KR20100086648A - Heat transcription four films and the manufacture method to have negative angle and engraving in relief piece pattern effect - Google Patents

Abstract

PURPOSE: A heat transcription film and a manufacturing method thereof are provided to remove the manufacturing process of a piece mold for obtaining an intaglio pattern when manufacturing a molding. CONSTITUTION: A manufacturing method of a heat transcription film including intaglio and relievo design effects comprises the following steps: preparing a base film layer(10); spreading a releasing agent layer(20); forming a surface protecting layer(30); producing a printing layer(40); forming a deposition primer layer(50); forming a functional layer(60); forming an aluminum deposited layer(70); partially forming a depressed layer(80); preparing a first adhesive layer(90); forming a printed layer(100); obtaining a foaming pattern(110) in a relievo shape; forming a second adhesive layer(120); and forming a rear side layer(130).

Description

Heat transcription four films and the manufacture method to have negative angle and engraving in relief piece pattern effect}

The present invention enables to obtain a three-dimensional foam pattern, such as carved embossed by dry bonding to various transfer objects such as picture frames, furniture, architectural interior materials, etc. by heat and pressure, and at the same time, partially dissolved aluminum through water washing process. The present invention relates to a thermal transfer film having an engraved and embossed pattern engraving effect to provide a variety of excellent texture and color by the layer and a method of manufacturing the same.

Previously, the transfer paper used for the production of moldings such as frame frames, furniture, architectural interior materials, etc., was a planar transfer paper, and a work process requiring separate production of engraving molds was required to express three-dimensional effects on the molding material.

In addition, in order to form a three-dimensional pattern on the outer surface of the molding in addition to the above-described method, a predetermined three-dimensional pattern is implemented through a repetitive painting process, a drying process and a dissolving process using paint at least one or more times. That is, the three-dimensional pattern was formed by applying the background color on the frame first, applying another color on the frame, and then partially dissolving the applied color after drying. As the above method is used, the process is excessively time-consuming due to the complexity and hassle, and the production cost is increased. There is a manufacturing technical problem that can only be limited.

In addition, since the transfer paper or the thermal transfer film that has been developed so far provides only a three-dimensional effect by providing a recessed pattern, there is no limit in providing various and high quality three-dimensional patterns.

Therefore, there is a demand for improvement in the manufacturing process, together with various proposals for providing a variety of sophisticated three-dimensional patterns for the conventional molding member and shortening the manufacturing process and increasing productivity.

The present invention has been invented in view of the above-mentioned conventional problems, and an object of the present invention is to manufacture a molding by dry-bonding a transfer object such as wood or a synthetic resin molding material with heat and pressure to obtain a desired relief pattern immediately. Since there is no need to make and use engraving molds to provide solid patterns of embossing at the same time, the productivity of products can be improved by shortening the manufacturing process, and various embossed patterns can be freely created. By dissolving the necessary parts of the aluminum deposition layer through the washing process partially according to the desired design or pattern, the embossed foam pattern is more prominent, and in addition to the aforementioned embossed foam pattern, the excellent texture and partial texture of the aluminum deposition layer Better because it is possible to provide color And a negative embossed pattern piece the thermal transfer film and a method of manufacturing the same have the effect that has the quality to provide.

