KR20030028226A - Transfer paper manufacturing method and decalcomania matter - Google Patents

Abstract

PURPOSE: Transfer paper manufacturing method and decalcomania matter are provided wherein a part of the room temperature tackifier layer is released from the transfer paper forcibly during pulling out a decalcomania matter, so the decalcomania matter is attached to a desired position. CONSTITUTION: Transfer paper manufacturing method and decalcomania matter include a step of applying the releasing material on the whole upper side and lower side of the transfer paper(1) with a roller to form a releasing layer(2), a step of applying a tackifier on the whole surface of the releasing layer(2) with a roller to form a room temperature tackifier layer(4), and a step of applying an adhesive having the thermoplastic adhesive force on the whole surface of the room temperature tackifier layer(4) with a roller to form an adhesive layer(4a) wherein during pulling out a decalcomania matter having the various patterns formed on the surface of the adhesive layer(4a), a part of the adhesive layer(4a) and the room temperature tackifier layer(4) are released from the transfer paper(1) as a pattern of the decalcomania matter, so the decalcomania matter is attached to a desired position.

Description

Transfer paper manufacturing method and three-dimensional transfer material using the same {Transfer paper manufacturing method and Decalcomania matter}

The present invention relates to a method for manufacturing a transfer paper and a stereoscopic transfer material using the same, and more particularly, a room temperature adhesive agent and an adhesive agent on an entire surface of a transfer paper having a release agent formed on both sides thereof. By coating the rollers separately, the stickiness of the room temperature adhesive is covered by the adhesive, thereby improving the productivity by coating these materials continuously, and printing without interfering with the room temperature adhesive even when printing the pictures on which the three-dimensional decoration is multicolored. The present invention relates to a transfer paper and a stereoscopic transfer material using the same, which can be printed at a high speed by using a method such as gravure printing or offset printing.

In general, a method of printing on a garment fabric using a transfer paper is as follows. First, a picture was printed on a transfer paper on which a release layer was formed, a heat adhesive was applied to the printed transfer paper, and when dried, heat pressing was directly applied to the fabric so that the flat transfer material was attached to the fabric.

However, in the case of the transfer paper having the projected stereoscopic transfer object, due to its thickness and three-dimensional impression, it is necessary to perform the dual transfer operation in the reverse order of the plane transfer object transfer. Printing pictures or applying adhesive on irregularly projected stereoscopic transfers is virtually impossible.

Therefore, the inventor developed the dual transfer method and registered as Utility Model Registration No. 245377 and also filed as Utility Model Registration Application No. 2001-21975. These transfer methods are as follows. The heat-adhesive was applied to the transfer paper on which the release layer was formed in the shape of the three-dimensional transcript, and the adhesive was applied at room temperature by silk screening. Then, the heat-adhesive and the painting layer were superimposed on each other by silk-screen printing. In addition, a transparent thermosetting material (silicone), which is a transparent thermosetting material, is applied by silk screen printing on the upper part of the painting layer, and sprinkled with small beads before the decorative adhesive is hardened to form a decorative layer.

The completed three-dimensional transcripts covered the surface of the decorative layer with a general adhesive tape for packaging and transportation, and to transfer the separated three-dimensional transcripts to the fabric of the garment as it is.

Thus, when the three-dimensional transfer is formed between the transfer paper and the adhesive tape it is easy to package and transport. And when the adhesive tape is removed from the transfer paper to attach the three-dimensional decoration to the desired clothing fabric, the three-dimensional transcript is stuck to the adhesive tape. Then, the adhesive tape is placed on the garment fabric and pressed with a high-temperature metal plate to heat press. As the heat adhesive melts, the three-dimensional transcript adheres to the garment fabric while the adhesive adheres to the garment fabric. At this time, the transfer of the three-dimensional transcript is completed.

Three-dimensional transcript is a myriad of small transparent marbles attached to the upper part of the painting layer and they act as a convex lens.The painting layer penetrates these beads and the image layer is enlarged. Increase the added value of clothing.

However, the conventional three-dimensional transfer material transfer method has a disadvantage in that workability and productivity are poor because the heat adhesive, the painting layer and the decorative adhesive (silicon) have to be printed by the silk screen method, respectively. The heat adhesive should be printed on the transfer paper in the form of a silkscreen method to form the base of the painting layer, and then the silkscreen printing on the top of the heat adhesive will be done by multi-color silkscreen printing. Degraded.

