KR20130013929A - Film adhesion type thermal transfer sheet preventing the migration due to the sublimation of dyes - Google Patents

Abstract

PURPOSE: A film adhesion type thermal transfer sheet is provided to prevent dye transfer due to sublimation of a dye. CONSTITUTION: A film adhesion type thermal transfer sheet comprises a release film layer(10), a transfer film layer(30), a synthetic resin film layer(70a), and a hot-melt adhesive layer(50). The transfer film layer is formed at the upper portion of the release film layer. The synthetic resin film layer is adhered on the upper portion of the transfer film layer. The hot-melt adhesive layer is adhered on the upper portion of the synthetic resin film layer. A first adhesive coating layer(70b) is formed between the synthetic resin film layer and the transfer film layer.

Description

Film adhesion type thermal transfer sheet preventing the migration due to the sublimation of dyes}

The present invention relates to a film-attached thermal transfer sheet, and more particularly, to a film-attached thermal transfer sheet capable of preventing dye transfer due to sublimation of dyes.

A film adhesion type thermal transfer sheet is a film transfer type thermal transfer sheet which transfers and transfers a transfer film of a thermal transfer film layer to an object such as a garment such as a uniform by applying heat and pressure to a transfer surface. The sheet is adhered to a garment such as a uniform through thermal compression to transfer the transfer film to form a specific shape.

1 shows the structure of such a film-attached thermal transfer sheet 100.

As shown, a release film layer 10 is provided, and a transfer film layer 30 to be transferred to an object such as clothing is attached thereto, and an adhesive layer 50 is formed on the transfer film layer.

Typically, the release film layer 10 is made of polyethylene terephthalate (PET), the upper transfer film layer 30 is made of polyvinyl chloride (PVC) or polyurethane (PU) material and pigments or dyes It can be combined to have a color.

In addition, the adhesive layer 50 melts when hot pressing is applied using a hot press or the like as a hot melt adhesive layer to exhibit adhesiveness.

The film-attached thermal transfer sheet 100 is rolled and distributed in a roll type, and has a specific shape (for example, 8) designed for the transfer film layer 30 and the hot melt adhesive layer 50. Cut the shape of the ruler). (FIG. 2 (a))

Next, the hot melt adhesive layer 50 is in contact with the transfer surface of the uniform 40, and the thermal film is applied to the release film layer 10 using a heat press or the like. (FIG. 2 (b))

Then, the transfer film layer 30 is attached to the transfer surface of the uniform 40 while the hot melt adhesive layer 50 is melted, and then release the release film layer 10, the eight-shaped shape of the uniform ( Carved in 40). (FIG. 2 (c))

By the way, the film-attached thermal transfer sheet 100 may cause a problem that the transfer film layer 30 is transferred to clothes, etc., and the dye is sublimated while the dye is sublimed after a predetermined time.

When such sublimation dye occurs, the color of the transfer film layer is mixed with the dye of the garment to degrade the quality of the garment.

In order to solve this problem of sublimation dye, a black ink layer containing carbon or a silver ink powder containing ink is formed between the hot melt adhesive layer 50 and the transfer film layer 30. It was able to prevent the sublimation warrior to some extent, but it was not a complete solution.

That is, in this case, no initial dyeing was found, but after a predetermined time, dyeing was found due to the sublimation of the dye, and thus, the conventional method only had a delaying effect.

Meanwhile, the applicant's Republic of Korea Utility Model Registration 20-0414937 shows that the transfer film layer forms a second transfer film layer having a higher brightness and saturation, so that the color of the transfer film is maintained by concealing the color of the transfer surface. This is far from preventing dye transfer.

Therefore, there is a need for a new film-attached thermal transfer sheet that can prevent the dye transfer due to the sublimation of the dye.

The problem to be solved by the present invention is a film-attached thermal transfer sheet that prevents dye transfer due to the sublimation of the dye that can prevent the dye is sublimed by the transfer film to the transfer film after being transferred and attached to the object such as clothing And to provide a method for producing the same.

According to this object of the present invention, the present invention is a release film layer; A transfer film layer formed on the release film layer and transferred to a transfer surface; A synthetic resin film layer adhered to an upper portion of the transfer film layer; It provides a film-attached thermal transfer sheet comprising a hot melt adhesive layer bonded on the synthetic resin film layer.

