KR200414937Y1 - Film adhesion type heat transfer film - Google Patents

Abstract

The present invention is the base layer 10; A transfer film layer 300 formed on the base layer 10 and transferred to the transfer surface; A first transfer film layer 300a which originally forms a transfer color; The transfer film layer formed on the first transfer film 300a and including a second transfer film layer 300b having the same color as that of the first transfer film 300a and having a higher brightness and saturation. 300; It characterized in that it comprises an adhesive layer 50 on the second transfer film layer (300b).

Transfer, film adhesion, color

Description

Film adhesion type heat transfer film

1 is a view showing the structure of a conventional film-attached thermal transfer film;

2 is a view showing the structure of a film-attached thermal transfer film according to the present invention;

3 is a view showing a process of engraving a specific shape on the uniform using a film-attached thermal transfer film according to the present invention.

<Description of Major Symbols in Drawing>

1000: film-attached thermal transfer film 10: base layer

300a: first transfer film layer 300b: second transfer film layer

50: adhesive layer

The present invention relates to a thermal transfer film, and more particularly, to a film-attached thermal transfer film for transferring the transfer film layer of the thermal transfer film by applying heat and pressure to the transfer surface. The present invention provides a structure of the thermal transfer film for the film-attached thermal transfer film so that the color of the transfer surface does not shine in the transfer shape.

There is a film-attached thermal transfer film that allows a transfer film to be adhered to a garment such as a uniform through thermocompression bonding to form a specific shape.

Figure 1 (a) shows the structure of this film-attached thermal transfer film 100.

As shown, the base layer 10 is provided and a transfer film layer 30 to be transferred to the transfer surface is formed thereon, and the adhesive layer 50 is formed thereon again. Typically, the base layer 10 is made of PET, and the upper transfer film layer 30 is made of PVC to mix a pigment to form a specific color. In addition, the adhesive layer 50 is a hot melt (hot melt) is melted to have an adhesive property when applying heat compression using a heat press or the like.

The film-attached thermal transfer film 100 is made of a roll type, and for this, cutting a specific shape (for example, 8-character shape) designed for the transfer film layer 30 and the adhesive layer 50. To complete. (FIG. 1B)

Next, the adhesive layer 50 is brought into contact with the transfer surface of the uniform 40 and the like, and thermal compression is applied to the base surface 10 by using a heat press or the like ((c) of FIG. 1). When the transfer film layer 30 is attached to the transfer surface of the uniform 40 while the adhesive layer 50 is melted and then floats the base layer 10, a designed specific shape (for example, 8-character shape) is obtained. Engraved on the uniform 40. ((D) of FIG. 1)

By the way, such a film-attached thermal transfer film 100 may have a problem that the color of the original transfer surface is soaked in the transferred transfer film (30). For example, when the color of the transfer film layer 30 is blue and the color of the transfer surface of the uniform 40 is red, the red color of the original transfer surface is soaked in the transferred transfer film layer 30. As a result, the transfer color may lose its original color.

In order to prevent such a problem, conventionally, the thickness of the transfer film layer 30 has been increased, or more pigments for producing color have been added. However, when the thickness of the transfer film layer 30 is increased, the flexibility of the thermal transfer film 100 may be degraded, and the cost may increase. Increasing the amount of added pigment also raises the problem of increased cost. Therefore, there is a need for a method of preventing the color of the transfer surface from shining and losing the color of the original transfer film layer without particularly increasing the thickness of the transfer film layer or increasing the amount of pigment.

The present invention aims to provide a film-attached thermal transfer film that solves the above problems. Therefore, an object of the present invention is to increase the thickness of the transfer film layer in the film-attached thermal transfer film or to transfer the original color of the garment when it is attached to the garment without the need for additional addition of pigments, the original transfer film layer It is to provide a structure of the film-attached thermal transfer film so as not to lose the color.

The film-attached thermal transfer film according to the object of the present invention is the base layer; A transfer film layer formed on the base layer and transferred to the transfer surface; A first transfer film layer which originally forms a transfer color; A transfer film layer formed on an upper portion of the first transfer film and including a second transfer film layer having the same color as that of the first transfer film and having a higher brightness and saturation; It characterized in that it comprises an adhesive layer on the second transfer film layer.

