JPS59182787A - Image receiving sheet for heat transfer recording - Google Patents

Abstract

PURPOSE:To provide the titled image receiving sheet which enables a recording with a better fixing property in a color tone comparable to a color photography by finishing the sheet to achieve the air permeability and the luster as specified having an image receiving layer mainly composed of a non-plate-shaped inorganic pigment. CONSTITUTION:100pts.wt. of a non-plate inorgnic pigment (e.g. zeolite and a light calcium carbonate) is mixed with preferably 10-40pts.wt. of a normal binder (e.g. denaturallized starch, stylene-butadien copolymer resin), adjusted properly and then, a coat liquid is applied on the surface of a sheet preferably in the amount of 2-25g/m<2>. Then, this sheet thus obtained is finished so as to exceed 20% in the luster holding the air permeability below 500sec/100cc by a rewet casting, gloss calendaring, or the like to obtain a desired image receiving sheet.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an image-receiving sheet for thermal transfer recording, and more particularly to an image-receiving sheet that can express color tones similar to those found in color photographs and can record with good fixing properties.

A color transfer sheet, which has a support mainly composed of a thermofusible substance and has colored ink layers of the three primary colors of yellow, magenta, and cyan, is combined with an image receiving sheet, heated with a thermal head, thermal pen, infrared rays, etc., and transferred onto the image receiving sheet. A thermal transfer recording method that forms a full-color transferred image has recently been attracting attention.

The image-receiving sheet used in this type of thermal transfer recording method obtains color recording by the weight of the three primary color inks, similar to color printing, so the amount of ink it receives is 2 to 3 times that of a single color. .

For this reason, when plain paper such as high-quality paper is used, its surface is rough, so contact with the color transfer sheet is rough, which tends to cause uneven transfer, and the color tone of the transferred image is also dull. It does not produce the beautiful finish unique to the color. It is also known to use an image-receiving sheet coated with a paint containing pigments and a water-soluble adhesive as a main component in place of plain paper. However, compared to plain paper, an image-receiving sheet coated with pigments has improved transfer unevenness and color tone of the transferred image, but it also satisfies the fixation of the transferred image while at the same time achieving a level that is comparable to that seen before color photography. It is still not enough for those who expect to record records with color tones.

Therefore, the inventors of the present invention have conducted extensive research to develop an image-receiving sheet that has clear recording density, no uneven shading, can express tones similar to those seen in color photography, and has excellent fixation properties for transferred images. The pigments constituting the image-receiving layer of the image-receiving layer are mainly non-plate-like inorganic pigments, and the glossiness of the image-receiving surface (JIS
P8142) by 20% or more, the air permeability of the image receiving sheet (
JISP 8117) to 500 seconds/100 cc or less, they succeeded in obtaining the above-mentioned desired image-receiving sheet. In the structure of the present invention, the non-plate-shaped inorganic pigment contained in the image-receiving layer is
Specifically, those with an oil absorption of 30 m//100 g or more, such as zeolite, light calcium carbonate, heavy calcium carbonate, magnesium carbonate, silicon oxide, and magnesium silicate, are targeted. These non-plate-shaped inorganic pigments are applied to a sheet,
If the supercalendar finish used in the production of ordinary coated printing paper is sufficient, the fixation of the transferred image may be good, but it will not provide the clarity of the image when it is transferred and the color tone comparable to that of color photography. It is very difficult to obtain such records.

For this reason, the present inventors have determined that the glossiness of the image receiving surface (JIS P814
By finishing the image so that 2) was 20% or more, they found that not only the fixability of the transferred image but also the clarity and color tone of the image could be obtained that was comparable to that of color photography. . For this reason, the glossiness of the image receiving surface was specified to be 20% or more. Incidentally, the reason why the glossiness of the image-receiving surface is specified as 20% or more is to indicate the minimum standard that allows the transferred image to have a tone similar to that of a color photograph, and the higher the level, the better the tone. There is no upper limit to what you can get.