The thermal transfer film having an intaglio and an embossed pattern engraving effect according to the present invention and its manufacturing method is characterized in that the base film layer is prepared using a polyester-based, polypropylene-based or polyvinyl chloride film having excellent thermal stability of glossy or matte. Making a step; Applying a release agent layer by mixing acrylic resin, toloene, methyl ethyl ketone, polyester resin, and wax on the upper surface of the base film layer to have peelability on the surface; Methyl ethyl ketone (MEK), polyurethane resin, ethyl alcohol, vinyl resin, toluene, acrylic resin, additives, etc. are mixed on the upper surface of the release agent layer to form a surface protective layer for preventing the printing layer from being damaged. Wow; Forming a printing layer by mixing a small amount of an additive such as an acrylic resin, a vinyl resin, a pigment, a methyl ethyl ketone solvent, an isopropyl alcohol, toluene, a pigment, and a dispersant with respect to the upper portion of the surface protective layer; Forming a deposition primer layer using an ink having a transparent color so that gold and silver foil having a transparent color are manufactured among general inks made of resin, dye, and solvent with respect to the upper portion of the printing layer; A resin comprising at least two or more resins of an electrolytic resin, an aqueous acrylic resin, an aqueous butyral resin, an alcoholic butyral resin, an aqueous vinyl resin and an alcoholic vinyl resin on the upper portion of the deposition primer layer is water or alcohol. Forming a dissolving functional layer using a patterned copper plate with an ink dissolved in a solvent and mixed with sodium hydroxide or an acid and dissolved in water or alcohol; Vacuum depositing aluminum on top of the dissolution functional layer to form an aluminum deposition layer; A depression step of partially washing the dissolution function layer and the aluminum deposition layer with water or alcohol to partially form the depression layer; Manufactured by containing an acrylic resin, a vinyl resin, a polyester resin, a ketone solvent, an acetate solvent or an aromatic (AROMATIC) solvent, a methyl ethyl ketone solvent, a toluene solvent on the upper portion of the aluminum deposition layer formed with the depression Forming a first adhesive layer to be adhered to the transfer object; Ethylene vinyl acetate copolymer (EVA), water, colored pigments, calcium carbonate, glycerin, magnesium hydroxide, titanium dioxide, additives (additives), dispersants, emulsifiers, surfactants, etc. are mixed on top of the first adhesive layer, and the films are mixed. Printing a gravure printing method using a corrosive plate to form a pattern printing layer for implementing various embossed patterns and colors; The film member, which has completed the work up to the pattern printing layer, is passed through a dryer at 80 to 100 ° C. at a speed of 20 to 40 m per minute, and at the same time, a ceramic heater is provided to heat the film member dried at the dryer to 140 to 160 ° C. again. Passing through the hot air drying chamber at a speed of 20 to 40 meters per minute to obtain an embossed foam pattern; Acrylic resin, vinyl resin, polyester resin, ketone solvent, acetate solvent or aromatic solvent (AROMATIC) solvent, methyl ethyl ketone solvent, toluene solvent Forming a second adhesive layer to be prepared and bonded to the transfer target; Forming a back layer coated with polyvinyl alcohol as a main component on the back surface of the base film layer in order to separate the second adhesive layer from which the finished film is rolled into a roll so as not to stick to the back surface of the base film layer; ; It is characterized by the point that is manufactured through and through.

The present invention is a thermal transfer film of various forms of embossed patterns directly foamed through the manufacturing process of the present invention without providing a mold engraving to provide an embossed pattern, as well as the design by partial dissolution of the aluminum deposition layer through the washing process or Since the provision of the pattern is possible at the same time, it is possible to provide a variety of beautiful and embossed foam patterns and partially dissolved patterns to the transfer object by simply dry-bonding the thermal transfer film to the transfer object by heat and pressure, In addition, in the transfer process of the transfer film to the transfer object, a separate work process for expressing the embossed foam pattern is required, and the excellent thermal transfer film having various textures and colors can be obtained through the powder melting process of the aluminum deposition layer. And the number of processes in accordance with the transfer operation of the thermal transfer film to the transfer target It may be because it is provides many advantages such as that can further improve the productivity and workability of the product.

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

1 is a manufacturing process diagram of the thermal transfer film having the intaglio and embossed pattern engraving effect according to the present invention, Figure 2 is a partial dissolution process of the aluminum deposition layer of the thermal transfer film prepared by the manufacturing process of Figure 1 in the present invention It is a layer cross-sectional structure diagram of the thermal transfer film advanced to, Figure 3 is a cross-sectional structure diagram of the thermal transfer film of the completed state of the embossed foam glyph work.

