KR20000036270A - Silicone decalcomania and transfer method of silicone decalcomania - Google Patents

Abstract

PURPOSE: A transcription material of silicon thick film is provided to easily transcribe a figure with excellent cubic effect in a short time by printing silicon in a transcribing method. CONSTITUTION: A silicon adhering layer(44) is formed by mixing 50-60% of silicon adhesive, 3-10% of hardening agent, and 30-45% of solvent. The silicon adhering layer is sprayed on one surface of a parting sheet(42) to form an auxiliary parting sheet(40). Then, the silicon adhering layer is attached on a silicon ink layer(44) of a silicon thick film transcription material(20) for separating a parting sheet(22) of the silicon thick film transcription material. The upper surface of the auxiliary parting sheet is heated while pressurizing in the contacting state of a hot melt layer(26) of the silicon thick film transcription material without the parting sheet with a transcribed body(50) for transcribing. Then, the upper auxiliary parting sheet of the silicon thick film transcription material is eliminated.

Description

Silicon thick film transfer material and transfer method thereof {SILICONE DECALCOMANIA AND TRANSFER METHOD OF SILICONE DECALCOMANIA}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a silicon thick film transfer article and a transfer method thereof, and more particularly to a silicon thick film transfer article which can be printed on clothing and the like by using a silicon as a main component. By providing the transfer method, it is possible to use various kinds of heat-resistance, moisture resistance, chemical resistance, aging resistance, toxicity and electrical insulation, which are inherent to silicone, such as washing and ironing clothes freely. Since the formation of the by-transfer method does not require a separate mold or a complicated work process relates to a silicon thick film transfer article and its transfer method which reduces workability and manufacturing cost.

In general, in order to enhance the aesthetics of clothing, various figures or letters are printed on the surface of the fabric, and such printing is usually performed in a method called Decalcomania, which is roughly a release paper. Print a picture or text on a pattern or plastic film, make a transfer object with adhesive on it, and then attach the transfer material to the surface of the target transfer object and press it to print a picture or text on a release paper. It refers to transferring, and is printed by simple pressure and heating pressure, depending on the type of adhesive.

And, the transfer material 10 is usually printed on the surface of the release paper 12 made of paper or plastic film as a raw material containing rubber or PVC as a main component, as shown in the accompanying drawings. 14) and the hot melt adhesive (16) applied to the upper surface of the manufacturing is completed.

The rubber transfer forming the print layer 14 is made of rubber, and the synthetic rubber is dissolved in a solvent to be printed on a release paper. Since the rubber is a thermoplastic material, a printing film is thinly formed during the pressing process and cannot be heated after transferring to a fiber or the like. In addition, since a large amount of volatile solvent is used, there is a problem of adversely affecting environmental pollution and worker's health caused by volatilization, causing occupational diseases, and the like.

On the other hand, even when the printing layer 14 is formed of a PVC material, since the PVC is heat-melt, it cannot be transferred by heating and pressing using ironing, and also has a hard surface in a hardened state, so that the surface may have a rough surface. In addition, there is a problem that discoloration and corrosion is caused when easily detached from the state transferred to clothing and exposed to the outside for a long time.

Recently, in order to solve the problems of rubber or PVC material, clothing using polysiloxane or silicone (Silicone), which is a material having excellent heat resistance, moisture resistance, chemical resistance, aging resistance, toxicity and electrical insulation, After forming patterns and letters on the back, they are used as labels.

However, since silicone is a non-adhesive material, it is impossible to print on a transfer member such as cloth by a transfer method, so that the solvent is added to the silicone and water or an alcoholic solution is added to the dough as shown in FIG. Poured into the mold to form a uniform pattern, while the fabric (fabric) to the mold was heated and press-bonded and cured, and then the mold was separated from the fabric and the molded label was removed.

However, the conventional method of forming a pattern by silicon as described above is a form is necessary because it is not a method of forming a pattern with a mold and printing directly on the cloth, that is, a method of printing silicon on a release paper and transferring it to the cloth. Therefore, various forms of molds must be prepared in accordance with the pattern, which requires a lot of cost, and it is inconvenient in work because the object to be printed must always be moved to the installation position of the mold. There is a problem that a consumer who does not own can not purchase and use the transcription individually.

