JP2005113069A - Lithographic printing ink composition - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an environment-harmonizing lithographic printing ink composition safe for human bodies which can remove odorous components such as solvent gases generated from printed matters in lithographic printing as the major printing method. <P>SOLUTION: The highly safe, environment-harmonizing lithographic printing ink which exhibits stable deodorizing and antibacterial actions over long period of time can be obtained and generation of unpleasant odors from printed matters can be inhibited over long period of time by incorporating tropolones, carvacrol, terpenes, sesquiterpenes, terpene alcohols or sesquiterpene alcohols into the lithographic printing ink, or by further causing these compounds to be adsorbed to titanium oxide by an impregnation treatment. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

    The present invention is an environmentally friendly lithographic plate that can decompose or adsorb a solvent or vegetable oil rancidity generated from printing ink to prevent odor generated from the printed material, and can also exert tonicity and calming effects from the printed material. The present invention relates to a printing ink composition.

    Conventional solvents used in lithographic printing inks include petroleum hydrocarbons, alcohols and esters. The offset ink industry has been working to improve the global environment and working environment. Conventional ink solvents contained aromatic hydrocarbons as their constituents, but nowadays, AF (aroma-free) solvents containing 1% or less of aromatic components based on paraffin and naphthene are generally used. Is. Although the AF solvent is excellent in low odor, low skin irritation and biodegradability, the residual solvent in the printed matter causes a odor.

    On the other hand, flaxseed oil, tung oil, soybean oil, etc. are used for offset ink as vegetable oil components. These are called drying oils and semi-drying oils, and are added for the purpose of maintaining the fluidity of the ink itself, the gloss of the printed matter, and the film strength due to oxidative polymerization. A soy oil ink in which all or part of the petroleum solvent in the ink is replaced with soybean oil can be certified by the American Soybean Association. In recent years, soybean oil ink is becoming mainstream against the background of environmental problems, VOC regulations, and soybean agriculture promotion. Currently, 100% vegetable oil non-VOC ink has been developed that does not contain any petroleum-based solvent which is a volatile component in sheet-fed ink. In these vegetable oils, the double bond portion of the unsaturated fatty acid is decomposed by oxidation and causes acid odor.

Japanese Patent Application Laid-Open No. 6-65018 discloses a technique that an insect repellent ink characterized by microencapsulating an essential oil component of a natural plant has an antibacterial action, and is applied to corrugated cardboard for packaging of foods and the like. ing. Printing on corrugated cardboard is generally performed using a flexographic printing method using a resin relief plate, but the structure of a printing machine is generally less complicated than that of a lithographic printing machine. In lithographic printing presses, ink rolls and flexographic printing are higher and the printing pressure is higher, and the microcapsules are destroyed during printing, making it difficult to maintain the antibacterial action for a long time. In addition, it is not easy to microencapsulate essential oil components of natural plants, and it is not widely used.
JP-A-6-65018

  The present invention has been made to solve these problems, and the object of the present invention is to remove odor components such as solvent gas generated from printed matter in lithographic printing of the main printing method. An environmentally friendly lithographic printing ink composition that is safe for the human body is provided.

That is, the present invention relates to a lithographic printing ink composition comprising one or more compounds selected from tropolones, carvacrol, terpenes, sesquiterpenes, terpene alcohols, and sesquiterpene alcohols.
Further, the present invention is characterized by containing a material obtained by impregnating titanium oxide with one or more compounds selected from tropolone, carvacrol, terpenes, sesquiterpenes, terpene alcohols, and sesquiterpene alcohols. The present invention relates to a lithographic printing ink composition.
Further, in the present invention, the tropolones are α-tyaprisin, β-tyaprisin, γ-tyaprisin, β-drabrin, and the terpenes are α-pinene, β-pinene, δ-pinene, δ-3-carene, camphene, sabinene , Terpinolene, myrcene, limonene, hinokiol, and sesquiterpenes are δ-cadinene, β-caryophyllene, α-copaene, α-cedrene, βcedrene, tyuopsen, α-himacarene, β-himacarene, α-muololene The terpene alcohols are α-terpineol, terpinene-4-ol, borneol, manool, and the sesquiterpene alcohols are α-oudesmol, cedrol, nerolidol, patchoulol, α-bisabolol, viridiflorol, and casinol. The above lithographic printing ink composition characterized by On.
Furthermore, this invention relates to the printed matter formed by printing the said lithographic printing ink on a base material.

