JP6628484B2 - Mark material and mark forming method - Google Patents

Description

  The present invention makes it possible to transfer colors, patterns, designs, and the like, which are printed on the transfer paper, to a cloth serving as a mark fabric by using a transfer paper on which colors, patterns, patterns, and the like are printed by a sublimable dye. The present invention relates to a mark material and a mark forming method using the same.

  In recent years, development of transfer paper on which colors, patterns, designs, and the like are printed with a sublimable dye has been progressing. At present, in the mark industry, a technique relating to a mark material using transfer paper has become widespread alongside the conventional silk screen printing method and the like. Further, as a composite fabric using such a technique, for example, using a white fabric made of fibers composed of a component having an affinity for a sublimable dye, using a softening point temperature from the sublimation temperature of the sublimable dye A mark fabric material having an interposed layer made of a synthetic resin set at a high temperature, and further having a configuration in which a transfer adhesive layer made of a thermoplastic synthetic resin having a hot-melt property and a release paper are bonded to each other is disclosed. (For example, see Patent Document 1 below).

JP 2006-322129 A

  The above-described cloth material for marks is required to withstand heat and pressure during sublimation transfer and to have excellent color developability and durability of the pattern formed on the cloth. In addition, from the viewpoint of the coloring property of the sublimation dye and the prevention of color fading, in the above-mentioned cloth material for marks, for example, a polyester fiber having excellent affinity with the sublimation dye can be used as the cloth. According to the above-described cloth material for marks, the intervening layer, the transfer adhesive layer, and the release paper are laminated on the cloth in this order.

  On the other hand, with the diversification of user demands in recent years, it has been desired that, for example, a mark fabric can be manufactured easily by processing a mark fabric material even in a small-scale factory or store. The cutting of the mark material is usually performed by means of heat cutting or laser cutting from the viewpoint of preventing fraying after cutting and sharpening the cut surface. However, these means require large devices. For this reason, it is often difficult to install these large-sized devices in a small-scale factory or small-sized store due to space or the like.

  On the other hand, as a device capable of cutting a sheet material or the like into a desired shape, for example, a device such as a cutting plotter is also known. A cutting plotter is a device for pressing a sharp knife (blade) against a sheet-like material and cutting it into a desired shape. Some cutting plotters can be miniaturized and can be easily installed even in small factories. However, when cutting a mark fabric material using polyester fabric with a cutting plotter, so-called cutting, such as fraying of the cut surface, lack of sharpness, or occurrence of uncut portions, occurs. Failure occurs. For this reason, even in small factories and small stores, there is a great demand for the development of a marking material having excellent cutting performance that can be easily cut.

  In view of the above-described problems, an object of the present invention is to provide a mark fabric material that is excellent in color developability of a pattern formed by a sublimable dye and has excellent cutting performance, and a method of forming a mark using the same. And

(1) A mark cloth containing polyester fibers, a penetrating adhesive layer containing a resin and a part of the resin penetrating between fibers of the mark cloth, a resin having a softening point of 180 ° C. or more, and a white material This is a cloth material for a mark having, in this order, an intervening layer, a transfer adhesive layer containing a thermoplastic resin having a softening point of 170 ° C. or lower, and a release sheet.

(2) The mark cloth material according to (1), wherein the content of the white material with respect to 100 parts by mass of the resin in the intervening layer is 50 parts by mass to 80 parts by mass.

(3) The penetrating adhesive layer contains a white material, and the content of the white material is 20 parts by mass or less based on 100 parts by mass of the resin in the penetrating adhesive layer. The mark fabric material described in (1).

(4) A mark forming method including a pattern forming step of sublimating and transferring a pattern formed of a sublimable dye on a mark fabric material by heating, wherein the mark fabric material includes a mark fabric including polyester fibers; A penetrating adhesive layer containing a resin and a resin in which a part of the resin has penetrated between fibers of the mark fabric; an intervening layer containing a resin having a softening point higher than the sublimation temperature of the sublimable dye; A transfer adhesive layer containing a thermoplastic resin whose point is lower than the sublimation temperature of the sublimable dye, and a release sheet, at least in this order, and in the pattern forming step, the mark cloth surface of the mark cloth material is And a mark forming method for sublimating and transferring a pattern formed with the sublimable dye.

  ADVANTAGE OF THE INVENTION According to this invention, while being excellent in the coloring property of the pattern formed by the sublimation dye, it is possible to provide a mark fabric material excellent in cutting performance and a mark forming method using the same.

1 is a partially cutaway perspective view of a marking material according to the present invention. It is a perspective view of the mark made from the cloth material for marks concerning the present invention. It is an image which shows the surface of the cloth material for marks in Example 1 in which the pattern was formed by sublimation transfer. It is an image which shows the cutting surface of the cloth material for marks in Example 1 of unsublimation cut using a cutting plotter. It is an image which shows the cut surface of the cloth material for marks in Example 1 after sublimation cut using the cutting plotter.

《Fabric material for mark》
The mark cloth material of the present invention includes a mark cloth containing polyester fibers, a penetrating adhesive layer containing a resin and a part of the resin penetrating between the fibers of the mark cloth, and a softening point of 180 ° C. or more. In this order, an intervening layer containing a resin and a white material, a transfer adhesive layer containing a thermoplastic resin having a softening point of 170 ° C. or less, and a release sheet are provided.

