KR20090011142A - Air permeable transfer paper and preparation thereof - Google Patents

Abstract

According to the present invention, a step of forming a release agent layer (2) by applying a release agent on the transfer support (1), a process of forming an ink print base layer (3) by applying an elastomer containing wax on the release agent layer, ink printing A process of forming an ink print layer 4 by printing a pattern with ink on a base layer, a process of forming a base color layer 5 by dot printing a colored elastomer resin on the ink print layer, and applying a powdery hot melt on the base layer. By providing a method for producing a breathable transfer paper comprising the step of forming an adhesive layer (6), the transfer paper thus prepared is suitable for the implementation of various types of patterns having a high clarity and excellent breathability.

Description

Air permeable transfer paper and preparation

The present invention relates to a transfer paper, and more particularly, to a transfer paper having a high-definition heat transfer of a variety of patterns or letters on an article made of a knitted fabric material.

In general, the thermal transfer paper is manufactured by applying a release agent in a predetermined shape on a transfer sheet, applying an ink protector layer on the release agent, printing a pattern to be transferred with ink on the ink protector layer, and applying an adhesive on the ink pattern. When the adhesive layer of the transfer paper is pressed while applying heat in a state of being in contact with the transfer body, and the release paper is removed, the pattern is transferred onto the transfer body.

The transferred pattern is not ventilated because the adhesive layer and the pattern layer form a continuous film, and in particular, when the transfer sheet is applied to a garment, a problem occurs that sweat is not discharged from the transferred portion.

    In an attempt to solve such a conventional problem, Korean Patent Registration No. 10-0690394 is applied to the upper surface of the coating layer of the transfer paper, an ink protective agent consisting of a mixture of ethylene vinyl acetate, stearic acid and cyclohexanone, and dispersed on the ink protective agent layer After printing the pigment ink, a method of producing a breathable label transfer paper by applying an adhesive containing ethylene vinyl acetate, zinc stearate, rosin, stearic acid and cyclohexanone on the ink printing layer is proposed. The label transfer paper thus prepared is dispersed and transferred to the adhesive layer containing the solvent by dispersing the pigment ink of the ink layer, thereby forming a new printing layer as the adhesive layer is colored. The low-viscosity liquid print layer, which has soaked in, is buried in the transfer sheet together with the ink protector layer, and as a result, the print layer is printed on the surface of the fiber instead of being formed into a film or layer. However, this type of breathable label transfer paper has a disadvantage in that the sharpness of the transfer pattern is poor.

It is therefore an object of the present invention to provide a new type of transfer paper which is capable of transferring a pattern with high clarity while being breathable.

According to the present invention to achieve the above object, in the manufacture of the transfer paper, the step of forming a release agent layer by applying a release agent on the transfer support, by applying an elastomer containing wax on the release agent layer to form an ink printing base layer Process, forming ink printing layer by printing pattern with ink on ink printing base layer, process of forming base color layer by dot printing elastomer resin colored with pigment on ink printing layer, and applying powdery hot melt on base color layer There is provided a method for producing a breathable transfer paper comprising a step of forming an adhesive layer.

Transfer paper of the present invention is suitable for the transfer of various types of pattern having a high clarity and excellent breathability, especially when applied to textile products that require breathability and the design of the desired pattern desired by the consumer to further enhance the value To provide.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Figure 1 illustrates the structure of the breathable transfer paper according to the present invention with reference to this describes a method for manufacturing a breathable transfer paper of the present invention,

First, a release agent is applied onto the transfer support 1. The release agent can be applied, for example, by a screen printing method or the like, and the application area thereof is suitably sized or slightly wider than the shape of the transfer pattern.