  Safety that has stable deodorization and antibacterial action over a long period of time by impregnating and adsorbing with tropolones, carvacrols, terpenes, sesquiterpenes, terpene alcohols, sesquiterpene alcohols of the present invention and further impregnating with titanium oxide Highly environmentally friendly lithographic printing ink can be obtained, and unpleasant odor generated from the printed matter can be prevented over a long period of time, resulting in an aromatherapy effect.

The present invention has found that tropolones, carvacrol and / or terpenes, sesquiterpenes, terpene alcohols, sesquiterpene alcohols efficiently decompose the acid-degrading gas of petroleum-based solvents and vegetable oils used in lithographic printing inks. The present invention has been reached.

The tropolones of the present invention are α-tyaprisin, β-tyaprisin, γ-tyaprisin, β-drabrin, and terpenes are α-pinene, β-pinene, δ-pinene, δ-3-carene, camphene, sabinene, Terpinolene, myrcene, limonene, hinokiol, and sesquiterpenes are δ-kadinene, β-caryophyllene, α-copaene, α-cedrene, βcedrene, tyuopsen, α-himacarene, β-himacarene, α-muololene, The terpene alcohols may be α-terpineol, terpinene-4-ol, borneol, manool, and the sesquiterpene alcohols may be α-oudesmol, cedrol, nerolidol, patchoulol, α-bisabolol, viridiflorol, and casinol. preferable.

Tropolones, carvacrols, terpenes, sesquiterpenes, terpene alcohols, and sesquiterpene alcohols that can be used in the present invention are effective even with a single component, but more effective when a plurality of components are mixed. These components are preferably contained in the lithographic printing ink in an amount of 0.005 to 10% by weight. If it is 0.005% by weight or less, the desired deodorizing / antibacterial effect is insufficient, and if it is 10% by weight or more, the ink performance balance such as ink drying properties deteriorates.

  Furthermore, in order to maintain the deodorant and antibacterial action, the tropolone, carvacrol, terpenes, sesquiterpenes, terpene alcohols, sesquiterpene alcohols of the present invention are added to the titanium oxide used as a pigment for lithographic printing inks. It is gradually impregnated into the ink in the form of ink so that it is gradually added from titanium oxide to α-Tyapricin, β-Tyapricin, γ-Tyapricin, β-Drabrin, Carvacrol, α-Pinene, β-Pinene, δ-Pinene, δ -3-carene, camphene, sabinene, terpinolene, myrcene, limonene, hinokiol, delta-cadinene, beta-caryophyllene, alpha-copaene, alpha-sedrene, beta-sedren, tubyosen, alpha-himacarene, beta-himacarene, alpha-muololene , Α-terpineol, terpinen-4-ol, borneol, mano , Alpha-Oudesumoru, led cedrol, nerolidol, patchoulol, alpha-bisabolol, kink di furo roll, heading invention that Kajinoru is released from the ink.

  As a method of impregnating titanium oxide with tropolone, carvacrol, terpenes, sesquiterpenes, terpene alcohols, sesquiterpene alcohols, as an example, 5 to 80 parts of tropolone or carvacrol with respect to 10 parts of titanium oxide Terpenes, sesquiterpenes, terpene alcohols, sesquiterpene alcohols, and hinokitiol are obtained by adsorption treatment using a disper. Further, this impregnated titanium oxide may be kneaded to a predetermined particle size with three rolls and added to the ink, or after being added to the ink while being dispersed with a disper, the kneaded meat is dispersed to make an ink. It is also possible.

