JP2009023242A - Transfer paper - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide transfer paper capable of preventing a color loss feeling after transferring. <P>SOLUTION: The transfer paper 1 is formed by laminating a lame-containing cover layer 3 on one surface of a base sheet 2, and laminating an adhesive agent containing ink accepting layer 4 comprising a second layer 4b and a first layer 4a on the lame-containing cover layer 3. Cationization agent (mass)/hot melt powder (mass) is larger in the first layer 4a than in the second layer 4b. When being transferred, a printing surface, that is, the adhesive agent containing ink accepting layer 4, is on a clothing side, and the lame-containing cover layer 3 covers it. The lame-containing cover layer 3 protects ink, and color loss caused by washing can be restrained. Further, the reflection light by a lame agent clearly shows an image (color of ink), and thereby, the reflection light of the lame agent compensates for some color loss, and color loss is not actually felt. Thus, the life of the transfer image on practical use can be elongated. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention belongs to the technical field of transfer paper.

  The transfer paper is used for printing an image on the surface, pressing the printed surface against a transfer medium such as clothing and heating it with an iron or the like, thereby transferring the image to the transfer medium. For this reason, it is also called a thermal transfer paper, a thermal transfer sheet, or the like.

The transferred clothes are usually washed repeatedly, but there is a problem of discoloration due to washing. In particular, there was a large tendency to discolor when printed by the inkjet method. For this reason, various proposals have been made to improve the washing resistance. For example, Japanese Patent Application Laid-Open No. 2000-168250 discloses a technique in which an ink receiving layer is composed of at least a thermosetting resin and a hot-melt adhesive resin to improve washing resistance.
JP 2000-168250 A

However, even if the ink receiving layer of Patent Document 1 is employed, color fading due to repeated washing cannot be completely prevented, and the ink itself may be deteriorated by ultraviolet rays or the like.
The present invention provides a countermeasure technique using a method different from the conventional one against color loss and deterioration that cannot be prevented by the conventional method.

  The transfer paper (1) according to claim 1, as shown in FIG. 1, a lamellar cover layer (3) is laminated on one side of a base sheet (2), and an adhesive is formed on the lamellar cover layer (3). The ink-receiving layer (4) is laminated.

  As the base sheet (2), a release treated paper or a synthetic resin film is used in the same manner as a known transfer paper. The synthetic resin film used as the base sheet (2) is not particularly limited as long as it has sufficient heat resistance to withstand the heating during transfer. However, in terms of mechanical strength, heat resistance, workability, etc., the PET film (thickness is 30 μm to 300 μm) is preferable. Note that the surface of the synthetic resin film may be released.

  For the cover layer (3) with a glitter, a transparent film in which a glitter agent is dispersed in a transparent synthetic resin is used. Note that “transparent” does not mean that the transmittance of visible light is 100%, but here it means that the transmittance of visible light is 50% or more (the same applies hereinafter).

  A general lamellar agent is a thin piece having a structure in which two or more different types of synthetic resin thin films are laminated in multiple layers, and colors are generated by reflection of light at the thin film interface, so the synthetic resin thin film itself is transparent. . The color of the reflected light of this lame agent changes variously depending on the angle seen by the observer, the incidence of light, the refraction, and the like. Commercially available products include New Rainbow from Horikin Foil Powder Co., Ltd. and Crystal Rainbow from Dia Kogyo Co., Ltd.

  There is also a lamellar agent having a structure in which a metal is attached to a synthetic resin film by vapor deposition or plating, and metal powder may be used as the lamellar agent, and these can also be used in the present invention. However, since these lamellar agents are opaque, the visible light transmittance of the lamellar cover layer (3) is lower than that of the transparent lamellar agent.

  If the ratio of the lame agent in the cover layer (3) containing the glitter is too small, the feeling of glitter is poor, and if it is too large, the sharpness of the image may be impaired (the feeling of image becomes poor). On the other hand, if it is extremely large, the peelability at the time of transfer processing is lowered and the transfer function is impaired. For these reasons, a blending ratio in which the lame agent occupies 4 to 10% by weight in the lame-containing cover layer (3) is preferable.

