JPH0377079B2 - - Google Patents

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to printing paper or photographic paper used for thermal recording using a vaporizable dye as a recording material.

[Conventional technology]

Systems have been developed that reproduce images taken with a video camera, or still images from a television, VTR, video disk, or computer, in full color directly on printing paper. In this system, a color-developing sheet coated with a vaporizable dye is placed on a printing paper and heated with a thermal head to transfer the vaporizable dye to the printing paper to develop color. must be able to be dyed. For this reason, conventionally, paper with thermoplastic polyester coated on the printing surface has been used as the printing paper, but when such printing paper is layered with a coloring sheet and heated by a thermal head, it becomes colored. Not only does it stick to the printing sheet, making it difficult to operate, but it also has the disadvantage that clear color transfer cannot be obtained. Although such problems with adhesion can be solved by using a material with a high softening temperature, other problems arise in that case, such as insufficient dyeing of the vaporizable dye.

[Problem to be solved by the invention]

An object of the present invention is to solve the above-mentioned problems and provide a printing paper in which the coloring sheet does not become sticky due to the heat of the thermal head when used for thermal recording using a volatile dye as a recording material. There is a particular thing.

[Means to solve the problem]

The printing paper of the present invention is a printing paper used for thermal recording using a vaporizable dye-coated sheet as a coloring material, and has a coating layer on one side of the paper made of a thermoplastic polyester resin and a crosslinked polyester resin. Alternatively, an impregnated layer is provided. The base material constituting the printing paper of the present invention is paper, and any paper can be used. The coating layer or impregnated layer provided on at least one side of the paper is made of thermoplastic polyester and crosslinked polyester. Thermoplastic polyester is
It is obtained by polycondensation of phthalic acid or its derivatives and various glycols, and is itself a well-known material. Preferred for the present invention are those that are soluble in various general purpose solvents. Cross-linked polyester is a three-dimensional reticulated polyester that is homogeneously mixed into the thermoplastic polyester component of the cross-linked polyester-forming component, applied to one side of the paper, and then formed in the thermoplastic polyester matrix by heating or other means. It is essential to do so. One embodiment of producing crosslinked polyesters is to partially crosslink the thermoplastic polyester itself. Thermoplastic polyester is
Since it has a hydroxyl group or a carboxyl group (or a derivative thereof) at its molecular end, a part of the thermoplastic polyester is crosslinked using a polyfunctional crosslinking agent that reacts with these functional groups. As a crosslinking agent, a polyisocyanate compound,
These include polymethylol compounds, epoxy compounds, titanium coupling agents, silane coupling agents, aluminum-based chelating agents, zirconium-based chelating agents, etc., and such crosslinking agents are used in an amount of about 1% per 100 parts by weight of thermoplastic polyester. Preferably, it is used in a proportion of ~20 parts by weight. In particular, when the above-mentioned metal compounds are used as crosslinking agents, volatile dyes containing active hydrogen such as hydroxyl groups and amino groups can be well fixed in the resin layer, resulting in clear images. . Another method of producing a crosslinked polyester is to mix an unsaturated polyester into a thermoplastic polyester, apply the mixture to paper, and then heat it to cure it. The unsaturated polyester itself may be any known material. Such unsaturated polyesters are preferably used in a proportion of about 10 to 300 parts by weight per 100 parts by weight of thermoplastic polyester. Yet another embodiment is to use a radiation curable resin such as a polyester acrylate in place of the unsaturated polyester described above, again using radiation curable polyester in the same proportions as in the second embodiment above. It is preferable to do so.
In this embodiment, after the resin composition is applied and dried, the polyester oligomer is crosslinked using ultraviolet rays or electron beams. The layer consisting of the above-mentioned mixed polyester is prepared by dissolving the mixed polyester in an appropriate organic solvent to adjust the viscosity to an appropriate level, and then applying the mixture using any coating means such as a blade coater, air knife coater, roll coater, curtain coater, bar coater, or gravure coater. , about 5 to 20 g/m ² on at least one side of the paper.
(solid content), dried, and then cured by heating or radiation irradiation to form the product.

