JPH1134488A - Thermal transfer sheet - Google Patents

Abstract

(57) Abstract: A thermal transfer sheet used in a thermal transfer recording system in which an image is formed by transferring a heat-meltable colored ink layer onto a surface porous image receptor, and a transparent ink layer is transferred thereon. To provide a thermal transfer sheet capable of improving the glossiness of an image. SOLUTION: The thickness of the hot-melt colored ink layer is set to Xμ.
m, when the thickness of the transparent ink layer is Y μm, Y ≧ 1.
3X and the viscosity of the transparent ink is 200-3000 cp
s / 90 ° C.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a thermal transfer sheet for forming an image on a superficially porous image receptor.

[0002]

2. Description of the Related Art Conventionally, various thermal transfer methods have been known as a thermal transfer method to a superficially porous image receiving body. There is a method of thermally transferring a transparent ink layer.

However, when an image is formed on a superficially porous image receptor by the above-mentioned thermal transfer method, there is a problem that the glossiness of the image is not significantly improved because the transparent ink penetrates into the superficially porous photoreceptor. Was.

[0004]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a thermal transfer sheet which can solve the above-mentioned problems of the prior art and can improve the glossiness of a thermal transfer image on a surface porous image receptor. That is.

[0005]

That is, the present invention provides:
(1) In a thermal transfer sheet used in a thermal transfer recording system in which an image is formed by transferring a heat-meltable colored ink layer onto a surface porous image receptor and a transparent ink layer is transferred thereon, a heat-meltable colored ink layer When the thickness of the transparent ink layer is X μm and the thickness of the transparent ink layer is Y μm, the thermal transfer sheet is characterized in that Y ≧ 1.3X and the viscosity of the transparent ink is 200 to 3000 cps / 90 ° C. Further, the present invention relates to (2) the thermal transfer sheet according to (1), wherein the melting point of the transparent ink is higher than the melting point of the colored ink.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The thermal transfer sheet according to the present invention comprises:
A configuration may be adopted in which a monochromatic or multicolored colored ink layer and a transparent ink layer are provided on a base material in a plane-sequential manner, or a thermal transfer sheet provided with a monochromatic or multicolored colored ink layer on a base material, And a thermal transfer sheet provided with a transparent ink layer. In the latter case, a single color or full-color image is formed on a surface porous image receiving body using a thermal transfer sheet provided with a colored ink layer, and then after-printed using a thermal transfer sheet provided with a transparent ink layer.

[0007] The thermal transfer sheet of the present invention is a thermal transfer sheet used in a thermal transfer recording method in which an image is formed by transferring a heat-meltable colored ink layer and a transparent ink layer is thermally transferred thereon. Xμm,
When the thickness of the transparent ink layer is Y μm, Y ≧ 1.3X
And the viscosity of the transparent ink is 200 to 3000 cps /
It is characterized by a temperature of 90 ° C.

Here, when Y <1.3X, the transferred transparent ink permeates into the superficially porous image receiving body, so that the glossiness of the image does not increase. Further, when the viscosity of the transparent ink is less than 200 cps / 90 ° C., the glossiness of the image does not increase because the transferred transparent ink permeates into the superficially porous image receiver. In addition, the viscosity of the transparent ink is 3000 c
When the temperature exceeds ps / 90 ° C., the sensitivity becomes insufficient and transfer failure occurs.

In the present invention, the melting point of the transparent ink is preferably higher than the melting point of the colored ink.
With this configuration, the image formed on the superficially porous image receiver has excellent gloss because the transparent ink does not penetrate into the superficially porous image receiver. When the melting point of the transparent ink is lower than the melting point of the colored ink, the superposition property deteriorates, the formation of the transparent ink layer becomes difficult, and the glossiness deteriorates.

The thermal transfer sheet of the present invention includes the following embodiments.

(1) The heat-meltable colored ink layer and the transparent ink layer are arranged side by side on the same substrate.

FIG. 1 is a partial plan view showing one example of the arrangement of ink layers according to this embodiment, and FIG. 2 is a partial plan view showing another example.

The embodiment shown in FIG. 1 is for forming a monochromatic image, in which a colored ink layer 2 and a transparent ink layer 3 of a fixed size are alternately and repeatedly arranged on a substrate 1. ing. The colored ink layer 2 is, for example, black, red,
It is an ink layer of blue, green, yellow, magenta, cyan and the like.