  According to the mark cloth material of the present invention, the penetrating adhesive layer provided between the mark cloth containing polyester fibers and the intervening layer contains a resin, and a part of the resin is a fiber of the mark cloth. Infiltrated between. As described above, by penetrating a part of the resin constituting the penetrating adhesive layer between the fibers of the mark cloth, the out-of-plane rigidity (bending rigidity) of the mark cloth is ensured while ensuring the adhesion between the mark cloth and the intervening layer. Can be increased. Thereby, the cutting performance of the marking material can be improved. Since the marking material of the present invention has excellent cutting performance, for example, a cutting plotter (blade pressure: 100 gf to 150 gf (1 [gf] = about 1/102 [N]), speed: 50 mm to 200 mm) may be used. The marking material can be cut into a desired shape without fraying or cutting failure.

  Further, the mark fabric material of the present invention uses a mark fabric containing a polyester fiber having a high affinity for a sublimable dye, and further includes a white material in an intervening layer provided inside the mark fabric in the thickness direction. ing. Thereby, the intervening layer plays the role of a white hiding layer, and the color developability of a pattern such as a color, a pattern or a pattern formed on the mark fabric by the sublimable dye can be further improved.

  In the cloth material for marks of the present invention, a release sheet is disposed (backed) on the side of the transfer adhesive layer opposite to the side on which the intervening layer is provided. For this reason, even if the thermoplastic resin contained in the transfer adhesive layer is melted during the sublimation transfer, it is possible to prevent the thermoplastic resin from adhering to other parts.

  The material for marks of the present invention is preferably used particularly for transferring marks formed by sublimating dyes. The mark cloth material of the present invention has a mark adhesive layer (hereinafter, may be referred to as a “hot melt layer”) for attaching to clothing such as a uniform and various other objects via an intervening layer. Are laminated. For this reason, there is no bleeding of the transfer adhesive layer into the mark fabric at the time of sublimation transfer, and there is no need to separately form a transfer adhesive layer or the like after forming a pattern or the like. For this reason, the risk that the pattern formed with the sublimable dye is damaged or distorted by subsequent processing or the like can be greatly reduced. After the mark pattern is formed, the mark fabric is cut into the desired shape, the peeling sheet is peeled off, superimposed on the fabric surface of the uniform, etc., and the mark is attached to the object using a heating press or the like. can do.

Generally, the transfer condition of the sublimable dye is set based on the sublimation temperature of the sublimable dye, but the normal temperature is 180 to 210 ° C., the pressure is 1 g / cm ^{2 to} 2000 g / cm ² , and the time is about 30 to 90 seconds. is there. The intervening layer in the fabric material for marks of the present invention is constituted by using a resin having a softening point of 180 ° C. or more so as not to be melted even under the transfer conditions when the sublimable dye is transferred to the mark fabric. ing. For this reason, the intervening layer also functions as a barrier layer for preventing the molten thermoplastic resin of the transfer adhesive layer from seeping into the mark fabric during sublimation transfer.

  Further, as the thermoplastic resin (hot melt resin) constituting the transfer adhesive layer in the present invention, a resin having a softening point of 170 ° C. or lower is used. For this reason, after forming a pattern etc. using a sublimable dye, when sticking the mark cloth to a uniform cloth etc. using a heating press machine etc., the pattern etc. of the sublimable dye adhered to the mark cloth are satisfactorily The maintained in-situ sticking process can be performed.

(Mark fabric)
The mark fabric constituting the mark fabric material is not particularly limited as long as the fabric includes polyester fibers and has heat resistance at least capable of withstanding the transfer conditions of the sublimable dye, and is made of fibers conventionally used in the production of marks. Can be used. In this case, the cloth is preferably a cloth made of a woven, knitted or non-woven fabric made of polyester fiber. The marking fabric material may include, in addition to the polyester fiber, a fiber composed of a component having an affinity for the sublimable dye. Examples of such fibers include nylon fibers, polyurethane fibers, and mixed fibers thereof, or fabric formed by blending with cotton or cotton. Considering the adhesiveness to the resin forming the intervening layer described later, the mark fabric is preferably a fabric composed of only polyester fibers. When a sublimation dye is sublimated to the cloth with a transfer paper using a sublimation dye to transfer a pattern such as a color, a pattern, and a pattern, the polyester fiber is more sublimated than a cloth made of a nylon-based synthetic resin. The transfer of the color, pattern, and pattern by the dye sublimated from the transfer paper is clear because the sex dye is strongly bonded. The color of the fabric constituting the mark fabric is not particularly limited, but is preferably white in consideration of the color developing property and versatility of the mark.
As the basis weight of the mark fabric, but are not particularly limited, for ^example, preferably from ^{30g / m 2 ~200g / m 2} , more preferably ^{50g / m 2 ~110g / m 2} , 70g / m 2 ~90g / ^{m 2} is particularly preferred.

(Penetration adhesive layer)
A penetrating adhesive layer is provided on the back surface of the above-described mark fabric (the back surface of the surface on which a pattern or the like is formed). The penetrating adhesive layer contains a resin, and a part of the resin constituting the penetrating adhesive layer has penetrated between the fibers of the mark fabric. The penetrating adhesive layer plays a role of increasing the out-of-plane rigidity of the mark cloth while making the mark cloth and the intervening layer adhere by partially penetrating between the fibers of the mark cloth. From the viewpoint of securing adhesiveness, it is preferable that only a part of the resin constituting the first adhesive permeates between the fibers of the mark fabric.

  The degree of penetration of the resin constituting the permeation adhesive layer penetrating between the fibers of the mark cloth depends on the color development and discoloration (fastness to washing) of the pattern formed by the sublimable dye, and the surface of the mark cloth ( It is preferable that the surface does not reach the surface on which the design or the like is formed. For example, when the thickness of the cross section of the mark cloth is used as a reference, the resin constituting the penetrating adhesion layer may have penetrated to 90% or less of the thickness of the mark cloth when viewed from the side where the penetrating adhesive layer is provided. More preferably, the resin has permeated up to 80%, particularly preferably, up to 70%. In addition, from the viewpoint of improving the cutting performance of the marking material, the resin constituting the penetrating adhesive layer has penetrated 30% or more of the thickness of the mark material as viewed from the side where the penetrating adhesive layer is provided. It is more preferable that the resin permeates at least 40%, and it is particularly preferable that the resin permeates at least 50%.