In addition, when using an opaque lame agent, in order to ensure the transparency of the cover layer (3) containing a lame, it is preferable to make it a mixture ratio (a value close to 4% by weight) even within the above range.
The synthetic resin in which the lame agent is dispersed is not particularly limited except for the condition of being transparent, but a heat-crosslinking type urethane resin is suitable.

  The lame-containing cover layer (3) is a heat-crosslinking type urethane resin emulsion (Seikaprene UD710 from Dainichi Seika Co., Ltd., Binder CB802U from Hayashi Chemical Industry Co., Ltd., CL109), and an antifoaming agent. It is formed by applying a composition comprising a plasticizer (for example, ethylene glycol), a lame agent, and water on the base sheet (2) and then crosslinking the urethane resin. The thickness of the lamellar cover layer (3) is preferably 10 to 15 μm, and more preferably 12 to 15 μm.

  The adhesive-containing ink receiving layer (4) laminated on the lamellar cover layer (3) has the purpose of fixing ink for an ink-jet color printer (or copier) (ink receiving layer) and the transferred object. It is provided for the purpose of adhering to the surface of a body (clothing, etc.) (adhesive-containing layer), and is constituted by adding a cationizing agent and hot melt powder into a transparent synthetic resin.

  The reason why the cationizing agent is added to the adhesive-containing ink receiving layer (4) is to improve the fixability of the ink. As the cationizing agent, known ones can be used. However, since the fixability of the ink may be greatly influenced by the kind and blending amount of the cationizing agent, it may be selected by performing an experiment or the like. In addition, as a commercially available product recommended, there are HP-207A, HP-230A, HP-260A of Senka Co., Ltd. and a cationizing agent of Idemitsu Fine Chemical Co., Ltd.

  On the other hand, the hot melt powder functions as an adhesive during transfer. A known hot melt powder may be used. However, since a household iron is usually used in a temperature range of 160 ° C. to 180 ° C., a hot melt powder that melts at this temperature is desirable.

  The adhesive-containing ink receiving layer (4) is a heat-crosslinking acrylic resin emulsion (commercially available products include Seikapren # 300 manufactured by Dainichi Seika Co., Ltd. and binder CB101h manufactured by Hayashi Chemical Industry Co., Ltd.), an antifoaming agent. (For example, Kyoeisha Chemical Co., Ltd. Aqualen 3062, Sannopco's 777), cationizing agent, hot melt powder, dispersant (for example, Kyoeisha Chemical Co., Ltd. Floren G 700AMP), water composition containing lame ( It is formed by applying an acrylic resin to a cross-linking reaction after coating on 3). The dispersant is added as a countermeasure against secondary agglomeration and sedimentation separation because the hot melt powder is hydrophobic.

  By the way, if the blending ratio of the hot melt powder is increased, the adhesive force at the time of transfer is increased, but the ink fixing property tends to be impaired. In other words, if priority is given to the fixing property of the ink, more cationizing agent should be used, and if priority is given to the adhesive force during transfer, more hot melt powder should be used.

  However, since the fixing property of the ink and the adhesive strength at the time of transfer are important, the adhesive-containing ink receiving layer (4) and the lamellar cover layer are used as the surface layer of the adhesive-containing ink receiving layer (4) as described in claim 2. (3) It is composed of two layers, the second layer (4b) on the side, and one is a layer that prioritizes ink fixability, and the other is a layer that prioritizes adhesive strength during transfer. Can balance power.

  More specifically, as described in claim 3, the adhesive-containing ink receiving layer (4) is formed by adding at least a cationizing agent and hot melt powder to an acrylic resin, and the cationizing agent (mass). ) / Hot melt powder (mass) and the mixing ratio of the cationizing agent and the hot melt powder may be larger in the first layer (4a) than in the second layer (4b). By doing so, the surface portion (the first layer (4a)) becomes excellent in the fixing property of the ink, and at the time of transfer, the hot melt powder contained in the first layer (4a) and the second layer (4b) is stronger. Adhesive effect can be obtained.

