WO2008023439A1 - Transfer tool and manufacturing method thereof - Google Patents

Abstract

[PROBLEMS] To provide a transfer tool which is easy to handle and can be advantageously used even when the strength of a product for which the transfer tool is used, is low, and to provide a method for manufacturing the transfer tool. [MEANS FOR SOLVING PROBLEMS] A transfer tool comprising a transfer sheet, a first adhesive agent layer provided on one side of the transfer sheet, an imaging part fixed within the one side of the surface of the transfer sheet through the adhesive agent layer, and a second adhesive agent layer provided on the upper surface of the imaging part, characterized in that the first adhesive agent layer face in its part other than the part to which the imaging part has been fixed, is covered with an adhesion preventive layer.

Description

 Specification

 Transfer tool and transfer tool manufacturing method

 Technical field

 TECHNICAL FIELD [0001] The present invention relates to a transfer tool that enables a desired design to be transferred and decorated on clothing and other products, and a method of manufacturing the transfer tool.

 Background art

 As an example of a transfer tool for transferring a desired design and decorating a product as a transfer object, an appliqué can be mentioned.

 In general, an applique is composed of a cloth material imitating a desired design and an adhesive layer provided on one surface of the cloth material. Place the cloth material on the product so that the adhesive layer is in contact with the surface of the desired product. In this state, press the thermocompression bonding equipment such as an iron from the upper surface of the cloth material to melt the adhesive layer. Glue the material onto the product. As a result, a desired pattern appears on the product and the product is decorated.

Patent Document 1 discloses an applique (transfer tool) that does not use a cloth material.

 FIG. 16 shows the applique disclosed in Patent Document 1, FIG. 16 (a) shows the cross-sectional structure of the applique, and FIG. 16 (b) shows the use form of the applique.

 The applique shown in Fig. 16 (a) is provided with a transfer sheet (T). The transfer sheet (T) includes a sheet-like substrate (T1) and an adhesive layer (T2) provided on the upper surface of the substrate (T1). The short fiber layer (F) is fixed to the adhesive layer (T2). An adhesive layer (G) is further provided on the upper surface of the short fiber layer (F), and a resin layer (P) made of powdered hot-melt resin is provided on the upper surface of the adhesive layer (G). It is done.

[0004] The applique shown in Fig. 16 (b) is used upside down from the state shown in Fig. 16 (a), and the resin layer (P) is in contact with the product (C). Then, a thermocompression bonding tool such as an iron is pressed from above. Then, the resin layer (P) or the adhesive layer (G) is melted by heat, whereby the short fiber layer (F) is fixed on the product (C). After that, by peeling off the transfer sheet (T), a desired design imitated by the short fiber layer (F) appears on the surface of the product (C). [0005] Patent Document 1: Japanese Patent Publication No. 2-24239

 Disclosure of the invention

 Problems to be solved by the invention

[0006] In order to suitably peel off the transfer sheet (T) from the product, an adhesive layer of the transfer sheet (T) is used.

 (T2) must also be heat-meltable. This is because if the adhesive layer (T2) remains solidified, the short fiber layer (F) remains firmly attached to the transfer sheet (T) and does not move favorably onto the product (C). .

 Therefore, when a thermocompression bonding instrument such as an iron is pressed against the substrate of the transfer sheet (T) (T1

) Is adhered to the product (C) by the adhesive layer (T2). This means that the transfer sheet (T

) From the product (C).

[0007] Furthermore, when the product (C) is clothing, there is no problem because the product (C) has sufficient physical strength against peeling of the transfer sheet (T), but the product (C) is paper. In the case of a product, if the surface of the product (C) is peeled off together with the transfer sheet (T) by peeling off the transfer sheet (T), there will be a problem!

[0008] The present invention has been made in view of the above-described conventional circumstances, is easy to handle, and can be suitably used even when the strength of a product in which the transfer tool is used is low, and a transfer tool. It aims at providing the manufacturing method of a tool.

 Means for solving the problem

The invention according to claim 1 is the transfer sheet, the first adhesive layer provided on one surface of the transfer sheet, and the one of the transfer sheets by the adhesive layer. A transfer tool comprising a drawing portion fixed in a plane and a second adhesive layer provided on the top surface of the drawing portion, wherein a portion of the surface of the first adhesive layer to which the drawing portion is fixed The transfer tool is characterized in that the other part is covered with an adhesion prevention layer.

 The invention according to claim 2 is the transfer tool according to claim 1, wherein the adhesion preventing layer is formed of fine particles.

 The invention according to claim 3 is the transfer tool according to claim 1, wherein the adhesion preventing layer is formed of short fibers.

[0010] The invention of claim 4 is characterized in that the drawing section is made of a pigment. The transfer tool according to claim 1.

 The invention according to claim 5 is characterized in that the drawing portion is constituted by an embroidery portion including an embroidery upper thread and an embroidery lower thread, and the embroidery upper thread and the embroidery lower thread are connected by a soluble material. 2. The transfer tool according to claim 1, characterized in that it is a transfer tool.

 The invention according to claim 6 is the transfer tool according to claim 1, characterized in that the drawing section is formed by planting short fibers.

 The invention according to claim 7 is the transfer tool according to claim 1, wherein the drawing section is a cloth material that imitates a desired design.

[0011] The invention according to claim 8 is the transfer tool according to claim 2, wherein the particle diameter of the fine particles is larger than the thickness of the first adhesive layer.

