KR20060125256A - Ventilatable label transfer seat and the manufacturing method - Google Patents

Abstract

An air permeable label transfer paper and a manufacturing method thereof are provided to prevent a thermally transferred label part from being stiffened by thermally transferring a label only to fibers formed on the surface of a fabric cloth without forming a print film by the transferred label. The air permeable label transfer paper manufacturing method comprises the steps of: forming an ink protective layer(3) by applying an ink protecting agent on the upper surface of a coating layer(2) of a transfer paper(1) in the thickness of 0.1-0.5mm, wherein the ink protecting agent is produced by bathing and mixing ethylene vinyl acetate of 20-30wt.%, stearic acid of 20-30wt.%, cyclo-hexanone of 40-60wt.%; forming an ink layer by printing a disperse pigmented ink on the upper surface of the ink protective layer; and forming an adhesive layer(5) by applying an adhesive agent on the upper surface of the ink layer in the thickness of 0.1-1.0mm, wherein the adhesive agent is produced by bathing and mixing ethylenevinyl acetate of 12-16wt.%, stearic acid zinc of 6-8wt.%, pine resin of 4-6wt.%, stearic acid of 20-28wt.%, and cyclo-hexanone of 40-60wt.%.

Description

Breathable label transfer paper and its manufacturing method {Ventilatable label transfer seat and the manufacturing method}

1 is a cross-sectional view of a conventional label transfer paper.

Figure 2 is a cross-sectional view showing a state of thermal transfer to a conventional label transfer paper.

Figure 3 is a manufacturing process of the present invention.

4 is a perspective view of a label transfer paper according to the present invention.

5 to 8 is a cross-sectional view of the label transfer paper for each manufacturing process of the present invention.

9 is a cross-sectional view taken along the line A-A of FIG.

10 is a cross-sectional view showing a state of thermal transfer of the label transfer paper of the present invention on a fabric.

<Description of the symbols for the main parts of the drawings>

1: transfer paper

2: coating layer

3: ink protective agent layer

4: ink layer

5: adhesive layer

6: fabric

7: fiber

8: heat press

9: release layer

10: label transfer paper

11: printed layer

S100: Coating Process

S200: Ink Protection Coating Process

S300: Printing Process

S400: Adhesive Coating Process

The present invention relates to a label transfer paper for printing a variety of trademarks or letters, such as clothes, bags and hats of the fabric material, in particular, when the thermal transfer of the label transfer paper on the fabric, the portion of the thermal transfer of the label does not form a print film or layer As the label is not printed, it is as soft as the unprinted part, and it is free of air circulation. In particular, it is a breathable label transfer paper which can thermally transfer the label to natural fibers such as cotton and silk as well as synthetic fibers such as nylon and polyester. .

As shown in FIG. 1, the release label 9, the ink layer 4, and the adhesive layer 5 are sequentially formed on the upper surface of the transfer paper 1.

When the conventional label transfer paper configured as described above is thermally pressurized with the heat press 8 to the fabric 6, the adhesive layer 5 is thermally bonded to the fabric 6 together with the ink layer 4 as shown in FIG. When the transfer paper 1 is removed, the transfer paper 1 and the release layer 3 are separated and a label is printed on the fabric 6.

Since the heat-transferred label has a thick film between the ink layer 4 and the adhesive layer 5, the size of the label is stiff because the printed portion of the label is stiff, air is not circulated, and sweat is not discharged. There was a drawback that you can not use large and at least use a small size.

In addition, there was a label transfer paper using a disperse pigment ink as a label transfer paper to supplement the above problems. This is a method of disperse and transfer of the disperse pigment ink to the fiber when the thermal transfer of the label transfer paper to the fabric by heat press, but the conventional dye sublimation label transfer chemicals such as nylon and polyester Can only be used in the fiber, there was a problem that can not be used in natural fibers such as cotton or silk.

The present invention is a label transfer paper composed of a disperse pigment ink in order to solve the above problems by the thermal transfer of the label on the fabric to maintain the softness and breathability of the intrinsic properties of fibers, in particular, chemical fibers such as nylon and polyester as well as cotton It is an object of the present invention to provide a breathable label transfer paper that can thermally transfer a label to natural fibers such as or nuts.

