JPH0289690A - Thermal transfer image-receiving paper - Google Patents

Abstract

PURPOSE:To copy a full-color electronic image with high quality by a method wherein a layer containing a hollow globular plastic pigment is formed on a substrate and thereon an image receiving layer is laminated, or alternatively an image receiving layer incorporating a hollow globular plastic pigment in dispersion form is laminated on the substrate. CONSTITUTION:A layer containing a hollow globular plastic pigment is formed on a substrate, and thereon an image receiving layer is laminated. Alternatively, an image receiving layer containing a hollow globular plastic pigment is directly laminated on the substrate. As the substrate for use, plain paper, plastic film, synthetic paper, and the like can be listed. As the hollow globular plastic pigment, a water-dispersible pigment of acryl-styrene copolymer resin series having an outer particle diameter of 2mum or less can be used. A binder for a coating liquid is selected from various types of binder resins by considering an adhesion with the substrate, an affinity with a resin used for the image receiving layer, and others.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a thermal transfer receiver paper useful for full-color copying of electronic images such as videos, televisions, and color graphics.

[Conventional technology and its problems]

Image receiving paper for thermal transfer printing is required to have appropriate cushioning properties and flatness so that it can come into soft and uniform contact with the thermal head during printing.

For this reason, various methods have been proposed in the past, but each has the following drawbacks, and a fully satisfactory method has not yet been obtained. That is.

(1) Method of providing a rubber-like resin layer between the surface layer of the base material and the dyed layer When providing a dyed layer on the surface layer of the base material 1. It is difficult to obtain a resin with good adhesion to the surface layer, and For example, if a product with good adhesiveness is printed using a sublimation dye, the dye will continue to diffuse in a humid heat environment and the image will become blurred.

(2) A method of dispersing an inorganic filler in a polymer and strongly stretching it during I8 melt film forming to create voids between the polymer and the filler.In order to create effective voids, it is necessary to use a coarse filler. When filler is used, its roughness affects the image, making it impossible to reproduce fine print dots.

(3) A method of obtaining a porous layer during coating by using a polymer blend or by using a special coagulation method Since this is a special production method, productivity is low and costs are high.

(4) A method of applying a coating liquid containing porous organic or inorganic fillers.The roughness of the filler often appears on the surface, resulting in rough images.
If the amount of filler is reduced, sufficient tension cannot be obtained, and the image will be rough due to poor contact between the image receiving paper and the thermal head.

There are problems such as:

[Means for solving problems]

The inventor of the present invention has found that it does not have the problems of the prior art described above, has appropriate cushioning properties and flatness, makes contact with the thermal head soft and uniform, and can be used for video, television, color graphics, etc. As a result of intensive research with the aim of providing a thermal transfer receiving paper that can make full-color, high-quality copies of electronic images such as (2) Laminating and forming an image-receiving layer containing dispersed hollow spherical plastic pigments directly on the base material.1. It was completed.

Next, the present invention will be explained in detail.

(1) Substrate Examples of the substrate used in the present invention include paper, coated paper, plastic film, and synthetic paper.

(2) Hollow spherical plastic pigment Hollow spherical plastic pigments can be used as powder-like ones dispersed in a solvent-based coating solution, but in this case, swelling due to the solvent may occur, so water-dispersed It is preferable to use Examples of water-dispersed particles include those based on acrylic-styrene copolymer resins, and particles with an outer diameter of 2 μm or less, preferably finer than 1 μm, are preferable in order to maintain the flatness and gloss of the image-receiving paper.

Incidentally, there are inorganic hollow plastic pigments, but these are generally fragile, and the spheres break when preparing the coating solution, coating, or when applying the pigment, and they do not exhibit sufficient cushioning properties. On the contrary, the fragments become small protrusions, which impairs flatness, which is not preferable.

(3) Binder for Coating Liquid Various binder resins can be used as the binder for the coating liquid, but in the first invention, 1. In the case of the second invention, it is desirable to select the material by taking into consideration the adhesion on the base material.