 The invention according to claim 9 is the transfer tool according to claim 3, wherein the fiber diameter of the short fiber is larger than the thickness of the first adhesive layer.

[0012] The invention according to claim 10 is characterized in that the adhesion preventing layer is formed of fine particles, and the particle size of the fine particles is smaller than the particle size of the pigment. The transfer tool according to the item.

 The invention according to claim 11 is characterized in that the adhesion preventing layer is formed of fine particles, and the particle size of the fine particles is smaller than the yarn diameter of the upper thread for embroidery. It is a transcription | transfer tool of description.

 The invention according to claim 12 is characterized in that the anti-adhesion layer is formed of fine particles, and the particle size of the fine particles is smaller than the length of the short fibers constituting the drawing portion! The transfer tool according to claim 6 of the scope of request.

[0013] The invention of claim 13 is characterized in that the anti-adhesion layer is formed of short fibers, and the fiber diameter of the short fibers is smaller than the particle diameter of the pigment. This is the transfer tool described in item 4.

 The invention according to claim 14 is characterized in that the anti-adhesion layer is formed of short fibers, and the fiber diameter of the short fibers is smaller than the thread diameter of the embroidery upper thread. The transfer tool according to item.

The invention according to claim 15 is characterized in that the adhesion preventing layer is formed of short fibers. 7. The transfer tool according to claim 6, wherein a fiber diameter of the fiber is smaller than a length of the short fiber constituting the drawing portion.

[0014] The invention of claim 16 is characterized in that the adhesion preventing layer is formed of short fibers, and the length of the short fibers is smaller than the particle diameter of the pigment. 4. The transfer tool according to item 4.

 The invention as set forth in claim 17 is characterized in that the anti-adhesion layer is formed of short fibers, and the length of the short fibers is smaller than the thread diameter of the embroidery upper thread. The transfer tool described in the section.

 The invention according to claim 18 is characterized in that the adhesion preventing layer is formed of short fibers, and the length of the short fibers is smaller than the length of the short fibers constituting the drawing portion. The transfer tool according to claim 6,

[0015] The invention according to claim 19 is the group consisting of a plurality of the drawing parts, and a plurality of the drawing parts force pigments, short fibers, cloth material, and an embroidery part comprising an embroidery upper thread and an embroidery lower thread. 2. The transfer tool according to claim 1, wherein the transfer tool is composed of at least two kinds selected from the group consisting of:

 The invention according to claim 20 is characterized in that the transfer sheet is bonded to a sealing base material having releasability, a plurality of the drawing parts are formed, and the transfer sheet and the first part are respectively surrounded by the plurality of drawing parts. The transfer tool according to claim 1, wherein a cutting line is provided in one adhesive layer.

[0016] The invention according to claim 21 includes an adhesive layer forming step of forming an adhesive layer on the release sheet so as to form a desired design, and the adhesive layer on the release sheet. A drawing portion forming step for fixing the drawing portion, an adhesion preventing layer forming step for forming an adhesion preventing layer by spraying fine particles or short fibers so as to cover the surface of the release sheet, a transfer substrate and the transfer group A transfer sheet having an adhesive layer force provided so as to cover one surface of the material is laminated so that the drawing portion and the adhesion preventing layer are in contact with the adhesive layer of the transfer sheet, and the drawing portion And a transfer process force for transferring the adhesion preventing layer to the transfer sheet.

The invention according to claim 22 is characterized in that, after the transfer step, 23. The transfer tool manufacturing method according to claim 21, further comprising a hot-melt grease spraying step of spraying fat on at least the adhesive layer appearing on the drawing portion. The invention as set forth in claim 23 is characterized in that the hot melt resin spraying step includes a step of removing the hot melt resin on the adhesion prevention layer. It is a transfer tool manufacturing method.

[0017] The invention according to claim 24, wherein the drawing portion forming step disperses the pigment on the release sheet, and removes the pigment that does not contact the adhesive layer on the release sheet from the pigment. 22. The method of manufacturing a transfer tool according to claim 21, wherein the step force is:

 The invention according to claim 25 is characterized in that the drawing portion is constituted by an embroidery portion made of an embroidery upper thread and an embroidery lower thread, and the drawing portion forming step is provided with an adhesive layer on the entire surface. A step of preparing a release sheet, a step of placing and pressing the embroidery portion on the adhesive layer of the release sheet provided with an adhesive layer on the entire surface, and the embroidery portion from the release sheet. The transfer tool manufacturing according to claim 21, wherein the step of peeling and preparing a new release sheet and placing the peeled embroidery part on the new release sheet are provided. Is the method.

[0018] In the invention of claim 26, the drawing section is constituted by a cloth material simulating a desired design, and the drawing section forming step is provided with an adhesive layer on the entire surface. Preparing the release sheet, placing the cloth material on the adhesive layer of the release sheet provided with an adhesive layer on the entire surface, and pressing the cloth material; and The step of peeling off from the release sheet, and a step force for preparing a new release sheet and placing the peeled cloth material on the new release sheet. This is a transfer tool manufacturing method.

The invention according to claim 27 is characterized in that the drawing part forming step imitates a laminated sheet obtained by laminating a sealing base material and a cloth material into a desired design shape to form a drawing part, and the cloth material A step of placing the drawing portion so that the adhesive layer is bonded to the adhesive layer, wherein the adhesion preventing layer forming step is a step of spraying fine particles or short fibers over the entire upper surface of the release sheet; The cloth material force comprises the step of peeling off. The transfer tool manufacturing method according to Item 21.

