KR200417096Y1 - transfer paper - Google Patents

Abstract

The present invention appears in color luminous in dark interiors such as T-shirts, hats, shoes, underwear, home fashions, bags, soccer balls, stationery fancy, etc. The invention relates to a method for producing a photochromic color-colored luminous transfer paper which is discolored in color, wherein the silicone transparent layer and the color ink are formed in a fabric in which a release agent coating layer, a silicone transparent layer, a color ink layer, an opaque white layer, and an adhesive layer are sequentially formed on an upper surface thereof. A color luminous layer is further formed between the layers, and a photocompatible color change layer is further formed on the color luminous layer.

Therefore, the present invention is a color of the primary picture, letters, shapes, etc. transferred to the transfer, when moving from the dark room or the place without sunlight to the room or the place where the sunlight, as well as discolored in various colors, clothing at night By showing the printed characters and pictures, etc., it is a very useful design that can be used for various products to maximize the visual satisfaction.

Discoloration, color, luminous, transfer paper

Description

Photochromic color-colored luminous transfer paper {transfer paper}

1 is a partially cut-away enlarged cross-sectional view of a typical transfer paper.

Figure 2a is a partially cut-out enlarged cross-sectional view of the transfer paper in a state where the photo-compatible color change layer or color luminous layer is formed in accordance with the present invention

Figure 2b is an enlarged cross-sectional view of a portion of the transfer paper in a state where the photo-compatible color change layer or the color luminous layer is formed as a whole

3 is a partially cut-away enlarged cross-sectional view of the transfer paper in a state where the photochromic discoloration layer and the color luminous layer are formed at the same time.

Figure 4 is an illustration of the back of the photochromic color-colored luminous transfer paper according to the present invention

Figure 5a is an exemplary view when viewed in the daytime (bright outdoors) in a state in which the photo-compatible color change layer according to the present invention partially transferred to the transfer target

Figure 5b is an exemplary view when viewed in the daytime (bright outdoor) in the state in which the photochromic discoloration layer according to the present invention is entirely transferred to the transfer target

Figure 6a is an exemplary view when viewed at night (dark room) in a state in which the color luminous layer in accordance with the present invention partially transferred to the transfer target

Figure 6b is an exemplary view when viewed at night (dark room) in the state in which the color luminous layer according to the present invention is transferred to the transfer object as a whole

<Code Description of Main Parts of Drawing>

10: transcription base 11: release agent coating layer

12 silicon transparent layer 13 photocompatible color change layer

14 color luminous layer 15 color ink layer

16: opaque white layer 17: adhesive layer

20: subject

The present invention relates to a photochromic color luminous transfer paper which is optically compatible, and particularly in a room where primary colors, letters, shapes, etc., which are completely or partially applied to T-shirts, hats, shoes, underwear, home fashions, bags, soccer balls, stationery fancy, etc. It is a design for a photo-compatible discolored color luminous transfer paper which appears as color luminous and changes color to various colors when going to a bright outdoor.

In general, transfer papers are used to display and decorate letters, drawings, shapes, etc. on clothing, hats, bags, stationery, etc. (hereinafter referred to as transfer subjects), which are printed on a support of paper or plastic film. After forming a plurality of layers for it is transferred by heat pressing on the surface of the transfer object.

Patent Publication No. 95-4333 discloses "transfer paper for cotton fabric using a disperse dye", which forms a disperse dye printing layer on the earth, and forms a melt transparent transparent organic wax layer on the disperse dye printing layer, On the wax layer, the transparent urethane resin layer mixed with the phosphorescent powder is coated to form a transfer paper, and then transfer printing is performed using the transfer paper.

However, the above method has a three-stage structure in which an organic wax layer is formed between the disperse dye printing layer and the transparent urethane resin layer, so that the structure for luminous is complicated, and the luminous layer is partially at the bottom or the edge of the transfer paper. There was a problem that the luminous effect is substantially reduced due to the printing.