Silk-screen printing is, as is well known, spreading a mesh woven from silk, nylon fiber or stainless steel and fixing four corners tightly to make a plate by photochemical method on it, and then printing ink and heating adhesive (thermoplastic resin) inside the frame. ) Or decorative adhesive (thermosetting resin) is poured into the screen with a spatula to move the ink, heat adhesive and decorative adhesive through the mesh in the non-valve area and printed on the transfer sheet under the plate.

Therefore, it is necessary to pour the ink or adhesive to the mold and print while moving the squeeze, there was a disadvantage such as poor workability and productivity.

The printing of the heat adhesive agent, the adhesive agent and the ink through the transfer paper between the rollers has an advantage of 10 times faster than the silk screen, but this method cannot be used conventionally. In the case of the roller coating method, the heat adhesive should be coated by a constant pressure when the transfer paper passes between the rollers. However, when the thermal adhesive is locally coated in a specific position of the transfer paper in the form of the three-dimensional transfer material, it is pushed and spreads widely between the rollers, making it larger than the three-dimensional transfer material, and thus cannot be used. And part of the wide spread heat adhesive has a problem such as to stick to the roller by lifting in the transfer paper, there was a limit to increase the productivity by not forming an adhesive in this way.

In addition, the room temperature adhesive (which has a property of firmly sticking to an object such as clothing when pressed at room temperature: a sticker) could not be printed in multicolor on the room temperature adhesive because stickiness remained at room temperature even after drying. After coating the room temperature adhesive on the transfer paper having the release layer and placing the screen on the screen for multi-color silkscreen printing, the room temperature adhesive adhered to the inner surface of the screen and printing was impossible, so that the mass production of the stereoscopic transfer material having the room temperature adhesive was impossible.

SUMMARY OF THE INVENTION The present invention was developed in view of the conventional problems, and an object of the present invention is to coat a transfer adhesive layer and a temporary adhesive layer covering the entire surface of a transfer paper by a roller method, respectively, in a roll state. It can be rolled up or cut by a certain width to be stacked and stored in a sheet state, and by printing gravure printing or offset printing on a temporary adhesive layer on a temporary adhesive layer, high-speed printing can be made with a room temperature adhesive layer. When the object is removed, a portion of the room temperature adhesive layer is forcibly removed from the transfer paper, thereby providing a transfer paper manufacturing method capable of attaching the three-dimensional transfer material to a desired place, and a three-dimensional transfer material using the same.

Another object of the present invention is to apply a heat-sensitive adhesive layer and the adhesive layer to cover the heat adhesive layer that is melted and applied to the object such as clothing fabric and melted by applying a roller method to roll the transfer paper in a roll state or cut a predetermined width in a sheet state By printing at a high speed by using a gravure printing or offset printing method on a temporary adhesive layer on a temporary adhesive layer, it is possible to make a three-dimensional transfer object having a heat adhesive layer, and in particular, a part of the heat adhesive layer when the three-dimensional transfer object is removed. The present invention provides a method for manufacturing a transfer paper which can be forcibly torn from the transfer paper and attach the three-dimensional transfer material to a desired place, and a three-dimensional transfer material using the same.

1 is a process chart showing a method for manufacturing a room temperature adhesive transfer paper of the present invention

Figure 2 is a process chart showing a method for manufacturing a heat-bonded transfer paper of the present invention

Figure 3 is a process chart showing the manufacturing process of the present invention three-dimensional transfer

Figure 4 is a process diagram showing a part of the process for producing a three-dimensional transcription of the present invention

5 is a plan view showing a part of the three-dimensional transcription of the present invention

6 is a cross-sectional view showing a process of tearing the stereoscopic transcription of FIG.