 The invention's effect

 [0019] According to the invention of claim 1, since the adhesive layer on the transfer sheet is covered with the adhesion preventing layer, the adhesion state between the transfer sheet and the product can be avoided, and the drawing portion on the product can be avoided. Transfer can be suitably performed.

 Furthermore, even when the physical strength of the product is low, the drawing portion can be transferred to the product without damaging the product.

 According to the invention described in claim 2, it becomes easy to form a layer having a uniform thickness on the transfer sheet.

 According to the invention of claim 3, the transfer tool is excellent in texture.

[0020] According to the invention of claim 4, it is possible to minimize the thickness of the drawing portion.

 According to the invention described in claim 5, it is possible to transfer a drawing portion made of embroidery with excellent texture.

 According to the invention described in claim 6, the short fiber is erected on the product, and a decorative decoration is possible.

 According to the invention described in claim 7, a decoration having a handmade texture is possible.

 [0021] According to the inventions of claims 8 and 9, damage to the surface of the product due to adhesion of the transfer sheet can be surely prevented.

 According to the invention described in claims 10 to 18, it is possible to reliably transfer the drawing portion to the transfer sheet.

[0022] According to the invention described in claim 19, it becomes possible to place and fix drawing parts having various textures on the surface of one product.

 According to the invention as set forth in claim 20, it is possible to easily perform the layout work of the drawing section.

[0023] According to the invention of claim 21, since the adhesive layer on the transfer sheet is covered with the adhesion preventing layer, the adhesion state between the transfer sheet and the product can be avoided, and the drawing portion on the product can be avoided. Roll It becomes possible to manufacture a transfer tool capable of suitably performing copying.

 Furthermore, even when the physical strength of the product is low, it is possible to manufacture a transfer tool that can transfer the drawing portion to the product without damaging the product.

 According to the invention described in claim 22, it is possible to manufacture a transfer tool capable of reliably bonding the product and the drawing portion.

 According to the inventions described in claims 23 and 24, it is possible to manufacture a transfer tool in which the adhesive other than the drawing portion does not adhere to the product.

 According to the inventions of claims 25 and 26, the adhesive layer can be prevented from protruding from the outer contour of the drawing portion.

 According to the invention of claim 27, it is possible to reliably connect the drawing section and the transfer sheet.

 BEST MODE FOR CARRYING OUT THE INVENTION

Hereinafter, the transfer tool and the method for manufacturing the transfer tool according to the present invention will be described with reference to the drawings.

 FIG. 1 is a cross-sectional view of the transfer tool of the present invention.

 The transfer tool (1) of the present invention comprises a transfer sheet (2), a drawing part (3) fixed on the transfer sheet (2), and a second adhesive layer (4) provided on the upper surface of the drawing part (3). Is provided.

[0025] The transfer sheet (2) has a laminated structure comprising a sheet-like transfer substrate (21) and a first adhesive layer (22) covering the upper surface of the transfer substrate (21).

 The transfer substrate (21) can be formed into a desired sheet-like material force such as paper, non-woven fabric, or transparent film, but preferably has a light-transmitting sheet-like material force. As a result, when the drawing part (3) is transferred onto the product, the position of the drawing part (3) is visually recognized from the back surface (the surface without the adhesive layer (22)) of the transfer substrate (21). It becomes possible to transfer the drawing part (3) to a desired position on the product.

The adhesive layer (22) is formed by applying an adhesive having a low adhesive force or a hot-melt resin. In the example shown in FIG. 1, hot melt resin is used. The application amount of the hot-melt resin is preferably 0.003 gZm ² or more and 0.025 gZm ² or less. If it is less than 0.03 gZm ² , the adhesive strength with the drawing part (3) becomes too low, and if it exceeds 0.025 gZm ² , This is because too much hot-melt resin is left on the drawing section (3), and the texture produced by the drawing section (3) may be impaired.

FIG. 2 is a plan view of the transfer tool (1).

 The drawing part (3) is a part imitating a desired design appearing on the upper surface of the transfer sheet (2). In the example shown in FIG. 2, three clocks are the drawing unit (3), and the drawing unit (3) is made of pigment. The pigment constituting the drawing part (3) is fixed on the transfer sheet (2) by the adhesive layer (22).

 FIG. 3 shows another embodiment of the drawing unit (3). FIG. 3A is a plan view of the drawing section (3), and FIG. 3B is a cross-sectional view of the drawing section (3).

 In the example shown in FIG. 3, the drawing unit (3) passes the embroidery base material (31) imitating a desired design and the embroidery base material (31) up and down, and the upper and lower surfaces of the embroidery base material (31). It is configured as an embroidery part (33) made of a thread material (32) for drawing a desired pattern, character or pattern. The front surface (331) of the embroidery portion (33) is a surface on which a desired pattern, character or pattern appears clearly, and the back surface (332) of the embroidery portion (33) has a desired pattern, character or pattern blurred. It is a surface that appears. The thread material (32) appearing on the front surface (331) side of the embroidery part (33) is the embroidery upper thread (321), and the thread material (32) appearing on the back surface (332) side of the embroidery part (33) is the embroidery lower thread (322).

