JPH06155943A - Melt transfer type ink image receiving sheet - Google Patents

Abstract

PURPOSE:To provide a melt transfer type ink image receiving sheet forming a melt thermal transfer ink image good in dot reproducibility and obtaining a high recording density. CONSTITUTION:In a melt transfer type ink image reciving sheet, an ink image receiving layer based on a binder resin and pigment is provided on a sheet like support and the binder resin of the ink image receiving layer contains rosin ester having a softening point of 120 deg.C or lower.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a melt transfer type ink image receiving sheet. More specifically,
The present invention relates to a melt transfer type ink image-receiving sheet which, when used in a melt transfer type heat transfer printer using a thermal head, has good dot reproducibility and can receive an excellent print ink image having a high recording density.

[0002]

2. Description of the Related Art The thermal fusion transfer recording method using a thermal transfer ink sheet and a thermal head is widely used in printers such as word processors and facsimiles because of its simple mechanism and easy maintenance, and it is a high quality image receiving sheet. Paper has been used. However, in recent years, due to full-color thermal transfer recording, in order to obtain higher gradation reproducibility than before, in printers, the size of each dot is changed from the method of acquiring gradation without changing the size of one dot. In the image receiving sheet, the dot reproducibility that faithfully reproduces the dot shape of the melt-transferred ink in full color recording from low applied energy to high applied energy, and a sufficient amount of It is an important quality of the recorded image that the ink is transferred and the recording density is high.

The characteristics of the image-receiving sheet must be appropriately adapted to the full-color thermal transfer image as described above. That is, when plain paper for ordinary printing is used, a portion where the ink is not transferred due to the surface being too rough, that is, missing is generated, or conversely, the surface is too smooth and the anchoring effect of the ink does not work and it is transferred. Missing tends to occur due to reverse transfer of ink to the ink ribbon. All of these cause poor dot reproducibility.
In addition to the decrease in the recording density due to the poor dot reproducibility as described above, the decrease in the recording density due to the low ink absorbability of the image receiving layer may occur.

In order to improve the transferability and absorption of ink in the image receiving layer, a polyamide resin or a polyurethane resin is dissolved in a hydrophilic organic solvent together with other additives,
It is also known that this image-receiving layer coating liquid is applied to the surface of a support, and the coating liquid layer is solidified by a wet method to form an image-receiving layer having high ink absorption (Japanese Patent Laid-Open No. 62-79).
237). However, since wet film formation is adopted in this method, various steps such as dipping, cleaning, and solvent recovery are required, and there is a problem that the cost becomes very high.

[0005]

DISCLOSURE OF THE INVENTION The present invention solves the drawbacks of the prior art, and has good dot reproducibility even when used in a thermal transfer color printer, and is a melt transfer capable of obtaining good ink image recording with high recording density. A type ink image-receiving sheet is provided.

[0006]

Means for Solving the Problems As a result of intensive studies to achieve the above object, the present inventors have found that the above problems can be solved by using a special rosin ester as a binder resin for an image receiving layer. The present invention has been completed.

That is, the melt transfer type ink image-receiving sheet of the present invention has a sheet-like support and an ink image-receiving layer formed on one surface of the sheet-like support and containing a binder resin and a pigment as main components. The binder resin of the ink image-receiving layer contains a rosin ester having a softening point of 120 ° C. or lower.

[0008]

[Operation] In recording by a fusion type thermal transfer printer,
The specific image receiving layer in the invention, that is, 120 ° C. or lower,
When an image receiving layer containing a rosin ester having a softening point of 50 to 120 ° C. as a binder resin is preferably used, dot reproducibility is better than that of a conventional thermal transfer ink image receiving layer composed of only a resin component, and high density recording is realized. it can.