According to the present invention, a first adhesive coating layer is formed between the synthetic resin film layer and the transfer film layer to adhere them to each other, and a second adhesive layer is adhered to each other between the synthetic resin film layer and the hot melt adhesive layer. An adhesive coating layer is formed, and the first adhesive coating layer and the second adhesive coating layer respectively coat a first adhesive coating liquid and a second adhesive coating liquid including an adhesive, an adhesive resin, and a solvent on the lower and upper surfaces of the synthetic resin film layer. It is preferable to form.

According to the invention, it is preferable that the first adhesive coating liquid comprises a white pigment.

According to the present invention, the synthetic resin film layer may be made of PET.

The invention also provides a release film by coating the release film with a matte coating; Providing a primer-treated transfer film; Providing a synthetic resin film; Coating one surface of the synthetic resin film with a first adhesive coating liquid and coating opposite surfaces thereof with a second adhesive coating liquid to form a first adhesive coating layer and a second adhesive coating layer, respectively; Wherein the first adhesive coating liquid and the second adhesive coating liquid include an adhesive, an adhesive resin, and a solvent; Laminating the release film and the transfer film by thermal compression; The synthetic resin film having the first adhesive coating layer and the second adhesive coating layer formed on the transfer film laminated with the release film is positioned so that the first adhesive coating layer corresponds to the transfer film, and a hot melt adhesive is formed on the upper portion of the second adhesive coating layer. It provides a method for producing a film-attached thermal transfer sheet comprising the step of positioning, and laminating them by thermocompression bonding.

According to the present invention, the synthetic resin film layer is preferably made of PET material.

The present invention also provides a release film layer; A transfer film layer formed on the release film layer and transferred to a transfer surface; A first adhesive coating layer formed on the transfer film layer; A synthetic resin film layer formed on the first adhesive coating layer; A metal deposition layer formed on the synthetic resin film layer; A second adhesive coating layer formed on the metal deposition layer; Here, the first adhesive coating layer is formed by coating a first adhesive coating solution comprising an adhesive, an adhesive resin and a solvent on the lower surface of the synthetic resin film layer, the metal deposition layer is deposited on the upper surface of the synthetic resin film layer The second adhesive coating layer is formed by coating a second adhesive coating liquid including an adhesive, an adhesive resin, and a solvent on an upper surface of the metal deposition layer; It provides a film adhesive thermal transfer sheet comprising a hot melt adhesive layer formed on top of the second adhesive coating layer.

According to the invention, it is preferable that the first adhesive coating liquid comprises a white pigment.

According to the invention, the metal deposition layer is an aluminum deposition layer and the synthetic resin film layer is preferably made of PET material.

The invention also provides a release film by coating the release film with a matte coating; Providing a primer-treated transfer film; Providing a synthetic resin film; One surface of the synthetic resin film is coated with a first adhesive coating liquid to form a first adhesive coating layer, the opposite surface is deposited with a metal to form a metal deposition layer, and the top surface of the metal deposition layer is coated with a second adhesive coating liquid. Forming a second adhesive coating layer; Wherein the first adhesive coating liquid and the second adhesive coating liquid include an adhesive, an adhesive resin, and a solvent; Laminating the release film and the transfer film by thermal compression; Position the synthetic resin film having the first adhesive coating layer, the metal deposition layer, and the second adhesive coating layer on the transfer film laminated with the release film so that the first adhesive coating layer corresponds to the transfer film, and the upper portion of the second adhesive coating layer. There is provided a method for producing a film-attached thermal transfer sheet comprising the step of placing a hot melt adhesive on, and laminating them by thermocompression bonding.

According to the invention, the metal deposition is aluminum deposition and the synthetic resin film layer is preferably made of PET material.

The film-attached thermal transfer sheet according to the present invention, when the transfer film is transferred and attached to clothes, such that the synthetic resin film having an adhesive coating layer or a deposition layer formed on the lower surface thereof to prevent disinfection due to dye sublimation of the clothing is transferred together; As a result, it is possible to prevent dye transfer by blocking dyes sublimed from clothing and the like.