 In the example shown in FIG. 3, the embroidery part (33) is formed on the pattern of the bird cage. The embroidery method is not particularly limited, and a known embroidery method can be applied to the present invention.

 A plurality of types of thread materials can be used for the thread material (32). For example, the pattern shown in Fig. 3 is composed of multiple region forces. Change the type of thread material (32) used for each region.

 In the example shown in FIG. 3, the black thread material (341) is used for the eyelid area, and the white thread material (342) is used for the area around the eye. The yellow thread material (343) is used for the area, the red thread material (344) is used for the area surrounding the area covered with the white thread material (342), and the wings are covered with ocher. A thread material (345) is used, a black thread material (346) is used for the tail feather part, and a brown thread material (347) is used for the body part.

In addition to the color of the thread material (32), use a thread material of a different type such as the thickness and gloss of the thread material (32). It is also possible. In this way, it is possible to change the type of the thread material (32) as appropriate according to the desired pattern and bring about a desired texture.

[0029] The embroidery substrate (31) is made of a material having heat solubility, chemical solubility or water solubility.

 The embroidery base material (31) having heat solubility is preferably one having a melting point of 40 ° C or higher and 80 ° C or lower.

 As the embroidery base material (31) having chemical solubility, a material capable of dissolving by methanol, ethanol, isopropanol or acetone is preferred.

 A specific example of such a material is polybulal alcohol (PVA), and the embroidery equipment (31) shown in FIG.

 [0030] If the embroidery base material (31) has heat solubility, for example, the embroidery base material (31) after embroidery is immersed in a storage tank for storing hot water to embroidery base material. (31) dissolves. If the embroidery substrate (31) has chemical solubility, the embroidery substrate (31) dissolves by immersing the embroidery substrate (31) after embroidery has been applied in a storage tank in which a solvent is stored. . If the embroidery substrate (31) is water-soluble, the embroidery substrate (31) is dissolved by immersing the embroidery substrate (31) after the embroidery has been applied in a water storage tank in which water is stored. .

 [0031] In the example shown in Fig. 3 as described above, the embroidery base material (31) is made of polybutyl alcohol. For example, embroidery is applied to an embroidery base material (31) having a rectangular shape in plan view, and the embroidery base material (31) in a state where the embroidery is applied is immersed in hot water of 60 ° C. As a result, the embroidery base material (31) is dissolved, and the embroidery base material (31) other than the portion where the embroidery is applied is melted into the hot water.

 The embroidery base material (31) of the embroidery portion melts but remains between the embroidery upper thread (321) and the embroidery lower thread (322). A part of the dissolved embroidery base material (31) enters between the fibers of the embroidery upper thread (322) and the embroidery lower thread (322). As a result, the embroidery upper thread (321) and the embroidery lower thread (322) are joined from the melted embroidery base material (31).

As a result, the embroidery base material (31) existing outside the outer contour of the embroidery part (33) is completely removed, and the embroidery base material (31) does not protrude from the embroidery part (33). . Further, when the portion of the embroidery base material (31) existing outside the outline contour of the embroidery portion (33) is dissolved, a part of the dissolved component of the embroidery base material (31) becomes a contour portion of the embroidery portion (33). Get in. As a result, the embroidery part The outer contour portion of (33) will be reinforced.

[0033] The embroidery lower thread (322) appearing on the back surface (332) of the embroidery part (33) preferably has a lower melting point than the embroidery upper thread (321) and has heat solubility. This is because, when the embroidery part (33) is transferred onto the product, the embroidery lower thread (322) dissolves, so that the adhesive surface becomes smooth and the adhesiveness is improved. In addition, it is preferable to provide adhesiveness when the embroidery bobbin thread (322) is dissolved. This is because it is not necessary to provide an adhesive layer for fixing the embroidery part (33) on the product surface by using the embroidery bobbin thread (322) having adhesiveness when dissolved. A preferable melting point of the embroidery bobbin thread (322) is in the range of 80 ° C to 180 ° C. In order to exhibit such performance, the embroidery bobbin thread (322) is preferably made of heat-melting nylon.

 [0034] The drawing portion (3) formed by embroidery is formed by adhering the surface (331) of the embroidery portion (33) shown in Fig. 3 to the adhesive layer (22) of the transfer sheet (2). Is possible.

 In addition, instead of the pigment shown in the above example, a lot of short fibers may be erected on the surface of the transfer sheet (2) to form the drawing part (3)! Instead of the embroidery part (33) shown in the example, a desired pattern or the like is formed with one or a plurality of cloth materials, and this cloth material is applied to the adhesive layer (22) of the transfer sheet (2). The drawing part (3) may be formed by fixing it! /.

 A second adhesive layer (4) is provided on the upper surface of the drawing section (3) as shown in FIG. The adhesive layer (4) is formed of an adhesive suitable for the type of product to which the drawing part (3) is finally fixed. For example, if the drawing part (3) is finally transferred to clothing, a heat-soluble adhesive for clothing can be used, and if decorating paper such as postcards or Christmas cards, it can be used for paper. If you use a hot-melt adhesive.

 [0036] A particulate hot melt adhesive (41) may be sprayed on the upper surface of the adhesive layer (4) as shown in FIG. Examples of the particulate hot melt adhesive (41) include polyamide, polyester, and ethylene butyl acetate (EVA). As for the kind of the particulate hot melt adhesive, the one suitable for the kind of the product to be finally fixed is used in the same manner as the material of the adhesive layer (4).

