DE4401619A1 - Aq. damping soln. free from isopropanol and use in printing - Google Patents

Abstract

Damping compsn. (I) contains water, non-ionic surfactant(s) of the formula: R-(CH2CH2O)n1-(CHMe-CH2O)n2-H (II); R = 1-9C alkyl; n1 and n2 = values such that the block polymer has mol.wt. = 250 or more and n12/n2 = 0.5-2; and a polyvinylphosphonic acid of the formula: H-(CH2CH)P(=O)(OH)2m-H (III); m = a value such that (III) has mol.wt. 2000-50000.

Description

The present invention relates to a Treatment composition for the surface of lithographic printing plates, and in particular a Dampening solution. In particular, it relates to a Moisturizing composition, preferably for a Moistening device, in which continuously water is supplied, is usable.

Lithographic printing is carried out by the surface of printing forms water and ink is supplied to achieve that the image is preferably the color ink absorbs and the non-image preferably absorbs water, and then the ink on the image part on a substrate, like For example, paper, is transmitted. Therefore it is for Obtaining high quality prints that are important Difference in oleophilicity or hydrophilicity between the Surface of the image and that of the background non-image is sufficiently large, so that when water and ink be applied, the picture a sufficient amount of ink  while the non-image is the ink completely repels. That is, a suitable one Balance of ink / water is used to obtain prints important with good quality.

If water, d. H. a moistening solution, in excess is applied, the ink is too much emulsified and suffers a delay under the action of the water causing drying, resulting in backside images leads. On the other hand, if the amount of supplied Moistening solution is too small, the ink sticks to the Non-image areas, so that stains arise.

The main purpose of using the humidifying solution is the inhibition of staining on background areas, which can occur during printing, and in many Cases, the humidifying solution of pressure engineers using chromates in combination with Made of gum arabic or celluloses.

A method for a good balance of ink with Water in lithographic printing plates became more Improvement of printing qualities, such as Ink receptivity, stain resistance, acceleration and Automation of printing, studied. In general Isopropyl alcohol (hereinafter referred to as "IPA") added to the dampening solutions for this purpose. The The effects of IPA are an increase in Viscosity, decrease in surface tension and formation a suitable W / O emulsification with Ink / dampening solution.  

Since the Dahlgren water supply device invented in 1960 All the water supply devices were from this first type constructed on the assumption that IPA is used. continuous Water supply devices can be made by using IPA To best show their characteristics: d. H. a minimal amount of moistening solution can be uniform be applied to the plate surfaces. There water stabilizes quickly at the beginning of the pressure, the Paper waste in the initial stage. Recently IPA also used for molton or sleeve devices since The amount of water can be reduced and good prints can be obtained.

Recently, however, the legal provisions have become Prevention of poisoning by organic Solvents in accordance with the amendments of the Laboratory safety and hygiene law changed, and it There are efforts to set the IPA limits in aqueous Set IPA solutions to a maximum of 5%. In some Countries have already banned the use of IPA. If the IPA content is less than 5%, none good prints are received and the continuous Water supply devices used to accelerate the Their strengths can not be developed Validate. If IPA in an amount of more than 5% used, deduction systems must be installed locally become.

In addition, IPA belongs to the group of flammable Alcohols and falls under the fire prevention law (Fire Services Act). In addition, after the  Wastewater determinations of biochemical oxygen demand (BSB) are adequately controlled.

Another problem with using IPA is its Costs. For rotating perfect four-color roller Offset presses with a continuous Water supply device are equipped, a large amount of IPA needed, and the pressure engineers need to face this problem.

In order to improve the problems with IPA, JP-OS 61-55480 proposes a method of reducing the amount of alcohol. However, this method is still insufficient to meet regulations for preventing organic solvent poisoning. In addition, there are methods of using butyl cellosolve (USP 3,877,372), 2-ethyl-1,3-hexanediol (Japanese Laid-Open Patent Publication No. 57-19969), and glycol ether esters and water-soluble polymers in combination (Japanese Laid-Open Patent Publication No. 58-167280). However, these humidifying solutions have disadvantages such. For example, the contamination of the printing rollers, the filling of dot images and difficulties in printing due to a narrow suitable range for the amount of water. On the other hand, Japanese Unexamined Patent Publication No. 3-92392 discloses that it is necessary to provide the same printing suitability as that of an IPA-containing dampening solution so that the dynamic surface tension becomes not less than 10 ^-1 seconds from the formation of a fresh surface in the range of 25 to 50 mN / m (dynes / cm) at 15 ° C and the viscosity in the range of 1.05-5.0 x 10 ^-1 Pas [1.05-5.0 x 10 ² dynes / cm ² ] lies.

As mentioned above, different humidifying solutions were used as substitutes for IPA-containing moistening solutions but there are still many problems to be solved.

Object of the present invention is a Moistening composition for lithographic To provide printing forms that have a excellent printability allowed without IPA too use.

