JPS62297184A - Sublimation transfer type ink ribbon - Google Patents

Abstract

PURPOSE:To enable clear images to be printed even on an ordinary paper, by providing a dye-receiving layer on a base at such a position that it does not overlaps with a sublimable ink layer. CONSTITUTION:A dye-receiving layer 4 and sublimable ink layers 7-10 are provided on a base 2 at such positions as not to overlap with each other, thereby constituting a sublimation transfer type ink ribbon 111. The dye-receiving layer 4 may be solely provided directly on the base 2 if it can be perfectly transferred to a transfer recording material 13. In other cases, a releasing layer 3, the dye-receiving layer 4, a dye transfer preventive layer 5 and an adhesive layer 6 are sequentially provided on the base 2. The releasing layer 3 is provided to satisfactorily transfer the dye-receiving layer 4 from the base 2 to the transfer recording material 13, while the dye transfer preventive layer 5 prevents a sublimable dye from being transferred to the side of the transfer recording material 13. The adhesive layer 6 ensures easy transfer of the dye-receiving layer 4 from the base 2 to the side of the transfer recording material 13. Since transfer of the sublimable ink of each color is achieved after the dye-receiving layer is transferred uniformly to the entire area of a printing surface of the transfer recording material 13, clear printing can be performed even when an ordinary paper not provided with a dye-receiving layer is used as the transfer recording material.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a sublimation transfer ink ribbon used for hard copying still images such as video camera images and television images. .

[Summary of the invention]

The present invention is a sublimation transfer type ink ribbon, and by forming a dye-receiving layer on a base material in a position that does not overlap with a sublimation ink layer, it is possible to print clear images even on plain paper. This is how it was done.

[Conventional technology]

In conventional sublimation transfer type hard copies, the transfer material is, for example, an ink ribbon on which sublimable dye layers of yellow (Y), magenta (M), cyan (C), and black (B) are formed on a base material, and a substrate. For example, a photographic paper on which a dye-receiving layer mainly composed of polyester resin is formed on the base material is used as the transfer material, and the required dye is sublimated and transferred to the dye-receiving layer of the photographic paper using a thermal head according to the image information. A color image is obtained.

[Problem that the invention seeks to solve]

As mentioned above, in conventional sublimation transfer hard copies, it is necessary to use special photographic paper on which a receptor layer is formed as the transfer medium, and it is not possible to print on plain paper to obtain clear images. I couldn't do it. Conventionally, there is a hard copy method that uses a heat-melt transfer ink ribbon to print on plain paper, but in this case, it is necessary to melt the ink and transfer it to the photographic paper, so it is possible to print on plain paper. It was only possible to print, and multi-tone color printing was impossible. In an attempt to solve these drawbacks, a heat-melting ink layer was formed on the sublimable ink layer, and a thermal head transferred the sublimable dye into the heat-melting ink layer, while at the same time transferring this hot-melting ink onto photographic paper. A transfer method has been proposed.

However, when using this method, the color tone is very light,
Particularly in the case of subtle expressions such as the color tone of a person's face, it is difficult to obtain the amount of heat necessary to sufficiently melt the heat-melt ink, making it impossible to print a clear image. Since the ink layer is a wax-based ink, it is unstable.

Furthermore, when a plurality of primary colors are overprinted to obtain a color print, the previously transferred ink layer is remelted, which causes a problem in that the resolution of the print deteriorates.

The present invention can solve the above problems.
f) Provides a retransfer type ink ribbon.

[Means for solving problems]

In the present invention, a dye receiving layer (4) and a sublimable ink layer +71. (81,+(+1.(1
A sublimation transfer type ink ribbon (11) is constructed by forming the ink ribbons 0) at positions where they do not overlap each other.