[0037] Of the surface on the transfer sheet (2), the region where the drawing portion (3) is not present is provided with an adhesion preventing layer (5). The adhesion preventing layer (5) is composed of a large number of fine particles or short fibers. Many These fine particles or short fibers cover the adhesive layer (22) on the transfer sheet (2) and prevent adhesion between the adhesive layer (22) and the surface of the product.

 When the anti-adhesion layer (5) is formed of fine particles, the particle size is preferably larger than the thickness of the adhesive layer (22) of the transfer sheet (2)! /. Further, when the adhesion preventing layer (5) is formed of short fibers, the fiber diameter is preferably larger than the thickness of the adhesive layer (22) of the transfer sheet (2). By using fine particles or short fibers having such a particle size or fiber diameter, even if the fine particles or short fibers are embedded in the adhesive layer (22) of the transfer sheet (2), the adhesion preventing function is surely exhibited. It becomes possible.

 The fine particles and short fibers used in the adhesion preventing layer (5) have a melting point higher than at least the adhesive constituting the adhesive layer (4) or the hot melt adhesive (41). As a result, it is possible to reliably exert an adhesion preventing function during heating when transferring the drawing portion (3) to the product.

 By forming the anti-adhesion layer (5) with fine particles and short fibers, the adhesive layer (2) of the transfer sheet (2) can be reliably secured even when the shape of the drawing part (3) is very fine and complex. 22) can be coated.

 FIG. 4 is a flowchart of the method for manufacturing the transfer tool (1).

 The transfer tool (1) shown in FIG. 1 is formed through an adhesive layer forming step, a drawing portion forming step, an adhesion preventing layer forming step, a transfer step, and a hot melt grease spraying step.

FIG. 5 shows an adhesive layer forming step.

 First, in the adhesive layer forming step, a release sheet (6) is prepared. Then, a desired design is drawn with an adhesive on the upper surface of the release sheet (6), and an adhesive layer (4) is formed on the release sheet (6).

 The design drawn with the adhesive is a picture of three watches when the transfer tool (1) shown in FIG. 2 is manufactured, and the embroidery part (33) shown in FIG. 3 is drawn on the drawing part (3) of the transfer tool (1). ), The inner region surrounded by the outline of the embroidery portion (33) is drawn with an adhesive to form the adhesive layer (4).

 FIG. 6 shows a drawing part forming process when a pigment is used.

After forming the adhesive layer (4) on the release sheet (6) as shown in Fig. 6 (a), the pigment (35) The release sheet (6) is spread over the entire upper surface, and the pigment (35) covers the entire release sheet (6) .Then, when the release sheet (6) as shown in FIG. The pigment (35) in contact with the adhesive layer (4) stays on the adhesive layer (4), but does not come into contact with the adhesive layer (4)! (35) will be removed.

 In this way, a drawing part (3) having a pigment (35) force is formed on the adhesive layer (4).

FIG. 7 shows another embodiment of the drawing part forming step. FIG. 7 (a) shows an embodiment of the drawing part forming process when the embroidery part (33) is used as the drawing part (3), and FIG. 7 (b) is a drawing part forming process when short fibers are used. Indicates.

 When the embroidery part (33) as described above is used as the drawing part (3), the adhesive layer (4) is formed so as to occupy the entire inner region surrounded by the outer contour of the embroidery part (33). The embroidery part (33) after dissolving the embroidery base material (31) is placed on and fixed to the upper surface of the agent layer (4).

In order to prevent the adhesive layer (4) from protruding from the outer contour of the embroidery part (33), the drawing part forming step may be executed according to the procedure shown in FIG.

 First, a release sheet (6) provided with an adhesive layer (4) over the entire upper surface is prepared (see FIG. 8 (a)). Then, the embroidery part (33) is placed on the adhesive layer (4) so that the embroidery bobbin thread (322) and the adhesive layer (4) are in contact with each other. (See Fig. 8 (b)).

 After that, when the release sheet (6) force embroidery part (33) is peeled off, the area of the adhesive layer (4) in contact with the embroidery part (33) together with the embroidery part (33) is separated from the release sheet (6) ( (See Figure 8 (c)).

 Finally, a new release sheet (6) is prepared, and an embroidery part (33) is prepared on the new release sheet (6), so that an adhesive layer (4) can be obtained from the outer contour of the embroidery part (33). The embroidery part (33) can be placed and fixed on the release sheet (6) without protruding (see FIG. 8 (d)).

 The method described above is not limited to the case where the embroidery part (33) is used as the drawing part (3). The method is also applied to the case where the desired design is imitated with a cloth material and this is used as the drawing part (3). Is possible.

FIG. 7 shows a process of forming the drawing portion (3) with short fibers.

In the adhesive layer formation process, a desired design is drawn on the release sheet (6), and the adhesive layer (4 ), A large number of short fibers (36) are planted in the adhesive layer (4) on the release sheet (6). The short fiber (36) to be used is colored in advance, and the type of the short fiber (36) to be used is determined according to the design.

FIG. 9 shows an adhesion preventing layer forming step. Fig. 9 (a) shows the case where the drawing part (3) is formed with the pigment (35), and Fig. 9 (b) shows the case where the drawing part (3) is formed with the embroidery part (33). Figure 9 (c) shows the case where the drawing part (3) is formed of short fibers (36).