In addition, Japanese Patent Application Laid-Open No. 2000-0059326 discloses a technology related to a "photochromic coating material", which is a glass or film coating material, which is colored when it receives sunlight (ultraviolet rays), blocks a certain amount of sunlight, and reversible when it does not receive sunlight. This is a photochromic, photochromic coating material that becomes transparent again and transmits all light rays. In particular, a method of adding a photochromic compound to a monomer to polymerize, a method of directly mixing a photochromic compound with a polymer, and molding the polymer, and a method of preparing a photochromic capsule ink by microencapsulating the photochromic compound into a polymer are described. However, the method using the compound as described above has the drawbacks of lack of durability, uniform product manufacturing, and stable coating agent according to the amount of sunlight due to polymerization, melt molding, encapsulation of the micro unit of the photochromic compound used as a coating agent there was. In addition, since about 5% to 10% of the pigment-type micro photochromic compound is added, physical properties are deteriorated, and there is a problem that it takes a long time to return to the previous color at the time of blocking the hatbit.

Therefore, the present invention allows the actual pattern printed in various colors to be discolored according to the concentration of sunlight (ultraviolet rays), so that it can be seen at night, as well as good durability and good speed to respond to sunlight The purpose is to provide a compatible color fading color luminous transfer paper.

In the present invention, a release agent coating layer, a silicon transparent layer, a color ink layer, an opaque white layer, and an adhesive layer are sequentially formed on a top surface, and a color luminous layer is further formed between the silicon transparent layer and the color ink layer. On the upper side of the layer is characterized by further forming a photo-compatible color change layer.

In addition, the color luminous layer of the present invention is 15% by weight of polyester resin, 15% by weight of isophorone, 3% by weight of drying retardant, 4.8% by weight of dioctylphthalate (DOP), and color luminous flux of 1 to 5 microns. Mixing 16% by weight of the pigment, 0.1% by weight of the dispersant, and 0.1% by weight of the humectant, and milling for 1 hour in a mill; Again 27 wt% methyl isobutyl ketone (MIBK), 3 wt% 40% paraffin chloride solution, 3 wt% polyester resin, 2 wt% polyurethane resin, 8 wt% xylene, and cyclohexanone (Cyclohexanone) 3% by weight of the mixing step of milling; characterized in that consisting of.

In addition, the present invention is characterized in that in the fabric formed by sequentially forming a release agent coating layer, a silicon transparent layer, a color ink layer, an opaque white layer, an adhesive layer on the upper surface, between the layer and the layer is characterized by further forming a photo-compatible color change layer .

In addition, the photochromic discoloration layer, dispersing and dissolving 0.01% by weight of 200 nanophotochromic disperse dyes in 5% by weight of toluene; 3% by weight of polyester resin, 2% by weight of polyurethane resin, 27% by weight of methyl isobutyl ketone (MIBK), 3% by weight of 40% paraffin chloride solution, 2% by weight of drying retardant, and 12.8% by weight of isophorone Stirring in the mill for 1 hour; And mixing 25% by weight of cyclohexanone, 15% by weight of polyester resin, 5% by weight of polyurethane resin, and 0.19% by weight of color separation inhibitor and stirring for 2 hours.

Hereinafter, with reference to the accompanying drawings, the configuration of the most preferred embodiment of the present invention in detail as follows.

The present invention forms a release agent coating layer 11 on the transfer paper 20, a silicon transparent layer 12 is formed thereon, a color luminous layer 14 or a photo-compatible color change layer 13 on the silicon transparent layer 12 And the color ink layer 15, the opaque white layer 16, and the adhesive layer 17 are sequentially formed thereon. Of course, it is also possible to form both the color luminous layer 14 and the photochromic discoloration layer 13 between the silicon transparent layer 12 and the color ink layer 15, and the color luminous layer 14 and the photochromic discoloration It is also possible to form part 13 in whole or in part.

The release agent coating layer 11 of the present invention was diluted by mixing about 500-600% by weight of a solvent in which the toluene and cyclohexanone were mixed at a ratio of 1: 1 by 100% by weight of the silicone polymer having an active ingredient content of 45%. It is formed by adding 1% by weight of siloxane polymer, 2% by weight of catalyst (sensitivity organic material), and 3% by weight of tributary protective agent by silk or gravure printing, followed by dry curing at 110 ° C. for 5 to 10 seconds.