First, with reference to Figure 1 will be described the manufacturing process of the thermal transfer film (1) having the engraving effect of the intaglio and embossed according to the present invention.

Preparing a base film layer 10 using a polyester-based, polypropylene-based or polyvinyl chloride film having excellent thermal stability of glossy or matte (S1);

A step (S2) of applying a release agent layer 20 by mixing acrylic resin, toluene, methyl ethyl ketone, polyester resin, and wax so as to have peelability on the upper surface of the base film layer 10;

The surface protective layer 30 is mixed with methyl ethyl ketone (MEK), polyurethane resin, ethyl alcohol, vinyl resin, toluene, acrylic resin, and additives on the upper surface of the release agent layer to prevent the printed layer from being damaged. Forming step (S3);

Forming and mixing a small amount of additives such as acrylic resin, vinyl resin and pigment and methyl ethyl ketone solvent, isopropyl alcohol, toluene and pigment and dispersant with respect to the upper portion of the surface protective layer (S4) )Wow;

Forming a deposition primer layer 50 by using an ink having a transparent color so that gold and silver foil having a transparent color are manufactured among general inks made of resin, dye, and solvent with respect to the upper portion of the printing layer; ;

Water or a resin containing at least two or more resins of an electrolytic resin, a water-soluble acrylic resin, a water-soluble butyral resin, an alcoholic butyral resin, a water-soluble vinyl resin, an alcoholic vinyl resin on the upper portion of the deposition primer layer 50 Forming a dissolution functional layer 60 by using a printed copper pattern copper plate which is dissolved in an alcohol solvent and mixed with sodium hydroxide or an acid and dissolved in water or alcohol ((S6);

Vacuum depositing aluminum on top of the dissolution function layer 60 to form an aluminum deposition layer 70 (S7);

A sinking step (S8) of partially washing the dissolution function layer 60 and the aluminum deposition layer 70 with water or alcohol to partially form the recessed layer 80;

As the solvent, an acrylic resin, a vinyl resin, a polyester resin, and a ketone solvent, an acetate solvent or an aromatic solvent (AROMATIC) solvent, a methyl ethyl ketone solvent, and a toluene solvent are formed on the aluminum deposition layer 70 having the depression. A step (S9) for forming a first adhesive layer 90 which is manufactured to be adhered to and adhered to the transfer object;

Ethylene vinyl acetate copolymer (EVA), water, colored pigments, calcium carbonate, glycerin, magnesium hydroxide, titanium dioxide, additives, dispersants, emulsifiers, surfactants, etc., are mixed on top of the first adhesive layer 90. And it is printed by a gravure printing method using a film corrosion plate to form a pattern printing layer 100 for implementing a variety of embossed patterns and colors (S10);

The ceramic member is dried by passing the film member, which has been completed to the pattern printing layer 100, at a speed of 20 to 40 m / min through a dryer of 80 to 100 ° C. and at the same time again heating the film member dried at the dryer to 140 to 160 ° C. Step (S11) for passing through the hot air drying chamber equipped with a heater at a speed of 20 ~ 40m per minute to obtain an embossed foam pattern (110);

Acrylic resin, vinyl resin, polyester resin, ketone solvent, acetate solvent or aromatic solvent (AROMATIC) solvent, methyl ethyl ketone solvent, A step (S12) for forming a second adhesive layer 120 including the toluene solvent and being adhered to the transfer object;

On the back of the base film layer 10 is applied with a polyvinyl alcohol as a main component to the back of the base film layer in order to separate the second adhesive layer 120, the film is completed in the roll shape is not rolled Forming a rear layer 130 (S13); By passing through the thermal transfer film having an embossed and embossed engraving pattern effect is produced.