Figure 7 is a perspective view showing the state of the garment attached to the present invention three-dimensional transfer

<Code Description of Main Parts of Drawing>

1: Transfer paper 2: Release layer

2a: second release layer 2b: gap

3: heat adhesive layer 3a: adhesive layer

4: room temperature adhesive layer 4a: adhesive layer

5: painting layer 6: decorative adhesive layer

7: decorative layer 8: adhesive tape

8a: pressure-sensitive adhesive layer 9: clothing fabric

In order to achieve the above object, the present invention particularly includes the step of coating a release material on the entire upper and lower surfaces of the transfer paper with a roller to form a release layer, and coating the adhesive on the entire surface of the release layer of the transfer paper with a roller to form a room temperature adhesive layer. And a step of coating the adhesive having a thermoplastic adhesive force on the entire surface of the room temperature adhesive layer of the transfer paper with a roller to form the adhesive layer, and pulling the three-dimensional transcripts of various forms formed on the surface of the adhesive layer. In the form of three-dimensional transcripts, a part of the adhesive layer and the room temperature adhesive layer are separated from the transfer paper and configured to attach the three-dimensional transcript to a desired place.

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

<Example 1>

Example 1 relates to a method for producing a transfer paper having a room temperature adhesive layer and a three-dimensional transfer material using the same.

1 is a process chart showing a method of manufacturing a transfer paper of the present invention, the transfer paper 1 rolled in a rolled state is coated with a release agent such as fluorocarbon resin, silicone resin or surfactant on the upper surface and the entire bottom surface evenly according to the roller method, room temperature adhesive The release layer 2 is formed so that it is easily separated. The release layer 2 should be configured such that the upper surface has a weaker release property than the lower surface, so that the room temperature adhesive does not easily fall off when the room temperature adhesive is coated on the top surface.

The transfer paper on which the release layer was formed was rolled and stored in a rolled state and passed through the transfer paper between a pair of rollers coated with a room temperature adhesive agent to coat the room temperature adhesive layer 4 over the entire upper surface thereof, and dried by passing through a drying furnace. In the case of the transfer paper having the room temperature adhesive layer 4 formed thereon, since the room temperature adhesive is adhesive like a sticker, the painting cannot be directly printed on the room temperature adhesive layer in multiple colors.

In the present invention, the transfer paper is passed between the rollers to cover the room temperature adhesive layer (4) to form a coating of the adhesive layer (4a). The adhesive layer 4a is a connecting member for allowing a part of the room temperature adhesive layer 4 to stick to the three-dimensional transfer material and fall together when the three-dimensional transfer material is separated from the transfer paper.

The room temperature adhesive layer 4 is sticky at room temperature and thus cannot directly print a picture on its surface. Therefore, the adhesive layer 4a is formed on the adhesive layer at room temperature. The adhesive agent is excellent in adhesiveness, coating property, and printability in which tensile force is removed.

The tackifier can be used in a wide range of thermosetting resins, thermoplastic resins and general synthetic resins.

The tackifier is made of white powder powder, which is used as a basis for printing pictures in multicolor, and consists of a mixture of resin and white powder powder. When the adhesive layer 4a is coated on the surface of the room temperature adhesive layer 4, the resin components of the adhesive penetrate into the room temperature adhesive layer 4 and bind to each other, and they are thin films and the adhesive force is removed because the tensile force is removed. Pulling the three-dimensional transcript formed on the surface of the) and part of the adhesive layer and the room temperature adhesive layer is separated from the transfer paper by the area. The present invention can use such a property to attach a three-dimensional transfer article to clothing or the like.

After coating the adhesive on the upper part of the room temperature adhesive layer (4), it becomes a white ground, and then offset printing or gravure printing the painting layer in multicolor, and then forming a decorative adhesive layer and a decoration layer to make a stereoscopic transfer object. Seems to be. In addition, the adhesive acts as an adhesive for binding the painting layer and the room temperature adhesive layer, and when the three-dimensional transfer material is pulled from the transfer paper, a part of the adhesive agent layer 4a and the room temperature adhesive layer 4 are transferred together with the three-dimensional transfer material in the form of the three-dimensional transfer material. You will be able to move away from and attach the Warrior to your garment. The adhesive layer 4a and the room temperature adhesive layer 4 are formed of a thin film, and the adhesive layer is formed of a resin from which the tensile force is removed, so that the adhesive layer 4a is separated from the transfer paper together with the steric transcript.