The silicon transparent layer 12 is composed of 28% by weight of methyl isobutyl ketone (MIBK), 3% by weight of 40% paraffin chloride solution, 12% by weight of isophorone, 33% by weight of cyclohexanone and poly 15 weight% of ester resin and 7 weight% of polyurethane resin are mixed and obtained by stirring for 2 hours.

In addition, the color luminous layer 14 is mixed by coloring a 1-5 micron photoluminescent pigment in a color dispersion dye to copolymerize a polyester resin (Copolyester 376 Co., Ltd. of Schatti) so that color is recognized at night, color ink layer ( Printing on this printed silicone transparent layer allows the actual prints to be recognized with the luminous effect at night, as well as the color of the prints seen during the bright day, and known Co-PE hot melts at the time of bonding (Copolyester 373 from Schatti) B. Polyurethane (DAPUTA TPU8060) Hot Melt Adhesive Resin (released) for 5 ~ 10 seconds at 130 ° C for smooth cotton, as well as polyester fabric and nylon fabric.

At this time, the color luminous layer 14 is 15% by weight of polyester resin, 15% by weight of isophorone, 3% by weight of drying retardant, 4.8% by weight of dioctylphthalate (DOP), and color luminous flux of 1 to 5 microns. 16% by weight of the pigment, 0.1% by weight of the dispersant, and 0.1% by weight of the wetting agent were mixed for 1 hour in the mill, and again 27% by weight of methyl isobutyl ketone (MIBK) and 3% by weight of a 40% paraffin chloride solution. %, 3% by weight of polyester resin, 2% by weight of polyurethane resin, 8% by weight of xylene, and 3% by weight of cyclohexanone are mixed and milled for 2 hours to obtain a mixture of 6 microns or less. .

In addition, the photochromic discoloration layer 13 is dispersed in toluene and solvent by dispersing a fine powder dispersible photocompatible disperse dye having a particle size of 200 nanometer (for example, James Robinson UK Reversacol Photochromic Dyes) in toluene and solvent Obtained by copolymerizing a polyester resin (for example, Co-polyester 376 of SWISS SCHATTI Co., Ltd.) cured at 120 ℃ ~ 130 ℃.

Specifically, 0.01% by weight of 200 nano-photochromic disperse dyes are dispersed and dissolved in 5% by weight of toluene, 3% by weight of polyester resin, 2% by weight of polyurethane resin and 27% by weight of methyl isobutyl ketone (MIBK) And 3% by weight of 40% paraffin chloride solution, 2% by weight of dry delay agent, and 12.8% by weight of isophorone, were stirred for 1 hour in a mill, 25% by weight of cyclohexanone and polyester resin 15 The weight percent, 5 weight percent polyurethane resin, and 0.19 weight percent color separation inhibitor are mixed and stirred for 2 hours.

In this case, the dispersible photo-compatible color change dye has a basic color of 28 colors and changes color as a variety of colors due to the change in chemical structure according to the ultraviolet rays as follows.

The chemical formula below shows the process of color photochromic dye of RED color being colorless to colored and colored to colorless when exposed to ultraviolet (UV) light.

In addition, the following chemical structure shows the process of the color-chromic dye (Photocromic Dye) of the gray color is colorless to color, color to colorless when exposed to ultraviolet (UV).

The color ink layer 15 is a composition in which a single color or a multicolored color is mixed alone when used, and various materials such as gold, silver, copper, pearl, metal, beads, glitter, fluorescent, and aluminum foil are mixed together. Silk-screen printing, special color printing ink using off-set is used for primary color printing. The color ink layer 15 includes 5% by weight of polyester resin, 15% by weight of polyurethane resin, 2% by weight of vinyl chloride resin, 60% by weight of cyclonehexane, 16% by weight of methyl isobutyl ketone (MIBK), color pigment 1.85 and color Obtained by mixing 0.15% by weight of a separation inhibitor (BYK 300).