Thermal transfer film 1 having an intaglio and embossed pattern engraving effect produced through the above steps, as shown in Figs. 2 and 3, the polyester or polypropylene-based or poly- excellent thermal stability The base film layer 10 prepared using the vinyl chloride film and the acrylic resin, toloene, methyl ethyl ketone, polyester resin, wax, etc. are mixed and applied to have a peelability on the surface of the base film layer 10. The surface of the release agent layer 20 and methyl ethyl ketone, polyurethane resin, ethyl alcohol, vinyl resin, toluene, acrylic resin, additives and the like on the surface of the release agent layer to prevent damage to the print layer. A small amount of additives such as acrylic resin, vinyl resin and pigment, methyl ethyl ketone solvent, isopropyl alcohol, toluene and dispersant are added to the layer 30 and the surface protection layer. Deposition primer layer 50 formed using an ink having a transparent color in order to produce a gold, silver foil of a transparent color of the printing layer 40 and the general ink consisting of a resin, a dye, a solvent for the upper portion of the printed layer )and; Water or a resin containing at least two or more resins of an electrolytic resin, a water-soluble acrylic resin, a water-soluble butyral resin, an alcoholic butyral resin, a water-soluble vinyl resin, an alcoholic vinyl resin on the upper portion of the deposition primer layer 50 A dissolving functional layer 60 which is printed using a printed copper pattern copper plate which is dissolved in an alcohol solvent and mixed with sodium hydroxide or an acid and dissolved in water or alcohol; An aluminum deposition layer 70 vacuum-deposited with aluminum on top of the dissolution function layer 60; A depression layer 80 formed by partially washing the deposition primer layer 50, the dissolution function layer 60, and the aluminum deposition layer 70 with water or alcohol; An acrylic resin, a vinyl resin, a polyester resin, a ketone solvent, an acetate solvent or an aromatic solvent (AROMATIC) solvent, a methyl ethyl ketone solvent, toluene on top of the partially recessed aluminum deposition layer 70 Transparent first adhesive layer 90 which consists of solvents; Printed ink mixed with ethylene vinyl acetate copolymer, water, colored pigment, calcium carbonate, glycerin, magnesium hydroxide, titanium dioxide, additives, dispersant, emulsifier, surfactant, etc. on the surface of the first adhesive layer 90 By using a gravure printing method using this carved film corrosion plate, including a pattern printing layer 100 to be printed to implement a variety of embossed engraving patterns and colors, the film member 80 to 100 completed until the pattern printing layer work Pass through the dryer at 20 ° C. at a rate of 20-40 meters per minute, and at the same time, pass the dried film member at a speed of 20-40 meters per minute through a hot air drying chamber equipped with a ceramic heater that heats the film member to 140 ° C. to 160 ° C. again. An embossed foam pattern 110 is formed, and on the surface of the pattern printing layer 100 on which the foam pattern 110 is formed, an acrylic resin, a vinyl resin, and polyester A resin and a second adhesive layer 120 which is prepared by including a ketone solvent, an acetate solvent or an aromatic solvent, an methyl ethyl ketone, and a toluene solvent as a solvent to be adhered to the transfer object, When the film including the second adhesive layer 120 is wound in a roll on the back surface of the base film layer 10, in order to prevent the adhesive layer from sticking to the back surface of the base film layer 10, polyvinyl alcohol It consists of the back layer 130 which apply | coats as a main component.

In preparing the thermal transfer film 1 having the intaglio and embossed foam patterns according to the present invention, the matte polyester, polypropylene or polyvinyl chloride film used as the base film layer 10 is 23 to 100. It is preferred to have a thickness of microns.

In the flushing step, the deposition primer layer 50, the dissolution functional layer 60, and the aluminium deposition layer 70 are partially dissolved and depressed, so that the color and pattern of the printing layer 40 are not only intaglio effects. It is configured to look outside.