In addition, conventionally, because the pattern is formed by the mold, there is a problem in that the shape and thickness of the pattern cannot be freely adjusted, and the shape can also be variously formed, and at the same time, there is a problem that the three-dimensional feeling and aesthetics are deteriorated.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a silicon thick film transfer material which can easily transfer a pattern having excellent three-dimensional effect and aesthetic sense in a short time while allowing silicon to be printed by a transfer method. .

Another object of the present invention is to provide a method for transferring a silicon thick film transcript which can be easily transferred to a silicon thick film transcript.

In order to achieve the above object, the present invention is a paper or polyester material, the release paper having a certain size and thickness, and a structure attached to the transfer material printed on the upper surface of the release paper and transferred to the transfer target by a transfer method The transfer article may include a fluorine coating layer formed by heating and coating liquid fluorine on a top surface of a release paper, a hot melt layer on which a hot melt adhesive is applied to a predetermined thickness on a top surface of the fluorine coating layer, and a top surface of the hot melt layer. 70-95% of silicone (RTV), 0.5-1% of an adhesion enhancing agent, and 5-10% of a diluent are mixed as a main component to form a silicone primer layer formed on a predetermined thickness, and silicone (RTV) 70 on the upper surface of the silicone primer layer. -90%, pigment 10-20%, adhesive strengthening agent 0.3-0.5% and diluent 5-10% are mixed as the main component to form a print to form a pattern of a certain thickness It characterized by comprising the cone containing the ink layer.

The silicon ink layer is repeatedly formed in a multi-layer is characterized in that it can be expressed in various forms and three-dimensional feeling.

Before the silicon ink layer is cured, hair or glass, or a decoration such as aluminum is installed on an upper surface thereof.

On the other hand, the silicon thick film transfer article according to an embodiment of the present invention is formed by coating a fluorine coating layer, a hot melt layer, a silicone primer layer on the upper surface of the release paper in order, the silicon ink layer is printed on the upper surface of the silicon primer layer In the thick silicone film transfer material, the auxiliary release paper forming step of forming a secondary release paper by applying a silicone adhesive layer mixed with a silicone adhesive 50-60%, a curing agent 3-10% and a solvent 30-45% as a main component on one surface of the release paper, The auxiliary release paper attaching step of attaching the silicon adhesive layer to the silicon ink layer of the silicon thick film transfer material, the release paper separating step of separating the release paper of the silicon thick film transfer material, and the hot melt layer of the silicon thick film transfer film from which the release paper is separated A pressure transfer step of transferring the upper surface of the auxiliary release paper by heating and pressing in contact with a body; Characterized in that the transfer by the transfer of silicon-based silicon thick film thick film of water transfer imaging method comprising a secondary release paper removal step of removing the separated water in the upper auxiliary transfer release paper.

In addition, a step of attaching a decoration made of a material such as glass or aluminum to the silicon adhesive layer of the auxiliary release paper prior to the step of attaching the auxiliary release paper is added, wherein the decoration is transferred to the transfer member on the transfer film. It is characterized in that the transfer at the same time.

On the other hand, the silicon thick film transfer article according to another embodiment of the present invention, a release paper having a predetermined size and thickness, made of paper or polyester material, and printed on the upper surface of the release paper and transferred to the transfer target by a transfer method In the structure to which the object is attached, the transfer material is a fluorine coating layer formed by the high temperature heat coating of the liquid fluorine on the upper surface of the release paper, the silicon (RTV) 70-90%, pigment 10-20%, adhesion to the upper surface of the fluorine coating layer A silicon ink layer formed by mixing 0.3-0.5% of a reinforcing agent and 5-10% of a diluent as a main component to form a pattern of a predetermined thickness, 70-95% of silicon (RTV) on the upper surface of the silicon ink layer, and an adhesive strengthening agent 0.5 -1% and 5-10% of the diluent are mixed as a main component and a silicone primer layer formed by coating to a certain thickness, and a hot melt adhesive is fixed on the upper surface of the silicone primer layer It includes a coating formed from a hot melt teucheung characterized in that formed.

