JP2003136770A - Method and apparatus for thermal transfer having a plurality of heating parts - Google Patents

Abstract

PROBLEM TO BE SOLVED: To print on one printing object without damaging respective characteristics of images having different characteristics. SOLUTION: In the process of forming one printing object by thermally transferring a transfer layer from a transfer material (1) to a material to be transferred (2), the material to be transferred is passed through a plurality of heating parts (H1, H2,...Hn), so that the transfer layer is thermally transferred at each heating part.

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thermal transfer method and a thermal transfer apparatus having a plurality of heating units.

2. Description of the Related Art Conventionally, the problems to be solved by the invention
A sublimation transfer printer is known as a printing device that can express halftones of photographs in high definition, and a system in which each person can freely take an identification photograph, and the photographed image is displayed on the monitor screen and displayed on the screen. A system in which a signature is printed and scribbles such as various characters and figures are printed on an image by operating it is also popular. However, although a sublimation transfer printer can express halftones in high definition, it does not sufficiently express a binary image with high contrast such as signs and graffiti, and is therefore not necessarily suitable for printing images such as signs. Absent. On the other hand, a melt transfer printer is known as an apparatus capable of clearly printing a binary image such as characters, and is used for printing characters on a card. However, the melt transfer printer is not suitable for halftone expression, and therefore is not suitable for printing an image on which a signature or the like is drawn. As described above, it has been difficult for a conventional thermal transfer printer to print an image having different characteristics on a single printed matter so as not to impair the characteristics.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems, and an object of the present invention is to enable images having different characteristics to be printed on one printed matter so as not to impair the characteristics. And FIG. 1 is a conceptual diagram showing a thermal transfer system of the present invention having a plurality of heating units. In this system, a plurality of thermal heads HI to Hn are provided, and in order to form one printed matter, the thermal heads HI to Hn are passed through and the transfer material 1 is heated by each thermal head. Then, the transfer layers are sequentially transferred onto the transfer target material 2 to form an image. The transfer material 2 of each thermal head has a different transfer layer, and the appropriate thermal head is driven according to the image to be transferred. Therefore, the thermal head that is first transferred to the transfer target material is determined according to the image to be printed, and is not predetermined and is arbitrary. In addition, usually, in a portion which is first transferred to the transfer material, Y, M, C,
When a halftone image is transferred using a thermal transfer sheet having a K color material layer, and a handwritten signature or the like is printed on this image, an overcoat layer consisting of a transparent resin layer is transferred, and then another image is formed thereon. Transfer is performed by the melt transfer method at the part.

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. Next, an example of thermal transfer by a two-head type of a sublimation transfer system and a melt transfer system will be described below. FIG. 2 is a diagram illustrating an example of a two-head type thermal transfer system of a sublimation transfer system and a melt transfer system. In this example, the thermal head H1 performs transfer by the sublimation transfer method, and the thermal head H2 performs transfer by the melt transfer method. The transfer material 1 in sublimation transfer, for example, as shown in FIG. 3, transfers the Y, M, C, K color material layers and the overcoat layer to the surface of the base film 11 that is in contact with the transfer material 2. The transparent resin layer 12 is formed in a frame sequential manner. When transferring a face photograph or the like, the Y, M, C, and K color material layers are sequentially transferred to transfer a high-definition color image, and then the transparent resin layer is transferred as an overcoat layer. Figure 4
FIG. 4 is a diagram illustrating a transfer material at a melt transfer site. In the transfer material 3 in the melt transfer, the K color material layer and the transparent resin layer 31 are formed in the surface order on the surface of the base material film 31 that is in contact with the transferred material 2. Then, characters such as a handwritten signature are transferred with high contrast from the transparent resin layer onto the image transferred at the sublimation transfer site. In the illustrated example, an example of mono-color (black in this example) thermal transfer is described, but a multi-color thermal transfer sheet may be used. If necessary, a transparent resin layer is transferred as an overcoat layer. The color material layer transferred by heating may include a sublimation dye, a fluorescent dye, a pigment, or a combination thereof. In that case, a sublimation dye,
A fluorescent dye may be included in the non-transferable binder layer. FIG. 5 is a diagram illustrating an example of transferring a hologram onto an image at a fusion transfer site. A hologram forming layer 33 prepared in advance is laminated on the surface of the base material film 31 of the transfer material 3 which is in contact with the transfer target material 2. By using such a transfer material, for example, a hologram for decoration or the like is transferred to a part of the face photograph transferred at the sublimation transfer site. In the case of transferring the hologram forming layer, as shown in FIG. 6, the hologram forming layer 33 is laminated on the base material film 31 with the release layer 34 interposed therebetween, and the heat fusion layer 35 is further laminated thereon. . By having such a layer structure,
At the time of transfer, the hologram forming layer is peeled off by the release layer 34, the surface is easily exposed, and the heat sealing layer 35 fuses the hologram forming layer onto the material to be transferred. A metal vapor deposition layer may be laminated between the hologram forming layer and the heat fusion layer to transfer handwritten characters and the like. FIG. 7 is a diagram illustrating an example of transferring a metal vapor deposition layer at a melt transfer site. A metal vapor deposition layer is laminated on the surface of the base material film 31 of the transfer material 3 which is in contact with the transfer target material 2. The metal vapor deposition layer 36 is used for transferring handwritten characters and the like, and is used for signing on a facial photograph transferred at a sublimation transfer site and for performing various graffiti. In this case also, as shown in FIG. 8, by laminating the metal vapor deposition layer 36 on the base material film 31 via the release layer 34, and laminating the thermal fusion bonding layer 35 thereon,
At the time of transfer, the surface of the metal vapor deposition layer is easily exposed by the release layer 34 and is fused on the material to be transferred by the heat fusion layer 35. FIG. 9 is a diagram illustrating an example of transferring the hiding layer at the melt transfer site. A concealing layer is laminated on the surface of the base material film 31 of the transfer material 3 which is in contact with the material 2 to be transferred. The concealment layer is for concealing the lower layer portion thereof, and by providing scratchability, it is possible to scratch and mark a signature with a sharp object. Also in this case, the concealing layer is laminated on the base film 31 with the release layer 34 interposed therebetween. In the above, the transparent resin layer coated on the uppermost layer is preferably a thermoplastic resin capable of roughening the surface after transfer by heating during transfer. By matting the surface with such a resin, a matting effect of suppressing glare due to reflection on the surface can be obtained. Further, by changing the surface condition of the transparent resin layer transferred by the thermal head H1, it is possible to control the fixing property of the melt transfer layer transferred thereon. Further, as shown in FIG. 10, thermal transfer can be smoothly performed by providing a heat resistant slipping layer on the surface of the base material film which is in contact with the heating part.