However, when achieving a glossy finish, it is not enough to simply increase the gloss; as mentioned above, it is important to increase the gloss to 20% or more while keeping the air permeability of the image receiving sheet below 500 seconds/100 cc. Of course, it is necessary to take this point into consideration. Therefore, in order to maintain the air permeability of an image-receiving sheet coated with a coating liquid mainly containing untreated inorganic pigments at 500 seconds/100 cc or less and to achieve a gloss level of 20% or higher, rewet casting is necessary. It can only be obtained by finishing, gloss calender finishing, super calender finishing under high temperature and/or high pressure, etc., but the gloss that can be increased by these finishing methods seems to be limited to around 70%. Incidentally, a gloss level of 20% or more is a value that cannot be obtained even if a sheet coated with a non-plate-like inorganic pigment is subjected to supercalender treatment under conditions similar to those of ordinary coated printing paper.

Next, the air permeability of the image-receiving sheet is defined as 500 seconds/100 cc or less, which represents the minimum standard for good fixing of the transferred image.

Incidentally, when the air permeability is less than 500 seconds/100 cc, the fixability of the transferred image deteriorates, presumably because the permeability of the transferred ink is inhibited.

By the way, when applying the above-mentioned oil-absorbing non-plate-like inorganic pigment to a sheet, it is necessary to prepare it into a coating liquid.As a binder for the pigment, modified starch, methyl cellulose, or human Water-soluble adhesives such as ethyl cellulose, polyvinyl alcohol, sodium salts and ammonium salts of tyrene-maleic acid, or emulsion adhesives such as styrene-butadiene copolymer resins, vinyl acetate copolymer resins, and vinyl salt copolymer resins are used alone or They will be used in combination. The amount of these adhesives used is related to the air permeability of the sheet, so in short, the amount of adhesive used is based on the assumption that the air permeability of the image receiving sheet is maintained at 500 seconds/100 cc or less, and in relation to the type of pigment used. The appropriate amount will be determined, and generally it will be used in the range of 5 to 60 parts by weight, preferably 10 to 40 parts by weight, per 100 parts by weight of the pigment. If necessary, apply the coating liquid to which auxiliary agents such as dispersants, waterproofing agents, preservatives, and dyes have been appropriately added using a size press coke, air knife coater, roll coater, blade coater, bar coater, etc. Ig/m' or more, preferably 5 to 2 by dry weight, on one or both sides of the sheet using a conventional coating machine.
After coating to give a gloss of 5 glrd, a gloss finish is applied using the method described above. As for this glossy finish, as mentioned above, gloss calender finish, rewet cast finish, super calender finish under high temperature and high pressure, etc. are used, but among these, the rewet cast finish is the highest in terms of glossiness. is the best, followed by gloss calender finish and super calender finish. The surface smoothness of the image-receiving sheet finished by these finishing methods is determined by increasing the Bekk smoothness to 100 to eliminate uneven transfer.
It is desirable to keep the time longer than seconds.

Therefore, the image receiving sheet of the present invention has excellent fixing properties of transferred images,
The image clarity and tone are comparable to that of a color photograph, and the quality of the image-receiving sheet for color transfer recording is far superior to that of conventional sheets.

Examples of the present invention will be described below, but it goes without saying that the technical scope of the present invention is not limited to these examples only.

Examples 1 to 3 (Comparative Examples 1 to 3) 90 parts by weight of light calcium carbonate, 10 parts by weight of synthetic zeolite, 3 parts by weight of oxidized starch, and 12 parts by weight of styrene-butadiene copolymer resin were mixed to form a paint with a concentration of 40%. Prepare this and apply it to one side of base paper of 52 g/rrl by dry weight of 12 g.
/n() using an air knife coater.