1 is a view showing the structure of a conventional film-attached thermal transfer sheet.
2 is a view showing a process of carving a specific shape on a uniform using a conventional film-attached thermal transfer sheet.
Figure 3 is a view showing the structure of one embodiment of a film-attached thermal transfer sheet according to the present invention.
Figure 4 is a view showing the structure of another embodiment of the film-attached thermal transfer sheet according to the present invention.

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

First, Figure 3 is a view showing the structure of one embodiment of a film-attached thermal transfer sheet according to the present invention.

As shown, the film-attached thermal transfer sheet 1000a according to the present invention is a release film layer 10, a transfer film layer 30 to be transferred to the transfer surface formed on the upper, the agent formed on the A first adhesive coating layer 70b, a synthetic resin film layer 70a formed on the first adhesive coating layer 70b, a second adhesive coating layer 70c formed on the synthetic resin film layer 70a, and It comprises a hot melt adhesive layer 50 formed on the second adhesive coating layer 70c.

According to the present invention, the release film layer 10 may be used a variety of synthetic resin, for example, polycarbonate, polypropylene, polyethylene terephthalate, or polyvinyl chloride may be used, in particular polyethylene terephthalate (PET) Can be used.

The release film layer 10 has a suitable thickness of 50 μm to 150 μm, and more preferably 50 μm to 100 μm.

If the thickness is less than 50 µm, the mechanical properties and the heat resistance of the film-attached thermal transfer sheet become insufficient, and if the thickness exceeds 150 µm, the thickness becomes so thick that it is not preferable for storing the thermal transfer sheet.

The release film layer 10 is preferably coated with a matte coating agent, the matte coating agent that can be used in the present invention may be composed of an epoxy resin, a curing agent and a matting agent, each of the specific types and ratios are suitably according to those skilled in the art Can be selected and adjusted.

According to the present invention, the transfer film layer 30 is formed on top of the release film layer, and as a film layer transferred from the transfer surface, any synthetic resin known in the art can be used as long as it can be used as such a film layer. There is preferably polyurethane (PU) or polyvinyl chloride (PVC).

In particular, the transfer film made of polyurethane has a softer property when transferred to a transfer surface, and is more preferable when it is transferred to a fabric, for example, a uniform.

The transfer film layer is a primer treatment, it is preferable to use a primer consisting of rosin, ester gum, aromatic solvent, solvent.

According to the present invention, the first adhesive coating layer 70b formed on the transfer film layer 30, the synthetic resin film layer 70a formed on the first adhesive coating layer 70b, and the synthetic resin The second adhesive coating layer 70c formed on the top of the film layer 70a forms the bleed-resistant film layer 70, which is transferred to the transfer surface together with the transfer film layer 30 so that the dye sublimes from clothing or the like. Will prevent you from coming up.

As shown in FIG. 3, the dye-proof film layer 70 includes a synthetic resin film 70a, a first adhesive coating layer 70b coated on one surface of the synthetic resin film 70a with a first adhesive coating liquid, and It comprises a second adhesive coating layer 70c coated on the opposite surface with a second adhesive coating liquid.

The synthetic resin film 70a is a film made of synthetic resin, preferably polyethylene terephthalate (PET) may be used.

The thickness of the synthetic resin film 70a is suitably 4 µm to 15 µm, and more preferably 4.5 µm to 12 µm. When the thickness is less than 4 µm, the mechanical properties of the synthetic resin film layer are insufficient, and when the thickness exceeds 15 µm, the thickness becomes so thick that it is not preferable for storing the thermal transfer sheet.

The first adhesive coating layer 70b is a layer formed by coating a first adhesive coating liquid on one surface of the synthetic resin film, and preferably includes a white pigment. In this case, the first adhesive coating liquid consists of an adhesive, an adhesive polyester resin, a white pigment, a solvent, and a pigment diluent. As an example, it consists of VMCH, adhesive polyester resin, a saccharide pigment, methyl ethyl ketone, and an anoxon (cyclohexanone).

The first adhesive coating layer is also referred to as a white layer including a white pigment, and the first adhesive coating layer has a white color to make the color of the transfer layer more clearly.