As described above, according to the present invention, images having different characteristics can be printed as one printed matter without impairing the characteristics, and various uses which cannot be obtained by the conventional thermal transfer printer can be achieved. It will be possible.

[Brief description of drawings]

FIG. 1 is a conceptual diagram illustrating a thermal transfer system having a plurality of heating units.

FIG. 2 is a diagram showing a two-head type of a sublimation transfer system and a melt transfer system.

FIG. 3 is a diagram illustrating a thermal transfer sheet.

FIG. 4 is a diagram illustrating a thermal transfer sheet.

FIG. 5 is a diagram illustrating an example of transferring a hologram at a melt transfer site.

FIG. 6 is a diagram illustrating an example of a layer structure of a transfer material.

FIG. 7 is a diagram illustrating another example of the layer structure of the transfer material.

FIG. 8 is a diagram illustrating another example of the layer structure of the transfer material.

FIG. 9 is a diagram illustrating another example of the layer structure of the transfer material.

FIG. 10 is a diagram illustrating another example of the layer structure of the transfer material.

[Explanation of symbols]

HI to Hn ... Thermal head, 1 ... Transfer material, 2 ... Transfer material.

Front page continuation (51) Int.Cl. ⁷ identification code FI theme code (reference) B41M 5/38 B41J 3/20 117C 5/40 B41M 5/26 A B44C 1/17 B Z 101 101 101B 101Z G 101G F term (Reference) 2C065 AB10 DC04 DC07 DC32 2C068 AA06 AA08 AA22 BC13 BC16 BC17 BC18 BD17 BD23 2H111 AA01 AA26 AA27 AA31 AA52 BA03 BA11 3B005 EA04 EA12 EA20 EB05 EB07 EC01 EC30 FB21 FB53 GB00 FE01 FF06 FE06 FF06 FF06 FF06 FF06 FF06 FF06 FF06 FF06 FF06 FF06 FF06 FF06 FF06 FF06 FF06 FF02

Claims (29)

