JPH0741747B2 - Sheet for thermal transfer recording - Google Patents

Description

TECHNICAL FIELD The present invention relates to a thermal transfer recording sheet.

2. Description of the Related Art Conventionally, as an ink for forming a sublimation type thermal transfer recording sheet, a solvent ink prepared by using a sublimation dye, a binder and the like using an organic solvent has been used.

However, in the case of solvent ink, when the ink is applied to the base film and dried, the dye dissolved in the ink is recrystallized and deposited on the base film, resulting in uneven dye distribution of the sheet. When such a sheet is used, there is a problem in that transfer recording becomes uneven and the image quality is deteriorated.
In addition, many organic solvents are generally toxic and flammable, which is difficult to handle in terms of safety and hygiene.

The present invention uses an aqueous solvent, which is
An object is to provide a sublimation type thermal transfer recording sheet obtained by coating a base film.

When an aqueous solvent is used for the ink, the affinity between the ink and the polyester film is small, and the adhesiveness between the ink and the base film is not always sufficient. For this reason, when a certain amount of heat is applied during the thermal transfer, the dye is transferred together with the binder in the ink, and the transfer depending on the magnitude of the heating energy is not performed, so that there is a problem that gradation expression is difficult.

Means for Solving the Problems That is, the present invention is a sublimation type thermal transfer recording sheet comprising a polyester base film and a color material layer,
A gist is a sublimation-type thermal transfer recording sheet in which an adhesive layer formed of an aqueous solution of an adhesive layer is provided between the base film and the color material layer.

As a method of forming the adhesive layer of the present invention between the polyester base film and the color material layer, a method such as applying the adhesive layer stock solution to the base film and drying, and then applying the color material layer stock solution and drying it is possible. Can be mentioned.

The adhesive layer stock solution may be an aqueous solution or dispersion containing a water-soluble or water-dispersible resin.

Examples of the water-soluble or water-dispersible resin include polyester resins, acrylic resins, urethane resins, polyvinyl alcohol resins, etc., alone or in a mixture.
These resins usually have a molecular weight of about 1,000 to 200,000.

As the water-soluble or water-dispersible polyester resin,
Examples thereof include polyester resins having a sulfonate and the like described in JP-B-47-40873, JP-A-50-83497 and the like, or polyester resins equivalent thereto.

Examples of the acrylic resin in the present invention include those containing alkyl acrylate or alkyl methacrylate as a main polymerization component.

Preferably, it is water-soluble or water-dispersible containing a vinyl monomer component copolymerizable with the polymerization component and having a functional group such as a reactive functional group, a self-crosslinking functional group, and a hydrophilic group. Acrylic resin.

As the water-soluble or water-dispersible urethane resin, a nonionic polyurethane dispersed in water with an emulsifying agent and mechanical shearing force, a cationic property imparting hydrophilicity by introducing an ionic group into the molecular chain ( Or anionic)
Examples include polyurethane in which fine particles are dispersed in water without an emulsifier, and a water-soluble nonionic polyurethane using a water-soluble polyol such as polyethylene glycol as a main raw material polyol.

Examples of the water-soluble polyvinyl alcohol resin include, in addition to ordinary completely saponified and partially saponified polyvinyl alcohol, carboxyl-modified polyvinyl alcohol having a carboxyl group introduced into the molecule and cation-modified polyvinyl alcohol having a quaternary ammonium cation group.

The adhesive layer stock solution may contain a thickener, a preservative, an antifoaming agent, inorganic fine particles, an antistatic agent, and the like, if necessary, in addition to the above resins.

The thickness of the adhesive layer obtained by applying the adhesive layer stock solution is preferably in the range of 0.01 to 2 μ after drying.

As a method of applying the adhesive layer stock solution to the polyester film, for example, a reverse roll coater, a gravure coater, a rod coater, an air doctor coater or the like can be used [Yuji Harazaki "Coating Method".
(1979) Maki Shoten], but wire bars and the like can also be used.

In the present invention, it is also possible to form the adhesive layer by applying two or more kinds of adhesive layer stock solutions having different compositions a plurality of times.

To perform recording using the thermal transfer recording sheet of the present invention, the ink application surface of the sheet is superposed on the recording medium, and the ink application surface of the sheet is heated with a heat sensitive head that generates heat by an electric signal in the image information. It is carried out by heating from the back side of the recording medium, but as the recording medium, ordinary paper or the like can be used.

When the thermal transfer recording sheet of the present invention obtained as described above is used for the thermal transfer recording, the coloring material layer is not peeled from the substrate, and the image receiving paper and the recording sheet after the transfer recording are formed. The peelability is good, and the recording can show gradation representation depending on the magnitude of heating energy.

EXAMPLES The present invention will be specifically described below with reference to examples, but the examples do not limit the present invention.

Example 1 a) Preparation of water-based ink 40 ml of water, 10 g of sublimable dye CI Disperse Red-60 (magenta color) and 2 g of polyethylene glycol phenol ether type dispersant Newcol 710 (manufactured by Nippon Emulsifier Co., Ltd., trade name) were added. Then, it was treated with a sand grind mill and finely dispersed.