The room temperature adhesive layer 4 and the adhesive layer 4a are coated on the entire upper surface of the transfer paper irrespective of the shape of the three-dimensional transfer material, so that the transfer paper 1 can be produced and stored in large quantities before the production of the three-dimensional transfer material. When the three-dimensional transfer is required, it can be cut to the required length to offset print the desired picture in multiple colors, or the gravure printing can be done while unwinding the transfer paper in the roll state.

The room temperature adhesive is mainly acrylic or silicone, which depends on the release layer properties of the upper surface of the transfer paper (1). If the release layer 2 is silicone, an room temperature adhesive of an acrylic component is used, and if the release layer is a fluororesin, both silicone or acrylic may be used.

The upper release layer 2 of the transfer paper 1 needs to be weakly coated with a release force by mixing foreign materials such as stone powder so that the room temperature adhesive layer 4 does not easily fall off.

The present invention uses silicone as a release agent and acrylic resin as a room temperature adhesive agent, the release force of the release agent is controlled by the residual ratio of the acrylic resin component. Preferred proportions of the release agent are 50 to 80% by weight of silicone and 20 to 50% by weight of acrylic resin, which are diluted in toluene and coated on the transfer paper by a roller method. The acrylic resin here is not as sticky as the acrylic adhesive, but is completely hardened after drying or chemical reaction and is stable without stickiness.

Figure 3 is a process chart showing the manufacturing process of the three-dimensional transcription of the present invention. The painting layer 5 is formed by applying a silicone resin, a thermosetting resin or a thermoplastic resin mixed with a powder and a liquid pigment onto the surface of the adhesive layer 4a. The painting layer 5 is offset-printed in multiple colors and is composed of powders and liquid pigments while expressing various colors, and firmly adheres to the adhesive layer 4a. The painting layer is offset printing or gravure printing, the printing speed is very faster than the conventional silk screen printing.

As the painting layer 5, an ink in which organic and inorganic pigments are mixed with a synthetic resin is used, and a second release layer 2a is formed on the adhesive layer 4a on which the painting layer 5 is not printed. The second release layer 2a is to protect the tackifier layer 4a in which the painting layer is not formed, and silicon having tensile force is formed in a silkscreen manner. The second mold release layer 2a is applied thicker than the adhesive layer 4a, so that the second release layer 2a is pressed and held by the adhesive layer and the room temperature adhesive layer. And since the clearance gap 2b of about 0.3 mm is formed between the painting layer 5, and it forms a boundary, it does not interfere with a painting layer. Therefore, if the decorative layer (7) and the painting layer (5) is pulled from the transfer paper, the adhesive layer (4a) and the room temperature adhesive layer (4) in contact with the painting layer (5) fall while the second release layer (2a) is pressed. The adhesive layer 4a and the room temperature adhesive layer 4 remain on the transfer paper.

The thermosetting resin is applied to the surface of the painting layer 5 to form the decorative adhesive layer 6. The decorative adhesive layer 6 is formed by the silkscreen printing technique on the upper part of the painting layer 5, and the decorative adhesive layer 6 is formed only on the painting layer 5, and is not formed on the second release layer 2a. The decorative adhesive layer 6 may be a material having adhesiveness, heat resistance and cold resistance, but preferably transparent silicone and urethane resin are mainly used. And when the decorative beads are sprayed before the decorative adhesive layer 6 is hardened, the decorative layer 7 is formed in a state where a part of the decorative adhesive layer adheres to the decorative adhesive layer.

The decorative layer 14 is made of a transparent bead as shown, but is not limited to its shape, such as small pieces of metal or synthetic resin coated with a plate, and may be used extensively, and the decorative layer 7 must be It is not limited to the shape of the beads. Therefore, it is possible to apply only decorative adhesive layers without painting layers and to attach decorative materials, and to mix and apply the decorative adhesives.

When the decorative layer 7 is formed on the decorative adhesive layer 6, the three-dimensional transcription of the present invention is completed.

The stereoscopic transcript may be composed of a single body according to the shape of the picture layer 5, or the stereoscopic transcripts separated from each other, such as letters, may be composed of a single sentence. In the case of three-dimensional transcripts which are separated from each other, they are to be removed from the transfer paper 1 in an arrangement state and attached to the garment fabric.