The above goal was through a Moistening composition achieved, the at least one nonionic surfactant shown by the following formula (I), contains:

(wherein R represents an alkyl group of 1 to 9 carbon atoms and n ₁ and n _{2 are} the number of moles necessary for the block polymer to have a molecular weight average of 250 or more and n ₁ / n ₂ = 0.5 to 2) and a polymer represented by the following formula (II)

(wherein m is a number which is the polymer Provides molecular weight average of 2,000 to 50,000).  

The moistening composition of the invention used nonionic surfactants a hydrophilic part having a propylene oxide unit and an ethylene oxide unit and a hydrophobic part with an alkyl group having 1 to 9 carbon atoms, and has a molecular weight of 250 or more, preferably 500 to 3000. The upper limit of the molecular weight is in the general 5000, but can exceed 5000.

The nonionic represented by the formula (I) Surfactants are known compounds and commercially available, for example from Nippon Oil & Fats Co., Ltd.

The nonionic surfactant is preferably in an amount of 1 to 10 g / Humidifying solution (working solution) included, but can also contained in amounts outside the above range his. The nonionic contained in the above range surfactant shows an efficient decrease of dynamic surface tension and an increase in the Viscosity.

The compounds represented by the formula (II), used in the present invention are Polycondensates of vinylphosphoric acid monomers and in Trade available.

The preferred degree of polymerization m of the polymer is 20 to 90 and the polymer is preferably in an amount from 10 to 100 mg / moistening solution (working solution) contain.  

The activity when using the humectant composition The present invention can be known by adding Substances, such as desensitization accelerators, buffers, Preservatives and wetting agents, be modified. Examples of such substances are gum arabic, Carboxymethylcellulose, sodium alginate, Polyvinylpyrrolidone, polyvinylimidazole, Polyvinyl phosphoric acid, sulfates (such as sodium sulfate and Ammonium sulfate), phosphoric acid, nitric acid and Tannic acid, and salts of these acids, polyol compounds with 2 or more hydroxyl groups (such as polyethylene glycol, Ethylene glycol, propylene glycol and diethylene glycol), weak organic acids (such as Citric acid, succinic acid, tartaric acid, adipic acid, Ascorbic acid and propionic acid), inorganic fine particles (such as an alumina sol and colloidal Silica), polyacrylic acid, ammonium bichromate, chrome alum, Aminopolycarboxylates (such as Sodium ethylene).

In addition, water-miscible organic Solvents such as methanol, dimethylformamide and dioxane, or dyes, such as phthalocyanine dyes, Malachite green and Nile blue added in a small amount which essentially affect the appearance.

The moisturizing composition of the present invention is particularly important for lithographic silver salt Printing forms usable using However, silver halide emulsions can be prepared also be used for other printing forms.  

The present invention is not affected by the following limiting examples explained.

example

The dampening solutions shown in Table 1 (Working solutions) were made using the following Components and water in a total amount of 1 manufactured.

Propionic acid | 0.2 g sodium nitrite 1.0 g surfactant 0g or 5g polymer 50 mg IPA 0g or 200g

Table 1

The assessment of humidifying solutions was published in the following points. The results are in Table 2 is shown.

• (1) Measurement of Dynamic Surface Tension: The dynamic surface tension was at 21 ° C below Use of an automatic dynamic Surface sensitometer FACE JET-2®, manufactured by Kyowa Kaimen Kagaku Co., measured.  
• (2) Measurement of viscosity: The viscosity was at 25 ° C using an E-type viscometer (VISCONIC ED®) manufactured by Tokyo Keiki Co., Ltd., measured.
• (3) inhibition of staining and replenishment of stain Dot image: A print was made using a Silver salt printing plate SLM-RII® (manufactured by Mitsubishi Paper Mills) and the presensitized plates FNS® and FPS® (manufactured by Fuji Photo Film Co., Ltd.) as Printing Forms, F Gloss Kon-ai® (manufactured by Dainippon Ink & Chemicals Inc.) as an ink, and HEIDELBERG T-OFFSET® (Model TOK) designed as a printing press. The review was carried out according to the following criteria:

Inhibition of staining:
Number of prints obtained before staining occurred:

X: less than 500 Δ: 500 to 1000 ○: more than 1000

Filling a point picture:
The number of prints received before the filling of a dot image occurred:

X: less than 500 Δ: 500 to 1000 ○: more than 1000

Table 2

As explained above, the present invention provides a Moistening solution available, the lithographic printing without the use of IPA allows.

Claims (4)

A humectant composition comprising water, at least one nonionic surfactant represented by the following formula (I) wherein R represents an alkyl group having 1 to 9 carbon atoms, and n ₁ and n _{2 are} the necessary molar numbers for the block polymer to have an average molecular weight of 250 or more, and n ₁ / n ₂ = 0.5 to 2, and a polymer represented by the following formula (II) wherein m is a number which imparts to the polymer an average molecular weight of 2,000 to 50,000. 2. moistening composition according to claim 1, characterized in that it nonionic surfactants in one Amount of 1 to 10 g / l contains.   3. moistening composition according to claim 1, characterized in that it polymer represented by formula (II) in an amount from 10 to 100 mg / l. 4. Printing method, thereby characterized in that Moisturizing composition of any of the foregoing Claims is used.