The second adhesive coating layer 70c is a layer formed by coating a second adhesive coating liquid on the opposite surface of the synthetic resin film 70a. The second adhesive coating liquid is made of a pigment, an adhesive polyester resin, an aromatic solvent, and a solvent. As an example, it consists of a glycolytic pigment, an aerosol, an adhesive polyester resin, toluene, methyl isobutyl ketone and methyl ethyl ketone.

The method of coating the first adhesive coating liquid and the second adhesive coating liquid on the synthetic resin may be used by selecting various coating methods known in the art, in consideration of physical properties and economical aspects thereof, and in the present invention, It is not limited.

The first adhesive coating layer 70b coated with the first adhesive coating liquid is formed on one surface of the synthetic resin film 70a and the second adhesive coating layer 70c coated with the second adhesive coating liquid is formed on the opposite side thereof. The layer 70 may be formed of a total of three layers, and may have an effect of preventing bleeding due to dye sublimation from clothing or the like in three steps.

That is, the dye transfer phenomenon due to dye sublimation from clothing is first blocked first by the second adhesive coating layer 70c, secondarily by the synthetic resin film 70a, and third blocking by the first adhesive coating layer 70b. It is possible to prevent the dye transfer phenomenon due to dye sublimation.

Figure 4 shows another example (1000b) of the film-attached thermal transfer sheet according to the present invention, as shown, is formed on the release film layer 10 and the release film layer 10 as the transfer surface A transfer film layer 30 transferred to the transfer film layer, a first adhesive coating layer 70b formed on the transfer film layer, a synthetic resin film layer 70a formed on the first adhesive coating layer 70b, and The metal deposition layer 70d formed on the synthetic resin film layer 70a, the second adhesive coating layer 70e formed on the metal deposition layer 70d, and the second adhesive coating layer 70e. It comprises a hot melt adhesive layer 50 formed on the top.

According to the present invention, the first adhesive coating layer 70b formed on the transfer film layer 30, the synthetic resin film layer 70a formed on the first adhesive coating layer 70b, and the synthetic resin The metal deposition layer 70d formed on the film layer 70a and the second adhesive coating layer 70e formed on the metal deposition layer 70d form the anti-deposition film layer 700. It is transferred to the transfer surface together with the transfer film layer 30 to prevent the dye from being sublimated up from the garment.

The film-attached thermal transfer sheet 1000b is different from the anti-deposition film layer 700 in comparison with the film-attached thermal transfer sheet 1000a described with reference to FIG. 3.

The decontamination prevention film layer 700 is a synthetic resin film (70a), and the first adhesive coating layer (70b) coated with a first adhesive coating liquid on one surface of the synthetic resin film (70a). An aluminum deposition layer 70d formed by depositing aluminum (Al) on the opposite side thereof and a second adhesive coating layer 70e coated with a second adhesive coating liquid on the aluminum deposition layer 70d are included.

The synthetic resin film and the first adhesive coating liquid are as described in the embodiment described with reference to FIG. 3 and preferably include a white pigment.

The metal deposition layer 70d may be an aluminum deposition layer. In this case, the metal deposition layer 70d may be formed by depositing aluminum by a method well known in the art.

The second adhesive coating layer 70e is a layer formed by coating the second adhesive coating liquid on the aluminum deposition layer 70d on the opposite side of the synthetic resin film 70a, and is made of an adhesive polyester resin, an aromatic solvent, and a solvent. As an example, it consists of an adhesive polyester resin, toluene and methyl ethyl ketone.

The decontamination prevention film layer 700 is formed with a first adhesive coating layer 70b coated with a first adhesive coating liquid on one surface of the synthetic resin film 70a, by depositing aluminum on the opposite side of the aluminum deposition layer 70d. After the formation of the second adhesive coating layer 70e coated with a second adhesive coating liquid thereon formed of a total of four layers to prevent the dye transfer phenomenon due to dye sublimation from clothing, etc. in four steps.

That is, the dye transfer phenomenon due to dye sublimation from clothes is first blocked by the second coating layer 70e, second by the aluminum deposition layer 70d, and third blocked by the synthetic resin film 70a, The fourth adhesive is blocked by the fourth adhesive layer 70b to prevent the dye transfer phenomenon due to dye sublimation.