Adhesive tape is used to simultaneously separate these steric transcripts from the transfer paper. The adhesive tape 8 is a kind of polyester film and has an adhesive 8a made of acrylic resin. Therefore, when the adhesive tape 8 is placed on the decorative layer 7 of the three-dimensional transfer material and pressed, the adhesive tape 8 adheres to the three-dimensional transfer material by means of an adhesive having a stickiness at a constant pressure. In the process of pressing the adhesive tape 8, the adhesive layer 4a on which the painting layer 5 is not formed is protected by the second release layer 2a and does not stick to the adhesive tape 8.

Since the transfer paper 1 is placed on the bottom and the adhesive tape is coupled to the upper surface, the three-dimensional transfer material can be safely distributed as a commodity. When the adhesive tape is formed of a flexible material, the three-dimensional transfer material does not have to be broken or fall off.

How to use the stereoscopic transfer is as follows.

When holding the transfer paper 1 and pulling the adhesive tape 8, the decorative layer 7, the decorative adhesive layer 6, and the painting layer 5 fall by the adhesive force of the adhesive tape 8. Since the decorative adhesive layer 6 is composed of a thermosetting resin and has a strong adhesive force, the decorative layer 7 and the painting layer 5 on the upper and lower sides of the decorative adhesive layer 6 become one body, and the adhesive tape 8 ), They fall simultaneously.

And the adhesive layer (4a) and the room temperature adhesive layer (4) in contact with the painting layer (5) has a pressure-sensitive adhesive force and is a thin film at the same time along the contour of the painting layer (5) to fall off the transfer paper (1) at the same time The adhesive layer 4a and the room temperature adhesive layer 4 without the painting layer 5 are protected by the second release layer 2a and thus remain on the transfer paper 1. Since the second release layer 2a is formed of silicon having tensile force and is coated thicker than the adhesive layer 4a, the second release layer 2a is formed by pressing and holding the adhesive layer and the room temperature adhesive layer on which the painting layer 5 is not formed. Therefore, the adhesive layer 4a and the room temperature adhesive layer 4 in contact with the painting layer 5 may be simultaneously shaken while the decorative layer 7 and the painting layer 5 fall as shown in FIG. 6.

Place the three-dimensional transfer adhered to the adhesive tape (8) on the garment fabric (9), such as cloth or leather, or other miscellaneous goods, press firmly to allow the room temperature adhesive layer (4) to stick, and then pull the adhesive tape (8) Since the adhesive 8a has weaker adhesive force than the normal temperature adhesive layer 4, it pulls out from a three-dimensional transcription and transfer is completed.

FIG. 7 shows a three-dimensional transfer article having a painting layer 5 and a decoration layer 7 on the garment fabric 9. Various colors expressed in the paint layer are reflected and refracted by passing through the decorative adhesive layer 6 and the transparent decoration layer 7 which are transparent bodies, so that colorful and three-dimensional images can be viewed and variously designed three-dimensional printing can be realized.

<Example 2>

Example 2 relates to a method for producing a transfer paper having a heat adhesive layer and a stereoscopic transfer material using the same.

In Example 2, the heat adhesive layer 3 is coated on the surface of the transfer paper 1 made in the same manner as in Example 1. When the transfer paper 1 is passed between the rollers in which the heat adhesive is thinned, the heat adhesive is coated on the upper surface thereof, and when passed through the drying furnace, the solvent is volatilized and the heat adhesive layer 3 is formed on the upper surface of the transfer paper 1. The adhesive layer 3a is formed on the upper surface of the heat adhesive layer 3 by the same roller coating method as above.

The heat adhesive layer 3 is a thermoplastic resin adhesive of synthetic resins, and is mainly fused to the clothing fabric (9) by applying heat in a solid state. Since the heat adhesive is composed of thermoplastic powder such as polyester powder and polyamide powder, the adhesive powders are not bonded to each other unless heat is applied, thereby reducing the tensile strength of the adhesive.

The preferred heat adhesive of the present invention is a diluent such as toluene or xylene, which is diluted with 50% by weight of polyamide and 20% by weight of heat-resistant low-temperature thermosetting urethane resin in which tensile strength is removed and heat resistance is melted between 150 and 180 degrees Celsius. It is coated on the transfer paper by a roller. Heat adhesive is a mixture of thermosetting resin and polyamide with low heat resistance, so it melts well in heat and is easy to penetrate into fabrics such as clothing.The excellent chemical resistance of polyamide and thermosetting resin makes it easy to dry clean clothes that have three-dimensional decorations. It does not fall and remains intact.