 As described above, after the drawing part (3) is fixed to the release sheet (6), fine particles (51) or short fibers (52) are spread over the entire surface of the release sheet (6) from above the drawing part (3). Then, an adhesion prevention layer (5) is formed.

 When the drawing part (3) is formed with the pigment (35), the particle diameter of the fine particles (51), the fiber diameter of the short fibers (52), and the length of the short fibers (52) are larger than the particle diameter of the pigment (35). It is preferable to reduce the size. As a result, the fine particles (51) or the short fibers (52) fall through the gaps between the pigments (35) on the adhesive layer (4), and the fine particles (51) or the short fibers (52) move later. This prevents the transfer sheet (2) and the drawing part (3) from adhering to each other during the transfer process.

 When the embroidery part (33) is used as the drawing part (3), the particle diameter of the fine particles (51), the fiber diameter of the short fibers (52), and the length of the short fibers (52) are set as follows. ) Is preferably smaller than the yarn diameter. As a result, the fine particles (51) or the short fibers (52) enter the embroidery part (33), and the fine particles (51) or the short fibers (52) are drawn as a transfer sheet (2) in a transfer process performed later. It will not interfere with the adhesion of the part (3).

 When forming the drawing part (3) with the short fiber (36), the particle diameter of the fine particles (51), the fiber diameter of the short fiber (52) and the short fiber (52) are larger than the length of the short fiber (36). It is preferable that the length of the is reduced. As a result, the fine particles (51) or the short fibers (52) fall through the gaps between the short fibers (36) on the adhesive layer (4), and the fine particles (51) or the short fibers (52) move later. The transfer sheet (2) and the drawing part (3) are not obstructed in the transfer process.

FIG. 10 shows a case where the drawing portion is formed of a cloth material with less fuzz.

When a drawing part is formed by imitating a material having a smooth surface such as a cloth material or a film material with little fluff in the shape of a desired design, a fine particle (51) or short is formed in the adhesion preventing layer forming step. When the fiber (52) is dispersed, the fine particles (51) or short fibers (52) are drawn (3). It will be deposited on the surface of the drawing part (3) that does not enter inside. In this case, in the subsequent transfer step, the fine particles (51) or the short fibers (52) hinder the adhesion between the transfer sheet (2) and the drawing portion (3).

 In order to prevent this, in the drawing part forming step, a drawing part (3) that imitates a laminated sheet composed of a sealing base material (371) and a cloth material or a film material (372) into a desired shape is prepared. The drawing part (3) is bonded to the adhesive layer (4) on the release sheet (6) in the same manner as when the embroidery part (33) is used (see FIG. 10 (a)). In this state, the cloth material or film material (372) is connected to the upper surface of the adhesive layer (4).

 In the adhesion preventing layer forming step, fine particles (51) or short fibers (52) are dispersed over the entire upper surface of the release sheet (6). At this time, the fine particles (51) or the short fibers (52) are deposited on the seal substrate (371) (see FIG. 10 (b)).

 After that, the fine particles (51) or short fibers (52) can be removed from the upper surface of the fabric or film material (372) by peeling off the seal material (371). Further, it is possible to prevent the fine particles (51) or the short fibers (52) from interfering with the adhesion between the transfer sheet (2) and the drawing portion (3) (see FIG. 10 (c)).

FIG. 11 shows a transfer process.

 In the transfer step, first, the transfer sheet (2) is placed on the release sheet (6). At this time, the adhesive layer (22) of the transfer sheet (2) comes into contact with the drawing portion (3) (see FIG. 11 (a)).

 Thereafter, a thermocompression bonding instrument (I) such as an iron is pressed against the upper surface of the transfer substrate (21) of the transfer sheet (2), and the transfer sheet (2) is pressed toward the release sheet (6). At this time, the adhesive layer (22) of the transfer sheet (2) is melted by the thermal energy of the thermocompression bonding instrument (I). As a result, the drawing part (3) on the release sheet (6) and the fine particles (51) or short fibers (52) come into contact with the adhesive layer (22) of the transfer sheet (2) (see FIG. 11 (b)). ).

 Finally, when the release sheet (6) is peeled off, the drawing part (3), the adhesive layer (4) connected to the drawing part (3) and the fine particles (51) or the short fiber (52) cover are transferred to the transfer sheet (2). The additional anti-adhesion layer (5) will be transferred (see Fig. 11 (c)).

[0047] FIG. 12 shows a hot-melt grease application step.

First, the transfer sheet (2) is turned upside down (see FIG. 12 (a)). Then, the upward force of the transfer sheet (2) is also sprayed with the powdered hot melt adhesive (41). As a result, the hot-melt adhesive (41) is deposited on the adhesive layer (4) and the anti-adhesion layer (5) (see FIG. 12 (b)).

 Thereafter, the transfer sheet (2) is turned upside down. At this time, the hot melt adhesive (41) in contact with the adhesive layer (4) is retained, while the hot melt adhesive (41) existing on the anti-adhesion layer (5) falls and is removed ( (See Figure 12 (c)).

FIG. 13 shows an example of the transfer tool (1) manufactured by the above manufacturing method.