In addition, the film etched plate used to form a pattern printing layer 100 to provide a variety of embossed engraving patterns and colors by the gravure printing method of the present invention, also known as boomerang copper plate film after containing the photoresist in a copper-plated cylinder It is possible to express sufficient concentration and gradation at 15 micron depth by developing the method, and recently, it is possible to realize printing up to a depth of about 7 to 12 microns using a high concentration of ink and semipermanent It is possible to use phosphorus, and it is possible to print various and detailed engraving patterns due to the increase in gradation reproducibility and platelet concentration by low depth, and it can be said to be a high productivity engraving method.

Various known pigments may be used as the pigment included in the pattern printing layer 100 to provide various embossed patterns and colors, and more specifically, azo-based, phthalocyanine-based, and triallylmethan quids. Quinolone anthraquinone, thioindigo, perylene, prinone, quinacridone, dioxazine, isoindorinone, iso Indodorine, quinaphthalone, and the like can be used. The pigment may be appropriately selected and used in consideration of color tone, light resistance, and the like. In addition, the printing ink forming the pattern printing layer 110 is to provide a variety of embossed patterns and colors by appropriately using the ethylene vinyl acetate copolymer (EVA), water, colored pigments, calcium carbonate, glycerin, etc. .

The first adhesive layer 90 is applied evenly on the surface of the aluminum deposition layer 70 which has been washed with water through a cut (copper plate) operation, and is generally applied using an arc-based resin or the like.

In addition, the second adhesive layer 120 is intended to firmly and easily adhere to the transfer object, and may be an acrylic resin, a vinyl resin, a polyester resin, a ketone solvent, an acetate solvent, or an aromatic solvent (AROMATIC). A solvent, a methyl ethyl ketone solvent, and a toluene solvent may be used, but are not necessarily limited thereto, and may be appropriately selected and used depending on the degree of transparency of the adhesive layer or the type of the transfer target.

The coating of the second adhesive layer 120 is preferably performed 1 to 5 times with 100 copper sheets, depending on the type of the transfer object, for example, ABS, PS, PE, PP, MDF plate material, or the like. It is good to have a very stable adhesion.

And the printing layer 40 is effectively protected by the surface protection layer 30 printed on the lower surface. That is, even when used in various molding materials or building interior materials that require various characteristics due to improved wear resistance, light resistance, and scratch resistance, it is possible to effectively provide an embossed engraving effect, and to significantly extend the service life of the product. do.

On the other hand, the thermal transfer film manufactured through the above process is finally supplied in a rolled state, wherein the first adhesive layer 120 is a back layer (co) formed on the back of the base film layer 10 ( 130 is not stuck to each other by the configuration of the heat transfer operation of the transfer object using the adhesive layer can be made very easily.

On the other hand, the back layer 130 is most preferably formed after the first adhesive layer 90 is formed in the working process, but is not necessarily limited thereto.

Therefore, the present invention is a thermal transfer film (1) of the present invention manufactured through the manufacturing process is a pattern of the deposition primer layer 50, the dissolution functional layer 60 and the aluminum deposition layer 70 through the washing process. It is partially melted and melted to form intaglio engraving effect, and at the same time, the thermal transfer film is manufactured by directly foaming various pieces of embossed pattern through foaming pattern forming step. As the base film layer 10 is separated through the release agent layer 20 by the bonding operation, the pattern of the negative embossment by partial dissolution embodied in the print layer 40 and the pattern print layer 100 is formed. ) Can be transferred to the transfer object as it is, so that it is possible to transfer a pattern having a beautiful yin and embossed engraving molding effect without a separate work process for expressing yin and embossed foam patterns. It becomes possible. In particular, as the intaglio fragments are partially dissolved by the depression layer 80, the embossed sculpture effect through the foam pattern layer 110 may be more prominently displayed.

Although the present invention has been described with reference to the accompanying drawings, the present invention is not limited thereto, and many modifications and changes may be made without departing from the scope of the following claims. For example, the blending ratio of the various raw materials for forming each layer of the thermal transfer film may have various blending ratios according to the working conditions. The aluminum deposition layer 90 may be preferably represented by a metal layer.