In an embodiment of the present invention, the base layer is made of PET, and the transfer film layer is made of PVC.

According to the present invention, when the first transfer film layer is white, the second transfer layer is preferably black.

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

First, Figure 2 is a view showing the structure of the film-attached thermal transfer film 1000 according to the present invention.

As shown, the film-attached thermal transfer film 1000 according to the present invention is provided with a base layer 10 and a transfer film layer 300 is formed thereon, an adhesive layer on the upper surface of the transfer film layer 300 50 is formed.

According to the present invention, the transfer film layer 300 is composed of a first transfer film layer 300a and a second transfer film layer 300b.

The first transfer film layer 300a originally forms a transfer-shaped color, and the second transfer film layer 300b is the same color as the color of the first transfer film, and its brightness and saturation are deeper.

For example, when the first transfer film layer 300a is blue, the second transfer film layer 300b is dark blue.

In particular, according to the present invention, when the first transfer film layer is white, the second transfer layer is preferably black. As a result of the experiment of the present inventors, when black is formed as the second transfer film layer 300b with respect to the white first transfer film layer 300a, even if the uniform having the transfer surface has red or the like, the red transfer film is completely white. Did not affect the color. In this case, the thicknesses of the first white transfer film layer 300a and the second black transfer film layer 300b were 0.02 mm, respectively. In the conventional case, the transfer film layer 30 should be maintained at about 0,14 mm to prevent the color of the transfer surface from leaking out.

According to an embodiment of the present invention, the base layer 10 is preferably made of PET, the transfer film layer 300 is preferably made of PU (polyurethane). By using the transfer film layer 300 as a PU, the transfer film 300 has a softer property when the transfer film 300 is transferred to the transfer surface. For example, when the transfer film layer 300 is transferred to a uniform or the like, the wearing feeling becomes better.

Figure 3 shows a case of transferring the 8-character shape to the uniform using the film-attached thermal transfer film 1000 according to the present invention.

First, the transfer film layer 300 including the adhesive layer 50, the first transfer film layer 300a, and the second transfer film layer 300b with respect to the film-attached thermal transfer film 1000 according to the present invention. Cut to form the desired 8-character shape. (FIG. 3A)

Next, the adhesive layer 50 is brought into contact with the transfer surface of the uniform 40 or the like, and thermocompression is applied to the base surface 10 using a heat press or the like. (FIG. 3B)

Then, the transfer film layer 300 is attached to the transfer surface of the uniform 40 while the adhesive layer 50 is melted, and then the base layer 10 is lifted out, the shape of the eight-character) the uniform 40 Engraved on. ((C) of FIG. 3)

According to the present invention, even if the thickness of the transfer film layer 30 is not increased or the amount of the additive pigment is not increased, the color of the transfer surface does not bleed out and the color of the original transfer film layer 300a is maintained as it is. do. For example, the thickness of the first transfer film layer 300a and the second transfer film layer 300b is 0.02 mm and the total thickness of the transfer film layer 30 is 0.14 mm, respectively. Even if maintained, the color of the first transfer film layer 300a was maintained.

As such, the present invention provides a structure of a film-attached thermal transfer film that maintains the original color without bleeding the color of the transfer surface without particularly increasing the thickness of the transfer film layer or increasing the amount of pigment.

It will be understood that the purpose of the present invention has been achieved.

Although the present invention has been described with reference to the embodiments, the present invention is not limited thereto. In accordance with the spirit of the present invention, the scope of the present invention is defined by the following claims.

Claims (3)

(a) a base layer; (b) a transfer film layer formed on top of the base layer and transferred to a transfer surface; (b1) a first transfer film layer forming an original transfer color; (b2) a transfer film layer formed on the first transfer film, the transfer film layer including a second transfer film layer having the same color as that of the first transfer film and having a higher brightness and saturation; (c) a film transfer type thermal transfer film comprising an adhesive layer on the upper portion of the second transfer film layer. The method of claim 1, The base layer is made of PET, the transfer film layer is a film-attached thermal transfer film, characterized in that made of PU. The method according to claim 1 or 2, When the first transfer film layer is white, the second transfer layer is a film-attached thermal transfer film, characterized in that the black.

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