[Effect]

When the printing paper of the present invention is laminated with a vaporizable dye-coated sheet and heated in a thermal bed of a heat-sensitive recording device, it has good vaporization properties, good dye-receptive fixing properties, and has good adhesion to the color-forming sheet. There are almost no This is achieved by using a mixture of thermoplastic polyester and crosslinked polyester in an appropriate ratio as the covering layer or impregnation layer of the printing paper, which maintains the dyeability of vaporizable dyes while maintaining This is because the coloring sheet has the property of being less sticky. In carrying out the present invention, the balance between thermoplastic polyester and crosslinked polyester, in other words, the amount of crosslinking agent or crosslinked polyester, is important, and appropriate ratios should be selected for each embodiment. . If the crosslinking agent or crosslinked polyester is below the lower limit of the above-mentioned range, the problem of tackiness will not be solved, while if it exceeds the upper limit, dyeing will be insufficient. Next, the present invention will be specifically explained with reference to Examples. "Parts" or "%" are by weight. Example 1 15 parts of thermoplastic polyester "Vylon 200" (Toyobo), unsaturated polyester resin "Polyset"
203” (Hitachi Chemical) 15 parts, benzoyl peroxide
0.5 parts, cobalt naphthenate 0.5 parts, ethyl acetate 66
A solution consisting of 1 part and 3 parts of silica was applied to high-quality paper using a roll coater at a rate of approximately 30 g/m ² and heated at 120°C.
The printed paper of the present invention was obtained by heating and curing for 5 minutes. Example 2 Thermoplastic polyester “Vylon 200” (above)
10 parts, polyester acrylate “Aronix
M8060” (Toagosei Kagaku) 10 parts, calcium carbonate
A mixture consisting of 30 parts and 50 parts of ethyl acetate was applied to high-quality paper using a roll coater at a rate of about 20 g/ ^m2 , and then heated at 5 Mrad, 10.5 mA, and 10.5 mA in a nitrogen gas atmosphere.
Electron beam irradiation was performed at a conveyor speed of 3 m/min to obtain the printing paper of the present invention. Example 3 Thermoplastic polyester “Vylon 200” (above)
10 parts, unsaturated polyester resin "Polyset 203"
(Hitachi Chemical) 8 parts, tetrabutoxytitanium 3
A printing paper of the present invention was obtained in the same manner as in Example 1, except that a solution consisting of 1 part, 3 parts of silica, 70 parts of methyl ethyl ketone, and 9 parts of isopropyl alcohol was used. Example 4 A printing material of the present invention was obtained in the same manner as in Example 3 except that the same amount of (ethyl acetoacetate) aluminum diisopropylate was used in place of tetrabutoxytitanium in Example 3.

[Test example] Volatile dye “Kayasetsutoretsudo B” (Nippon Kayaku)
The printing paper of the present invention of Examples 1 to 4 was placed on a vaporizable dye sheet having a dye layer consisting of a binder and a dye layer, and a thermal head having a tip temperature of 350° C. was pressed for 20 milliseconds from the back side of the dye sheet. The vaporizable dye was transferred to the printing paper. The results of examining the fusion properties between both sheets and the degree of color development due to dye transfer are as shown in the table. Comparative Example 1 in the table is a printing paper in which no unsaturated polyester resin was used in Example 1, and Comparative Example 2 is a printing paper in which the entire amount of resin was thermoplastic polyester in Example 2.

【table】

【Effect of the invention】

Since the printing paper of the present invention has a coating layer or an impregnated layer in which thermoplastic polyester and crosslinked polyester are mixed in an appropriate ratio on the paper base material, when it is used for heat-sensitive recording using a vaporizable dye sheet. ,
The coloring sheet does not fuse, and the color transfer and coloring are good.

Claims (1)

[Scope of Claims] 1. A printing paper used for thermal recording using a sheet coated with a vaporizable dye as a coloring material, which has a coating layer on at least one side of the paper made of a thermoplastic polyester resin and a crosslinked polyester resin. Or printing paper provided with an impregnated layer. 2. The printing paper according to claim 1, wherein the crosslinked polyester resin is a thermoplastic polyester resin partially crosslinked with a crosslinking agent. 3. The printing paper according to claim 2, wherein the crosslinking agent is an organometallic compound. 4. The printing paper according to claim 1, wherein the crosslinked polyester resin is a cured product of an unsaturated polyester resin. 5. Claim 1, wherein the crosslinked polyester resin is a cured product of a radiation-curable polyester resin.
The paper to be printed on as described in section.