The rosin ester used in the present invention is produced by hydrogenating and stabilizing a rosin consisting of abietic acid, dihydroabietic acid, tetraabietic acid, etc., and then esterifying the rosin. Specific examples thereof include rosin methyl ester, ethyl ester, glycerin ester (ester gum), diethylene glycol ester, pentaerythritol ester and the like. Generally, as the molecular weight of a rosin ester increases, its softening point also rises.

One of the reasons why the color density of a recorded image is increased by the use of rosin ester is that due to the high adhesiveness of rosin ester to the thermal transfer ink, the transferability and retention of the ink are improved and the dot reproduction is improved. It is presumed that the ink transfer amount is increased and the color density of the recorded image is improved because the compatibility of the rosin ester and the ink is good. It

When a rosin ester having a softening point of more than 120 ° C. is applied to the image receiving layer, the adhesion between the image receiving layer and the support becomes poor, and when the ink is transferred to the image receiving layer, the image receiving layer becomes an ink. The phenomenon that the ribbon is peeled off causes a recording defect, and the recording density is not improved.

In the present invention, the image-receiving layer contains a rosin ester having a softening point of 120 ° C. or less as a binder resin as described above, which is applied as an emulsion to a sheet-like support at the time of forming the image-receiving layer. It
In the image-receiving layer of the present invention, a known resin may be mixed and used in addition to the rosin ester. These resins include polyvinyl alcohol, oxidized starch, etherified starch, methoxy cellulose, carboxymethyl cellulose, hydroxyethyl cellulose, casein, gelatin, soy protein, polyvinylpyrrolidone, polyacrylamide, and water-soluble resins such as polyacrylic acid, And vinyl chloride resin, vinyl chloride-vinyl acetate copolymer resin, vinylidene chloride resin, vinyl chloride-vinylidene chloride copolymer resin, acrylic ester copolymer resin, methacrylic ester copolymer resin, butyral resin, silicone resin, polyester A water-insoluble resin such as resin, vinylidene fluoride resin, nitrocellulose resin, styrene resin, styrene-acrylic copolymer resin, styrene-butadiene copolymer, etc. is used. At the time of forming the image receiving layer, the water-soluble resin is used as an aqueous solution, and the water-insoluble resin is used as an aqueous emulsion or latex. These water-based resins can be used alone or in combination of two or more.

Examples of pigments used together with the binder resin for forming the image receiving layer include zinc oxide, titanium oxide, calcium carbonate, silicic acid, silicates, clay, talc, mica, calcined clay, aluminum hydroxide, barium sulfate and lithopone. Inorganic pigments such as, titanium dioxide, and zinc oxide,
And polystyrene, polyethylene, polypropylene,
Epoxy resin, melamine resin, phenol resin, styrene-acrylic copolymer, cellulose, and powders of organic polymers such as starch, beads, microspheres,
And hollow particles, which can be used alone or
Mixtures of two or more can be used. In general, the average particle size of the pigment used in the image receiving layer is preferably 5 μm or less in order to improve the adhesion between the image receiving layer and the ink ribbon and prevent defective transfer.

The total amount of the binder resin used in the image receiving layer in the present invention is 15 to 80% by weight of the total coating solids.
It is preferable that the total amount of the pigment is 85 to 85.
It is preferably in the range of 20% by weight. When the total amount of the binder resins used is less than 15% by weight, the strength of the resulting image-receiving layer coating film becomes insufficient, and therefore, a part of the image-receiving layer is peeled off from the ink ribbon, which may cause recording failure. There is. On the other hand, if the amount of all binder resins used is more than 80%, the surface of the image receiving layer becomes too smooth, the anchoring effect of the ink does not work, and the image is likely to be missing.

Also, the softening point 120 in all binder resins
The solid content weight ratio of the rosin ester having a temperature of ℃ or less and the other water-based resin is 10 to 100% by weight in the former and 90 in the latter.
It is preferably from 10 to 10% by weight. If the proportion of rosin ester is less than 10% by weight, the dot reproducibility of the obtained image will be improved and the recording density will be insufficiently increased.