1 is a cross-sectional view showing a structure of a conventional general transfer article,

2 is a block diagram showing a method of manufacturing a label using a conventional silicone;

3A is a cross-sectional view illustrating a first structure of a silicon thick film transcript according to an embodiment of the present invention;

3B is a cross-sectional view illustrating a second structure of a silicon thick film transcript according to an embodiment of the present invention;

3C is a cross-sectional view illustrating a third structure of a silicon thick film transcript according to an embodiment of the present invention;

4 is a block diagram showing a transfer method of a thick silicon film transfer material according to an embodiment of the present invention;

5 is a cross-sectional view showing a structure of a silicon thick film transcript according to another embodiment of the present invention;

6 is a block diagram showing a method of transferring a silicon thick film transfer article according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

20,20 ': silicon thick film transcript, 22,22', 40: release paper,

24,24 ': fluorine coated layer, 26,26': hot melt layer,

28,28 ': silicone primer layer, 30,30': silicon ink layer,

32: decoration, 40: auxiliary release paper,

44: silicon adhesive layer, 50: transfer object.

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

Figure 3a is a cross-sectional view showing a first structure of the silicon thick film transfer material according to an embodiment of the present invention, Figure 3b is a cross-sectional view showing a second structure of the silicon thick film transfer material according to an embodiment of the present invention, Figure 3c 3 is a cross-sectional view illustrating a third structure of a silicon thick film transfer article according to an embodiment of the present invention.

As shown in Figure 3a, the silicon thick film transfer material 20 according to an embodiment of the present invention is a release paper 22 formed of paper or polyester (Polyester) material having a predetermined size and thickness, and the release paper ( 22. In the structure in which the transfer material printed on the upper surface of 22) and transferred to the transfer object by the transfer method is attached, the transfer product has a fluorine coating layer 24 formed by hot fluorine coating of liquid fluorine on the upper surface of the release paper, and A hot melt layer 26 having a hot melt adhesive applied to a predetermined thickness on a top surface of the fluorine coating layer 24, a silicon primer layer 28 coated and formed on a top surface of the hot melt layer 26, and the Silicon ink layer 30 is formed to be printed to form a pattern of a predetermined thickness on the upper surface of the silicon primer layer 28.

The release paper 22 is preferably a paper or a polyester film (Polyester film), but is not limited to this, it is possible to use a release paper of a variety of materials within the scope of the present invention.

The fluorine coating layer 24 is formed by curing liquid fluorine (F) with a roller and then heated to a high temperature (approximately 150 to 180 ° C.). When the fluorine coating layer 24 is formed on the release paper 22, the release paper ( Since the surface of the sheet 22 is very slippery, the silicon thick film transfer object 20 can be easily transferred to the transfer member, and the separation operation can be facilitated when the release paper 22 is separated.

The hot melt adhesive forming the hot melt layer 26 may be formed by melting solid chips (grains) of polyester, polyamide, and urethane with a solvent (using solvent), and then by natural or thermal drying. It is formed by volatilizing the solvent.

The silicon primer layer 28 is formed by coating a material containing 70-95% of silicon (RTV), 0.5-1% of an adhesion strengthening agent, and 5-10% of a diluent as a main component. It is an adhesive strengthening agent for pretreatment so that the silicon ink layer 30 is more strongly bonded.

The silicon ink layer 30 is formed by coating a material containing 70-90% of silicon (RTV), 10-20% of pigments, 0.3-0.5% of an adhesive strengthening agent, and 5-10% of a diluent as a main component. It is a layer forming a pattern such as.

In addition, the silicon ink layer 30 is repeatedly formed in multiple layers as shown in FIG. 3B so that various shapes and three-dimensional effects can be expressed.

In addition, as shown in FIG. 3C, before the silicon ink layer 30 is cured, a decoration 32 formed of a material such as hair, glass grains, or aluminum (Al) may be attached or embedded on the upper surface thereof. have.

The method of forming the hot melt layer 26, the silicon primer layer 28 and the silicon ink layer 30 is to adjust the injection amount and the injection time of each mixture according to a predetermined thickness on the silk screen on which the pattern to be manufactured is formed. Each layer is formed by pouring the mixture so that the mixture is poured into only the portion where the pattern is formed.

4 is a block diagram illustrating a method of transferring a silicon thick film transfer article according to an embodiment of the present invention.

