JPS62143983A - Printing ink - Google Patents

Abstract

PURPOSE:A printing ink, containing spherical particles of a specific resin or wax having a constant melting point and average particle diameter and capable of giving running stability of printing paper and strong printed and coated surfaces in a heating setting offset rotary printing. CONSTITUTION:A printing ink obtained by incorporating 0.1-20wt% spherical particles of a resin having >=120 deg.C melting point and 0.1-30mum average particle diameter, e.g. nylon based resin, etc., or wax without dissolving or swelling in an ink in a heat-setting type offset rotary printing ink.

Description

DETAILED DESCRIPTION OF THE INVENTION OBJECTS OF THE INVENTION (Industrial Field of Application) The present invention provides printing paper with good running stability in heat-setting offset rotary (off-wheel) printing.

This invention relates to a printing ink that provides a strong printed coating surface.

(Prior art) Generally, after printing with a printing press, hot air is applied to the printing surface to evaporate the solvent in the ink at a paper surface temperature of 90 to 130°C, and then the ink is rapidly cooled with a cooling roller. After being cooled and solidified, it is output as a signature or sheet.

Rubbing scratches on printed matter on the printing press are caused by rubbing in the drying oven when the running paper swings up and down between the final printing and cooling rollers, and by rubbing on the guide rollers and triangular plate after cooling and solidifying. There are two types of products that are caused by rubbing, and both of them significantly reduce product value.

As a means to prevent scratches, ■ Increase the tension of the running paper between the final printing and cooling rollers on the operating surface of the printing machine to improve the separation of the paper from the blanket. ■Lower the ink tank to improve the separation of the paper from the blanket. ■Polyethylene wax, microcrystalline wax, which has fine particles with various shapes (referred to as amorphous),
There are methods such as adding a solvent such as polyethylene tetrafluoride to the ink.

However, increasing the tension of running paper (■) tends to cause paper breakage, and tuck-down of ink (■) can cause printing problems such as staining and misting. In addition, the use of irregularly shaped wax in (2) is effective in improving the strength of the printed film that is solidified by cooling, but it does not necessarily improve the separation of the paper from the blanket.

(Problems to be Solved by the Invention) Therefore, the printing ink used for off-wheel printing has good separation from the paper from the brush socket, excellent running stability of the printing paper, and moreover, it has a strong hardness after being cooled and solidified. An ink that would provide a printed coating surface was desired.

"Structure of the Invention" (Means for Solving the Problems) The present invention provides a heat-set type offset rotary ink in which a resin or wax having a melting point of 120° C. or higher that does not dissolve or swell in the ink has an average particle size of 0. .1～
The printing ink contains 0.1 to 20% by weight, preferably 0.5 to 10% by weight of 30 μm spherical particles.

The shape of the spherical particles can be spherical, ellipsoidal, or similar.

The three spherical particle resins and/or waxes are nylon-based, vinyl-based, silicone-based, and epoxy-based.

One or a mixture of two or more of known resins such as olefins and styrenes, natural waxes, paraffin waxes, polyolefins, and known waxes such as their oxides and derivatives, and has a melting point of 120°C or higher. Things can be mentioned. These resins or waxes are those that do not melt or swell due to the solvent, oil, etc. in the ink. If it dissolves or swells, it is unfavorable in terms of gloss and paper release. Moreover, if the melting point is lower than 120° C., it will melt during heating and drying, causing deterioration of the gloss of printed matter. In addition, if the particle size is smaller than 0.1 μm, paper separation from the blanket cannot be improved, and if it is larger than 30 μm, it may cause plate residue or blanket residue during printing.

Further, if the amount added is less than 0.1% by weight, paper separation from the blanket will not be improved, and if it is more than 20% by weight, the fluidity of the printing ink will be impaired, which is not preferable.

The off-wheel ink according to the present invention contains rosin-modified phenolic resin, petroleum resin, alkyd resin, or a resin such as a drying oil-modified resin of 20 to 50% by weight.