 The transfer sheet (2) of the transfer tool (1) shown in FIG. 13 is formed in the same shape and size as the Christmas card that is the transfer object. On the transfer sheet (2), the drawing part (3) of the characters “X'mas”, the “-ヮ bird” pattern, and the “clock” pattern is formed according to the manufacturing process described above. . The part of the letter “X 'mas” is formed by short fibers (36), the part of “-ヮ tri” is formed by the embroidery part (33), and the part of the watch is formed by the pigment (35) .

 By preparing a transfer tool (1) having the same shape and size as the final product in this way, the layout of the picture can be determined in advance, and transfer to the final product can be suitably performed.

FIG. 14 shows an application form of the transfer tool (1) shown in FIG.

 In the above description, the transfer sheet (2) has a transfer substrate (21) and an adhesive layer (22) force that covers the upper surface of the transfer substrate (21). A form in which a seal substrate is further provided on the lower surface of the substrate may be employed.

 The transfer sheet (2) is composed of a peelable sealing substrate, a transfer substrate (21) disposed on the upper surface of the sealing substrate, and an adhesive layer (22) covering the upper surface of the transfer substrate (21). An adhesive layer is also provided on the lower surface of the transfer substrate (21). Then, a cutting line (L) is formed on the transfer substrate (21) and the adhesive layer (22), and the pattern is surrounded by the cutting line (L).

 In the example shown in FIG. 14, the characters “X 'mas”, the “-ヮ bird” design, and the “clock” design are surrounded by a cutting line (L). As a result, the area surrounded by the cutting line (L) can be separated from the transfer tool (1), and the layout of the picture can be easily determined by pasting the separated part on another sheet. It becomes possible.

FIG. 15 shows a usage pattern of the transfer tool (1).

The transfer tool (1) shown in FIG. 15 is a cut line (L ) Along the other sheet-like material (S). The sheet-like material (S) and the transfer tool (1) are connected by an adhesive layer (23) provided on the back side of the transfer sheet (1) (the side without the drawing part (3)). .

 The transfer tool (1) is placed on the surface (B) of the product with the drawing section (3) facing downward. In this state, when the transfer tool (1) is pressed downward with a thermocompression bonding instrument (I) such as an iron, the adhesive layer (4) and the hot melt adhesive are heated by the thermal energy supplied from the thermocompression bonding instrument (I). (41) melts, and the transfer tool (1) and the product surface (B) adhere.

 At this time, the portion of the transfer sheet (2) other than the portion where the drawing portion (3) is arranged does not adhere to the surface (B) of the product due to the presence of the adhesion preventing layer (5).

 In this state, the transfer sheet (2) is peeled off from the product surface (B) to leave the drawing part (3) on the product surface (B) without damaging the product surface (B). .

 Industrial applicability

 [0051] The present invention can be suitably applied not only to the decoration of clothing but also to the decoration of paper products such as postcards and box materials.

 Brief Description of Drawings

 FIG. 1 is a cross-sectional view of a transfer tool of the present invention.

 FIG. 2 is a plan view of the transfer tool of the present invention.

 FIG. 3 is a diagram showing an example of a drawing unit of the transfer tool of the present invention.

 FIG. 4 is a flowchart of the manufacturing process of the transfer tool of the present invention.

 FIG. 5 is a diagram showing an adhesive layer forming step of the transfer tool manufacturing step of the present invention.

 FIG. 6 is a diagram showing an example of a drawing portion forming process in the transfer tool manufacturing process of the present invention.

 FIG. 7 is a diagram showing an example of a drawing portion forming process in the transfer tool manufacturing process of the present invention.

 FIG. 8 is a diagram showing an example of a drawing portion forming process in the transfer tool manufacturing process of the present invention.

 FIG. 9 is a diagram showing an adhesion preventing layer forming step in the transfer tool manufacturing step of the present invention.

 FIG. 10 is a view showing another embodiment of the adhesion preventing layer forming step of the transfer tool manufacturing step of the present invention.

 FIG. 11 is a diagram showing a transfer process of the transfer tool manufacturing process of the present invention.

FIG. 12 is a diagram showing an example of a transfer process in the transfer tool manufacturing process of the present invention. FIG. 13 is a view showing an example of a transfer tool of the present invention.

FIG. 14 is a view showing another embodiment of the transfer tool of the present invention.

FIG. 15 is a view showing a usage pattern of the transfer tool of the present invention.

FIG. 16 is a view showing a conventional transfer tool.