According to the present invention, the hot melt adhesive layer 50 is for bonding with clothing by heat, the hot melt adhesive can be used for all hot melt adhesives that can be used in the art, the present invention is not particularly limited thereto.

In addition, according to another embodiment of the present invention, the present invention is a method for producing a film-attached thermal transfer sheet,

Coating the release film with a matte coating to provide a release film;

Providing a primer-treated transfer film;

Providing a synthetic resin film;

Coating one surface of the synthetic resin film with a first adhesive coating liquid and coating opposite surfaces thereof with a second adhesive coating liquid to form a first adhesive coating layer and a second adhesive coating layer, respectively; Wherein the first adhesive coating liquid and the second adhesive coating liquid include an adhesive, an adhesive resin, and a solvent;

Laminating the release film and the transfer film by thermal compression;

The synthetic resin film having the first adhesive coating layer and the second adhesive coating layer formed on the transfer film laminated with the release film is positioned so that the first adhesive coating layer corresponds to the transfer film, and a hot melt adhesive is formed on the upper portion of the second adhesive coating layer. It provides a method for producing a film-attached thermal transfer sheet comprising the step of positioning, and laminating them by thermocompression bonding.

In addition, according to another embodiment of the present invention, the present invention is a method for producing a film-attached thermal transfer sheet,

Coating the release film with a matte coating to provide a release film;

Providing a primer-treated transfer film;

Providing a synthetic resin film;

One surface of the synthetic resin film is coated with a first adhesive coating liquid to form a first adhesive coating layer, the opposite surface is deposited with a metal to form a metal deposition layer, and the top surface of the metal deposition layer is coated with a second adhesive coating liquid. Forming a second adhesive coating layer; Wherein the first adhesive coating liquid and the second adhesive coating liquid include an adhesive, an adhesive resin, and a solvent;

Laminating the release film and the transfer film by thermal compression;

Position the synthetic resin film having the first adhesive coating layer, the metal deposition layer, and the second adhesive coating layer on the transfer film laminated with the release film so that the first adhesive coating layer corresponds to the transfer film, and the upper portion of the second adhesive coating layer. There is provided a method for producing a film-attached thermal transfer sheet comprising the step of placing a hot melt adhesive on, and laminating them by thermocompression bonding.

The film-attached thermal transfer sheet (1000a) (1000b) formed in this way may be rolled and distributed in a roll type, with respect to the anti-deposition film layer (70) (700), transfer film layer (30) and hot melt adhesive A specific shape designed for layer 50 is formed.

Next, the hot melt adhesive layer 50 is brought into contact with the transfer surface of the garment and the like, and thermocompression is applied to the release film layer 10 using a heat press or the like.

Then, the transfer film layer 30 is attached to the transfer surface of the garment, such as the dye-resistant film layer 70, 700 while melting the hot melt adhesive layer, and then release the release film layer 10, Specific shapes are engraved on the garment.

The following describes an embodiment according to the present invention.

Example

Example 1: Preparation of film-attached thermal transfer sheet of the present invention 1

(1) Preparation of Release Film 10:

As the release film 10, a 100 μm-thick polyethylene terephthalate (PET) film was coated with a matte coating by a rolling method. The components of the matte coating used were as follows:

ingredient weight Epoxy resin 600 g Urea melamine (by Cheil Hitech) 380 g Silsia (silysia 350; courtesy of Fuji-Slysia Chemical LTI) 120 g

(2) Preparation of Transfer Film 30:

A primer treatment was performed on a transfer film made of polyurethane (PU) or polyvinyl chloride (PVC). The components of the primers used are as follows:

ingredient weight Rosin 250 g Ester gum 70 g toluene 500 g Methyl Isobutyl Ketone (MIBK) (Solvent) 150 g

(3) Preparation of Synthetic Resin Film (70):

Prepare a polyethylene terephthalate (PET) film of 4.5 to 12 ㎛, one surface is coated with a first adhesive coating solution of Table 3, the other side is coated with a second adhesive coating solution of Table 4 of the PET film 70a The first adhesive coating layer 70b and the second adhesive coating layer 70c are formed on both surfaces thereof, respectively. Coating was carried out using a rolling method using a common rolling coater.