The adhesive agent constituting the adhesive layer 3a includes 50% by weight of the thermosetting resin-based urethane resin having low tensile strength and low heat resistance, 20% by weight of white pigment (the main component of crumb), and 30% by weight of polyamide (thermoplastic resin). It is diluted with a diluent such as toluene, which is coated on the heat adhesive layer 3 of the transfer paper by a roller. Since the polyamide is contained in the adhesive layer 3a, the polyamide of the adhesive layer and the polyamide of the heat-adhesive layer melt together when penetrating the three-dimensional transfer material, soaking into the fabric of a garment and binding them firmly. Eventually, the adhesive layer is absorbed by the heat adhesive layer when hot pressed. In addition, 20% by weight of the white pigment and 30% by weight of the polyamide (thermoplastic resin) serves to reduce the tensile strength of the urethane resin, which is the main component of the tackifier, so that the transfer material easily falls.

The adhesive layer serves as a base paper so that the three-dimensional transfer material can be printed on the surface of the heat adhesive layer 3. The picture is clearly displayed by the white pigment contained in the adhesive layer.

The transfer sheet of Example 2 made by the above method will be described as follows, only the important part of the three-dimensional transcription is printed in the same manner as in Example 1.

Since the adhesive layer 3a is white for printing on the surface and has no adhesive force at all, the printing layer 5 can be offset or gravure printed in multiple colors, thereby making the printing speed several ten times faster than conventional silk screens. .

In addition, the adhesive layer may be peeled off from the transfer paper together with the heat adhesive layer 3 in the form of the transfer material when the stereoscopic transfer material is removed from the transfer paper, and the transfer material may be adhered to the desired place by hot pressing.

As described above, according to the present invention, a release agent, a room temperature adhesive agent, an adhesive, and a heat adhesive may be formed on the surface of the transfer paper by a roller coating method, thereby increasing productivity of the transfer paper.

In addition, regardless of the shape of the room temperature adhesive layer or the heat adhesive layer that attaches the three-dimensional transfer material when making the three-dimensional transfer material, the underlying painting layer is multi-colored by offset printing or gravure printing. Printing is possible, and when the three-dimensional transfer is completed in the form of the three-dimensional transfer, the room temperature adhesive layer and a part of the heat adhesive layer is separated from the transfer paper, there is an effect such as to conveniently attach the three-dimensional transfer to the garment fabric.

Claims (11)