[Claims] 1. A plurality of heating parts are passed through in the process of thermally transferring the transfer layer from the transfer material to the transfer material to form one printed matter, and the transfer layer is thermally transferred at each heating part. Transfer method having a heating part of. 2. The thermal transfer method according to claim 1, wherein the heating portion to be first transferred to the transfer material is arbitrary. 3. The transfer material of the heating portion which is first transferred to the transfer material has at least one color material layer transferred by heating on the surface of the base material film on the side in contact with the transfer material. The thermal transfer method according to claim 1, wherein: 4. A coloring material layer of at least one color, in which a transfer material of a heating portion which is first transferred to a transfer material is transferred onto a surface of a base material film on a side in contact with the transfer material by heating, and a color material layer. 2. The thermal transfer method according to claim 1, wherein transparent resin layers transferred after the transfer are sequentially formed. 5. The thermal transfer method according to claim 1, wherein after the image is formed by transferring the color material layer, the transparent resin layer is transferred before the transfer layer is transferred thereon. 6. The thermal transfer method according to claim 3, wherein the coloring material layer transferred by heating contains a dye and a pigment. 7. The thermal transfer method according to claim 6, wherein the color material layer contains a sublimation dye and / or a fluorescent dye contained in the non-transferable binder layer. 8. A transfer material of a heating part for transferring to a transfer material after the second one has a hologram forming layer transferred by heating on a surface of a base material film which is in contact with the transfer material. The thermal transfer method according to claim 1. 9. The hologram forming layer transferred by heating is a substrate / release layer / hologram forming layer / thermal fusion layer, or a substrate / release layer / hologram forming layer / metal vapor deposition layer / thermal fusion layer. 9. The thermal transfer method according to claim 8, wherein the thermal transfer methods are laminated in this order. 10. The transfer material of the heating part for transferring to the transfer material after the second has a metal vapor deposition layer transferred by heating on the surface of the base material film on the side in contact with the transfer material. The thermal transfer method according to claim 1. 11. The thermal transfer method according to claim 10, wherein the metal vapor deposition layer to be transferred by heating is laminated in the order of base material / release layer / metal vapor deposition layer / heat fusion layer. 12. A transfer material of a heating portion for transferring to a transfer material after the second one has a hiding layer having a scratch property for transferring by heating on a surface of a base material film which is in contact with the transfer material. The thermal transfer method according to claim 1, wherein: 13. A hiding layer transferred by heating is a substrate /
The thermal transfer method according to claim 10, wherein the release layer and the masking layer are laminated in this order. 14. The thermal transfer method according to claim 4, wherein the transparent resin layer transferred by heating is a thermoplastic resin capable of roughening the surface after transfer by heating during transfer. 15. The thermal transfer method according to claim 3, wherein a heat resistant slipping layer is provided on the surface of the base material film which is in contact with the heating part. 16. A method comprising: heating a transfer material to thermally transfer the transfer layer onto the material to be transferred; and thermally transferring the transfer layer with the plurality of heating parts in the process of forming one print product. A thermal transfer device having a plurality of heating units. 17. The thermal transfer apparatus according to claim 16, wherein the heating unit to be first transferred to the transfer material is arbitrarily selected. 18. The transfer material of the heating portion which is first transferred to the transfer material has at least one color material layer transferred by heating on the surface of the base material film which is in contact with the transfer material. The thermal transfer device according to claim 16, wherein: 19. A coloring material layer of at least one color, wherein a transfer material of a heating portion which is first transferred to a transfer material is transferred onto a surface of a base material film on a side in contact with the transfer material by heating, and a coloring material layer. 17. The thermal transfer device according to claim 16, wherein transparent resin layers transferred after the transfer are sequentially formed. 20. The thermal transfer device according to claim 16, wherein after the image is formed by transferring the color material layer, the transparent resin layer is transferred before the transfer layer is transferred thereon. 21. The thermal transfer device according to claim 18, wherein the coloring material layer transferred by heating contains a sublimation dye and / or a fluorescent dye and / or a pigment. 22. The transfer material of the heating portion for transferring to the second and subsequent transfer materials has a hologram forming layer transferred by heating on the surface of the base material film which is in contact with the transfer material. The thermal transfer device according to claim 16. 23. The hologram forming layer transferred by heating is a substrate / release layer / hologram forming layer / thermal fusion layer, or a substrate / release layer / hologram forming layer / metal vapor deposition layer / thermal fusion layer. 23. It is laminated in this order.
The thermal transfer device described. 24. The transfer material of the heating part for transferring to the second and subsequent transfer materials has a metal vapor deposition layer transferred by heating on the surface of the base material film which is in contact with the transfer material. The thermal transfer device according to claim 16. 25. The thermal transfer device according to claim 24, wherein the metal vapor deposition layer to be transferred by heating is laminated in the order of base material / release layer / metal vapor deposition layer / heat fusion layer. 26. The transfer material of the heating part for transferring to the transfer material after the second has a hiding layer having a scratch property for transferring by heating on the surface of the base material film on the side in contact with the transfer material. The thermal transfer device according to claim 16, wherein: 27. The concealing layer transferred by heating is a substrate /
27. The thermal transfer device according to claim 26, wherein the release layer and the masking layer are laminated in this order. 28. The thermal transfer device according to claim 19, wherein the transparent resin layer transferred by heating is a thermoplastic resin capable of roughening the surface after transfer by heating during transfer. 29. The thermal transfer device according to claim 18, wherein a heat resistant slipping layer is provided on the surface of the base material film on the side in contact with the heating section.