KR20230001797A - Structure of effervescent metal heat transfer film and method for making the same - Google Patents

Abstract

An effervescent metal thermal transfer film (5000) according to the present invention has: a hot melt adhesive layer (120); an effervescent layer (130) of the upper part of the hot melt adhesive layer (120); an adhesive layer (230) of the upper part of the effervescent layer (130); a metal layer (220) of the upper part of the adhesive layer (230); and a release film layer (300) on which the upper part of the metal layer (220) is subjected to reattachable adhesive treatment.

Description

Structure of effervescent metal heat transfer film and method for making the same}

The present invention relates to the structure of a foamable metal heat transfer film and its manufacturing method, and more particularly, to a metal layer such as gold or silver foil, which has a foam layer, and foaming property in which the metal layer forms a three-dimensional effect by foaming the foam layer during thermal transfer. It relates to the structure of a metal heat transfer film and its manufacturing method.

A metal thermal transfer film having a metal layer such as gold or silver foil is already commercially available.

As shown in FIG. 1, the metal thermal transfer film 100 includes a release film 12 that can be released and removed, a metal layer 30 formed on top of the release film 12, and the metal layer 30 It is made of a hot melt adhesive layer 40 on top of.

The release film 12 is composed of a base film layer 10 made of PET or the like and a release layer 20 on top of the base film layer 10 .

The metal layer 30 is formed by depositing gold or silver on the release film 12 in the form of a thin foil, or depositing aluminum after coating and curing a pigment-added resin to produce a sense of beauty of gold or silver foil can be made by

This metal heat transfer film 100 is cut with a cutting machine such as a cutting plotter to make a desired shape, and it is adhered to an adherend such as clothing or a bag through the hot melt adhesive layer 40 and released. The film 12 is removed.

With respect to the metal thermal transfer film 100, it would be preferable if the metal layer was foamed to have a three-dimensional effect.

That is, it would be preferable to form a foam layer that foams when heat is applied to the metal layer 30 of the metal thermal transfer film 100, so that the foam layer foams and has a three-dimensional effect when heat-pressing for thermal transfer.

To this end, as shown in FIG. 2, an expandable metal thermal transfer film 200 was formed.

This provides a release film 12 composed of a base film 10, which is a PET film, and a release layer 20 thereon, and forms the metal layer 30 as described above on the top, and on the metal layer 30 A foam layer 35 is formed, and a hot melt adhesive layer 40 is formed on the foam layer 35.

This is according to the structure and manufacturing method of a conventional expandable thermal transfer film. For example, Korean Patent Laid-open Publication No. 10-2011-0058176 shows that an expandable thermal transfer film is prepared by forming a foam layer on top of a print layer for foaming of the print layer.

However, when the foamable metal thermal transfer film 200 is manufactured according to the above method, after cutting into a desired shape, a problem occurs in that the foam layer 35 bursts when transfer is attempted with a hot press.

Therefore, it is necessary to solve these problems. That is, there is a need for a structure of a foamable metal thermal transfer film and a method for manufacturing the same, which do not cause a problem of bursting of the foam layer when thermal pressing is performed for thermal transfer.

An object of the present invention is to provide a structure of an expandable metal heat transfer film and a method for manufacturing the same, which do not cause a problem of bursting of the foam layer when thermal transfer is attempted by a heat press.

the present invention

(a) providing a first sheet having a first release film layer, a hot melt adhesive layer on top of the first release film layer, and a foam layer on top of the hot melt adhesive layer;

(b) a second sheet providing step of providing a second sheet having a second release film, a metal layer formed on the second release film, and an adhesive layer formed on the metal layer;

(c) a first sheet and a second sheet for laminating the first sheet and the second sheet so that the foam layer of the first sheet and the adhesive layer of the second sheet are attached to each other. A step of laminating sheets; Here, the first sheet and the second sheet are mutually laminated to form a laminated sheet,

(d) a release film removal step of releasing and removing the first release film and the second release film of the laminate sheet, respectively;

(e) with respect to the laminated sheet from which the first release film and the second release film are removed, a release film adhesion step of adhering a release film subjected to reattachable adhesion treatment to the top of the metal layer, characterized in that it comprises A method for manufacturing an expandable metal heat transfer film is provided.

According to the present invention, in the step of providing the second sheet, the upper metal layer of the second release film is preferably gold or silver foil.

According to an embodiment of the present invention, the laminating step of the first sheet and the second sheet is made by laminating the second sheet to the first sheet.

According to an embodiment of the present invention, the thickness of the second release film layer is between 15 μm and 30 μm, the thickness of the repositionable adhesively treated release film layer is between 50 μm and 150 μm, and the adhesive layer The thickness is preferably between 5 μm and 15 μm.

According to the present invention, the prepared expandable metal thermal transfer film is cut into a desired shape with a cutting machine and then transferred to an adherend using a heat press to be used.