  The resin contained in the permeation adhesive layer can be appropriately selected from known synthetic resins and the like. Further, as the resin, any of a thermoplastic resin and a thermosetting resin may be used, but a thermoplastic resin is preferable from the viewpoint of handleability and the like. As the resin, a commercially available resin having high heat resistance (having a high softening point) can be used as appropriate, but is selected in consideration of the material constituting the mark cloth and the adhesiveness to the resin used for the intervening layer. Is preferred. Examples of such a resin include urethane-based resins. Further, in consideration of compatibility with a mark fabric containing polyester fibers, for example, it is preferable to use a polyester-based polyurethane. The “polyester-based polyurethane” includes, in addition to a polyurethane having an ester bond, a mixture of a polyester and a polyurethane. Examples of the other urethane-based resin include, for example, a mixture of an aliphatic polyester-based polyurethane and a polyether-based polyurethane (hereinafter, may be appropriately referred to as “aliphatic polyester-polyether-based polyurethane”). . As the aliphatic polyester / polyether-based polyurethane, for example, "Polymac DL-470E" (softening point: 220 to 230 ° C) manufactured by Nippon Polymac Co., Ltd. can be used.

The softening point of the resin contained in the osmotic adhesive layer is not particularly limited, but is preferably 180 ° C. or higher. In the present specification, the “softening point” of a resin means a Vicat softening temperature (Vicat Softening temp.) Specified in JIS K-7206 (1999). When the softening point of the resin constituting the permeation adhesive layer is 180 ° C. or more, when sublimation transfer is performed using a sublimable dye under the conditions of, for example, temperature: 180 ° C., pressure: 1 g / cm ² , and time: 45 seconds. Thus, the resin does not soften, and the resin can be prevented from oozing on the surface of the mark fabric. The softening point of the resin constituting the permeation adhesive layer can be appropriately determined in consideration of the sublimation temperature and transfer conditions of the sublimation dye to be used. The lower limit is preferably 185 ° C or higher, and more preferably 195 ° C or higher. Is more preferable, and 210 ° C. or higher is particularly preferable. Further, in consideration of the sublimation dye sublimation transfer conditions and the ease of handling during layer formation, the specific temperature range of the softening point is preferably 185 ° C to 250 ° C, more preferably 195 ° C to 245 ° C, About 210 ° C. to 240 ° C. is particularly preferred.

  The osmotic adhesive layer may also include a white material to impart white to the layer itself. The white material is a material that makes the color of the permeation adhesive layer white. Examples of the white material include a white pigment. Specific examples include titanium oxide, zinc white (zinc white), lithopone, lead white, and the like. Among these white pigments, titanium oxide is preferable as the white material.

  When the white material is contained in the penetrating adhesive layer, it can contribute to the improvement of the color developability of the pattern formed on the mark fabric. However, when the content of the white pigment in the penetrating adhesive layer is too large, the adhesive force between the mark fabric and the penetrating adhesive layer is reduced. From such a viewpoint, the content of the white material contained in the penetrating adhesive layer is preferably 20 parts by mass or less, and more preferably 2 parts by mass to 15 parts by mass with respect to 100 parts by mass of the resin contained in the penetrating adhesive layer. More preferably, it is particularly preferably 5 parts by mass to 10 parts by mass. By setting the content of the white material within the above range, it is possible to further improve the color developability of the pattern produced by sublimation transfer while maintaining the adhesive strength between the mark fabric and the intervening layer by the penetrating adhesive layer.

  The permeation adhesive layer can be formed on the back surface of the mark cloth by laminating or coating a film made of the resin. The viewpoint of preventing the resin from oozing on the surface of the mark fabric due to heating and pressure during sublimation transfer while increasing the out-of-plane rigidity of the mark fabric and acting as an adhesive layer while increasing the out-of-plane rigidity of the mark fabric. Therefore, the thickness is preferably 25 μm to 30 μm, more preferably 25 μm to 27 μm.

(Intervening layer)
An intervening layer is provided on the inner side in the thickness direction of the above-mentioned permeation adhesive layer (on the side opposite to the side in contact with the mark fabric). The intervening layer includes a resin having a softening point of 180 ° C. or higher and a white material. It is preferable that the intervening layer is not deformed or melted by heating and pressing when transferring a pattern such as a color, a pattern, or a pattern. When the softening point of the resin constituting the intervening layer is less than 180 ° C., when sublimation transfer is performed using a sublimable dye under the conditions of, for example, temperature: 180 ° C., pressure: 1 g / cm ² , and time: 45 seconds. Since the resin constituting the intervening layer is softened together with the thermoplastic resin constituting the transfer adhesive layer, it is impossible to prevent the thermoplastic resin from leaking to the surface of the mark cloth. The softening point of the resin constituting the intervening layer can be appropriately determined in consideration of the sublimation temperature and transfer conditions of the sublimation dye to be used. The lower limit is preferably 185 ° C or higher, and more preferably 195 ° C or higher. The temperature is more preferably 210 ° C. or higher. Further, in consideration of the sublimation dye sublimation transfer conditions and the ease of handling during layer formation, the specific temperature range of the softening point is preferably 185 ° C to 250 ° C, more preferably 195 ° C to 245 ° C, About 210 ° C. to 240 ° C. is particularly preferred.