In order to achieve the above object, the present invention provides a water bath with 20 to 30% by weight of ethylene vinyl acetate, 20 to 30% by weight of stearic acid, and 40 to 60% by weight of cyclohexanone, on the upper surface of the coating layer 2 of the transfer paper 1. An ink protecting agent applying step (S200) of applying the mixed ink protecting agent to a thickness of 0.1 to 0.5 mm to form the ink protecting agent layer 3; A printing step (S300) of forming a ink layer (4) by printing a disperse pigment ink on the upper surface of the ink protection agent layer (3) formed through the ink protection agent coating step (S200);

12 to 16% by weight of ethylene vinyl acetate, 6 to 8% by weight of zinc stearate, 4 to 6% by weight of rosin, 20 to 28% by weight of stearic acid on the upper surface of the ink layer 4 formed through the printing process (S300) and It consists of an adhesive coating process (S400) to form an adhesive layer (5) by applying a hot water mixed and mixed adhesive with a cyclohexanone 40 ~ 60% by weight 0.1 ~ 1.0mm thickness.

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

3 is a manufacturing process diagram of the present invention.

As shown in FIG. 3, the present invention includes a coating process (S100), an ink protection coating process (S200), a printing process (S300), and an adhesive coating process (S400).

Figure 4 is a perspective view of a label transfer paper according to the present invention, Figure 5 to Figure 8 is a cross-sectional view of the label transfer paper for each manufacturing process of the present invention.

As shown in FIG. 4, the label transfer paper 10 according to the present invention includes a coating layer 2, an ink protecting agent layer 3, a printing layer 11, and an adhesive layer 5 on top of the transfer paper 1.

As shown in FIG. 5, a polyvinyl alcohol (P.V.A., Poly vinyl alcohol) is applied to the upper surface of the transfer paper 1 such as paper or synthetic resin film to form a coating layer 2.

The coating layer 2 prevents the molten ink or adhesive from penetrating the transfer paper 1 when the label transfer paper is thermally pressurized to the fabric by the heat press 8.

As shown in FIG. 6, an ink protection coating process (S200) of forming an ink protection agent layer 3 by applying an ink protection agent to a thickness of 0.1 to 0.5 mm on the upper surface of the coating layer 2 formed through the coating process S100 is performed. do.

Ink protecting agent is a mixture of 20-30% by weight of ethylene vinyl acetate (EVA), 20-30% by weight of stearic acid and 40-60% by weight of cyclohexanone, stearic acid at a temperature of 60 ℃ Melt, ethylene vinyl acetate is melted at a temperature of 100 ~ 180 ℃.

As shown in FIG. 7, the dispersion pigment ink is offset-printed, gravure-printed, and silk-screened onto the upper surface of the ink-protective agent layer 3 formed through the ink protection coating process (S200). The printing step (S300) to form a.

As shown in FIG. 8, an adhesive coating process (S400) is performed to form an adhesive layer 5 by applying an adhesive to the upper surface of the ink layer 4 formed through the printing process S300 in a thickness of 0.1 to 1 mm.

The adhesive includes 12 to 16% by weight of ethylene vinyl acetate (EVA), 6 to 8% by weight of zinc sterate, 4 to 6% by weight of rosin, 20 to 28% by weight of stearic acid and 40 to 60% by weight of cyclohexanone. Is a hot water mixed and mixed adhesive.

When the above adhesive is applied on the ink layer 4 of the disperse pigment ink material, the disperse pigment ink of the ink layer 4 is dispersed and dispersed in the adhesive layer 5 containing the solvent as shown in FIGS. 4 and 9. It is transferred to form the printing layer 11 while the adhesive layer 5 is colored.

In general, when the label is printed using the disperse dye, the color of the disperse dye is used darker than the target color, but the process of dispersing and dispersing the pigment pigment into the adhesive using cyclohexanone as in the embodiment of the present invention is carried out. It is expressed in the actual target color, and even a small amount of the disperse pigment ink has a property of vividly dispersed and transferred to the thick adhesive layer 5 in response to a solvent such as cyclohexanone.

The process of thermally transferring the label transfer paper of the present invention configured as described above to the fabric 6 such as clothes, bags or hats will be described in detail as follows.

