JPS6223776A - Transparent recording material - Google Patents

Abstract

PURPOSE:To provide an excellent fixability of letters, figures, etc., to a transparent base while keeping the transparency of the base completely using a printer, by forming a transparent thin layer composed primarily of a resin having a higher solubility in high-boiling solvent in the ink composition than resins in the ink composition at least one side of the base. CONSTITUTION:A thin layer composed primarily of a resin having a higher solubility in high-boiling solvent in an ink composition to be used for printing than resin A in the same ink composition is formed on at least one side of a transparent base material for recording. Since the high solubility of the resin B in the surface layer of the base material accelerates the permeation of high- boiling solvent in the ink of printing portion into the surface layer, balance between solvent and resin A in the ink component in the printing portion is varied and the viscosity is raised acceleratedly, resulting in great increase in apparent drying speeds of printing portion serves to enhance the fixing force of ink on the surface of the transparent recording material.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical field to which the invention pertains] The present invention relates to transparent recording materials, particularly transparent color recording materials,
In other words, regarding recording ink-receptive transparent materials that are the base for creating transparent originals, we mainly use them to create transparent originals that can project excellent images on the screen when applied to overhead F projectors. This relates to the sheet that is used.

[Technical background and problems]

Transparent sheet-like recording materials are generally produced by handwriting with a pen on a transparent film base, copying by electrophotography,
It is created by applying a recording method such as thermal transfer using flash light (thermographic method) or printing using a printing machine (hereinafter referred to as printing means).

As mentioned above, various recording methods are employed, but
Handwriting or printing is a method for directly recording characters, figures, etc. on a transparent substrate, generally a transparent film surface, without preparing an original document in advance.

In this direct recording method, the fixation of characters, figures, etc. on the surface of the transparent film is the biggest problem that determines its practical possibility.

In the present invention, fixability refers to a characteristic that combines the apparent drying speed of ink during printing (the speed at which the ink dries to the extent that it does not come off even when lightly rubbed with a finger after printing) and the fixing power of ink. .

In general, fixability is determined by the synergistic effect of the drying ability of the ink itself and the ink absorption ability of the surface of the recording material. Therefore, the film surface is treated to increase its ink absorption ability.

In this case, a method such as providing a layer having micropores on the surface is used. However, this method has a problem in that the transparency of the transparent film decreases.

By the way, in the case of handwriting, if you record on the transparent film surface using so-called oil-based feltben, which contains an ink consisting of a low-boiling point solvent as one component, the ink itself dries quickly, so the fixing properties are not so bad. No problem.

Inkjet printing is the printing method,
Another typical example is the impact method used in wire print printers and type printers, but in both cases, the physical properties of the ink itself greatly affect the printing function. In particular, the ink used in the impact method requires that the ink be kept in an undried state forever, so a low boiling point solvent is used as a component of the ink used for this purpose. It is not possible to use ink containing mainly . Therefore, the solvent that is a component of the ink used in the printing means must have a high boiling point.

Therefore, the ink itself has extremely poor drying ability. In general, no matter what printing means is used, when such ink is used to record on the surface of a normal transparent film, its fixability is extremely poor and it cannot be put to practical use.

However, with the remarkable spread of CAD systems, word processors, etc., there is a strong desire to obtain transparent recording materials using printing means, and transparent materials that can be recorded using these printing means are desired.

[Structure of the invention]

As mentioned in the previous section, characters can be printed while the transparency of the transparent substrate is completely maintained by the printing means.

In order to provide excellent fixing properties of figures etc. to the transparent substrate surface,
It has been found that it is necessary to treat the surface of the transparent film in connection with the solvent, which is a component of the ink used in the printing means. Therefore, as a result of research based on this knowledge, the present invention was completed.

By the way, the present inventor has created a transparent recording material with good ink fixing property by imparting the property of dissolving or swelling in the high boiling point solvent in the ink composition to the surface of a transparent synthetic resin film to which ink does not fix. has been developed and a patent application has already been filed for this.

As mentioned above, the fixing properties of ink when printing on recording materials are determined by the apparent drying speed of the ink on the printed area on the surface of the recording material and the fixing power of the ink (adhesion to the surface of the recording material). However, the present invention further speeds up the drying speed of the ink in the printed area and also improves the fixing power of the ink. It was possible to further improve this.

The transparent material for recording of the present invention is intended for printing using an ink containing a high-boiling point solvent, a resin component, a coloring agent, and other additives if necessary, and is suitable for printing on at least one side. The solubility in the high boiling point solvent in the composition of the ink used is determined by the resin content in the composition of the ink (hereinafter referred to as resin content A).
A thin layer of a composition mainly having a higher resin content (hereinafter referred to as resin content B) is provided.