The opaque white layer 16 is 40% by weight of cyclohexanone, 7% by weight of polyester resin, 10% by weight of polyurethane resin, 2% by weight of vinyl chloride resin, and 0.2% by weight of color separation inhibitor (BYK 300). %, And 0.8% by weight of the drying retardant and 40% by weight of Titan white pigment are mixed and obtained by milling for 2 hours.

The adhesive layer 17 was heated and mixed with 20% by weight of copolyester (Copolyester 376 of SWISS SCHATTI Co., Ltd.), 20% by weight of polyurethane (TPU8060 of DACOTA) and 60% by weight of cyclonehexanone with an additive, followed by stirring and cooling. Hot melt (Copolyester 373 from SWISS SCHATTI Co., Ltd.) or polyurethane (TPU8060 from DACOTA Co., Ltd.) is used by mixing at 30% by weight.

Therefore, the present invention transfers to the transfer target 20 by a known method using the transfer paper prepared as described above, the primary color pictures, letters, figures, etc. of the transfer target 20 is bright outdoors (sunlight) Moving to the side is changed to various colors by the photochromic discoloration layer 13, and relates to a manufacturing method of the transfer paper so that the form as it is printed on the transfer object 20 by night luminous is visible, before printing the color The photochromic layer 13 and the color luminous layer 14 are partially or entirely printed and applied to a variety of products, and they can be used for various materials by being released (peeled) even at low temperatures during adhesion.

As described above, the present invention can be discolored in various colors as well as at night when moving from indoors to sunlight or indoors where there are no colors such as primary colors, letters, and figures transferred to the transferee, or where there is no sunlight. By displaying the printed characters and pictures on the clothing, it is a very useful design that can be used in a variety of products to maximize the visual satisfaction.

In addition, the durability of the transfer paper transferred to the transfer target is reduced, there is a fear of deformation, there is an advantage that a good photo-compatible color change is achieved due to the fast response to sunlight.

Claims (5)

Top release agent coating layer, silicone transparent layer, color ink layer, opaque white layer, contact In the transfer paper in which the contact layer was formed sequentially, A color luminous layer is further formed between the silicon transparent layer and the color ink layer. Photochromic color-colored luminous transfer paper, characterized in that. The method of claim 1, The photochromic color-colored luminous transfer paper, characterized in that further forming a photo-compatible color change layer on the upper side of the color luminous layer. The color luminous layer of claim 1 or 2 15% by weight of polyester resin, 15% by weight of isophorone, 3% by weight of drying retardant, 4.8% by weight of dioctylphthalate (DOP), 16% by weight of 1-5 micron color photoluminescent pigment, and 0.1% of dispersant %, 0.1 wt% of the wetting agent was mixed and milled for 1 hour in a mill, and again 27 wt% of methyl isobutyl ketone (MIBK), 3 wt% of a 40% paraffin chloride solution, and 3 wt% of a polyester resin And 2% by weight of polyurethane resin, 8% by weight of xylene, and 3% by weight of cyclohexanone, which are obtained by milling for 2 hours. In the transfer paper formed by sequentially forming a release agent coating layer, a silicon transparent layer, a color ink layer, an opaque white layer, an adhesive layer on the upper surface, The photocompatible color change color luminous transfer paper further forming a photocompatible color change layer between the silicon transparent layer and the color ink layer. The method according to claim 2 or 4, The photocompatible color change layer, Dispersing and dissolving 0.01% by weight of 200 nanophotochromic disperse dyes in 5% by weight of toluene; 3% by weight of polyester resin, 2% by weight of polyurethane resin, 27% by weight of methyl isobutyl ketone (MIBK), 3% by weight of 40% paraffin chloride solution, 2% by weight of drying retardant, and 12.8% by weight of isophorone Stirring in the mill for 1 hour; 25% by weight of cyclohexanone, 15% by weight of polyester resin, 5% by weight of polyurethane resin, and 0.19% by weight of color separation agent were mixed and stirred for 2 hours; Photochromic color-colored luminous transfer paper, characterized in that the obtained.

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