An aqueous ink was prepared by mixing this fine dispersion with 150 g of a 10% aqueous solution of methyl cellulose SM-15 (trade name, manufactured by Shin-Etsu Chemical Co., Ltd.).

b) Preparation of adhesive layer stock solution Aqueous saturated polyester resin XWR-901 (solid content 20% by weight,
An adhesive layer stock solution was prepared by mixing 25 g of Nippon Synthetic Chemical Co., Ltd., trade name) with 75 g of a 1% aqueous solution of carboxymethyl cellulose CMC-2100 (manufactured by Daicel Chemical Co., Ltd., trade name).

c) Preparation of thermal transfer recording sheet Using a biaxially stretched polyethylene terephthalate film (thickness: 12 μm) whose back surface on which ink is applied is heat-treated with polyimide resin as a base film, the recording sheet is prepared by the following method. did.

That is, the adhesive layer stock solution of b) was applied onto the polyethylene terephthalate film (base film) using a wire bar and dried to form an adhesive layer having a thickness of 0.2 μm. Further, the aqueous ink of the above a) was applied thereon and dried to form a color material layer having a thickness of 1.5 μm, to obtain a thermal transfer recording sheet of the present invention.

The obtained sheet had good hardness, the water-based ink of the above a) was firmly adhered to the base film by the adhesive layer, and had a coating film in which the dye was uniformly dispersed.

The wire bar is a stainless steel rod with a diameter of 1/4 inch wound with stainless steel wires of various thicknesses without any clearance, and an apparatus that can apply ink with a constant in-thickness through this gap. Is.

d) Method for preparing image receiving paper Water-based polyester resin MD-1200 (solid content 34% by weight, manufactured by Toyobo Co., Ltd., trade name) 10 g and silica Nipsil E 220A
(Nippon Silica Industry Co., Ltd., trade name) A mixed solution of 1 g was applied to a high-quality paper (thickness 200 μm) using a wire bar.

e) Transfer recording test and results Using the above thermal transfer recording sheet and image receiving paper, a heat-sensitive head having a heating resistor density of 4 dots / mm was used and a power of 0.6 W / dot was applied for the time shown in Table 1. , Made a record.

Without fusing the above-mentioned sheet and image-receiving paper during recording,
Further, the resin in the water-based ink did not transfer to the image receiving paper, and the sheet and the image receiving paper could be easily peeled off after recording.

Also, the obtained record has good resolution of each dot,
A vivid magenta color was exhibited, and the color density is shown in Table 3 and increased with the application time.

The color density is the densitometer RD manufactured by Macbeth Co.
It was measured using a -514 type (filter: Ratten No. 58) and calculated by the following formula.

Color density = log10 (I ₀ / I) I ₀ : intensity of reflected light from a standard white reflector I: intensity of reflected light from a test object The color density in the following examples is obtained by the same method. It was

Examples 2 to 5 As the adhesive layer stock solution, the stock solution shown in Table 1 was prepared in place of the stock solution of Example 1, and the same procedure as in Example 1 was carried out except that the stock solution for thermal transfer recording of the present invention was used. In any case, neither the thermal transfer recording sheet of the present invention nor the image receiving paper is fused during recording, nor is the resin used in the adhesive layer transferred to the image receiving paper, and after recording, the sheet and the image receiving paper are combined. It could be easily peeled off.

Further, the obtained record had good resolution of each dot and showed a clear magenta color, and the color density became higher according to the application time as shown in Table 3.

As the water-based ink used in Example 5, 40 g of an aqueous solution of 5% polyvinyl alcohol and Kuraray Poval PVA-217EE (trade name, manufactured by Kuraray Co., Ltd.) was used in place of Newcol 710 in the method for preparing the water-based ink of Example 1. did.

Examples 6 to 10 Aqueous inks were prepared by using the aqueous binder resin solutions shown in Table 2 instead of the 10% aqueous solution of methylcellulose Metroses SM-15 of Example 1 as the binder resin for the aqueous inks. The same procedure as in Example 1 was carried out except that the sheet was used as a sheet. As a result, the thermal transfer recording sheet of the present invention and the image receiving sheet were not fused during recording, and the resin used in the adhesive layer was transferred to the image receiving sheet. Without doing
After the recording, the sheet and the image receiving paper could be easily peeled off.

Also, the obtained record had good resolution of each dot and showed a vivid magenta color, and the color density increased with application time as shown in Table 3.

Comparative Example In Examples 1 and 6 to 10, the conventional inks for thermal transfer recording were prepared by directly applying the water-based ink of each Example to the base film at the time of preparing the thermal transfer recording sheets. Other than the above, transfer recording was carried out in the same manner as in Example 1, but in each case, the binder in the ink was transferred to the image receiving paper during recording, the base film and the ink layer were peeled off, and recording with gradation expression was not obtained. .

Claims (1)

[Claims] 1. A sublimation type thermal transfer recording sheet comprising a polyester base film and a color material layer, wherein an adhesive layer formed by an aqueous stock adhesive layer stock solution is provided between the base film and the color material layer. Sublimation type thermal transfer recording sheet.