If the transparent recording material of the present invention having the above-mentioned thin layer is printed with an ink consisting of a high boiling point solvent, resin component A1 colorant, and other additives, the resin component A in the printed ink composition will be thin. The solubility difference (A<B) between the resin component B in the layer and the high boiling point solvent in the ink composition (A<B), that is, the high solubility of the resin component B in the surface layer of the transparent recording material increases the solubility of the high boiling point solvent in the ink in the printed area. It promotes penetration into the surface layer of transparent recording materials, thereby changing the balance between solvent and resin in the ink components of the printed area, which reduces the increase in viscosity quickly, and as a result, the apparent drying speed of the printed area is greatly increased. It has been improved. At the same time, the resin component B in the printed portion also exhibits the effect of increasing the fixing power of the ink on the surface of the transparent recording material.

By the way, especially as a high boiling point bath agent in the ink composition,
It has been found that an ink having a vapor pressure of 77111 Hf or less at m'c can provide good ink physical properties.

Specifically, aromatic hydrocarbons such as triethylbenzene, diterpenes, aromatic petroleum naphtha), low molecular weight polyethylene glycols such as n-octyl alcohol, n-7' yl alcohol, diethylene glycol, dipropylene glycol, etc. Ester systems such as polypropylene glycol, ethylene glycol monophenyl ether, diethylene glycol monoether ether, diethylene glycol monoether ether, ethylene glycol monoether hexyl Examples include bath additives.

In preparing the composition for forming a thin layer on at least one side of the transparent recording material of the present invention, the main component is a high boiling point solvent such as the one mentioned above that is used as a component of the ink. Resin component B is selected whose solubility is higher than that of resin component A, which is a component of the ink. It may also be possible to utilize the fact that the solubility of the resins differs depending on the molecular weight.

Furthermore, in order to increase the solubility with the same type of resin,
The resin component B may be a resin copolymerized with other monomer components or modified by introducing substituents. Of course, resin components A and B do not need to be a single component, and may be a mixture of two or more resin components, or may include surfactants such as other penetrating agents, or plasticizers. It's okay. To describe the selection of resin components A and B more specifically, for example, when aromatic hydrocarbons such as triethylbenzene and aromatic naphtha are used as a high boiling point solvent, as resin component B, styrene resin , the chlorinated paraffin resin has high solubility,
It is desirable. In addition, in the case of so-called cellosolve-based dissolution such as ethylene glycol monoethyl ether, or their acetate-based solvents, cellulose acetate is used as the resin component B.

Cellulose resins such as cellulose butyrate, cellulose acetate butyrate, and cellulose nitrocellulose are desirable because they exhibit high dissolving power, and in particular, the dissolving power of these cellulose resins in cellosolve and acetate solvents is desirable. The resin components A and B may be selected by taking advantage of the differences in molecular weight and degree of esterification. For example, if you use nitrocellulose resin, take advantage of the difference in solubility depending on its molecular weight and use a nitrocellulose resin with a viscosity of % seconds or 2 seconds as the resin content A.
Further, as the resin component B, a nitrocellulose resin having a viscosity of 1 second to 4 seconds is selected.

In addition, when polyethylene glycol-based high boiling point solvents are used, polyvinyl alcohol, polyacrylamide) 1
The resin component B may be obtained by introducing and modifying a resin such as No. 1 or an acrylic resin with a root group such as No. 1, or a resin having higher solubility.

〔Example〕

Example A thin layer of the composition of the following formulation (a) was applied to one side of a biaxially stretched polyester film having a thickness of 10 μm, which had been subjected to subbing treatment, to a thickness of 6 μm using a wire method. A transparent recording material was obtained.

When printing was performed on the thin layer surface of the obtained transparent recording material with a wire tod printer using an ink resin made by adhering ink of the following composition (b) to a base fabric, the apparent drying speed of the printed area was 2 seconds. It was extremely quick, and the fixing power of the print and the transparency of the resulting recording medium were also excellent.

Comparative Example A transparent recording material was obtained by applying a thin layer of the composition of the following formulation (c) on the same polyester film as in the example by the same method.

When printing was performed on the thin layer surface of the obtained transparent recording material using the ink clean used in the examples, the apparent drying speed of the printed portion was 60 seconds.

A comparison of the drying speeds of the blanks of Examples and Comparative Examples shows that the drying speed of the printing on the transparent recording material according to the present invention is excellent, as shown in the table below.

Claims (1)

[Scope of Claims] A recording material printed using an ink having a composition appropriately blended with a high-boiling point solvent, a resin component, a coloring agent, and other additives if necessary, at least on one side of which has a high-boiling point component in the ink composition. 1. A transparent recording material comprising a transparent thin layer of a composition whose main component is a resin whose solubility in a solvent is higher than that of the resin in the ink composition.