The present invention also

(a) a hot melt adhesive layer;

(b) a foam layer on top of the hot melt adhesive layer;

(c) an adhesive layer on top of the foam layer;

(d) a metal layer on top of the adhesive layer;

(e) It provides a foamable metal thermal transfer film comprising a release film layer subjected to reattachable adhesive treatment on the top of the metal layer.

According to an embodiment of the present invention, the thickness of the release film layer subjected to the repositionable adhesive treatment is between 50 μm and 150 μm, and the thickness of the adhesive layer is preferably between 5 μm and 15 μm.

In the foamable metal heat transfer film provided according to the present invention, when heat-pressing for heat transfer, the foam layer does not burst, and the metal layer is not easily damaged, so durability is increased.

1 is a view showing the structure of a conventional metal thermal transfer film in which a metal layer such as gold or silver foil is formed;
2 is a view showing the structure of a conventional expandable metal thermal transfer film;
3 and 4 are views showing a manufacturing method of an expandable metal thermal transfer film according to the present invention.

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

Referring to FIGS. 3 and 4, a process of manufacturing the foamed metal thermal transfer film 5000 according to the present invention will be described.

According to the present invention, first, a first sheet 1000 is provided. (Fig. 3 (a))

The first sheet 1000 includes a first release film layer 110, a hot melt adhesive layer 120 on top of the first release film layer 110, and a foam layer 130 on top of the hot melt adhesive layer 120. will have

The first release film layer 110 is composed of a base film made of PET, BOPP, paper, etc., and a release layer formed by applying a release agent thereon.

A hot melt adhesive layer 120 is formed by laminating a hot melt adhesive on the release film layer 110 .

The foam layer 130 is formed on the top of the hot melt adhesive layer 120. For example, it mixes a certain amount of solvents used in ink with a resin such as urethane or nylon, and foams the foamed capsules into a diluted solution within 20%. It is formed by applying it diluted and drying it.

In this way, the first sheet 1000 is manufactured and provided.

Next, according to the present invention, a second sheet 2000 is provided. (Fig. 3 (b))

The second sheet 2000 includes a second release film layer 210, a metal layer 220 formed on the second release film layer 210, and an adhesive layer formed on the metal layer 220 ( 230).

The second release film layer 210 is composed of a base film made of PET, BOPP, paper, etc., and a release layer formed by applying a release agent to the base film, which is similar to the case of the first release film 110. same.

A metal layer 220 is formed on the second release film 210 .

The metal layer 220, like the metal layer 30 of the metal thermal transfer film 100 in which a metal layer such as a conventional gold or silver foil is formed in FIG. 1, is in the form of a thin foil. It is made by depositing or the like, or by applying a pigment-added resin to the release film 210 and curing it, and then depositing aluminum to produce an aesthetic feeling of gold or silver foil.

In the embodiment of the present invention, the second release film 210 has a thickness of about 15 μm to 30 μm, and the first release film has a thickness of about 50 μm to 150 μm.

This is mainly due to the fact that the metal layer 220 is formed through deposition of gold, silver, or aluminum. That is, in order to obtain maximum deposition efficiency in a given vacuum space, the thickness of the second release film 210 is reduced.

An adhesive layer 230 is formed on top of the metal layer 220 thus formed.

The adhesive layer 230 is formed by applying and curing a two-component polyurethane adhesive, the thickness of which is 5 μm to 15 μm.

In this way, the second sheet 2000 according to the present invention is manufactured and provided.

Next, the first sheet 1000 and the second sheet 2000 are laminated to provide a laminated sheet 3000 according to the present invention. (Fig. 3 (c) and (d))

The first sheet 1000 and the second sheet 2000 are laminated so that the foam layer 130 of the first sheet 1000 and the adhesive layer 230 of the second sheet are attached to each other. Is made by laminating the second sheet 2000 to the first sheet 1000.

Accordingly, a laminated sheet 3000 as shown in (d) of FIG. 3 is provided.

As shown, the laminate sheet 3000 includes a first release film 110, a hot melt adhesive layer 120 on top of the first release film 110, and a foam layer 130 on top of the hot melt adhesive layer 120. ) and the adhesive layer 230 on top of the foam layer 130, the metal layer 220 on top of the adhesive layer 230, and the second release film layer 210 on top of the metal layer 220.

The first release film 110 and the second release film 210 are released and removed from the laminated sheet 3000, respectively. (Fig. 4(e))

In this way, as shown in (f) of FIG. 4, a laminated sheet 4000 from which the release film is removed is provided.

Next, according to the present invention, the release film 300 subjected to the reattachable adhesive treatment is adhered to the metal layer 220 of the laminated sheet 4000 from which the release film has been removed. (Fig. 4(g))

The release film 300 subjected to the removal adhesive treatment refers to a release film 310 such as PET or BOPP paper in which a removable adhesive layer 320 is formed.