As shown in the drawing, the transfer method of the silicon thick film transfer material 20 according to the exemplary embodiment of the present invention includes a fluorine coating layer 24, a hot melt layer 26, and a silicon primer layer 28 on the upper surface of the release paper 22. In the silicon thick film transfer product 20, which was applied in this order and formed by printing the silicon ink layer 30 on the upper surface of the silicon primer layer 28, 50 to 60% of the silicone adhesive on one surface of the release paper 42, the curing agent 3 A secondary release paper forming step of forming an auxiliary release paper 40 by applying a silicone adhesive layer 44 mixed with 10% and 30% to 45% solvent as a main component, and the silicone adhesive layer 44 using the silicon thick film transfer article Attaching the auxiliary release paper attached to the silicon ink layer 30 of the (20), the release paper separating step of separating the release paper 22 of the silicon thick film transfer material 20, and the silicon thick film from which the release paper 22 is separated In a state where the hot melt layer 26 of the transfer object 20 is in contact with the transfer member 50 It is made of a pressure transfer step, a secondary release paper removal step of separating and removing the upper auxiliary release paper 40 of a silicon thick film around the object (20) the transfer from the step of transferring by pressure heating the upper surface of the auxiliary release paper 40.

In the transfer method, the step of forming the auxiliary release paper 40 is prepared in advance according to the size or shape of the transfer material, so that it should be in a state that can be used in the auxiliary release paper attaching step. There is a non-sequential step, and the material of the auxiliary release paper 40 is preferably a release paper made of paper or polyester, but is not limited thereto.

Auxiliary release paper attached to the silicon ink layer 30 of the silicon thick film transfer material 20

A step of attaching a decoration to which the decoration 32 made of a material such as glass or aluminum is attached to the silicon adhesive layer 44 of the 40 is added to transfer the silicon thick film transfer object 20 to the transfer member 50. In the decoration 32 is to be transferred to and attached to the transfer object 50 at the same time.

The upper surface of the decoration 32 attached to the silicone adhesive layer 44 of the auxiliary release paper 40 is attached to the silicone adhesive layer 44, and a hot melt adhesive is applied to the bottom surface of the auxiliary object such as a fabric. It is to be transferred to 50 attached.

On the other hand, Figure 5 is a cross-sectional view showing the structure of the silicon thick film transfer article according to another embodiment of the present invention, Figure 6 is a block diagram showing a transfer method of the silicon thick film transfer article according to another embodiment of the present invention.

As shown therein, the silicon thick film transcript according to another embodiment of the present invention.

The 20 'is formed of paper or polyester, and has a release paper 22' having a predetermined size and thickness, and a transfer material printed on the upper surface of the release paper 22 'and transferred to a transfer object by a transfer method. In the structure, the transfer material is a liquid fire on the upper surface of the release paper (22 ')

A fluorine coating layer 24 'formed of a high-temperature heating coating of cows, 70-90% of a silicon (RTV), a pigment 10-20%, an adhesive strengthening agent 0.3-0.5%, and a diluent 5-on the upper surface of the fluorine coating layer 24'. The silicon ink layer 30 ', which is formed by mixing 10% as a main component to form a pattern having a predetermined thickness, 70-95% of silicon (RTV) on the upper surface of the silicon ink layer 30', and an adhesive strengthening agent 0.5- A silicone primer layer 28 'formed by mixing 1% and a diluent 5-10% as a main component and being formed with a predetermined thickness, and a hot melt adhesive applied with a predetermined thickness on the upper surface of the silicone primer layer 28' The melt layer 26 'is included.

In the method of forming the silicon ink layer 30 ', the silicon primer layer 28' and the hot melt layer 26 ', the injection amount and the injection time of the respective mixtures are determined according to a predetermined thickness on a silk screen on which a pattern to be manufactured is formed. Pour in order to control the mixture so that only the mixture is injected into the portion is formed to form each layer.

The silicon thick film transfer material 20 'constructed as described above has a silicon ink layer on the upper surface thereof with a fluorine coating layer 24' formed on the upper surface of the release paper 22 'made of paper or polyester, as shown in FIG. 30 ', the silicon primer layer 28' and the hot melt layer 26 'are formed, and then the release paper 22' is brought into contact with the hot melt layer 26 'on the transfer member 50. Transfer the silicon thick film transfer object 20 'to the transfer member 50 by heating and pressing the upper surface of the transfer paper to complete the transfer operation by separating and removing the release paper 22'.

According to the silicon thick film transfer article and the transfer method according to the present invention as described above, by printing a pattern such as a picture or a letter on a transfer object such as clothing by forming a silicon thick film transfer material containing silicon as a main component Because it can be used for washing and ironing clothes freely, it is possible to utilize various silicone properties such as heat resistance, moisture resistance, chemical resistance, aging resistance, toxicity and electrical insulation, and the formation of patterns is transferred. Since it is a method, no separate template or complicated work process is required, and thus workability and manufacturing cost are reduced, and a general consumer can easily purchase and print a pattern on clothes and use it.