The rosin ester having a softening point of 120 ° C. or lower and other water-based resins and pigments can be dispersed into a paint by a method which has already been industrialized. That is, a rosin ester having a softening point of 120 ° C. or less is emulsified, and the other water-based resin and a pigment or a pigment dispersion are mixed at a predetermined ratio, and a suitable disperser such as a stirrer and a sand grinder is used together with the dispersion medium. Mixed using,
It can be dispersed and its concentration, liquid state, etc. can be adjusted.

In order to form the image receiving layer on the support, a coating process by a usual coating system, that is, a Meyer bar system, a gravure roll system, a reverse roll system, a blade system, an air knife system, a slit die system, and the like, and A dry solidification step may be used.

The surface roughness of the image receiving layer is 70 in terms of Oken smoothness.
The optimum time is from 0 second to 1300 seconds. If the smoothness of the image-receiving layer is less than 700 seconds, the adhesion between the ink ribbon and the image-receiving layer will be poor, and transfer defects of the image will easily occur due to defective transfer. Further, when the smoothness of the image receiving layer exceeds 1300 seconds, the surface is too smooth and the anchoring effect of the ink does not work, and the ink transferred to the image receiving layer is reversely transferred to the ink ribbon, so that the image tends to be missing.

The sheet-like support used in the present invention is made of high-quality paper, coated paper or other paper, woven cloth, non-woven cloth, polyester film, polypropylene film, polyethylene film, plastic film such as cellulose acetate film, or synthetic paper. You can choose.

A substrate having a better heat insulating property has a better dot reproducibility with the same printing energy and can be expected to increase a recording density. Further, a support having a better heat insulating property requires less energy to obtain the same density and recording quality, and is effective in energy saving. The heat insulating property of the support is generally good in the order of clear film <quality paper <synthetic paper.

In order to reduce the unevenness of the surface of the high quality paper on the image receiving layer side and to improve its heat insulating property, an undercoat layer may be provided on one surface thereof and the image receiving layer may be provided thereon. In order to improve the heat insulating property of the undercoat layer, a porous inorganic pigment or a hollow pigment may be incorporated in the undercoat layer.

The image receiving paper satisfying the above conditions has a better dot reproducibility of the image and a higher recording density in recording by a thermal color printer than a known image receiving paper for thermal transfer containing only a resin component.

[0023]

The present invention will be described in more detail with reference to the following examples, but the present invention is not limited thereto. All "parts" in Examples and Comparative Examples are "parts by weight".

Example 1 On one side of a high-quality paper having a basis weight of 80 g / m ² , a mixture having a composition shown below was mixed with a stirrer to obtain an image-receiving layer coating material (1), which had a coating amount after drying. It was coated at 8 g / m ² , dried and solidified, and subjected to a smoothing treatment with a super calender so that the Oken type smoothness of the image receiving layer would be 1000 seconds. A melt heat transfer type image receiving paper was obtained.

Image- Receiving Layer Coating (1) Component Weight Part Rosin Ester Emulsion (Trademark: Super Ester 40 E-720, Arakawa Chemical Industry Co., Ltd., Softening point 100 ° C., Solid content 50%) Styrene-butadiene copolymer emulsion ( Trademark: 10 L-1876, Asahi Kasei Corporation, solid content 48%) Calcined clay dispersion (trademark: Ansilex 93, 150 Engelhard, solid content 50%) Water 200

Example 2 An undercoat layer coating composition having the following composition was applied to one side of a high-quality paper having a basis weight of 80 g / m ² at a coating amount of 8 g / m ² after drying.
Was applied to form an undercoat layer. Undercoat layer coating composition weight part Styrene-butadiene copolymer emulsion (trademark: 63 L-1876, manufactured by Asahi Chemical Industry Co., Ltd., solid content 48%) Hollow spherical plastic pigment dispersion (trademark: Ropaque 165 OP-84J, Rohm and Haas, solid content 42.5%) On the undercoat layer of the above support, the same receptor layer coating material as in Example 1 was applied so that the coating amount after drying was 4 g / m ^2, and this image receiving The layer was subjected to a smoothing treatment with a super calender to form a receiving layer surface having an Oken type smoothness of 1000 seconds, to prepare a melt heat transfer type image receiving paper.