After the release agent is applied onto the transfer support to form the release agent layer 2, the transparent elastomer resin is applied onto the release agent layer by screen printing or the like to form the ink print base layer 3. The ink print base layer 3 functions as a printing substrate layer capable of printing a pattern with ink thereon, protects the printed pattern, and imparts elasticity to the printed pattern. It is preferable to use an elastomer containing wax in forming the ink printing base layer. The main reason for incorporating the wax into the elastomer is to melt the wax and thermally form pores when transferring the transfer paper to a textile product. At this time, it is preferable to use diene rubber such as SBR, SBS, SIS, or ethylene vinyl acetate rubber as the elastomer. In addition, the ratio of elastomer to wax is preferably 2.5: 1 to 4: 1 by weight. If the blending ratio of the wax is too low, the air permeability is poor, and if the blending ratio of the wax is too high, there is a problem that the wash fastness is poor, it is preferable to blend in the above ratio.

After the ink print base layer 3 is formed, a pattern is printed on the ink to form the ink print layer 4. At this time, a method such as offset printing, gravure printing, screen printing, or the like may be used, and as ink, an offset ink, a sublimation ink of a disperse dye, or a mixed ink of offset ink and a sublimation ink may be used. In the case of using a mixed ink, the ratio of the opse ink to the sublimation ink is suitably about 8: 1 to 10: 1 by weight.

After the ink print layer 4 is formed, the base color layer 5 is formed by dot printing the colored elastomer resin thereon. Conventional methods can be used for dot printing. For example, a porous screen may be placed on the ink printing layer 4, and then a colored elastomer resin may be applied onto the screen. The background color layer serves as the base of the transfer pattern, and the background color layer increases the sharpness of the transfer pattern. If the base color layer is formed as a continuous layer, a continuous film is formed on the transfer member after thermal transfer so that the transfer member is not ventilated. However, when the base color layer is formed as a discontinuous layer by dot printing, the breathability of the transfer member is ensured while maintaining a high definition. A transcription pattern can be obtained. In this case, as the elastomer, an elastomer of the same kind as used in the ink printing base layer may be used, and pigments or dyes of various colors may be used for coloring the elastomer. The color is preferably selected in consideration of the color of the ink print layer and the color of the transfer target. Usually it is appropriate to color white.

After the base color layer 5 is formed, a powdery hot melt is applied on the base color layer to form the adhesive layer 6. To form the adhesive layer, a dot printing technique in the same manner as the method used to form the base color layer may be used, or a method of spreading hot melt on the base color layer and shaking off unattached hot melt may be used.

When the transfer paper manufactured by the method described above is thermally transferred onto the transfer member, the transfer pattern transferred to the transfer member in the order of an adhesive layer, a background color layer, an ink print layer, and an ink print base layer can be obtained. The air permeability secured by the ink printing base layer establishes the air permeability of the transfer pattern, and the transfer pattern having a high definition can be achieved by the ground color.

1 is a cross-sectional view showing a laminated structure of a breathable transfer paper according to an embodiment of the present invention

FIG. 2 is a cross-sectional view showing a structure in which the breathable transfer paper of FIG. 1 is transferred to a transfer target body; FIG.

* Explanation of symbols for main parts of the drawings

1: Warrior Ground

2: release agent layer

3: ink printing base layer

4: ink printing layer

5: ground color layer

6: adhesive layer

P: Subject

Claims (3)

Process of forming a mold release agent layer 2 by applying a release agent on the transfer support 1, applying an elastomer containing wax on the release agent layer to form an ink print base layer 3, ink on the ink print base layer A process of forming an ink print layer 4 by printing a pattern with a pattern, a process of forming a base color layer 5 by dot-printing colored elastomer resin on the ink print layer, and applying a powdery hot melt on the base color layer to form an adhesive layer ( 6) A method for producing a breathable transfer paper comprising the step of forming. The method of claim 1, wherein the ink-printing base layer has a mixture ratio of elastomer to wax of 2.5: 1 to 4: 1 by weight. The method of manufacturing a breathable transfer paper according to claim 1 or 2, wherein the elastomer is a diene rubber or an ethylene vinyl acetate rubber.

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