  The resin forming the intervening layer can be appropriately selected from known synthetic resins and the like according to a desired purpose, as long as the resin has the above-mentioned softening point. Further, as the resin, any of a thermoplastic resin and a thermosetting resin may be used, but a thermoplastic resin is preferable from the viewpoint of handleability and the like. As an example of the resin, a commercially available resin having high heat resistance (having a high softening point) can be used as appropriate, but the adhesiveness between the material constituting the permeation adhesive layer and the thermoplastic resin used for the transfer adhesive layer can be improved. It is preferable to select even if it is considered. Examples of such a resin include a resin similar to a resin used for the osmotic adhesive layer such as a urethane-based resin. For example, the above-mentioned polyester-based polyurethane and the above-mentioned aliphatic polyester / polyether-based polyurethane can be suitably used. As the aliphatic polyester / polyether-based polyurethane, for example, “Polymac DL-470E” (softening point: 220 to 230 ° C.) manufactured by Nippon Polymac Co., Ltd. can be used. First, the combination of the resin contained in the resin and the resin contained in the intervening layer is not particularly limited, but it is preferable to use the same type of resin in consideration of the adhesiveness of both layers. Here, “the same kind of resin” means a resin having a characteristic basic molecular structure in common.

  The intervening layer includes a white material. As the white material, those similar to the white material used for the penetration adhesive layer can be used. Specific examples include titanium oxide, zinc white (zinc white), lithopone, lead white, and the like. Among these white pigments, titanium oxide is preferable as the white material.

  The white material contained in the intervening layer and the color development of the pattern formed on the mark fabric are improved. From the viewpoint of further improving the color developability of the pattern produced by the sublimation transfer, the content of the white material contained in the intervening layer is 50 parts by mass or more and 80 parts by mass or less based on 100 parts by mass of the resin contained in the intervening layer. Is preferably 55 to 75 parts by mass, more preferably 60 to 70 parts by mass. By setting the content of the white material within the above range, it is possible to further improve the color developability of the pattern formed on the mark fabric by sublimation transfer.

  Further, the intervening layer may be formed on the back surface of the mark fabric by laminating or coating a film made of the resin. The thickness of the intervening layer is not particularly limited and may be appropriately selected depending on the desired purpose. From the viewpoint of washing fastness and friction resistance, the thickness is preferably 10 μm to 100 μm, more preferably 15 μm to 20 μm. .

(Transfer adhesive layer)
In the present invention, the transfer adhesive layer is formed so as to be interposed between the intervening layer and the release sheet. The transfer adhesive layer is a so-called hot-melt layer used to adhere a mark to a cloth such as a uniform. In the present invention, the transfer adhesive layer contains a resin having a softening point of 170 ° C. or less. The second adhesive layer preferably contains a thermoplastic resin having a melt flow rate of 100 g / 10 min or less.

Here, the "softening point" means a Vicat softening temperature (Vicat Softening temp.) Specified by JIS K-7206 (1999), similarly to the above-mentioned softening point of the resin constituting the intervening layer. The conditions for sticking uniforms, shirt fabrics, and the like in ordinary processors are as follows: temperature: 130 ° C. to 170 ° C., pressure: 100 g / cm ^{2 to} 1000 g / cm ² , and time: 20 to 60 seconds. . If the softening point of the transfer adhesive layer exceeds 170 ° C., heating at or above these bonding conditions is required, which increases the production cost and may degrade the quality of the uniform to be bonded, such as a uniform. The softening point of the thermoplastic resin can be appropriately selected depending on the sticking conditions based on the object to be stuck. The upper limit is preferably 160 ° C. or lower, more preferably 150 ° C. or lower. Also, considering the preservability of the mark fabric material before sticking and the washing fastness and abrasion resistance after sticking and the normal mark sticking conditions after sticking, the specific temperature range of the softening point is as follows. , 70 to 170 ° C, more preferably 80 to 150 ° C.
Further, the softening point of the resin forming the intervening layer and the softening point of the thermoplastic resin forming the transfer adhesive layer, so that the interposing layer is not affected by the heating temperature when the mark is attached to the adherend. The difference is preferably 10 ° C. or higher, more preferably 20 ° C. or higher, and particularly preferably 30 ° C. or higher.

In the present specification, “melt flow rate” is synonymous with melt index (Melt index (MI)), and is a value measured at a temperature of 190 ° C. and a load of 8.76 kg according to JIS-K7210 (1999) B method. means. When the thermoplastic resin constituting the transfer adhesive layer has a melt flow rate of 100 g / min or less, for example, a temperature of 180 ° C., a pressure of 1 g / cm ² , and a time of 45 seconds using a sublimable dye. In the case of sublimation transfer, the thermoplastic resin melted into the pinholes or minute cracks enters the intervening layer and reaches the mark fabric, thereby preventing seepage on the mark fabric surface. The melt flow rate of the thermoplastic resin is preferably from 60 to 100 g / 10 min, more preferably from 65 to 95 g / 10 min, and still more preferably from 70 to 90 g / 10 min, in consideration of the forming efficiency of the transfer adhesive layer, such as coatability and moldability. Is particularly preferred. The melt flow rate can be determined by measuring the target thermoplastic resin several times according to JIS-K7210 and taking the average value. The method for adjusting the melt flow rate is not particularly limited. For example, the viscosity can be increased (the melt flow rate decreases) by increasing the molecular weight of the polymer.