Example 3 110 μm thick synthetic paper (trademark: YUPO FPG-110,
(Oji Oka Kasei Synthetic Paper) is coated on one side with the same receptor layer coating material as in Example 1 so that the coating amount after drying is 4 g / m ² .
This was subjected to a smoothing treatment with a super calender so that the Oken type smoothness of the receiving layer would be 1000 seconds to prepare a melt heat transfer type image receiving paper.

COMPARATIVE EXAMPLE 1 A receptor layer coating material (2) obtained by mixing a mixture having the following composition with a stirrer on one side of the same support as in Example 1 had a coating amount after drying of 8 g / m ² . It was applied as described above, and smoothed by a super calender so that the Oken type smoothness of the image receiving layer was 1000 seconds. A melt heat transfer type image receiving paper was obtained.

The receptive layer coating (2) Component Parts by weight styrene - butadiene copolymer emulsion (trade mark: 52 L-1876, Asahi Chemical Industry Co., Ltd., solid content 48%) calcined clay dispersion (trademark: Ansilex 93, 150 Engelhard, solid content 50%) Water 198

Comparative Example 2 On the undercoat layer of the same support as in Example 2, the same receptor layer coating material (2) as in Comparative Example 1 was applied, and the coating amount after drying was 4 g /
m ² was applied, and this was subjected to a smoothing treatment with a super calender to form an image receiving layer having an Oken type smoothness of 1000 seconds, to prepare a melt heat transfer type image receiving paper.

Comparative Example 3 The same support coating material (2) as in Comparative Example 1 was applied to one side of the same support as in Example 3 so that the coating amount after drying was 4 g / m ^2. Smoothing treatment with a super calendar was performed to form an image-receiving layer having Oken type smoothness of 1000 seconds, to prepare a melt heat transfer type image-receiving paper.

Comparative Example 4 On one side of the same support as in Example 3, the image-receiving layer coating material (3) obtained by mixing a mixture having the following composition with a stirrer was applied so that the coating amount after drying was 8 g / m ² . The coating solution was applied as described above and smoothed with a super calendar to form an image-receiving layer having an Oken-type smoothness of 1000 seconds, to prepare a melt heat transfer type image-receiving paper.

Receptor layer coating (3) Component weight part Rosin ester emulsion (trademark: Super Ester 40 E-650, manufactured by Arakawa Chemical Industry Co., Ltd., softening point 150 ° C., solid content 50%) Styrene-butadiene copolymer emulsion ( Trademark: 10 L-1876, Asahi Kasei Corporation, solid content 48%) Calcined clay dispersion (trademark: Ansilex 93, 150 Engelhard, solid content 50%) Water 200

Test Two image-receiving sheets of Examples 1 to 3 and Comparative Examples 1 to 4 were used.
Table 1 shows the results of melt thermal transfer recording of the ink image by a commercially available thermal transfer color printer (trademark: JX-560, manufactured by Sharp Corporation) after controlling the humidity for 2 hours in an environment of 0 ° C. and 65% RH.

[0035]

[Table 1]

[0036]

EFFECTS OF THE INVENTION According to the present invention, it becomes possible to put into practical use a melt transfer type ink image-receiving sheet which can produce dots of a melt heat transfer ink image in good condition and can obtain high recording density, which greatly contributes to the industrial world. .

Claims (1)

[Claims] 1. A sheet-shaped support, and an ink image-receiving layer formed on one surface of the sheet-shaped support and containing a binder resin and a pigment as main components, wherein the binder resin of the ink-image receiving layer is 120. A melt-transfer type image-receiving sheet comprising a rosin ester having a softening point of ℃ or below.