Drying oils such as linseed oil, tung oil, and soybean oil O ~ 30% by weight,
Normal paraffin, isoparaffin, naphthene, α-
Solvents such as olefins or mixtures thereof 10-60
Weight%, organic pigment, inorganic pigment 1 extender pigment, dryer,
It consists of 0 to 60% by weight of additives such as drying inhibitors.

Off-circle ink has a temperature of 100% on two paper surfaces after printing.
~150℃9 Usually around 110℃,! ! ) Heated by wind, etc.

The printing ink of the present invention can be used not only as a heat-set type off-wheel ink but also as a non-heat off-line ink for printing on 9 rolls of paper and a 6-wheel ink.

This will be explained below using examples. "Parts" in the text indicate parts by weight.

Example I Fine Pearl 3 for 100 parts of WK New Tough (Higashi Ink Manufacturing @: heat set type off-wheel ink)
Ink=1 was prepared by mixing 5 parts of 000F (Sumitomo Chemical Co., Ltd. 01: polystyrene, true spherical particles with an average particle size of 6 μm, heat resistant temperature 200° C.) using a high-speed mixer.

Example 2 Orgasol 2002 for 100 parts of WK Nutuff
EX-DNAT (Japan Rilsan@@: 12 nylon, spherical particles with average particle size 10 μm, melting point 175-17
9°C) in a high-speed mixer.

Ink-2 was created.

Example 3 Xc99-5 for 100 parts of WK Knee Tough
01 (Toshiba Silicone n: silicone resin, spherical particles with an average particle size of 2 μm, weight loss rate at 350°C 2-3%)
Three parts were mixed using a high-speed mixer to prepare Ink-3.

Example 4 Miperon XM220 (Mitsui Petrochemical Industries ■: polyolefin, spherical particles with an average particle size of 20 μm, melting point 136° C) Mix 1 part with a high speed mixer.

Ink-4 was created.

Comparative Example I Sasol Wasokusu ■1 for 100 parts of WK Newtuff
-1・P-10 (Sasol Corporation 2FT wax, particles having various shapes with an average particle size of 10 μm or less accounting for 90%, partially soluble in ink) was mixed with a high-speed mixer, and ink-5 It was created.

Comparative Example 2 AC polyethylene 6 to 100 parts WK Newtuff
(Allied Fibers & Plastics: Polyethylene, pellets with an average particle size of over 30 μm.

Ink-6 was prepared by kneading 3 parts of the ink (dropping temperature (dropping point): 106°C) using three rolls.

Comparative Example 3 63 parts of AC polyethylene per 100 parts of WK Acwares
The mixture was kneaded and mixed using three rolls to prepare Ink-7.

Printing test examples 1 to 4. Printing tests were conducted on the inks of Comparative Examples 1 to 3 using a Mitsubishi Heavy Industries type L-500 four-color off-wheel printing press and a TEC dryer manufactured by Inoue Metal. Note that the heating temperature was 110° C. in paper surface temperature.

The evaluation results are shown in Table 1. In addition, as a printing evaluation, paper release property: The minimum tension of the running paper at which the printing paper swings upwards and downwards and does not become undone in the drying oven (tension) was determined using a tension meter attached to the printing machine.

Triangular plate/guide roller rubbing... Based on the degree of misalignment of the printed matter, good ones are O9. Poor ones are marked as ×, and those in the middle are marked as △.
60° to 60°).

As the evaluation results show, the printing ink obtained by the present invention.

It was possible to satisfy the paper release properties, the triangular plate, the resistance to rubbing by guide rollers, and the gloss.

Claims (1)

[Claims] 1. In heat-set type offset rotary ink,
Average particle size of resin or wax that does not dissolve or swell in ink and has a melting point of 120°C or higher, 0.1 to 30
A printing ink characterized by containing 0.1 to 20% by weight of micrometer spherical particles.