KR200286973Y1 - Pattern transfer sticker for clothes - Google Patents

Abstract

The present invention relates to a foamed urethane resin transfer paper for clothing that can transfer the uniformly engraved pattern on the garment surface by heat compression using a foamed polyurethane resin material, especially thick and thick, can make a sense of volume or volume, flexibility and elasticity And a foamed urethane resin layer (2) and a heat-adhesive resin adhesive molded to have a three-dimensional shape with a predetermined pattern by foaming a natural urethane resin so as to transfer the pattern material capable of securing heat resistance to the clothing surface. Peeling with the transfer sheet 1 made of the adhesive layer 3, the release tape 4 which is temporarily bonded to be heated by a thermal transfer machine on the upper surface of the transfer sheet 1, and the transfer sheet 1 therebetween. The present invention relates to a foamed urethane resin transfer paper for clothing, comprising a backing paper (5) temporarily attached to a bottom surface of a tape (4).

Description

Polyurethane Resin Transfer Paper for Clothing {Pattern transfer sticker for clothes}

The present invention relates to a foamed urethane resin transfer paper for clothing that can be transferred to the clothing surface by heating compression pressing the pattern engraved uniformly using a foamed polyurethane resin material.

In general, a method for forming a pattern on the surface of the clothing is largely printed (print) method, pressing (press) method and special application method.

First, a printing method of transfer paper is widely used for printing using a translucent pigment in a cutting fabric or peeling state on a cotton-based fabric. It is also widely used in dark-colored fabrics that cannot be used in pigment printing, and is also applied to water-soluble lava prints used in combination with pigments, and prints desired patterns with ink containing foaming agents to enable three-dimensional expression. After that, a method of saturating with a three-dimensional effect by applying heat is sometimes used. This method is used in combination with lava or pigment and can work on various kinds of fabrics.

In the crimping method, on the other hand, locking, reflection, transfer and the like are used. Flocking method is divided into flocking and floppy according to working method. Flocking is to give soft texture like velvet by planting directly on fabric, and to produce product by transfer technique by planting on paper. The reflection type uses light reflection again, which is divided into a film reflection (hologram) that cuts a pattern with a computer cutting machine and heats it with a transfer press, and a printing reflection that is directly printed using silver particles of small particles. It is used a lot. On the other hand, the transfer ceremony is largely classified into rubber transcription and sublimation transcription. Rubber transfer (adhesive transfer) can work on all fabrics, including cotton, polyester, and nylon, regardless of the color of the fabric, and is mainly used for toys, t-shirts, and promotional items. Sublimation transfer is a product that transfers heat to fiber fabric after printing on paper by using disperse dye which is polyester dye, and is widely used for polyester and nylon fabric.

In addition, it uses foil type to apply foil on printing and sheet paper applied to film to cut desired logo and pattern with computer cutting machine, and high-frequency equipment using Hariron type, reflective and various films to adhere to fabric by transfer technique. There is a high-frequency method of attaching a pattern directly to a fabric or in the form of a patch using a hot piece type to attach an appropriate amount of hot piece to a printed product.

Special applications include the use of beads, as well as burnouts that burn off the pattern with chemicals.

Among the above mentioned methods, the most popular method in the apparel market is the crimping method. Here, the techniques commonly applied to casual clothes such as t-shirts are flocking, film reflection (or hologram transfer), printing reflection, rubber transfer, sublimation transfer, etc. . The materials used for their locking, transfer and reflection are polyvinyl chloride, textiles, holograms, and locking.

However, in the case of using polyvinyl chloride or similar materials, the heat resistance is weak at about 80 ° C., and the thicker the material is, the harder the problem becomes. This thickening of the material causes the surface of the material to melt first when the adhesive on the back reaches the melting point. In addition, the amount of harmful substances was increased at the time of disposal, and the three-dimensional pattern effect on the surface of the garment could not be given.

In the case of textile materials, cutting of the fabric is inconvenient in the cutting method, and when the pattern is made, the fabric is loosened and the edges of the fabric cut into a certain pattern are released when there is a change in the environment, i.e. washing, rubbing or pulling the fabric. There was a problem that it was difficult to maintain a constant pattern and form.

In the case of the hologram, the cutting method using domosong or computer cutting is not unreasonable, but the material itself is not strong and has a disadvantage of not being able to withstand the above-mentioned environmental change for a long time. In particular, in the case of the locking, the wear caused by the change of the environment is large, the edges are not neat when cutting, and when the heating occurs, the layer of the seedlings is buried together with the tape.

In addition, polyvinyl chloride and holograms of the above-mentioned materials will use a film having no elasticity, and if it is attached to a highly elastic fiber, the transfer material will not be stretched by the elastic width of the fiber, which will cause peeling. At this time, when the film material is excessively stretched by the stretching range of the fiber, the stretched film inhibits the restoration of the fiber, thereby causing a problem of greatly degrading the merchandise, such as a phenomenon in which clothes and patterns are crunchy.