The embodiment shown in FIG. 2 is for forming a color image using subtractive color mixture, and has a yellow ink layer 2Y, a magenta ink layer 2M and a cyan ink The ink layer 2 </ b> C and the transparent ink layer 3 are arranged so as to be repeatedly arranged in a certain order as one repeating unit U. The order in which the three color ink layers are arranged in the repeating unit U is appropriately determined in consideration of the order in which the respective colors are overlapped. The repeating unit U can include a black ink layer.

(2) The heat-fusible colored ink layer and the transparent ink layer are provided on different substrates.

When a single color image is formed, a thermal transfer sheet having a color ink layer of any one color and a thermal transfer sheet having a transparent ink layer are used in combination.

When a color image is formed by utilizing subtractive color mixing in this embodiment, the yellow ink layer, the magenta ink layer and the cyan ink layer, and if necessary, the black ink layer may be formed on the same substrate or separately. A thermal transfer sheet disposed on a substrate and a thermal transfer sheet having a transparent ink layer are used in combination.

The hot-melt colored ink layer in the present invention comprises:
It comprises a colorant and a hot-melt vehicle. The heat-fusible vehicle is preferably a vehicle mainly composed of waxes and, if necessary, blended with a thermoplastic resin.

Examples of the waxes include natural waxes such as lanolin, carnauba wax, candelilla wax, montan wax, and ceresin wax; petroleum waxes such as paraffin wax and microcrystalline wax; oxidized waxes; synthetic ester waxes; Synthetic waxes such as polyethylene, α-olefin-maleic anhydride copolymer wax, urethanized wax, Fischer-Tropsch wax and synthetic petroleum wax. These waxes may be used alone or in combination of two or more.

Examples of the thermoplastic resin include ethylene-vinyl acetate copolymer, ethylene-alkyl (meth) acrylate copolymer, vinyl chloride-vinyl acetate copolymer, polyester resin, polyamide resin and epoxy resin. And petroleum resins, rosin resins, terpene resins, cumarone-indene resins and the like. These resins may be used alone or in combination of two or more.

As the colorant for the colored ink layer used when forming a monochromatic image, various organic and inorganic pigments and dyes such as carbon black can be used.

As the yellow, magenta and cyan colorants used in the respective color ink layers for forming a color image by subtractive color mixture, transparent colorants are preferably used.

As the yellow transparent colorant, for example, one or more organic pigments such as benzidine yellow, benzidine yellow G, benzidine yellow GR, Hanza yellow 5G, naphthol yellow S and dyes such as auramine can be used. .

Examples of the magenta transparent colorant include Brilliant Carmine 6B and Brilliant Carmine B
One or more organic pigments such as S, permanent red 4R, rhodamine lake B, quinacridone, and dyes such as rhodamine can be used.

As the cyan transparent colorant, for example, one or more of organic pigments such as phthalocyanine blue, phthalocyanine blue, and metal-free fast sky blue and dyes such as Victoria blue can be used.

Here, the transparent pigment means a pigment which gives a transparent ink when dispersed in a transparent vehicle.

The content of the colorant in the ink layer is preferably about 5 to 60% by weight.

The ink layer may further include a dispersant, if necessary,
You may mix | blend an antistatic agent etc.

In the present invention, the melt viscosity of the ink layer is set to be lower than the melt viscosity of the transparent ink in order to ensure that a predetermined amount of the molten ink penetrates into the pores in the area corresponding to the heating element of the thermal head. Is preferable, for example, 20
It is preferable to set it to 200 cps / 90 ° C. If the melt viscosity of the ink is higher than the above range, it tends to be difficult to allow a predetermined amount of ink to penetrate into the pores of the image receiving body, while if the melt viscosity is lower than the above range, the melt ink spreads, and the pixels are connected, resulting in poor resolution. Tend to be.

The melting point of the ink layer is preferably about 60 to 85 ° C. When the melting point is lower than 60 ° C., the storage stability of the thermal transfer sheet is inferior, and when it is higher than 85 ° C., the transfer sensitivity decreases.

The thickness of the ink layer is generally from 0.3 to 2.5.
The range of μm is appropriate.