  As the thermoplastic resin forming the transfer adhesive layer, a commercially available resin can be appropriately used as long as the thermoplastic resin satisfies the above softening point. Preferably, it is a plastic synthetic resin. As such a thermoplastic resin, for example, a thermoplastic polyurethane whose softening point and viscosity are adjusted so as to conform to the above-mentioned conditions can be mentioned. The polyurethane has particularly good adhesion to the intervening layer when a mixture of the above-mentioned aliphatic polyester / polyether-based polyurethane is used for the intervening layer. As such a thermoplastic polyurethane, for example, “SHM103-PUB” SEEDOM Co., Ltd. (softening point 90 ° C., melt flow rate (condition: 190 ° C., 8.76 kg), average value 78.71 g / 10 min) can be used. .

  The transfer adhesive layer may be formed by laminating a film made of the thermoplastic resin on the back surface of the intervening layer (the surface opposite to the surface on which the mark material of the intervening layer is provided) by a laminating method or a coating method. it can. The thickness of the transfer adhesive layer is not particularly limited and can be appropriately selected depending on a desired purpose.From the viewpoint of sticking to an object, washing fastness, and friction resistance, the thickness is 10 μm to 150 μm. Is preferably, and more preferably 40 μm to 100 μm.

(Release sheet)
The release sheet is a sheet-like material lined on the back surface of the transfer adhesive layer (the surface opposite to the surface on which the intervening layer of the transfer adhesive layer is provided), and is formed of a thermoplastic resin constituting the transfer adhesive layer. On the other hand, it has releasability. The cloth material for marks of the present invention is provided with a release sheet, so that the thermoplastic resin melted by heating and pressurizing when transferring the sublimable dye to the cloth material for marks before sticking adheres to the other. Can be prevented. The release sheet can be appropriately selected from commercially available release sheets such as a release paper or a resin film that has been subjected to a release treatment, depending on the type of the thermoplastic resin material used for the transfer adhesive layer. Coated ones can be used.

《Mark formation method》
The mark forming method of the present invention is a mark forming method of forming a mark by transferring a pattern formed with a sublimable dye on a mark material, and formed by using a sublimable dye on the mark material. A pattern forming step of sublimating and transferring the pattern by heating is included. The mark cloth material includes a mark cloth including polyester fibers, a penetrating adhesive layer including a resin and a part of the resin penetrating between fibers of the mark cloth, and a softening point having a sublimation of the sublimable dye. An intervening layer containing a resin higher than the temperature, a transfer adhesive layer containing a thermoplastic resin whose softening point is lower than the sublimation temperature of the sublimable dye, and a release sheet, including at least in this order, in the pattern forming step A sublimation transfer of a pattern formed of the sublimable dye to the surface of the mark cloth of the mark cloth material. The mark forming method of the present invention may include a cutting step of cutting the mark cloth material into a desired shape as necessary.

  In the mark forming method of the present invention, the intervening layer of the mark cloth material is formed using a resin whose softening point is higher than the sublimation temperature of the sublimable dye, so that the pattern formed by the sublimable dye is formed on the mark cloth surface. At the time of transfer, the transfer adhesive layer composed of a thermoplastic resin having a softening point lower than the sublimation temperature of the sublimable dye can be prevented from melting and exuding to the surface of the mark fabric during sublimation transfer. The softening point of the resin constituting the intervening layer is preferably higher than the heating temperature in the pattern forming step for sublimation transfer of the sublimable dye. Further, a release sheet is disposed (backed) on the side of the transfer adhesive layer opposite to the side on which the intervening layer is provided. For this reason, even if the thermoplastic resin forming the transfer adhesive layer melts during the sublimation transfer, it is possible to prevent the thermoplastic resin from adhering to others.

(Pattern forming step)
The mark forming method of the present invention is a step of sublimating and transferring a pattern formed of a sublimable dye onto a mark cloth surface of a mark cloth material. A sublimable dye is a dye having a characteristic of being dyed by applying heat to a polymer by molecular bonding. Usually, the sublimable dye is used by mixing additives such as a dispersion stabilizer. The sublimable dye used in the present invention is not particularly limited, and a commercially available sublimable dye can be appropriately selected and used.However, considering the production cost and the softening point of the polyester preferably used as a mark fabric, the sublimation temperature is not limited. It is preferable to use a sublimable dye having a temperature of 220 ° C. or lower.

  In the mark forming method of the present invention, the pattern is formed by transferring a sublimable dye to the surface of the mark cloth. As the transfer sheet used for the sublimation transfer, for example, a sublimation transfer sheet or the like in which a pattern such as a pattern is formed on a known transfer paper with a sublimable dye can be appropriately selected and used.

(Cutting process)
The mark forming method of the present invention may include a cutting step using a cutting plotter. The marking material of the present invention and the marking material used in the mark forming method of the present invention are excellent in cutting performance. For this reason, when cutting into a desired shape, even if a cutting plotter is used, it is possible to produce a mark having a sharp cut surface without fraying or defective cutting. At this time, the kind of the cutting plotter to be used is not particularly limited. For example, cutting is performed under the conditions of a blade pressure: 100 gf to 150 gf (1 [gf] = about 1/102 [N]) and a speed: 50 mm to 200 mm. The marking material of the present invention can be suitably cut using a plotter.

(Marking fabric material)
The mark cloth material used in the mark forming method of the present invention is a mark cloth containing polyester fibers, and a penetrating adhesive layer containing a resin containing a resin and a part of the resin penetrating between fibers of the mark cloth. An intermediate layer containing a resin whose softening point is higher than the sublimation temperature of the sublimable dye, a transfer adhesive layer containing a thermoplastic resin whose softening point is lower than the sublimation temperature of the sublimable dye, and a release sheet. Include at least in this order. The mark material used in the mark forming method of the present invention has the same layer configuration as the mark material of the present invention described above. Here, the mark fabric, the penetrating adhesive layer, and the release sheet are the same as those described above, and a description thereof will be omitted.