The present invention has a main purpose to provide a high value-added garment transfer paper capable of securing flexibility, elasticity and heat resistance.

Another object of the present invention is to provide a high-quality garment transfer paper that can be molded to a predetermined thickness to satisfy the three-dimensional, volume and excellent touch at the same time.

1 is a block diagram of a foamed polyurethane resin transfer paper for clothing of the present invention.

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

1: transfer sheet, 2: foamed urethane resin layer, 3: adhesive layer, 4: release tape, 5: backing paper

The present invention, in order to achieve the above object, the transfer sheet consisting of a pressure-sensitive adhesive layer made of a polyurethane urethane resin layer and a heat-adhesive resin adhesive molded to have a three-dimensional shape of a certain thickness and pattern, and a thermal transfer from the upper surface of the transfer sheet It is composed of a foamed urethane resin transfer paper for clothing consisting of a release tape temporarily bonded to be heated, and a backing paper temporarily bonded to the bottom of the release tape with the transfer sheet interposed therebetween.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying FIG.

The foamed urethane resin layer 2 constituting the transfer sheet 1 is mixed with a natural dispersion of sulfur dispersions, vulcanization accelerators, and the like, and a small amount of sodium hexafluorosilicate, which is a coagulant, is mixed at high speed in a bubbler and foamed. Sodium hexafluorosilicate is decomposed as follows, and mainly gelled to solidify due to the silicon tetraoxide Si (OH) _{4 produced} .

Na ₂ SiF ₆ + 4 NH ₃ + 4 H ₂ O → Si (OH) ₄ + 2 NaF + ₄ NH ₄ F

The solidified product is put into a mold and heated by hot water or steam to vulcanize. In addition, as the method of foaming, the thermal coagulation method (method of foaming while applying heat) and the freezing coagulation method (method by decomposition of hydrogen peroxide solution) may be used. Apparent specific gravity is about 0.085 ~ 0.17, and it is soft and rich in elasticity.

The adhesive layer 3 of the transfer sheet 1 has a melt viscosity of 1,200 ± 10% cps / 180 ° C or 2,060 ± 10% cps / 160 ° C and a softening point of 107 ± 3 ° C. It is applied to the bottom of 2) and treated so that it is attached in a non-viscous solid state.

Heat adhesive resin adhesive is EVA, PE, PP, SIS, POLYESTER, POLYAMIDE EMD. Wax, tackifying resin, plasticizer, filler, antioxidant, etc. are mixed with base polymers, such as these.

The peeling tape 4 adhere | attaches the adhesive which can maintain temporary adhesiveness to a general hard resin film at the bottom surface, and the back paper 5 was also made into a sticky resin film or paper, and the back paper 5 peeled the said It is preferable to set it as the non-adhesive flexible film which the tape 4 can stick.

The bottom surface of the foamed urethane resin layer 2 molded in a three-dimensional form to have a predetermined pattern form is applied with a heat-adhesive resin adhesive to form an adhesive layer (3). When the back surface 5 is attached to the bottom of the adhesive layer 3 and the release tape 4 is attached to the upper surface of the foamed urethane resin layer 2, the foamed urethane resin transfer paper unit for clothes is formed. The method of use is by Domosong or computer cutting.

In the case of transferring this to the garment, the backing paper 5 is first floated out, and then the transfer sheet 1 is placed at an appropriate position of the fiber. Thereafter, the upper surface of the peeling tape 4 is pressed by a thermal transfer machine (heat press) at about 200 g / cm at a pressure of about 200 g / cm for about 5 seconds, and then the peeling tape 4 is removed. Fully attached to the fiber surface of the garment.

The present invention maintains the softness even if the thickness of the urethane foam is thickened from 0.4mm to 1mm, the elongation is good, it is possible to maintain the shape according to the stretching of the fiber. In addition, since the release tape is attached on the upper surface of the transfer sheet, it can be used simultaneously in combination with other materials such as stone, stud, and the like.

In addition, the present invention is such that the one-touch temperature of the heat press reaches 120 ~ 180 ℃ heat treatment is easier than the low heat resistance like conventional polyvinyl chloride. Above all, the thickness can be given, and when attached to the fiber, the effect of making the volume feel.

Claims (1)

A transfer sheet composed of a foamed urethane resin layer formed by foaming a natural urethane resin to have a three-dimensional shape with a predetermined pattern, and an adhesive layer made of a heat-adhesive resin adhesive, and a temporary adhesive to be heated by a thermal transfer machine on the upper surface of the transfer sheet. Polyurethane resin transfer paper for clothes comprising a release tape to be made, and the backing paper is temporarily bonded to the bottom of the release tape with the transfer sheet in between.