  In addition, 0.2 to 5% by weight of sulfamic acid and sulfamic acid alkali salt and 0.2 to 5% by weight of silicate mineral called tourmaline are added to the ink as necessary to provide further deodorization and antibacterial action. It can be obtained effectively.

If necessary, the lithographic ink composition of the present invention may contain pigments (colored or colorless), solid and liquid resins such as rosin-modified phenolic resin / petroleum resin / alkyd resin / petroleum resin-modified phenolic resin, vegetable oil, vegetable oil ester, petroleum Additives for printing inks such as system solvents, gelling agents, antifriction agents, driers, and emulsifiers can be used as appropriate. Examples of gelling agents are those generally called aluminum chelates such as alkyl acetoacetate and aluminum diisopropylate. Examples of antifriction agents include polyethylene wax, PTFE wax, and solid paraffin wax. The material constituting the lithographic ink is not limited to the exemplified materials, and other known materials can be applied and manufactured.
A clear OP varnish can be produced by using colorless extender pigments. In this case, by using the lithographic ink usually used and finally printing the OP varnish of the present invention on the entire surface or spot, it is possible to easily suppress the odor from the printed matter and obtain a printed matter excellent in antibacterial properties.

The offset ink composition of the present invention can be produced by a conventionally known method. As an example, a rosin-modified phenolic resin, petroleum solvent, vegetable oil and a gelling agent as necessary are added and heated at around 200 ° C. for 1 hour to obtain a varnish. The tropolones, carvacrol, terpenes, sesquiterpenes, terpene alcohols, sesquiterpene alcohols of the present invention are used alone or in an ink base in which colorless or colored pigments are dispersed in this varnish with three rolls or bead mill. It is impregnated with titanium oxide and added, and an additive such as an antifriction agent is blended and prepared with an additional varnish and a solvent.

  In addition, the lithographic ink composition of the present invention can be converted into an ink without containing any petroleum solvent, and is measured in accordance with Method 24, which is a VOC measurement method for ink recommended in the US EPA. By this method, a lithographic printing ink having a weight loss of 1% by weight or less at 110 ° C. for 1 hour can be obtained.

Using the lithographic printing ink composition of the present invention, lithographic printing is performed on a substrate such as paper, plastic, metal, etc. to obtain a printed matter.

EXAMPLES Hereinafter, the ink solvent and the ink composition of the present invention will be described in detail by way of examples, but the scope of the present invention is not limited to these described examples. In the following description, “parts” means parts by weight “%” means wt%.
Example 1 (Titanium oxide treatment)
From essential oils collected from Cypress of Cypress family containing δ-3-carene, α-pinene, α-cedrene, terpinen-4-ol, cedrol and from hiba containing tyuopsen, carvacrol, β-tyaprisin, β-drabrin 140 parts of essential oil obtained by mixing essential oils to be collected at a ratio of 1: 1 and 10 parts of anatase-type titanium oxide were uniformly dispersed using a high speed mixer to obtain a titanium oxide treated product 1.
Similarly, essential oils extracted from cedars of the cypress family (containing β-caryophyllene, α-copaene, α-cedrene, β-cedrene, tyuopsen, α-mulolene, cedrol) and tyuopsen, carvacrol, β-tyaprisin, β -Petroleum resin varnish (C5 series having a weight average molecular weight of 10,000) after homogeneously dispersing 240 parts of essential oil obtained by mixing essential oil collected from Hiba containing drablin in a ratio of 1: 3 and 10 parts of anatase-type titanium oxide using a high speed mixer Petroleum resin / soybean oil) = 65 parts / 35 parts) 30 parts and soybean oil fatty acid methyl ester were added, and then the mixture was kneaded with 3 rolls to obtain a titanium oxide treated product 2 having a GR (particle size) of 2 or less.