  The intervening layer in the mark material used in the mark forming method of the present invention contains a resin whose softening point is higher than the sublimation temperature of the sublimable dye. The resin forming the intervening layer can be appropriately selected from known synthetic resins according to a desired purpose, as long as the resin has a softening point higher than the sublimation temperature of the sublimable dye. Further, as the resin, any of a thermoplastic resin and a thermosetting resin may be used, but a thermoplastic resin is preferable from the viewpoint of handleability and the like. As an example of the resin, a commercially available resin having a high heat resistance (having a high softening point) can be used as appropriate, but it is necessary to consider the adhesiveness between the material constituting the mark fabric and the thermoplastic resin used for the transfer adhesive layer. However, it is preferable to select one. When the sublimation temperature of the sublimable dye is 180 to 210 ° C. or the like, it is possible to have the same intervening layer using the same resin as the intervening layer in the above-described mark fabric material of the present invention. preferable. The softening point of the resin constituting the intervening layer is preferably higher than the heating temperature in the pattern forming step for sublimation transfer of the sublimable dye.

The transfer adhesive layer in the mark material used in the mark forming method of the present invention contains a thermoplastic resin whose softening point is lower than the sublimation temperature of the sublimable dye. As long as the thermoplastic resin forming the transfer adhesive layer has a softening point lower than the sublimation temperature of the sublimable dye, it can be appropriately selected from known thermoplastic resins and the like according to a desired purpose. it can. As described above, the thermoplastic resin preferably has a melt flow rate of 100 g / 10 min or less. Examples of the thermoplastic resin include, for example, a thermoplastic polyurethane having a softening point adjusted to meet the above-described conditions. The polyurethane has particularly good adhesion to the intervening layer when a mixture of the above-mentioned aliphatic polyester / polyether-based polyurethane is used for the intervening layer. When the sublimation dye has a sublimation temperature of, for example, 180 to 210 ° C., the same transfer adhesive layer is used by using the same thermoplastic resin as the resin used for the transfer adhesive layer in the above-described mark fabric material of the present invention. Is preferably formed.
Further, the softening point of the resin forming the intervening layer and the softening point of the thermoplastic resin forming the transfer adhesive layer are controlled so that the interposing layer is not affected by the heating temperature when the mark is attached to the adherend. The difference is preferably 10 ° C. or higher, more preferably 20 ° C. or higher, and particularly preferably 30 ° C. or higher.

The transfer of the pattern to the mark cloth surface of the mark cloth material is performed by transferring a transfer sheet having a pattern formed with a sublimable dye and a mark cloth material to a pattern formed with a sublimable dye and the mark cloth surface. It can be performed by stacking them so that they are in contact with each other, and by heating and pressurizing with a heating press or the like. The sublimation conditions at this time are not particularly limited, but when a sublimable dye having a sublimation temperature of about 180 to 210 ° C is used, the temperature is 180 to 210 ° C and the pressure is 1 g / cm ^{2 to} 300 g / cm. ² , time: preferably about 45 to 60 seconds. By performing such a sublimation transfer treatment, it is possible to form a pattern using a sublimable dye on the surface of the marking material.

Next, the mark fabric material of the present invention will be specifically described with reference to the drawings.
The mark fabric material 20 of the present invention has the structure shown in FIG. In FIG. 1, a marking material 20 includes a mark material 21, a penetrating adhesive layer 22, a heat-resistant intervening layer 23, a transfer adhesive layer 24, and a release paper 25. As the cloth as the mark cloth 21 constituting the mark cloth material 20 of the present invention, a white cloth or the like made of polyester fiber having an affinity for a sublimable dye is used. The fabric may be a woven, knitted, or non-woven fabric. In addition, since the mark cloth 21 at least sublimates the sublimable dye printed on the transfer paper by applying heat and pressure and transfers the sublimation dye to the color, the pattern, and the cloth of the design, the mark cloth 21 is formed from components that can withstand the heating temperature. Preferably, the fabric is made of fibers consisting of

  On the back surface of the mark cloth 21, a permeation adhesive layer 22 formed of a thermoplastic synthetic resin having an affinity for the mark cloth 21 is formed. Although not shown, a part of the resin constituting the permeation adhesive layer 22 has permeated between the fibers of the mark cloth 21. A permeation adhesive layer 22 formed of a thermoplastic synthetic resin having an affinity for the mark cloth 21 is formed. As the thermoplastic resin, a polyester-based polyurethane having a softening point of 180 ° C. or more can be used. The permeation adhesive layer 22 can be formed to have a thickness of about 25 μm to 30 μm depending on whether the thermoplastic resin solvent is coated on the back surface of the mark cloth 21 or a film made of the thermoplastic resin is laminated. Further, it is preferable that the penetrating adhesive layer 22 is also formed of a material that is not deformed or melted by heating and pressing when transferring colors, patterns, and designs with the transfer paper onto the mark cloth 21. That is, it is preferable that the penetrating adhesive layer 22 and the mark cloth 21 are formed of a material having the same heat resistance temperature. The permeation adhesive layer 22 may contain about 20 parts by mass or less of a white material such as titanium oxide with respect to 100 parts by mass of the resin.

  On the back surface of the mark cloth 21, a heat-resistant intervening layer 23 formed of a thermoplastic synthetic resin having an affinity for the permeation adhesive layer 22 is formed. As the thermoplastic resin, a polyester-based polyurethane having a softening point of 180 ° C. or more is used. The heat-resistant intervening layer 23 can be formed with a thickness of about 10 μm to 20 μm depending on whether the thermoplastic resin solvent is coated on the back surface of the permeation adhesive layer 22 or a film made of the thermoplastic resin is laminated. Further, it is preferable that the heat-resistant intervening layer 23 is also formed of a material that is not deformed or melted by heating and pressing when transferring a color, a pattern, and a pattern onto the mark cloth 21 with the transfer paper. That is, it is preferable that the heat-resistant intervening layer 23 and the permeation adhesive layer 22 are formed of a material having the same heat-resistant temperature. Further, the heat-resistant intermediate layer 23 includes a white material such as titanium oxide.