ingredient weight VMCH (adhesive) (by Dow Chemical, USA) 300 g Adhesive polyester resin 100 g Fat sugar pigment (white) 100 g Methyl Ethyl Ketone (MEK) (Solvent) 1,500 g Anon (cyclohexanone) (pigment diluent) 200 g

ingredient weight Fat sugar pigment 40 g Aerosol 30 g Adhesive polyester resin 200 g toluene 500 g Methyl Isobutyl Ketone (MIBK) (Solvent) 100 g Methyl Ethyl Ketone (MEK) (Solvent) 300 g

(4) lamination:

The matte coated release film 10 and the primed transfer film 30 were laminated by thermocompression bonding. Thereafter, the PET film 70a on which the first and second adhesive coating layers 70b and 70c are formed is positioned between the transfer film 30 and the hot melt adhesive film 50 laminated with the release film 10. It was then laminated by thermocompression bonding. In this case, in the adhesive coated PET film 70a, the first adhesive coating layer 70b is combined with the transfer film 30 laminated with the release film 10, and the second adhesive coating layer 70c is the hot melt. It was combined with the adhesive film 50.

Thus, the film-attached thermal transfer sheet 1000a of the present invention was completed.

Example 2 Preparation of Film-attached Thermal Transfer Sheet of the Present Invention 2

(1) Preparation of Release Film 10:

A release film was prepared as in Example 1 (1).

(2) Preparation of Transfer Film 30:

The transfer film was primer-treated as in Example 1 (2).

(3) Preparation of Synthetic Resin Film (700):

After preparing a polyethylene terephthalate (PET) film of 4.5 to 12 ㎛, one surface is coated with the first adhesive coating solution of Table 3, the other side is Al deposited, and then coated with the second adhesive coating solution of Table 5 thereon It was.

ingredient weight Adhesive polyester resin 200 g toluene 500 g Methyl Ethyl Ketone (Solvent) 300 g

(4) lamination:

The matte coated release film 10 and the primed transfer film 30 were laminated by thermocompression bonding. Subsequently, the release film is a PET film 70a having the first adhesive coating layer 70b formed on one surface thereof and the aluminum deposition layer 70d on the opposite surface formed thereon, and the second adhesive coating layer 70e formed on the upper surface thereof. (10) and the laminated between the transfer film 30 and the hot melt adhesive film 50 was laminated by thermocompression bonding.

In this case, the first adhesive coating layer 70b is bonded to the transfer film 30 laminated with the release film 10, and the second adhesive coating layer 70e is bonded to the hot melt adhesive film 50. .

Thus, the film-attached thermal transfer sheet 1000b of the present invention was completed.

Experimental Example 1: Prevention of Disinfection by Dye Sublimation

In the thermal transfer sheets 1000a and 1000b according to the first and second exemplary embodiments of the present invention, the transfer film layer 30, the dye-proof film layer 70, 700, and the hot melt adhesive layer 50 form an eight-shaped design. After the formation, the hot melt adhesive layer 50 was placed in contact with the uniform, and then thermally compressed using a heat press, and then the release film 10 was removed so that the eight-shaped shape was engraved on the uniform.

It was visually inspected whether otitis occurred in units of 3 days, 1 month, 3 months and 6 months. The results are shown in Table 6 below:

3 days 1 month 3 months 6 months Example 1 No dye No dye No dye No dye Example 2 No dye No dye No dye No dye

Thus, the film-attached thermal transfer sheet according to the present invention, when the transfer film is transferred and attached to clothes such as uniforms, the anti-decontamination film layers 70 and 700 are transferred together from the bar, clothing, and the like. The dye sublimation can be blocked to prevent disinfection.