In addition, since the pattern is not formed by the mold, the shape and thickness of the pattern can be freely adjusted and variously formed, as well as the silicon ink layer can be formed in multiple stages, or hairs or decorations can be attached to the upper surface thereof. It is a very useful invention that can obtain a pattern with excellent three-dimensional and aesthetic sense by attaching a decoration to the silicone adhesive layer of the release paper at the same time.

Claims (6)

In a structure formed of a paper or polyester material and having a release paper having a certain size and thickness, and a transfer material printed on the upper surface of the release paper and transferred to the transfer target by a transfer method, The transfer material may include a fluorine coating layer 24 formed by heating and coating liquid fluorine on the upper surface of the release paper 22; A hot melt layer 26 having a hot melt adhesive applied to a predetermined thickness on an upper surface of the fluorine coating layer 24; A silicon primer layer 28 having 70 to 95% of silicone (R.T.V), 0.5 to 1% of an adhesive strengthening agent, and 5 to 10% of a diluent as a main component on the top surface of the hot melt layer 26 to be coated and formed to a predetermined thickness; 70-90% of silicon (RTV), 10-20% of pigment, 0.3-0.5% of adhesion enhancing agent and 5-10% of diluent are mixed on the upper surface of the silicone primer layer 28 to form a pattern having a predetermined thickness. Silicon thick film transcript, characterized in that it comprises a silicon ink layer 30 is formed. The method of claim 1, The silicon ink layer 30 is repeatedly formed in a multi-layer silicon thick film transcript, characterized in that the various forms and three-dimensional feeling can be expressed. The method of claim 1, Before the silicon ink layer 30 is cured, a thick film transfer material, characterized in that the decoration 32, such as hair, glass, aluminum, is installed on the upper surface. In a structure formed of a paper or polyester material and having a release paper having a certain size and thickness, and a transfer material printed on the upper surface of the release paper and transferred to the transfer target by a transfer method, The transfer material is a fluorine coating layer (24 ') formed by the high temperature heat-coated liquid fluorine on the upper surface of the release paper (22'), 70-90% of silicone (RTV), 10-20% of pigment, 0.3-0.5% of adhesive strengthening agent, and 5-10% of diluent are mixed on the upper surface of the fluorine coating layer 24 'to form a pattern having a predetermined thickness. The silicon ink layer 30 ', A silicon primer layer 28 'formed by coating 70 to 95% of a silicon (RTV), 0.5 to 1%, and 5 to 10% of a diluent as a main component on the upper surface of the silicon ink layer 30' and being coated with a predetermined thickness. and, The silicon thick film transcript, characterized in that the hot melt layer (26 ') is formed on the upper surface of the silicon primer layer (28') is applied to form a predetermined thickness. Fluoride coating layer 24, hot melt layer 26, silicon primer layer on the upper surface of the release paper 22 In the thick silicon film transfer article formed by applying (28) in turn and printing the silicon ink layer 30 on the upper surface of the silicon primer layer 28, A secondary release paper forming step of forming a secondary release paper 40 by applying a silicone adhesive layer 44 mixed with a silicone adhesive 50-60%, a curing agent 3-10% and a solvent 30-45% as a main component on one surface of the release paper 42 Wow; Attaching the auxiliary release paper to attach the silicon adhesive layer (44) to the silicon ink layer (44) of the silicon thick film transfer material (20); Release paper separation step of separating the release paper 22 of the silicon thick film transfer material 20; Pressure transfer step of transferring by pressing the upper surface of the auxiliary release paper 40 in a state in which the hot melt layer 26 of the silicon thick film transfer material 20 from which the release paper 22 is separated is brought into contact with the transfer member 50. Wow; Transfer method of the silicon thick film transfer material, characterized in that it comprises a step of removing the secondary release paper to remove the upper secondary release paper 40 of the silicon thick film transfer material 20 transferred in the step. The method of claim 5, Prior to the step of attaching the auxiliary release paper, a step of attaching a decoration 32 made of a material such as glass or aluminum to the silicon adhesive layer 44 of the auxiliary release paper 40 is added to transfer the silicon thick film transfer object 50. Transfer method of the silicon thick film transfer material, characterized in that the decoration (32) is simultaneously transferred to the transfer member (50) in the step of being transferred to.