The transparent ink layer is made of a heat-fusible vehicle, and is a colorless and transparent layer containing no coloring agent. As the hot-melt vehicle, those mainly containing waxes and, if necessary, blending a thermoplastic resin are used. As the wax and the thermoplastic resin, those exemplified for the colored ink layer can be used, and the melt viscosity and the melting point are adjusted so as to be in the above-mentioned ranges. To the transparent ink layer, a compounding agent such as a fluorescent whitening agent, an ultraviolet absorber and an anti-blocking agent can be added as long as the transparency is not impaired.

The thickness of the transparent ink layer is set so as to satisfy Y ≧ 1.3X. However, if the thickness is too large, the transferability is impaired. Therefore, the thickness is preferably 6 μm or less.

As the substrate in the thermal transfer sheet of the present invention, any of various plastic films generally used as a substrate film for this type of ink ribbon, such as a polyethylene terephthalate film, can be used. Various heat-resistant resins such as silicone-modified urethane resin and silicone-modified acrylic resin modified with silicone resin, fluororesin, nitrocellulose resin, or the like on the back surface of the base material (the surface that is in sliding contact with the thermal head); Alternatively, a conventionally known stick preventing layer made of a mixture of a heat-resistant resin and a lubricant may be provided. The appropriate thickness of the substrate is usually about 1 to 10 μm.

As the superficially porous image receiver to which the present invention is applied, for example, those described in JP-A-2-41287 can be mentioned, which are coated on a base film such as a polypropylene film or a polyester film. A porous resin layer is formed by a separation method. The average diameter of the pores in the porous resin layer is 0.1 to 10 μm, especially 1 to 4 μm, the average depth of the pores is 5 to 20 μm,
Above all, 10-15 μm, average density of pores is 5 × 10
A range of ⁵ to 1 × 10 ⁷ pieces / mm ² is appropriate.

[0036]

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

<Manufacture of Thermal Transfer Sheet> A 3.5 μm-thick polyethylene terephthalate film having a heat-resistant stick-preventing layer on the back surface was hot-melt coated with color inks and transparent inks having the formulations shown in Tables 1 and 2 on the front and side surfaces. The thermal transfer sheet for color had a yellow, magenta, cyan ink layer and a transparent ink layer repeatedly arranged in the longitudinal direction of the base film as shown in FIG.

[0038]

[Table 1]

[0039]

[Table 2]

Examples 1-3 and Comparative Examples 1-2 Using the thermal transfer sheet for color obtained above, a penetration type variable dot printer (G6800 manufactured by Mitsubishi Electric Corporation)
At -40), a color image was formed by transferring each color ink layer onto a surface porous image receptor (manufactured by Nisshinbo Industries, Ltd.), and a transparent ink layer was solid-printed thereon.

The glossiness of the color image formed on the superficially porous image receiver was visually observed and evaluated according to the following criteria. Table 3 shows the results.

：: Glossiness was greatly improved. ：: Glossiness was slightly improved. X: No gloss.

[0043]

[Table 3]

[0044]

According to the thermal transfer recording method, an image is formed by transferring a colored ink layer to a superficially porous image receptor, and a glossy image is improved by transferring a transparent ink layer thereon.
The thickness of the transparent ink layer is set to Y ≧ 1.3X, and the viscosity is set to 2 ×
By setting the temperature to 00 to 3000 cps / 90 ° C., the glossiness of an image can be greatly improved.

[Brief description of the drawings]

FIG. 1 is a partial plan view showing one embodiment of a thermal transfer sheet of the present invention.

FIG. 2 is a partial plan view showing another embodiment of the thermal transfer sheet of the present invention.

[Explanation of symbols]

 Reference Signs List 1 base material 2 colored ink layer 2Y yellow ink layer 2M magenta ink layer 2C cyan ink layer 3 transparent ink layer

Claims (2)

[Claims] 1. A thermal transfer sheet used in a thermal transfer recording system in which an image is formed by transferring a heat-meltable colored ink layer onto a superficially porous image receptor, and a transparent ink layer is transferred thereon. When the thickness of the ink layer is X μm and the thickness of the transparent ink layer is Y μm, Y ≧ 1.3X,
And the viscosity of the transparent ink is 200 to 3000 cps / 90.
A thermal transfer sheet characterized by a temperature of ℃. 2. The thermal transfer sheet according to claim 1, wherein the melting point of the transparent ink is higher than the melting point of the coloring ink.