Thus, the release film 300 subjected to the reattachable adhesive treatment is adhered to the metal layer 220 of the laminated sheet 4000, so that the release film 300 can be removed from the laminated sheet 400 when necessary. do.

In this way, the release film 300 subjected to the reattachable adhesive treatment is adhered to the metal layer 220 with respect to the laminated sheet 4000 from which the release films 110 and 210 are removed, and the foamable metal heat transfer film according to the present invention is adhered. (5000) is completed. (Fig. 4 (h))

The foamable metal thermal transfer film 5000 includes a hot melt adhesive layer 120, a foam layer 130 on top of the hot melt adhesive layer 120, an adhesive layer 230 on top of the foam layer 130, and the adhesive layer. It has a metal layer 220 on top of 230, and a release film layer 300 on which the metal layer 220 is reattachable and adhesively treated.

The expandable metal thermal transfer film 5000 according to the present invention is cut into a desired shape with a cutting machine such as a cutting plotter, transferred to an adherend such as clothing by a heat press, and then reattachable and adhesively treated. The release film layer 300 is removed and removed.

In the present invention, the reason why the second release film 210 is removed and the release film 300 subjected to the reattachable adhesive treatment is adhered to the metal layer 220 is that the second release film 210 is thin and has high peel strength. This is because it is weak and difficult to cut into the desired shape with a cutting machine.

Therefore, in the present invention, the release film layer 300 subjected to the repositionable adhesive treatment needs to have a sufficient thickness, and according to the present invention, it is preferable to have a thickness of about 50 μm to 150 μm.

According to the present invention, the following effects are obtained.

First, the foamed metal heat transfer film 5000 according to the present invention does not cause a problem in which the foam layer 130 bursts when a heat press is applied to adhere to an adherend.

Second, the foamed metal heat transfer film 5000 according to the present invention is not easily damaged because the metal layer 230 is supported by the adhesive layer 220. That is, it does not easily resemble or resemble by washing, and thus durability increases.

As described above, the present invention provides a structure and manufacturing method of an expandable metal thermal transfer film in which the foam layer does not burst when thermal transfer pressing is attempted and durability is increased by reducing damage caused by use.

1000: first sheet
2000: second seat
110: first release film layer
120: hot melt adhesive layer
130: foam layer
210: second release film layer
220: metal layer
230: adhesive layer
3000: laminated sheet
4000: laminated sheet with release film removed
5000: Expandable metal thermal transfer film

Claims (7)

(a) providing a first sheet having a first release film layer, a hot melt adhesive layer on top of the first release film layer, and a foam layer on top of the hot melt adhesive layer;
(b) a second sheet providing step of providing a second sheet having a second release film, a metal layer formed on the second release film, and an adhesive layer formed on the metal layer;
(c) a first sheet and a second sheet for laminating the first sheet and the second sheet so that the foam layer of the first sheet and the adhesive layer of the second sheet are attached to each other. A step of laminating sheets; Here, the first sheet and the second sheet are mutually laminated to form a laminated sheet,
(d) a release film removal step of releasing and removing the first release film and the second release film of the laminate sheet, respectively;
(e) with respect to the laminated sheet from which the first release film and the second release film are removed, a release film adhesion step of adhering a release film subjected to reattachable adhesion treatment to the top of the metal layer, characterized in that it comprises Method for manufacturing an expandable metal thermal transfer film. According to claim 1,
In the step of providing the second sheet, the metal layer on the top of the second release film is a gold foil or silver foil. According to claim 2,
The method of manufacturing a foamable metal thermal transfer film, characterized in that the laminating step of the first sheet and the second sheet is formed by laminating the second sheet to the first sheet. According to claim 3,
The thickness of the second release film layer is between 15 μm and 30 μm, the thickness of the repositionable adhesively treated release film layer is between 50 μm and 150 μm, and the thickness of the adhesive layer is between 5 μm and 15 μm. Method for producing a foamable metal thermal transfer film, characterized in that. According to claim 4,
The manufacturing method of the foamable metal heat transfer film, characterized in that the prepared foamed metal heat transfer film is cut into a desired shape by a cutting machine and then transferred to an adherend by a heat press. (a) a hot melt adhesive layer;
(b) a foam layer on top of the hot melt adhesive layer;
(c) an adhesive layer on top of the foam layer;
(d) a metal layer on top of the adhesive layer;
(e) A foamable metal heat transfer film comprising a release film layer on which the upper portion of the metal layer is reattachable and adhesively treated. According to claim 6,
The thickness of the release film layer subjected to the reattachable adhesive treatment is between 50 μm and 150 μm, and the thickness of the adhesive layer is between 5 μm and 15 μm.

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