Explanation of symbols

1 Transfer tool

 2 Transfer sheet

 22'—first adhesive layer

 3 Drawing part

 33 ... Embroidery part

321 ... Embroidery upper thread

322 ... Embroidery bobbin

35 ... Pigment

36… Short fiber

Claims

The scope of the claims  [I] a transfer sheet;  A first adhesive layer provided on one surface of the transfer sheet;  A transfer tool comprising a drawing portion fixed in the one surface of the transfer sheet by the adhesive layer, and a second adhesive layer provided on the upper surface of the drawing portion;  A transfer tool, wherein a portion of the surface of the first adhesive layer other than the portion to which the drawing portion is fixed is covered with an adhesion preventing layer. [2] The transfer tool according to [1], wherein the adhesion preventing layer is formed of fine particles.  [3] The transfer tool according to claim 1, wherein the adhesion preventing layer is formed of short fibers.  [4] The transfer tool according to [1], wherein the drawing section is made of a pigment. [5] The drawing unit includes an embroidery unit including an embroidery upper thread and an embroidery lower thread.  The transfer tool according to claim 1, wherein the embroidery upper thread and the embroidery lower thread are connected by a soluble material. [6] The transfer tool according to [1], wherein the drawing section is formed by planting short fibers.  [7] The transfer tool according to [1], wherein the drawing section has a cloth material force imitating a desired design.  [8] The transfer tool according to [2], wherein the particle size of the fine particles is larger than the thickness of the first adhesive layer. [9] The transfer tool according to claim 3, wherein the fiber diameter of the short fiber is larger than the thickness of the first adhesive layer. [10] The adhesion preventing layer is formed of fine particles,  5. The transfer tool according to claim 4, wherein the particle diameter of the fine particles is smaller than the particle diameter of the pigment. [II] The adhesion preventing layer is formed of fine particles, 6. The transfer tool according to claim 5, wherein a particle diameter of the fine particles is smaller than a thread diameter of the embroidery upper thread. [12] The adhesion preventing layer is formed of fine particles,  7. The transfer tool according to claim 6, wherein the particle diameter of the fine particles is smaller than the length of the short fibers constituting the drawing portion. [13] The anti-adhesion layer is formed of short fibers,  5. The transfer tool according to claim 4, wherein the fiber diameter of the short fibers is smaller than the particle diameter of the pigment. [14] The adhesion preventing layer is formed of short fibers,  6. The transfer tool according to claim 5, wherein a fiber diameter of the short fiber is smaller than a thread diameter of the embroidery upper thread. [15] The adhesion preventing layer is formed of short fibers,  The fiber diameter of the short fiber is smaller than the length of the short fiber constituting the drawing portion! 7. The transfer tool according to claim 6, wherein the transfer tool is characterized in that: [16] The adhesion preventing layer is formed of short fibers,  5. The transfer tool according to claim 4, wherein the length of the short fiber is smaller than the particle diameter of the pigment. [17] The anti-adhesion layer is formed of short fibers,  6. The transfer tool according to claim 5, wherein a length of the short fiber is smaller than a thread diameter of the embroidery upper thread. [18] The anti-adhesion layer is formed of short fibers,  7. The transfer tool according to claim 6, wherein a length of the short fiber is smaller than a length of the short fiber constituting the drawing portion. [19] A plurality of the drawing portions are formed,  The plurality of drawing portions are configured to include at least two or more kinds of forces selected from a group force including an embroidery portion composed of a pigment, a short fiber, a cloth material, and an embroidery upper thread and an embroidery lower thread. The transfer tool according to item 1. [20] The transfer sheet is bonded to a seal substrate having peelability, A plurality of the drawing portions are formed,  2. The transfer tool according to claim 1, wherein a cutting line is provided on the transfer sheet and the first adhesive layer so as to surround each of the plurality of drawing portions. [21] an adhesive layer forming step of forming an adhesive layer on the release sheet so as to form a desired design;  A drawing portion forming step for fixing a drawing portion on the adhesive layer on the release sheet, and an adhesion preventing layer forming step for forming an adhesion preventing layer by spraying fine particles or short fibers so as to cover the surface of the release sheet. When,  A transfer sheet composed of a transfer substrate and an adhesive layer provided so as to cover one surface of the transfer substrate, the drawing portion and the adhesion preventing layer are in contact with the adhesive layer of the transfer sheet. And a transfer step of transferring the drawing portion and the adhesion preventing layer to the transfer sheet. [22] The hot melt resin spraying step of spraying powdery hot melt resin on at least the adhesive layer appearing on the drawing portion after the transferring step. The transfer tool manufacturing method according to 21. 23. The transfer tool manufacturing method according to claim 22, wherein the hot-melt grease application step includes a step of removing the hot-melt grease on the adhesion preventing layer. [24] In the drawing part forming step, a step of spreading a pigment on a release sheet;  22. The transfer tool manufacturing method according to claim 21, further comprising the step of removing a pigment that does not come into contact with the adhesive layer on the release sheet from the pigment. [25] The drawing unit includes an embroidery unit including an embroidery upper thread and an embroidery lower thread,  The drawing portion forming step is to prepare a release sheet having an adhesive layer provided on the entire surface;  Placing and pressing the embroidery portion on an adhesive layer of a release sheet having an adhesive layer provided on the entire surface;  Peeling the embroidery part from the release sheet; 22. The transfer tool manufacturing method according to claim 21, wherein a new release sheet is prepared, and the stepping force for placing the peeled embroidery part on the new release sheet is provided. [26] The drawing unit is made of a cloth material simulating a desired design,  The drawing portion forming step is to prepare a release sheet having an adhesive layer provided on the entire surface;  Placing and pressing the cloth material on the adhesive layer of the release sheet provided with an adhesive layer on the entire surface;  Peeling the cloth material from the release sheet;  22. The method for producing a transfer tool according to claim 21, wherein a new release sheet is prepared, and the stepping force for placing the peeled cloth material on the new release sheet is provided. [27] The drawing portion forming step imitates a laminated sheet obtained by laminating a sealing base material and a cloth material into a desired design shape to form a drawing portion;  Placing the drawing portion so that the cloth material and the adhesive layer are bonded, and the adhesion preventing layer forming step disperses fine particles or short fibers over the entire upper surface of the release sheet;  The transfer tool manufacturing method according to claim 21, further comprising a step of peeling off the cloth material force of the sealing base material.