1000a, 1000b: film attached thermal transfer sheet
10: release film layer
30: transfer film layer
50: hot melt adhesive layer
70, 700: dye transfer prevention film layer
70a: synthetic film
70b: first adhesive coating layer
70c, 70e: second adhesive coating layer
70d: aluminum deposition layer

Claims (11)

(a) a release film layer;
(b) a transfer film layer formed on the release film layer and transferred to a transfer surface;
(c) a synthetic resin film layer adhered to an upper portion of the transfer film layer;
(d) a film-attached thermal transfer sheet comprising a hot melt adhesive layer bonded on the synthetic resin film layer. The method of claim 1,
A first adhesive coating layer is formed between the synthetic resin film layer and the transfer film layer, and a second adhesive coating layer is formed between the synthetic resin film layer and the hot melt adhesive layer. The first adhesive coating layer and the second adhesive coating layer are formed by coating a first adhesive coating liquid and a second adhesive coating liquid including an adhesive, an adhesive resin, and a solvent on the bottom and top surfaces of the synthetic resin film layer, respectively. Film-attached thermal transfer sheet to do. The method of claim 2,
The film adhesive thermal transfer sheet, characterized in that the first adhesive coating liquid comprises a white pigment. The method according to claim 2 or 3,
The synthetic resin film layer is a film-attached thermal transfer sheet, characterized in that made of PET material. (a) coating the release film with a matte coating to provide a release film;
(b) providing a primer-treated transfer film;
(c) providing a synthetic resin film;
(d) coating one surface of the synthetic resin film with a first adhesive coating liquid and coating opposite sides thereof with a second adhesive coating liquid to form a first adhesive coating layer and a second adhesive coating layer, respectively; Wherein the first adhesive coating liquid and the second adhesive coating liquid include an adhesive, an adhesive resin, and a solvent;
(e) thermo-compressing and laminating the release film and the transfer film;
(f) placing a synthetic resin film having the first adhesive coating layer and the second adhesive coating layer on the transfer film laminated with the release film so that the first adhesive coating layer corresponds to the transfer film, and the upper portion of the second adhesive coating layer. A method for producing a film-attached thermal transfer sheet comprising placing a hot melt adhesive on the sheet and laminating them by thermal compression. The method of claim 5,
The synthetic resin film layer is a film-attached thermal transfer sheet, characterized in that made of PET material. (a) a release film layer;
(b) a transfer film layer formed on the release film layer and transferred to a transfer surface;
(c) a first adhesive coating layer formed on the transfer film layer;
(d) a synthetic resin film layer formed on the first adhesive coating layer;
(e) a metal deposition layer formed on the synthetic resin film layer;
(f) a second adhesive coating layer formed on the metal deposition layer; Here, the first adhesive coating layer is formed by coating a first adhesive coating solution comprising an adhesive, an adhesive resin and a solvent on the lower surface of the synthetic resin film layer, the metal deposition layer is deposited on the upper surface of the synthetic resin film layer The second adhesive coating layer is formed by coating a second adhesive coating liquid including an adhesive, an adhesive resin, and a solvent on an upper surface of the metal deposition layer;
(g) A film-attached thermal transfer sheet comprising a hot melt adhesive layer formed on top of the second adhesive coating layer. The method of claim 7, wherein
The film adhesive thermal transfer sheet, characterized in that the first adhesive coating liquid comprises a white pigment. 9. The method according to claim 7 or 8,
The metal deposition layer is an aluminum deposition layer and the synthetic resin film layer film-attached thermal transfer sheet, characterized in that made of a PET material. (a) coating the release film with a matte coating to provide a release film;
(b) providing a primer-treated transfer film;
(c) providing a synthetic resin film;
(d) coating one surface of the synthetic resin film with a first adhesive coating solution to form a first adhesive coating layer, and depositing a metal deposition layer by depositing an opposite side thereof with a metal, and forming a metal deposition layer on the top surface of the metal deposition layer. Coating to form a second adhesive coating layer; Wherein the first adhesive coating liquid and the second adhesive coating liquid include an adhesive, an adhesive resin, and a solvent;
(e) thermo-compressing and laminating the release film and the transfer film;
(f) placing a synthetic resin film having the first adhesive coating layer, the metal deposition layer, and the second adhesive coating layer on the transfer film laminated with the release film such that the first adhesive coating layer corresponds to the transfer film, and the second adhesive layer. Placing a hot melt adhesive on top of the coating layer, and laminating them by thermocompression bonding. The method of claim 10,
The metal deposition is aluminum deposition and the synthetic resin film layer is a method for producing a film-attached thermal transfer sheet, characterized in that made of a PET material.

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