing layer 40; Forming an aluminum deposition layer (50) vacuum-deposited with aluminum on the surface of the transparent color printing layer (40); And Coated on the surface of the aluminum deposition layer 50, a step (S6) of applying an adhesive layer 60 composed of an acrylic resin or a polyester resin and a ketone solvent, an acetate solvent or an aromatic solvent; Method of producing a gold and silver foil thermal transfer film using a scratch resistance.