This dye-receiving N(4) is, for example, a sublimable ink layer (71, (8), +91. (1
0), and its size corresponds to a predetermined print surface. As the material for this dye-receiving layer (4), resins that can efficiently receive sublimable dyes, such as polyester resins, polyamide resins, polycarbonate resins, polyarylate resins, phenoxy resins, epoxy resins, polystyrene resins, etc. are used. can do. In addition, if necessary, white pigments such as TiO2,
Ultraviolet absorbers, fluorescent whitening agents, antioxidants, surfactants, etc. may be added.Furthermore, when the dye is a leuco yarn dye, a color developer may be dispersed.

This dye-receiving layer (4) may be directly formed on the base material (2) if the transfer to the transfer target (13) is complete, but if this is not the case, In this case, the following configuration can be used. That is, on the base material (2), a release W (31, a dye receiving layer (4), a dye migration prevention layer (
5) and adhesive layer (6) are sequentially laminated. This release layer (3) is provided in order to sufficiently transfer the dye-receiving layer (4) from the base material (2) to the transfer target (13), but it is not provided if this is not particularly necessary. (°ζ is also good. Release 1a
+31 has (i) a structure in which the release layer (3) itself remains on the base material (2) side after transferring the dye-receiving layer (4) using silicone resin, fluororesin, etc., (ii) wax, A structure that uses a low-melting point resin such as low-molecular polystyrene, an ethylene-vinyl acetate copolymer resin, etc., and melts by heating and mainly causes cohesive failure; Although melting and destruction do not occur, any structure may be adopted, such as a structure in which the dye is transferred to the transfer object (13) together with the dye receiving J# (41).

The dye transfer prevention layer (5) is a dye transfer prevention layer (5) in which the sublimation dye is transferred to the transfer target (13).
Formed to prevent migration to the side. This material for dye migration prevention J-(51) has a glass transition temperature (Tg) of 40°C or more and a moisture absorption of 2% or less (ASTM
0570) is preferably used.

Note that, if the stability of the dye-receiving layer (4) and the sublimation dye is not the same, it is not necessary to form the dye-receiving layer (4).

The adhesive layer (6) is formed to facilitate the transfer of the dye-receiving layer (4) from the base material (2) to the transfer target (13). The material for this adhesion@(6) is softened or melted by heat to increase its adhesion, and the material for the transfer material (13) and the dye-receiving layer (4) are
) Select a material that can increase adhesion with the material.

Examples of this type of material include ethylene-vinyl acetate copolymer resin, wax, low-melting point resin (eg, various hydrocarbon low polymers), rosin resin, low-molecular polyamide resin, ketone resin, and the like. In addition, the dye-receiving layer (4
) itself has softened and has adhesive properties, or the transferred object (
13) If an adhesive layer is already formed on the side, it is not necessary to provide it.

[Effect]

According to the present invention, the dye-receiving layer (4) is formed on the transfer body side, that is, the ink ribbon (11) side, and this dye-receiving layer (4) is formed on the entire print surface of the transfer body (13) side. Since the sublimable ink of each color is transferred after uniform transfer, it is possible to print clearly even on plain paper in which the transfer object (13) itself is not provided with a dye-receiving layer.

〔Example〕

Example 1 As shown in FIG. 1, a release layer (1μ in thickness after drying) having the following composition was placed on a base material (2) made of polyester provided with a heat-resistant slipping layer (1). 3) A dye-receiving layer (4) with a thickness of 2μ, a dye transfer prevention layer (5) with a thickness of 2μ, and an adhesive layer (6) with a thickness of 3μ are formed by coating with a gravure plate (185 lines/inch).

<Release layer><Dye-receivinglayer> Dye migration prevention layer> Next, as shown in Figure 3, the dye-receiving layer (4) is formed next to the base material (2). Yellow (Y) sublimable ink layer (7), magenta (M> sublimable ink layer (8)
), cyan (C) sublimable ink N (9), and black (B) sublimable ink If# (10) are sequentially formed to produce an ink ribbon (11) according to this example.

In addition, as shown in Figure 4, sublimation ink P4 (7), (sl, (9)
.