Example (Ink production example)
Rosin-modified phenolic resin varnish 1 (weight-average molecular weight 18000, softening point 175 ° C., acid value 19 rosin-modified phenolic resin / soybean oil / AF solvent 5 / aluminum chelate = 45 parts / 12 parts / 42 parts / 1 part) and rosin Modified phenol resin varnish 2 (weight average molecular weight 18000, softening point 175 ° C., acid value 19 rosin modified phenol resin / soybean oil / soybean oil fatty acid butyl ester / aluminum chelate = 50 parts / 29 parts / 20 parts / 1 part) The phthalocyanine blue (LIONOLBLUE FG7330 manufactured by Toyo Ink Manufacturing Co., Ltd.) was mixed in the formulation shown in Table 1 and then kneaded with three rolls to obtain each ink base. Next, a friction resisting agent, a metal dryer, etc. were added to the respective ink bases according to the formulation shown in Table 1 to prepare lithographic ink compositions of Examples A to E and Comparative Examples F to G.

The properties and evaluation results of the inks obtained in each example are shown in Table 2. The evaluation measurement method is as follows.

(Viscosity) Cone plate viscometer (Eihiro Seiki Co., Ltd.) Measured at 25 ° C.
(Drying property) It represents the time when each lithographic ink composition was developed on coated paper with an RI tester (manufactured by Mei Seisakusho Co., Ltd.) and the drying time was measured with a Choyokai drying tester.
(Setability) After each lithographic ink composition is developed on coated paper with an RI tester (manufactured by Mei Seisakusho Co., Ltd.), an automatic ink set testing machine (Toyoei Seiki Co., Ltd.) Was used to measure the time required until the ink no longer adhered to the white paper.

(Odor 1) Each lithographic ink composition was prepared, and one day later, it was developed on coated paper with an RI tester (manufactured by Mei Seisakusho Co., Ltd.), and the odor after being stored sealed in an air collection bottle for 24 hours was subjected to sensory evaluation. .
Evaluation was made in 5 grades with little odor (1) ← (3) → (5) severe odor.
(Odor 2) Each lithographic ink composition was prepared, and after 30 days, the coated paper was developed with an RI tester (manufactured by Meiji Seisakusho Co., Ltd.), and the odor after being stored sealed in an air collection bottle for 24 hours was subjected to sensory evaluation. .
Evaluation was made in 5 grades with little odor (1) ← (3) → (5) severe odor.

By using the material of the present invention and applying it to hydrophilic titanium oxide or the like, aqueous bismuth can be produced, so that the width of lithographic printing can be applied in a wider range.

Claims (4)

  A lithographic printing ink composition comprising one or more compounds selected from tropolones, carvacrol, terpenes, sesquiterpenes, terpene alcohols, and sesquiterpene alcohols.     A lithographic printing ink composition comprising a material obtained by impregnating titanium oxide with one or more compounds selected from tropolone, carvacrol, terpenes, sesquiterpenes, terpene alcohols, and sesquiterpene alcohols .     Tropolones are α-tyaprisin, β-tyaprisin, γ-tyaprisin, β-drabrin, and terpenes are α-pinene, β-pinene, δ-pinene, δ-3-carene, camphene, sabinene, terpinolene, myrcene, Limonene, hinokiol, and sesquiterpenes are δ-cadinene, β-caryophyllene, α-copaene, α-cedrene, βcedrene, tubyosen, α-himacarene, β-himacarene, α-mulolene, and terpene alcohols It is α-terpineol, terpinen-4-ol, borneol, manool, and the sesquiterpene alcohol is α-oudesmol, cedrol, nerolidol, patchoulol, α-bisabolol, viridiflorol, casinol, Item 1. A lithographic printing ink composition according to item 1-2. The printed matter formed by printing the lithographic printing ink in any one of Claims 1-3 on a base material.