  The transfer adhesive layer 24 can be formed on the back surface of the heat-resistant intermediate layer 23 with a hot-melt thermoplastic synthetic resin having an affinity for the thermoplastic resin constituting the heat-resistant intermediate layer 23. The transfer adhesive layer 24 can be formed by coating the thermoplastic synthetic resin solvent or laminating the thermoplastic synthetic resin film on the back surface of the heat-resistant intermediate layer 23. As the thermoplastic resin forming the transfer adhesive layer 24, a thermoplastic resin having a softening point of 170 ° C. or less is used. As such a thermoplastic resin, a thermoplastic polyurethane or the like whose softening point is adjusted to meet the above-mentioned conditions can be used. Further, a release paper 25 is adhered to the back surface of the transfer adhesive layer according to a conventional method.

In order to obtain a mark cloth 21 having a desired color, pattern, pattern, etc. formed on the mark cloth 21 made of the cloth constituting the mark cloth material 20, a desired color, pattern, pattern, etc. is formed using a sublimable dye. The printed surface of the transfer paper on which the pattern of the above is printed is superimposed on a white cloth as the mark cloth 21 of the mark cloth material 20, for example, at a temperature of about 200 ° C., a pressure of about 300 g / cm ² , and a time of about 60 seconds. Heat and pressurize under the conditions of By this operation, the sublimable dye used for printing from the transfer paper is transferred as a desired color, pattern, or pattern to the mark cloth 21 which is the white cloth, and the sublimation dye is transferred to the surface of the mark cloth 21 which is the white cloth. A color, a pattern, and a pattern are formed by the sex dye.

  During this operation, the transfer adhesive layer 24 formed of a thermoplastic synthetic resin having a softening point of 170 ° C. or lower is naturally melted between the heat-resistant intermediate layer 23 and the release paper 25 by the heating and pressing operation. The mark cloth 21, which is a white cloth as a constituent material of the mark cloth material 20, is provided with the heat-resistant intervening layer 23, and thus the molten synthetic resin, which is a component of the transfer adhesive layer 24, is provided on the mark cloth 21. It does not exude. Also, it does not exude from the release paper.

  That is, as long as the processor obtains the dough material 20 for a mark, using a transfer paper on which a desired color, pattern, and pattern are printed with a sublimable dye using an existing heating press machine, the desired color, It is possible to make mark fabric with patterns and patterns transferred. As a means for the processor to make a mark from the mark fabric, it is a matter of course that the mark 26 shown in FIG. 2 is cut into a desired shape by a conventional method. At this time, since the mark fabric material 20 has excellent cutting performance, the mark fabric material can be cut into a desired shape using a cutting plotter to form the mark 26 in FIG. The means for bonding the mark 26 to a uniform or the like is, of course, a conventional method.

  Hereinafter, the present invention will be specifically described with reference to examples.

[Examples 1 to 4]
With the configuration shown in Table 1 below, a fabric material for a mark of 10 cm × 10 cm was produced as follows. First, a member (member A) in which a film for a penetration adhesive layer was stuck on the back surface of the mark fabric by transfer was prepared. Next, a transfer adhesive layer was formed on the release paper by coating, and a film for an intervening layer was attached onto the transfer adhesive layer by transfer (member B). The obtained member A and member B were laminated so that the permeation adhesive layer and the intervening layer were in contact with each other, to prepare a marking material.

<Evaluation of bleeding and color development>
A sublimation transfer treatment was applied to the obtained mark fabric material by a heating press using a sublimation transfer sheet composed of release paper on which a sublimable dye pattern was printed by a sublimation printer. At this time, sublimation transfer conditions were a temperature of 200 ° C., a pressure of 1 g / cm ² , and a time of 60 seconds. After the sublimation transfer treatment, the release paper of the sublimation transfer sheet was peeled off from the marking material, and the mark fabric and the release paper could be peeled off well without being adhered. Further, when the surface of the mark fabric on which the pattern was formed was observed with a microscope, no bleeding of the resin was confirmed as shown in FIG. 3, and the color development was good. FIG. 3 is an image showing the surface of the marking material on which a pattern is formed by sublimation transfer. In addition, four colors (black, magenta, yellow, and cyan) of the product name: DIGISTAR DES ELITE manufactured by KIIAN SPA were used for the sublimation transfer sheet. These sublimation temperatures vary from 180 ° C to 210 ° C, depending on the color.

<Cutting evaluation>
Using a cutting plotter (product name GX-24, manufactured by Roland D.G.), the material for the mark before or after the pattern is formed by sublimation transfer is used, and the blade pressure is 100 gf (1 [gf] = 1/102 [ N]), speed: 200 mm / sec]. Thereafter, the cut surface was checked with a microscope, and the cutting performance was evaluated according to the following criteria. 4 and 5 show cross-sectional photographs taken with a microscope. FIG. 4 is an image showing a cut cross section of the marking material in Example 1 which has not been sublimated and cut using a cutting plotter. FIG. 5 is an image showing a cut cross section of the marking material in Example 1 after sublimation cut using a cutting plotter. At this time, for the mark material before the pattern formation, the mark material was cut using a coloring agent so that the layer structure could be understood. As shown in FIGS. 4 and 5, also in Example 1, the cut surface of the marking material was good without fraying. In addition, it can be seen from the images of FIGS. 4 and 5 that in the area A in the image, a part of the penetrating adhesive layer has penetrated between the fibers of the mark cloth.
A: There was no frayed cut surface, and no defective cutting was confirmed.
B: Fraying was confirmed in a part of the cut surface, but within a range where there was no practical problem.
C: Fraying or defective cutting was observed on the cut surface.

