JPS635988A - Ink sheet - Google Patents

Abstract

PURPOSE:To obtain an ink sheet having excellent feedability and printing performance, by incorporating a solid electrolyte into an ink layer. CONSTITUTION:An ink layer 3A of an ink sheet 1A comprises a solid electrolyte having excellent electrical conductivity and transparency. The solid electrolyte may be, for example, an alkali metal salt such as lithium perchlorate, lithium phosphate and lithium silicate, and it is suitable that the content of the solid electrolyte in the ink layer 3A is 0.1-30wt%, from the viewpoints of antistatic property, printing performance or the like. Since the solid electrolyte incorporated in the ink layer has excellent electrical conductivity and transparency, the electrical insulating property of the ink layer can be lowered without adversely affecting the hue or the like of the ink layer. Accordingly, static electricity is prevented from being generated on the ink sheet, and the ink sheet is prevented from being rolled or tucked up around a platen, a pinch roller or the like due to electrification.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an ink sheet that is a printing medium for a printer, and particularly to an ink sheet that has improved ink sheet conveyance properties and printing characteristics.

[Conventional technology]

Traditionally, ink sheets consist of an ink layer made of dyes, pigments, binders, low melting point agents, plasticizers, etc., and a base material such as plastic or paper, and ink sheets are used as printing media in printers. .

Figure 1 is a cross-sectional view of a conventional ink sheet. In the figure, (1) is an ink sheet, (2) is a base material of this ink sheet (C7'), for example, a plastic film such as a polyester film, and (3) is a sectional view of a conventional ink sheet. This is an ink layer formed by laminating on this base material (2).

A conventional ink sheet (1) is constructed as described above, with the substrate (1) and the ink layer (3) - generally electrical insulators. Therefore, the conveyance system of the ink sheet (1), that is, the head, platen, pinch roller and other various supporting parts,
When the ink sheet (1) is conveyed in contact with the roller, the ink sheet (1) is charged to a high potential due to frictional force. Also, when unwinding or taking up the ink sheet roll, the ink sheet (1) may be deformed due to mutual friction.
(1) is charged to a high potential. Moreover, it takes a long time for the potential to decay due to charging.

[Problem that the invention seeks to solve]

Conventional ink sheets such as those described above have the problem that the highly charged ink sheet cannot be conveyed uniformly due to its electrostatic attraction, and printing performance deteriorates due to printing misalignment. there were. Furthermore, this static electricity has a negative electrical effect on electronic components used for electronic control of printers, causing problems such as malfunctions and malfunctions.

A general method for solving various problems caused by charging of the ink sheet is to bring a grounded static elimination brush made of conductive fiber into contact with the ink sheet (1). However, since the ink sheet (1) is electrically insulating, electrical conductivity is low and there is a problem in that great effects cannot be obtained.

This invention was made to solve these problems, and aims to provide an ink sheet with excellent conveyance properties and printing performance.

[Means for solving problems]

The ink sheet according to the present invention has an ink layer containing a solid electrolyte.

[Effect]

In this invention, since the solid electrolyte contained in the ink layer has excellent electrical conductivity and transparency, it is possible to reduce the electrical insulation properties of the ink layer without adversely affecting the hue of the ink layer. can. Therefore, not only can static electricity be prevented from being generated on the ink sheet, but also the generated static electricity can be quickly attenuated, and the ink sheet itself can have an antistatic effect.

〔Example〕

FIG. 1 is a sectional view showing an embodiment of the present invention, and the symbol (=) is exactly the same as that of the conventional ink sheet. (/A) is an ink sheet according to the present invention, (3A) is an ink layer laminated on base material (2) and contains a solid electrolyte, and (lI) is a recording paper for a printer (not shown).

In the ink layer (3A) configured as described above, the ink layer (3A) contains a solid electrolyte with excellent electrical conductivity and transparency. This solid electrolyte, for example, lithium perchlorate (LiC10,), lithium phosphate (Ll, 7P)
The content of alkali metal salts such as sulfur silicate A (Lt, sio, 0 for (3A). /wt% to 30 wt% is suitable. Further, in order to improve the antistatic effect, a polar aprotic solvent such as propylene carbonate may be added to the ink layer (3A). The amount added is preferably an amount that does not reduce printing performance, that is, 7 weight to 300 weight to ink layer (3A).

The ink layer (3A) contains, for example, dye 10p, natural wax 23g, synthetic wax 33g, plasticizer 13g 1 petroleum resin, 2g, solid electrolyte 109, and l.luene 1
It is obtained by kneading Iooy in a ball mill for 10 hours.

Inc.) (/A) is, for example, a polyester film (thickness 3 μm left), which is the base material (2), wound with a width of 3
The above ink layer (3A) is coated on a long roll of /emvt to a predetermined thickness (for example, 3 μm-t μm) using a bar coater, a gravure printer, etc., and dried. The appearance of the obtained ink sheet (/A) is smooth and the transparency of the ink layer (3A), which is the property necessary to obtain a color printed image, is sufficient in both visual inspection and transmitted light tests. I was also able to confirm.

Such an ink sheet (/A) was mounted on a thermal transfer printer, overlapped with a recording paper (lI), and passed through an ink sheet-recording paper transport system for 2λ0rrL. As a result, the ink sheet (/A) is charged and the ink sheet (/A) is charged.
It was confirmed that the product was transported normally without being caught in any part of the transport system that came into contact with it.

In addition, if a solution in which the solid electrolyte in the above embodiment is dissolved in advance in a polar aprotic solvent such as pyrene carbonate is added, the antistatic effect of INCSY) (/A) can be further improved. can. In this case, since ion dissociation of the solid electrolyte is promoted in a non-aqueous solvent, a sufficient antistatic effect is exhibited even in a low-humidity environment, which has great practical merits.

〔Effect of the invention〕

As described above, the present invention is composed of a base material and an ink layer laminated on the base material and containing a solid electrolyte, so that the ink sheet does not get caught up in platens, pinch rollers, etc. due to electrical charging, and does not swell. This has the effect of improving the reliability of the printer's conveyance system and improving the transfer recording characteristics.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing an embodiment of the present invention, and FIG. 2 is a sectional view of a conventional ink sheet. In the figure, (1), (/A) are ink sheets, (:1
) is the base material, (7), (,?A) is the ink layer, (lI
) is the recording paper. In each figure, the same reference numerals indicate the same or corresponding parts.

Claims (5)

[Claims] (1) An ink sheet comprising a base material and an ink layer laminated on the base material and containing a solid electrolyte. (2) The ink sheet according to claim 1, wherein the content of the solid electrolyte is 0.1% to 30% by weight. (3) The ink sheet according to claim 1, wherein the solid electrolyte is selected from the group consisting of lithium perchlorate, lithium phosphate, and lithium silicate. (4) The ink layer contains 1% to 3% by weight of a polar aprotic solvent.
The ink sheet according to claim 1, characterized in that the ink sheet contains 0% by weight. (5) The ink sheet according to claim 4, wherein the polar aprotic solvent is propylene carbonate.