In particular, regarding sublimation type thermal transfer image-receiving paper, a saturated copolymer resin is usually used in the image-receiving layer. , is particularly preferred in terms of the sharpness of the reproduction of Doso 1-. It is not clear why the reproduction of dots is sharper, but because the resin that has good affinity with dyes is thinner in the surface layer and distributed vertically in the middle layer, it is more difficult to reproduce the dots horizontally than in the surface layer. This is thought to be due to the fact that the boundary of spread in the direction becomes clear.

The mixing ratio of the above resin and pigment can be used in a wide range of practical applications, but when the mixed layer becomes a direct image-receiving layer, the ratio of the resin should be relatively high from the viewpoint of affinity with dyes and ink resins. In the case of forming an intermediate layer, the weight of the pigment can be equal to or about 8 times the weight of the resin.

Furthermore, in order to improve coating properties, a thickener and, if necessary, a small amount of a wetting agent, an antifoaming agent, a filler, and other components may be added to the coating liquid. By using the above additives, the functionality of the coating layer can be improved.

In general, aqueous dispersions of saturated copolymerized polyester resins are relatively expensive and have the drawback that the system tends to become unstable when mixed with other inorganic fillers, but the plastic spherical hollow pigments used in the present invention Since it can be added at will without destroying the stability of the system, it has the advantage that it can be expected to be effective as an inexpensive filler and as an opacifying agent.

Various known methods such as reverse roll coating and air knife coating can be used as a coating method for the coating liquid, and various methods such as conventional hot air drying and infrared drying can be used for drying after coating.

Example Next, examples of the present invention will be described.

Coating liquid 1 having the following composition was applied to a 100 μm thick polypropylene film coated with 1 μm of chlorinated polypropylene using a reverse roll and dried with a hot air dryer. The coating thickness after drying was 20 μm.

Composition of coating liquid-1 Water-based polyester resin (Pyronal MD 1200 manufactured by Toyobo Co., Ltd.) 30 parts Hollow spherical plastic pigment liquid (Lowpeke 0P-34J manufactured by Rohm and Haas Co., Ltd.)
60 parts c Low Peik 0P-34J (manufactured by Rohm and Haas) 60ffl + isopropyl alcohol
10 parts of this product was coated with a solution having the following composition so that the coating thickness after drying would be 3 μm, and then dried.

Composition of Coating Liquid-2 Water-based polyester resin (Pyronal MD 1200 manufactured by Toyobo Co., Ltd.) 90 parts Mold release agent (SF 8421 manufactured by Toray Silicone Co., Ltd.) 5
Printer (Hitachi VY50)
), both color density and 1-soto reproducibility were good.

Example 2 A coated paper of Cast 1 with a speed of 110 kg was coated with chlorinated polypropylene to a thickness of 1 μm. A coating liquid having the following composition was applied to this sample using a reverse roll and dried with a hot air dryer to obtain an image receiving paper.

The coating thickness after drying was 20 μm.

Composition of coating liquid Water-based polyester resin (Pyronal MDI200 manufactured by Toyobo Co., Ltd.) 30 parts Hollow plastic pigment liquid (Lowpeik 0P-620-manufactured by M&Haas Co., Ltd.) 10 parts
Part: Mold release agent: 0.5 parts of amino-modified silicone (F 3935 manufactured by Shin-Etsu Silicone) When the above image-receiving paper was printed using a printer (Hitachi, Ltd. 1VY50), the color density was a little thin, but there were no dots that were typical of paper bases. A good image with no blemishes was obtained.

Claims (1)

[Scope of Claims] 1. A thermal transfer image-receiving paper comprising a layer containing dispersed hollow spherical plastic pigments on a base material, and an image-receiving layer laminated on the layer. 2. A thermal transfer image-receiving paper characterized by laminating an image-receiving layer containing dispersed hollow spherical plastic pigments on a base material.