When the label transfer paper 10 of the present invention is subjected to heat and pressure for 8 to 10 seconds at a temperature of 150 to 180 ° C. with a heat press 8 to a fabric 6 such as clothes, bags or hats as shown in FIG. The printing layer 5 and the ink protecting agent layer 3, which are mainly composed of stearic acid at 58 to 59 ° C., are melted in an instant by the temperature of the heat press 8, and are converted into a low viscosity liquid like water. The higher the temperature and the longer the pressing time, the thinner the printed layer 11 spreads deeply into the fabric 6 and the fiber 7, so that the breathability can be maintained.

The printing layer 11 in the same state as water is adsorbed onto the fine fibers 7, and the fibers 7 are colored in the color of the printing layer 11, whereby the ink protecting agent layer 3 is caused by the temperature of the heat press. It melts and is partially absorbed by the print layer 11 and adsorbed together with the print layer 11 on the fiber 7 to protect the print layer 11.

When the label transfer paper 10 thermally transferred with the heat press 8 is removed as it is hot before being dished, the low-viscosity liquid printing layer 11 that has soaked into the fiber 7 is left together with the ink protection agent layer 3. It is buried in the transfer base 1, and as a result, the print layer 11 is printed on only the surface of the fiber 7 without being formed into a film or a layer.

If the label transfer paper 10 is removed after cooling, the printing layer 11 hardens, and thus the label transferred to the fiber 7 is formed as a film or a layer, and thus a label for breathing the present invention cannot be printed. The transfer paper 10 should be removed before it cools down.

As the main component of the ink protection agent layer 3 to dissociate the transfer paper 1 in the hot state as described above, stearic acid that is melted at a low viscosity at a temperature of about 60 ° C. was used, and the disperse pigment ink layer 4 was cycled as a solvent. Stearic acid was also used as a main component of the adhesive layer 4 so as to be dispersed and transferred to the adhesive layer 5 in response to hexanon and permeate well to the fiber 7.

Beeswax may be used in place of stearic acid, which is the main component of the ink protective agent layer 3 and the adhesive layer 5.

Since beeswax is easily melted into a low viscosity liquid like water at a temperature of 60 to 63 ° C., it is possible to achieve the object of the present invention by using beeswax instead of stearic acid, which is a main component of the ink protection agent layer 3 and the adhesive layer 5. can do.

In addition, cyclohexanone, which is a solvent used in the ink protective agent layer 3 and the adhesive layer 5, has a relatively low volatility, and thus has an effect of preventing the ink protective agent layer 3 and the adhesive layer 5 from rapidly hardening. In the working conditions to be dried, solvents such as MEK (Methyl ethyl ketone), toluene, and xylene, which are highly soluble and volatile, can be selected instead of cyclohexanone.

Since the printing layer 11 is absorbed only to the fibers 7 of the fabric 6 as described above, the label is printed, so that the heat transfer portion of the label maintains the original softness of the fibers 7 and the air can circulate freely. .

As described above, in the present invention, when the thermal transfer of the label transfer paper 10 composed of disperse pigment ink on chemical fibers such as nylon and polyester and natural fibers such as cotton and silk, the transferred label does not form a printed film ( 6) Since the label is thermally transferred only to the fiber 7 on the surface, the heat-transferred label portion is not stiff, and is highly useful to satisfy the desire of modern people to pursue high-quality products because of high breathability.

Claims (2)

0.1 to 0.5 mm of the ink protection agent mixed and mixed with 20 to 30% by weight of ethylene vinyl acetate, 20 to 30% by weight of stearic acid and 40 to 60% by weight of cyclohexanone on the upper surface of the coating layer 2 of the transfer paper 1 An ink protecting agent applying step (S200) of applying the thickness to form the ink protecting agent layer 3; A printing step (S300) of forming a ink layer (4) by printing a disperse pigment ink on the upper surface of the ink protection agent layer (3) formed through the ink protection agent coating step (S200); 12 to 16% by weight of ethylene vinyl acetate, 6 to 8% by weight of zinc stearate, 4 to 6% by weight of rosin, 20 to 28% by weight of stearic acid on the upper surface of the ink layer 4 formed through the printing process (S300) and Method for producing a breathable label transfer paper, characterized in that consisting of an adhesive coating step (S400) to form an adhesive layer (5) by applying a hot water mixed and mixed adhesive in 0.1 ~ 1.0mm thickness 40 to 60% by weight of cyclohexanone . Breathable label transfer paper produced by the manufacturing method of claim 1

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