KR20200023818A - Method Of Transfer Printing Of Fabrics Using Mineral Pigments - Google Patents

Abstract

The present invention relates to a transfer printing method for a knitted fabric using a mineral pigment. Provided is a product for clothing, which expresses a colorful pattern by transferring the mineral pigment that expresses various colors according to a viewing angle to the surface of the knitted fabric, radiates anions and far infrared radiation, and provides heat storage, thermal insulation, and see-through prevention effects.

Description

Transfer printing method of knitted fabric using mineral pigments {Method Of Transfer Printing Of Fabrics Using Mineral Pigments}

The present invention is to provide a garment product having an anion, far-infrared radiation and heat storage, thermal insulation effect and anti-impregnation effect with the appearance of colorful patterns by transferring the mineral pigments expressing various colors according to the viewing angle on the surface of the knitted fabric. .

In order to form a pattern on a fabric for beautifully decorating the fabric, a method by embroidery, a method of forming a tissue or pattern by weaving, and a dyeing method by printing or the like on a fabric have traditionally been used.

Recently, researches on designs that can express more diverse emotions have been continued from these conventional methods in order to satisfy various demands of consumers.

On the other hand, the transfer printing is printed on the transfer paper having a low affinity with the dye, the transfer paper pattern is directed downward to adhere to the fabric paper, and then press the heat while pressing the top of the paper so that the dye is printed on the fabric paper It is a technique to do. In this case, a dye having a high affinity with textile paper is used as a sublimable dye.

In this case, the gravure printing machine is used, which is a pattern formed by the unevenness of the copper plate and the printing is applied by printing the unevenness. There was a difficult problem of expression.

Republic of Korea Patent Publication No. 10-1993-0017712 (released September 20, 1993)

Therefore, according to the present invention, by transferring the mineral pigment expressing a variety of colors according to the viewing angle on the surface of the knitted fabric, a garment product having anion, far-infrared radiation and heat storage, thermal insulation effect and anti-impregnation effect with the appearance of colorful patterns Providing in a simple way is a technical task.

Therefore, according to the present invention, a step of making a transfer paper by forming a resin liquid layer in which a transparent ink for gravure and a release agent are mixed on a transfer paper made of a synthetic resin film;

Dispersing the mineral pigment in the resin liquid layer of the transfer paper (302);

Coating (304) the adhesive resin solution on the resin liquid layer of the transfer paper by passing the transfer paper through a roller having an embossed pattern on which the adhesive resin solution is attached;

Contacting the transfer paper and the knitted fabric and passing the heat roller to lamination to thermal transfer (305);

Aging the laminated transfer paper and the knitted fabric at 45 ~ 50 ℃ (306); And

There is provided a transfer printing method of a knitted fabric using a mineral pigment, comprising the step 306 of separating the laminated transfer paper and the knitted fabric.

Hereinafter, the present invention will be described in more detail.

The present invention relates to a transfer printing method of a knitted fabric using a mineral pigment, by transferring a mineral pigment expressing a variety of colors according to the viewing angle on the surface of the knitted fabric, with the appearance of colorful patterns, anion, far-infrared radiation and heat storage, heat retention effect And to provide a product for clothing having a non-impregnation effect.

The transfer printing method of the knitted fabric using the mineral pigment of the present invention comprises the steps of making a transfer paper large (301); Dispersing the mineral pigment (302); Coating an adhesive resin solution (304); Laminating and thermally transferring (305); Aging step 306; And a separation step 306.

First, a step (301) of preparing a transfer paper by forming a resin liquid layer in which a gravure transparent ink and a release agent are mixed on a transfer paper made of a synthetic resin film is prepared to attach a mineral pigment to the resin liquid layer.

The synthetic resin film may be any one of a polyester film, polyethylene film, and polypropylene film, and forms a resin liquid layer on a transfer paper made of a synthetic resin film.

The weight ratio of the transparent ink for gravure and the release agent is preferably 40:60 ~ 50:50 for the operation.

The gravure transparent ink is preferably 25 to 55% by weight of vinyl copolymer, 20 to 40% by weight of toluene, 20 to 30% by weight of methyl ethyl ketone, and the balance of polyethylene wax.

The release agent used was 30-40% by weight of N, N-dimethylformamide, 10-20% by weight of toluene, 20-30% by weight of methyl ethyl ketone, and the remainder of polyurethane as the remainder. It can be done easily.

Dispersing the mineral pigment in the resin liquid layer of the transfer paper prepared as described above (302) to distribute the mineral pigment in the aqueous solution layer of the transfer paper.

The mineral pigment is one of the group consisting of a combination of zinc oxide, titanium oxide, iron oxide, cobalt blue and chromium having a particle diameter of 3 ~ 5㎛ that can express a variety of colors and mineral-specific gloss finished It can give a colorful pattern and color to the finished fabric and it is effective because of its excellent adhesive strength.