  In addition, in the first layer (4a), when the addition ratio of the hot melt powder is small, the adhesive strength is weakened, and the fastness may be lowered and may be dropped by washing. On the other hand, if the ratio of hot melt powder added is large, the printed image may be blurred or blurred.

  In the second layer (4b), if the addition ratio of the hot melt powder is small, the adhesive strength is weakened and the fastness is lowered, and there is a possibility that the second layer (4b) may fall off by washing. On the other hand, if the addition ratio of the hot melt powder is increased, the fastness is improved, but it becomes hard and the texture is impaired, and the transfer surface may be cracked because the stretchability is lowered.

  From the above, for the first layer (4a), the addition ratio of the hot melt powder is preferably a blending ratio in which the hot melt powder accounts for 13 to 15% by weight, and for the second layer (4b). A blending ratio in which the hot melt powder accounts for 15 to 20% by weight in the layer is preferable. In addition, the blending ratio of the hot melt powder may be 13 to 15% by weight in both the first layer (4a) and the second layer (4b).

  The thickness of the adhesive-containing ink receiving layer (4) is preferably about 5 to 25 μm for the first layer (4a) and the second layer (4b), and about 10 to 50 μm as a whole. This is because the strength of both the first layer (4a) and the second layer (4b) may be insufficient if the thickness is less than 5 μm, and on the other hand, if the thickness is greater than 25 μm, the texture may be impaired. For this reason, the thickness of both the first layer (4a) and the second layer (4b) is preferably 12 to 15 μm.

  In order to transfer to a garment or the like using the transfer paper (1) of the present invention, an image is first printed on the first layer (4a) with an ink jet printer. Needless to say, the image is a reverse image. Since the adhesive-containing ink receiving layer (4) is configured as described above, it has excellent ink fixability and can be printed clearly.

Wait for ink to dry after printing. Usually, about 60 minutes at room temperature is sufficient.
Next, as shown in FIG. 2, the printing surface of the transfer paper (1), that is, the first layer (4a) is faced to the surface of a garment (transfer object) such as a T-shirt or a trainer, so that the transfer paper (1) Is superimposed on the transfer medium. And a household iron (160 degreeC-180 degreeC) is pressed against a base sheet (2), and it heats. Thereby, the hot-melt powder of the adhesive-containing ink receiving layer (4) is melted, and the adhesive-containing ink receiving layer (4), that is, the transfer paper (1) is bonded to the transfer target.

  When the iron is removed, the adhesive (hot melt powder) melted in a short time solidifies, and the base sheet (2) is peeled off there. As a result, the adhesive-containing ink receiving layer (4) and the lamellar cover layer (3) thereon remain adhered to the transfer medium, and transfer is completed.

  When transferred to clothing or the like using the transfer paper (1) of the present invention, the printed surface (adhesive-containing ink receiving layer (4)) is on the clothing side and is covered with a lamellar cover layer (3). become. That is, since the lame cover layer (3) protects the ink, color fading due to washing can be suppressed.

  Further, the reflected light from the lame agent improves the aesthetics of the printed image by changing the color according to the viewing angle, but it has the effect of making the image (ink color) clear. For this reason, even if there is some color fading, the reflected light of the lame agent compensates for this so that the color fading is not realized. This makes it possible to extend the practical life of the transferred image.

The schematic diagram for demonstrating the layer structure of the transfer paper of this invention. Explanatory drawing of use of transfer paper.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Transfer paper, 2 ... Base sheet, 3 ... Lame cover layer, 4 ... Adhesive containing ink receiving layer, 4a ... 1st layer, 4b ... 2nd layer.

Claims (3)

  A transfer paper comprising a lamellar cover layer laminated on one side of a base sheet, and an adhesive-containing ink receiving layer laminated on the lamellar cover layer. 2. The transfer paper according to claim 1, wherein the adhesive-containing ink receiving layer is composed of two layers, a first layer that is a surface layer and a second layer that is on the lamellar cover layer side. The adhesive-containing ink receiving layer is formed by adding at least a cationizing agent and hot melt powder to an acrylic resin.
The mixing ratio of the cationizing agent and the hot melt powder expressed by cationizing agent (mass) / hot melt powder (mass) is larger in the first layer than in the second layer. Transfer paper.

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