<Wash fastness>
The release paper was peeled off from the mark fabric material on which the pattern was formed, and the mark was attached to a commercially available polyester uniform under the bonding conditions of a temperature of 150 ° C., a pressure of 200 g / cm ² and a time of 30 seconds. Next, using a household washing machine, the process of 45 minutes of one cycle of washing-rinsing-dehydration was repeated 50 times, and the discoloration and peeling of the mark were observed and evaluated according to the following criteria. Table 1 shows the results.
A: No discoloration or peeling of the mark was observed.
B: Discoloration and peeling of the mark were slightly observed.
C: Many color fading and peeling of the mark were observed.

[Comparative Example 1]
With the configuration shown in Table 1 below, a fabric material for a mark of 10 cm × 10 cm was produced as follows. First, an intervening layer was applied to the back surface of the mark fabric, and then dried to form an intervening layer. Next, an adhesive layer was formed on the intervening layer by coating, and a release paper was laminated thereon to prepare a marking material. The same evaluation as in Example 1 was performed on the obtained mark material.

Mark fabric: ※ 1 Product name: high count chiffon polyester fiber (100% polyester), weight per unit area of 81g / ^{m 2,} plain weave, yarn count: through 75d × weft 75d, driving: through 113 present / inch × 93 fibers / inch
・ Transfer adhesive layer: * 2 Product name: SHM-103-50, manufactured by Seedom Co., Ltd. MI value: 78.71 g / 10 min (190 ° C./8.76 kg)
-Release paper: * 3
Glassine paper, product number: WG, manufactured by Lintec Corporation

As can be seen from the results in Table 1, no bleeding was observed in the mark fabric material of Comparative Example 1 having no penetrating adhesive layer and not using titanium oxide for the intervening layer. However, the mark fabric material of Comparative Example 1 was inferior in color developability as compared with the example using titanium oxide. Further, the marking material of Comparative Example 1 was inferior in cutting performance and washing fastness as a result of being cut by a cutting plotter.
With the mark cloth material of Example 2 in which the thickness of the penetrating adhesive layer was 31 μm, bleeding to the surface after sublimation transfer was partially confirmed. For this reason, the coloring property was somewhat inferior to the result of Example 1 and was evaluated as “good”.
With the mark cloth material of Example 3 in which the thickness of the penetrating adhesive layer was 24 μm, no bleeding was observed after sublimation transfer, and the coloring property was also good. However, the cutting performance and washing fastness were somewhat inferior to the results of Example 1.
The fabric material for marking of Example 4, in which the content of titanium oxide in the permeation adhesive layer was increased, showed no bleeding after sublimation transfer, and also had good coloring properties and cutting performance. However, the washing fastness was somewhat inferior to the result of Example 1. This is presumably because the mark cloth material of Example 4 has a lower adhesiveness between the mark cloth and the penetrating adhesive layer than that of Example 1.
From these results, it can be seen that the marking material of Examples 1 to 4 can be cut well even using a cutting plotter.
The mark material of Examples 1 to 3 and Comparative Example 1 were cut by heat cutting (product name ProMark FG-10, manufactured by Taiyo Seiki Co., Ltd.).

Reference Signs List 20 Marking material 21 Marking material 22 Penetrating adhesive layer 22 Heat-resistant intervening layer 24 Transfer adhesive layer 25 Release paper 26 Mark

Claims (8)

A mark material for performing sublimation transfer to mark material using transfer paper printed with a sublimable dye,
Mark fabric containing polyester fiber,
A penetrating adhesive layer containing a resin and part of the resin penetrating between the fibers of the mark fabric;
An intervening layer containing a resin and a white material having a softening point of 180 ° C. or higher,
A transfer adhesive layer containing a thermoplastic resin having a softening point of 170 ° C. or lower,
A release sheet;
In this order.   The cloth material for marks according to claim 1, wherein the content of the white material with respect to 100 parts by mass of the resin in the intervening layer is 50 parts by mass to 80 parts by mass.   The cloth material for marks according to claim 1 or 2, wherein the penetrating adhesive layer includes a white material, and a content of the white material is not more than 20 parts by mass with respect to 100 parts by mass of the resin in the penetrating adhesive layer.   The basis weight of the mark fabric is 50 g / m ² ~ 110g / m ² The cloth material for marks according to any one of claims 1 to 3, wherein   The cloth material for marks according to any one of claims 1 to 4, wherein a softening point of the resin contained in the penetrating adhesive layer is 180 ° C or higher.   The cloth material for marks according to any one of claims 1 to 5, wherein the thickness of the penetrating adhesive layer is from 25 µm to 30 µm.   The mark cloth material according to any one of claims 1 to 6, wherein the resin constituting the permeation adhesive layer has permeated up to 50% to 90% of the thickness of the mark cloth. A mark forming method including a pattern forming step of sublimating and transferring a pattern formed with a sublimable dye on a mark material material by heating,
The mark cloth material includes a mark cloth including polyester fibers, a penetrating adhesive layer including a resin and a part of the resin penetrating between fibers of the mark cloth, and a softening point having a sublimation of the sublimable dye. Intermediate layer containing a resin and a white material higher than the temperature, a transfer adhesive layer containing a thermoplastic resin having a softening point lower than the sublimation temperature of the sublimable dye, and a release sheet, at least in this order,
In the pattern forming step, a mark forming method in which a pattern formed by the sublimable dye is sublimated and transferred to the mark cloth surface of the mark cloth material.