The ink ribbon (11) may be constructed by providing a transparent protective layer (12) next to (10).

Using this ink ribbon (11), sublimation transfer was performed on plain paper (13) without a dye-receiving layer as shown in FIG.

First, as shown in FIG. 5A, the ink ribbon (11) is brought into contact with the paper (13) and heated from the back side with a thermal head (14) to coat the adhesive layer (6) and the dye transfer prevention layer (5) together with the dye. The receptor layer (4) is entirely transferred to the IIE (13) side. Next, as shown in FIG. 5B, the required sublimable ink layer +7), (81, (91, (10
) are sequentially heated by a thermal head (14) to transfer the sublimable dye to the dye receiving layer y'17i (4) formed on the paper (13) side, thereby reproducing a color image. Next, as shown in FIG. 5C, the ink ribbon (1
If 1) is used, the dye-receiving layer (4) is finally transferred to the dye-receiving layer (4) to print the color (15).
get. This color print (15) had clear color density and an excellent color image.

Example 2 A long-chain alkyl pendant type acrylic resin, such as Pearoyl 1010 (trade name, manufactured by Ipposha Yushi fII), was used as the material for the release layer (3), and the thickness after drying was formed on the base material (2). After forming a release layer (3) of 0.3μ, Example 1
Similarly, a dye receiving layer (4), a dye migration prevention layer (5) and an adhesive layer (6) are formed in this order. and yellow, magenta, cyan, and black sublimable ink layers 17),
(81, +91. (10) is also formed in the same manner as in Example 1 to produce an ink ribbon (11) according to this example.

Example 3 As shown in FIG. 2, a heat pickling-resistant layer (1) was provided on a base material (2) having the following composition (thickness after drying)
A dye-receiving layer (4) of Oμ and an adhesive M (61) with a thickness of 3μ as in Example 1 are formed.

Dye-receiving layer Next, each sublimable ink layer (7) is formed as in the above embodiment.

(8), (91, (10) and a protective layer (
12) to form an ink ribbon (11) according to the present example.
Create.

Comparative Example An ink ribbon according to this comparative example is prepared by forming a magenta sublimable ink layer having the following composition on a base material provided with a hot water resistant layer.

Sublimation Ink Layer> Using this ink ribbon, sublimation transfer was performed on plain paper without a dye-receiving layer.

The resulting prints did not have sufficient color development from the sublimation dye and were unclear. Additionally, when several prints were stacked, the dye would migrate and stain the other prints.

Next, sublimation transfer of magenta having the same composition was performed using the ink ribbons according to the above examples and comparative examples, and the reflection density and the transfer state of the dye to the surface of the protective layer were measured. The results are shown in the table. Reflection density is measured using reflection densitometer Macbeth RD51.
4 was used for measurement. The measurement of the transition state is
The test was carried out under the conditions of aging at 40° C. and 90% relative humidity for one week. O indicates that dye migration occurred, and × indicates that dye migration did not occur.

Table [Effects of the Invention] When the ink ribbon according to the present invention is used, the sublimation ink is transferred after the dye-receiving layer is transferred from the ink ribbon to the transfer target, so that the transfer target itself Even on plain paper without a dye-receiving layer, stable color prints with high clarity, crystal resolution, and delicate gradations can be obtained.

In addition, if the object to be transferred is transparent, it can be used as it is by directly projecting it over the screen.

[Brief explanation of drawings]

FIGS. 1 and 2 are cross-sectional views of the embodiment, FIGS. 3 and 4 are plan views of the embodiment, and FIG. 5 is an uncircumscribed diagram showing the transfer process. (2) is the base material, (4) is the dye-receiving layer, (71, (8),
(91, (10) is a sublimable ink layer.

Claims (1)

[Scope of Claims] A sublimation transfer ink ribbon comprising a dye-receiving layer and a sublimable ink layer formed on a base material, the dye-receiving layer being arranged at a position that does not overlap with the sublimating ink layer.