By changing the processing conditions of this coated paper in the supercalender as shown in the table below, the white paper gloss, smoothness,
Image-receiving sheets having the quality shown in the table for each air permeability were obtained.

A thermal transfer ink sheet (manufactured by Fuji Kagaku Paper@, an ink sheet in which yellow, machining, and cyan are coated in order on a polyester film) is superimposed on these image-receiving sheets, and a printer (manufactured by Shinko Electric, color hard copy CHC-3) is applied.
3) Thermal transfer recording was performed. As a result, the quality of the transferred image on the surface of the image-receiving sheet, the image quality (sharpness, color tone, ink gloss), and image fixability were as shown in the table.

Examples 4 to 5 (Comparative Examples 4 to 8) Heavy calcium carbonate and kaolin, which were made into a particle size of 0.5μ by wet grinding, were mixed in different proportions as shown in the table below, and oxidized flour and acrylic were used as adhesives. A paint with a concentration of 35% was prepared by blending latex and polyvinyl alcohol as shown in the table below, and this was applied to one side of a base paper of 54 g/rl using a bar coater to give a dry weight of 10 g/M.

By changing the processing conditions of this coated paper in the supercalender as shown in the table below, the white paper gloss, smoothness,
Image-receiving sheets having the air permeability and quality shown in the table were obtained.

A thermal transfer ink sheet (manufactured by Fuji Kagaku Paper@, an ink sheet in which yellow, machining, and cyan are coated in order on a polyester film) is superimposed on these image receiving sheets, and a printer (manufactured by Shinko Denki@, Color Hard Copy CHC-3) is applied.
3) Thermal transfer recording was performed. As a result, we investigated the transferability (ink transferability) of the transferred image on the image-receiving sheet, the image quality (sharpness, color tone, ink gloss), and the fixation of the image (the erased state and scratching of the transferred image using the fingertip method using gauze). The soiling conditions) were as shown in the table.

Examples 6 to 8 (Comparative Example 9) 100 parts by weight of light calcium carbonate, 5 parts by weight of oxidized starch,
Mix 15 parts by weight of styrene-butadiene copolymer Latinx to prepare a paint with a concentration of 40%.
It was coated on one side of the base paper of rr with an air knife coater so that the dry weight was 8 g/n (dry weight).

This coated paper was finished by the methods listed in the table below to obtain an image-receiving sheet having the qualities listed in the table in terms of gloss, smoothness, and air permeability.

These image-receiving sheets were subjected to a quality test in the same manner as in Examples 1 to 3, and the results were as shown in the following table.

(*) Polyethylene emulsion was used as the wet liquid used for rewetting casting Examples 9 to 12
(Comparative Examples 10 to 11) Light calcium carbonate looM part, oxidized flour 1 part by weight,
Mix 10 parts by weight of vinyl acetate-acrylic copolymer latex to form a paint with a concentration of 50%.
One side of 8 g/m base paper was coated with an air knife coater to give a dry weight of 15 g/+yr.

Example 1: Coated paper was not finished by the means described in the table below to obtain an image-receiving sheet having the qualities listed in the table in terms of white paper gloss, smoothness, and air permeability. A quality test was conducted in the same manner as in cases 3 to 3, and the results were as shown in the following table.・ / (*) Polyethylene emulsion is used for the wet liquid used for rewetting casting [Evaluation criteria] ■...Very good○...Good△...Average ×...Bad patent Applicant Kanzaki Paper Co., Ltd.

Claims (1)

[Claims] In an image-receiving sheet for thermal transfer recording that receives a transferred image from a color transfer sheet, the image-receiving layer mainly contains a non-plate-shaped inorganic pigment, and the glossiness of the image-receiving surface (JIS P8
142) is 20% or more, the air permeability of the image receiving sheet (JIS
An image-receiving sheet for thermal transfer recording, characterized in that the image-receiving sheet for thermal transfer recording is finished to have a speed of 500 seconds/100 cc or less (P8117).