Coating a release material on the entire upper and lower surfaces of the transfer paper 1 with a roller so that the release layer 2 is formed; Coating a pressure-sensitive adhesive on the entire surface of the release layer 2 of the transfer paper 1 with a roller so that the room temperature adhesive layer 4 is formed, and It consists of the steps of coating the adhesive having a thermoplastic adhesive force on the entire surface of the room temperature adhesive layer 4 of the transfer paper 1 with a roller to form the adhesive layer 4a, and the various forms formed on the surface of the adhesive layer 4a. Pulling the three-dimensional transcripts in the form of the transfer paper manufacturing, characterized in that the portion of the adhesive layer (4a) and room temperature adhesive layer (4) in the form of three-dimensional transcripts are configured to be separated from the transfer paper (1) to attach the three-dimensional transcript to the desired place Way. The method according to claim 1, wherein the room temperature adhesive layer 4 is acrylic or silicone as the main component, and when the release layer 2 is silicone, the room temperature adhesive of acrylic component is used, and when the release layer is a fluororesin, both silicone or acrylic is used. Transfer paper manufacturing method. The release layer 2 to which the room temperature adhesive layer 4 is coated is controlled by the residual ratio of the acrylic resin component of the room temperature adhesive layer 4, and the silicone 50 to 80% by weight, the acrylic resin 20 to 50% Transfer paper manufacturing method characterized in that consisting of. The method of claim 1, wherein the adhesive layer (4) is composed of a mixture of a thermosetting resin or a thermoplastic resin combined with a white crumb powder so that various colors of the three-dimensional transfer is well represented, when the external force is applied to the adhesive layer (4a) and room temperature Transfer paper manufacturing method characterized in that the pressure-sensitive adhesive layer (4) is configured to be separated from the transfer paper (1) at the same time. On the surface of the temporary adhesive layer 4a of the transfer paper 1 made by the method of claim 1, the painting layer 5 designed in various letters or shapes is offset printed in multiple colors, On the surface of the painting layer 5, the transparent decorative adhesive layer 6 is silk-screen printed so as to cover only the painting layer 5, In the decorative adhesive layer 6, a decorative layer 7 having transparent grains is formed, When the decorative layer (7), the decorative adhesive layer (6) and the painting layer (5) are pulled at the same time, the adhesive layer (4a) and the room temperature adhesive layer (4) to which the painting layer (5) is attached are in the shape of the painting layer (5). Three-dimensional transcripts, characterized in that the body is separated from the transfer paper to form a body so that it can be easily attached to personal items or advertisements. The method according to claim 5, wherein the second release layer (2a) having a tensile force is formed on the surface of the adhesive layer (4a) except for the painting layer (5), and on the surface of the decorative layer (7), The adhesive tape 8 which has the adhesive layer 8a which can remove a decoration from a transfer paper is provided, When the adhesive tape is pressed, the decorative layer 7 is firmly adhered by the adhesive layer 8a, while the adhesive layer 4a without the painting layer 5 is not stuck by the second release layer 2a. When the tape is pulled, the adhesive layer and the room temperature adhesive layer having no paint layer remain on the transfer paper. Coating a release material on the entire upper and lower surfaces of the transfer paper 1 with a roller to form a release layer 2; Coating a thermoplastic resin adhesive on the entire surface of the release layer 2 on the upper surface of the transfer paper 1 with a roller to form a heat adhesive layer 3; and It consists of the steps of forming the adhesive layer 3a by coating a roller having an adhesive force on the entire surface of the heat adhesive layer 3 of the transfer paper 1 with a roller, and various forms formed on the surface of the adhesive layer 3a. Pulling the three-dimensional transcripts of the transfer paper manufacturing method characterized in that the portion of the adhesive layer (3a) and the heat adhesive layer (3) in the form of three-dimensional transcripts are configured to be separated from the transfer paper (1) to attach the three-dimensional transfer to a desired place . 8. The heat adhesive layer according to claim 7, wherein the heat adhesive layer is diluted with 50% by weight of polyamide and 20% by weight of heat-resistant low-temperature thermosetting urethane resin in which tensile strength is removed and heat resistance is melted between 150 to 180 degrees Celsius. Transfer paper manufacturing method characterized in that the coated by a roller. The method of claim 7, wherein the adhesive layer is a roller by diluting the 50% by weight of the urethane or acrylic resin of the thermosetting resin-based low heat resistance and low heat resistance and 20% by weight of white pigment and 30% polyamide with a powder of diluent Transfer paper manufacturing method characterized in that the coating on the heat adhesive layer (3) by. On the surface of the adhesive layer 3a of the transfer paper 1 made by the method of claim 7, a painting layer 5 designed with various letters or shapes is offset printed in multiple colors, On the surface of the painting layer (5), the decorative adhesive layer 6 of the transparent thermosetting resin is silk-screen printed so as to cover only the painting layer (5), In the decorative adhesive layer 6, a decorative layer 7 having transparent grains is formed, When the decorative layer (7), the decorative adhesive layer (6) and the painting layer (5) are pulled at the same time, the adhesive layer (3a) and the heating adhesive layer (3) to which the painting layer (5) is attached are in the shape of the painting layer (5). Three-dimensional transcripts, characterized in that the body is separated from the transfer paper to form a body and can be heat-attached to the garment fabric (9) by heat pressing. The method of claim 7, wherein the second release layer (2a) is formed on the surface of the adhesive layer (3a) except for the painting layer (5), and the surface of the decorative layer (7) to protect the three-dimensional transfer, and at the same time transfer the decorative paper The adhesive tape 8 which has the adhesive layer 8a which can be peeled off is provided, When the adhesive tape is pressed, the decorative layer 7 is firmly adhered by the adhesive layer 8a, while the adhesive layer 3a without the painting layer 5 is not stuck by the second release layer 2a. 3D transcripts, characterized in that when the tape is pulled, the adhesive layer and the heat adhesive layer without a paint layer remain on the transfer paper.