Then, the adhesive resin is coated on the transfer paper, and the transfer paper is passed through a roller having an embossed pattern on which the adhesive resin is deposited to coat the adhesive resin on the resin liquid layer of the transfer paper (304). ).

It is preferable that the adhesive resin solution is composed of 70 to 80% by weight of aromatic polyisocyanate resin and 20 to 30% by weight of ethyl acetate because the adhesion of the mineral pigment to the fabric is improved and the texture of the knitted fabric is not stiff. .

Thereafter, the transfer paper and the knitted fabric are brought into close contact with each other and passed through a thermal roller at 80 to 90 ° C. to perform thermal transfer (305), which is formed on the transfer paper by an roller having an embossed pattern in the coating step 304. A pattern is formed on the surface of the knitted fabric. Thus, the pattern is placed on the film on which the resin liquid layer is formed to coat the fabric, and the film is separated, so that the pattern is strongly formed on the fabric.

Thereafter, the step of aging the laminated transfer paper and knitted fabric at 45˜50 ° C. is performed.

After the step 306 of separating the laminated transfer paper and the knitted fabric is a pattern and color formed on the transfer paper is formed on the surface of the knitted fabric.

Therefore, according to the present invention, by transferring the mineral pigment expressing a variety of colors according to the viewing angle on the surface of the knitted fabric, a garment product having anion, far-infrared radiation and heat storage, thermal insulation effect and anti-impregnation effect with the appearance of colorful patterns It can provide, especially in the hijab product of the black color has the effect of expressing colorful colors and patterns.

1 is a surface photograph of the knitted fabric of Example 1 prepared by the transfer printing method of the knitted fabric using the mineral pigment of the present invention.

The following examples are given as non-limiting examples of the transfer printing method of the knitted fabric using the mineral pigment of the present invention.

Example 1

Gravure transparent ink consisting of 55% by weight of vinyl copolymer, 20% by weight of toluene, 23.5% by weight of methyl ethyl ketone, and 1.5% by weight of polyethylene wax and 33% by weight of N, N-dimethylformamide on a transfer paper made of polyester film After forming the transfer paper by forming a resin liquid layer in which a release agent composed of 10% by weight of toluene, 27% by weight of methyl ethyl ketone, and 30% by weight of polyurethane was formed at a weight ratio of 50:50, Dispersing the mineral pigment having a particle diameter of 4.5㎛ in the resin liquid layer and distributing it on the surface (302), the adhesive resin bath containing the adhesive resin liquid consisting of 80% by weight of aromatic polyisocyanate resin, 20% by weight of ethyl acetate Immersing a roller having an embossed pattern and passing the transfer paper over the roller to coat the adhesive resin solution on the resin liquid layer of the transfer paper (304). After contacting, the knitted fabric is in close contact with the surface of the transfer resin adhesive coating, and passed through a thermal roller at 80 ℃ to pass the step of thermal transfer (305), then the laminated transfer paper and the knitted fabric After the aging step 306 for 24 hours at 45 ~ 50 ℃ 306, the laminated transfer paper and the knitted fabric is separated to complete the transfer printing method of the knitted fabric using a mineral pigment.

Claims (5)

Making a transfer paper by forming a resin liquid layer in which a transparent ink for gravure and a release agent are mixed on a transfer paper made of a synthetic resin film (301);
Dispersing a mineral pigment in the resin liquid layer of the transfer paper (302);
Coating (304) the adhesive resin solution on the resin liquid layer of the transfer paper by passing the transfer paper through a roller having an embossed pattern on which the adhesive resin solution is attached;
Contacting the transfer paper and the knitted fabric and passing the heat roller to lamination to thermal transfer (305);
Aging the laminated transfer paper and the knitted fabric at 45 ~ 50 ℃ (306); And
Separation (306) of the laminated transfer paper and the knitted fabric, characterized in that the transfer printing method of the knitted fabric using a mineral pigment. The method of claim 1,
The weight ratio of the transparent ink for gravure and the release agent is 40:60 ~ 50:50 Transfer printing method of the knitted fabric using a mineral pigment, characterized in that. The method of claim 1,
The transparent ink for gravure is 25 to 55% by weight of vinyl copolymer, 20 to 40% by weight of toluene, 20 to 30% by weight of methyl ethyl ketone, and the balance is made of polyethylene wax, and the release agent is N, N-dimethylformamide 30 -40% by weight, 10 to 20% by weight of toluene, 20 to 30% by weight of methyl ethyl ketone, and the balance of polyurethane as a balance. The method of claim 1,
The mineral pigment is a transfer printing method of a knitted fabric using a mineral pigment, characterized in that the mineral pigment having a particle size of 3 ~ 5㎛. The method of claim 1,
The adhesive resin solution is 70 to 80% by weight of aromatic polyisocyanate resin, 20 to 30% by weight of ethyl acetate transfer printing method of a knitted fabric using a mineral pigment.

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