1 is a manufacturing process diagram of the thermal transfer film having a pattern of engraving embossed in accordance with the present invention,

Figure 2 is a cross-sectional structure diagram of the thermal transfer film made up to the step of forming a depression layer in the manufacturing process of Figure 1,

3 is a cross-sectional structure diagram of the thermal transfer film manufactured through all the manufacturing steps of FIG. 1.

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

10: base film layer 20: release agent layer

30: surface protection layer 40: printing layer

50: deposition primer layer 60: dissolution functional layer

70: aluminum deposition layer 80: recessed layer

90: first adhesive layer 100: pattern printing layer

110: embossed foam pattern 120: second adhesive layer

130: back layer

Claims (2)

Preparing a base film layer 10 using a polyester-based, polypropylene-based or polyvinyl chloride film having excellent thermal stability of glossy or matte (S1); A step (S2) of applying a release agent layer 20 by mixing acrylic resin, toluene, methyl ethyl ketone, polyester resin, and wax so as to have peelability on the upper surface of the base film layer 10; The surface protective layer 30 is mixed with methyl ethyl ketone (MEK), polyurethane resin, ethyl alcohol, vinyl resin, toluene, acrylic resin, and additives on the upper surface of the release agent layer to prevent the printed layer from being damaged. Forming step (S3); Forming and mixing a small amount of additives such as acrylic resin, vinyl resin and pigment and methyl ethyl ketone solvent, isopropyl alcohol, toluene and pigment and dispersant with respect to the upper portion of the surface protective layer (S4) )Wow; Forming a deposition primer layer 50 using an ink having a transparent color so that gold and silver foil having a transparent color are manufactured among general inks made of resin, dye, and solvent with respect to the upper portion of the printing layer; ; Water or a resin containing at least two or more resins of an electrolytic resin, a water-soluble acrylic resin, a water-soluble butyral resin, an alcoholic butyral resin, a water-soluble vinyl resin, an alcoholic vinyl resin on the upper portion of the deposition primer layer 50 Forming a dissolution functional layer 60 using a patterned copper plate with an ink dissolved in an alcohol solvent and mixed with sodium hydroxide or an acid and dissolved in water or alcohol ((S6)); Vacuum depositing aluminum on top of the dissolution function layer 60 to form an aluminum deposition layer 70 (S7); A sinking step (S8) of partially washing the dissolution function layer 60 and the aluminum deposition layer 70 with water or alcohol to partially form the recessed layer 80; As the solvent, an acrylic resin, a vinyl resin, a polyester resin, and a ketone solvent, an acetate solvent or an aromatic solvent (AROMATIC) solvent, a methyl ethyl ketone solvent, and a toluene solvent are formed on the aluminum deposition layer 70 having the depression. A step (S9) for forming a first adhesive layer 90 which is manufactured to be adhered to and adhered to the transfer object; Ethylene vinyl acetate copolymer (EVA), water, colored pigments, calcium carbonate, glycerin, magnesium hydroxide, titanium dioxide, additives, dispersants, emulsifiers, surfactants, etc., are mixed on top of the first adhesive layer 90. And it is printed by a gravure printing method using a film corrosion plate to form a pattern printing layer 100 for implementing a variety of embossed patterns and colors (S10); The ceramic member is dried by passing the film member, which has been completed to the pattern printing layer 100, at a speed of 20 to 40 m / min through a dryer of 80 to 100 ° C. and at the same time again heating the film member dried at the dryer to 140 to 160 ° C. Step (S11) for passing through the hot air drying chamber equipped with a heater at a speed of 20 ~ 40m per minute to obtain an embossed foam pattern (110); Acrylic resin, vinyl resin, polyester resin, ketone solvent, acetate solvent or aromatic solvent (AROMATIC) solvent, methyl ethyl ketone solvent as the solvent A step (S12) for forming a second adhesive layer 120 which is prepared by including toluene solvent and adhered to the transfer target; On the back of the base film layer 10 is applied with a polyvinyl alcohol as a main component to the back of the base film layer in order to separate the second adhesive layer 120, the film is completed in the roll shape is not rolled Forming a rear layer 130 (S13); Method of producing a thermal transfer film having an intaglio and embossed pattern engraving effect, characterized in that it is manufactured through.  A base film layer 10 prepared by using a polyester-based, polypropylene-based or polyvinyl chloride film having excellent thermal stability of glossy or matte; A release agent layer 20 coated by mixing acrylic resin, toloene, methyl ethyl ketone, polyester resin, wax and the like to have peelability on the surface of the base film layer 10; A surface protective layer 30 for coating and coating methyl ethyl ketone, polyurethane resin, ethyl alcohol, vinyl resin, toluene, acrylic resin, additives, etc. on the surface of the release agent layer to prevent damage to the printing layer; A print layer 40 formed by adding a small amount of an additive such as an acrylic resin, a vinyl resin, a pigment, a methyl ethyl ketone solvent, an isopropyl alcohol, toluene, and a dispersant on the surface of the surface protective layer; A deposition primer layer 50 formed using an ink having a transparent color in order to produce gold and silver foil having a transparent color among general inks made of a resin, a dye, and a solvent with respect to an upper portion of the printing layer; Water or a resin containing at least two or more resins of an electrolytic resin, a water-soluble acrylic resin, a water-soluble butyral resin, an alcoholic butyral resin, a water-soluble vinyl resin, an alcoholic vinyl resin on the upper portion of the deposition primer layer 50 A dissolving functional layer 60 which is printed using a printed copper pattern copper plate which is dissolved in an alcohol solvent and mixed with sodium hydroxide or an acid and dissolved in water or alcohol; An aluminum deposition layer 70 vacuum-deposited with aluminum on top of the dissolution function layer 60; A recessed layer 80 formed by partially washing the deposition primer layer 50, the dissolution functional layer 60, and the aluminum deposition layer 70 with water or alcohol; An acrylic resin, a vinyl resin, a polyester resin, a ketone solvent, an acetate solvent or an aromatic solvent (AROMATIC) solvent, a methyl ethyl ketone solvent, toluene on top of the partially recessed aluminum deposition layer 70 Transparent first adhesive layer 90 which consists of solvents; Printed ink mixed with ethylene vinyl acetate copolymer, water, colored pigment, calcium carbonate, glycerin, magnesium hydroxide, titanium dioxide, additives, dispersant, emulsifier, surfactant, etc. on the surface of the first adhesive layer 90 By using a gravure printing method using this carved film corrosion plate, including a pattern printing layer 100 to be printed to implement a variety of embossed engraving patterns and colors, the film member 80 to 100 completed until the pattern printing layer work Pass through the dryer at 20 ° C. at a speed of 20-40 meters per minute, and at the same time, pass through the hot air drying chamber equipped with a ceramic heater to heat the dried film member to 140 ° C. to 160 ° C. at a speed of 20-40 m per minute. In order to form the foam pattern 110, the foam pattern 110 is formed on the surface of the pattern printing layer 100 is acrylic resin, vinyl resin, polyester A resin and a second adhesive layer 120 are prepared by forming a ketone solvent, an acetate solvent or an aromatic solvent, an methyl ethyl ketone solvent, and a toluene solvent as a solvent to adhere to the transfer object. When the film including the second adhesive layer 120 is wound in a roll on the back surface of the base film layer 10, in order to prevent the adhesive layer from sticking to the back surface of the base film layer 10. Thermal transfer film having an intaglio and embossed sculpture pattern effect, characterized in that the back layer 130 is applied as a main ingredient alcohol.

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