JPH0532926A - Erasable water-soluble ink composition - Google Patents

Abstract

PURPOSE:To obtain the title ink composition not fading, capable of increasing concentration of calligraphy, simply erasing calligraphy by washing with water, comprising a coloring material such as catecholmonosulfonic acid-molybdenum complex. CONSTITUTION:The objective ink composition comprising preferably 0.1-65wt.% coloring material composed of one or more of water-soluble molecular weight complexes selected from a complex of catechol, a sulfonic acid-based derivative thereof and molybdenum (e.g. catechol-3-sulfonic acid molybdenum complex) and a complex of hydroxyquinoline, a sulfonic acid-derivative and molybdenum (e.g. 8-hydroxyquinoline-5-sulfonic-molybdenum) and water. 0.1-20wt.% water-soluble polymer such as polyethylene oxide is preferably added to the composition.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to an ink using a complex as a coloring material. More specifically, a pattern such as a pattern is written on a fiber assembly, and after cutting, the ink of a so-called chakoma marker that can erase this handwriting or an erasable printing ink (the ink can be easily removed when reusing cloth or paper). Erasable water-soluble ink composition for use in (removable).

[0002]

2. Description of the Related Art Further, as inks for drawing characters, lines, symbols, etc. on a fabric and erasing after use, these are phenolphthalein and timolate whose dyes are pH indicators.
There are those using dyes such as ruphthalein and bromotimolephthalein that are decolored and develop color depending on pH.

[0003]

In the above-mentioned conventional so-called chacoma-car ink, a pH indicator is used as a coloring material, so it is very difficult to obtain a density equivalent to that of an ordinary dye ink. Depending on the color and pattern, the handwriting is difficult to read. Further, there is a problem that the handwriting is easily affected by carbon dioxide gas in the air, a treating agent for the cloth, and the like, and the handwriting is discolored with time.

The present invention solves the above-mentioned problems of conventional inks, that is, the handwriting is discolored with time and the density of the handwriting is low, and an erasable water-soluble ink composition which can be easily erased with water is provided. The challenge is to obtain.

[0005]

The present invention comprises at least a coloring material and water, wherein the coloring material is a complex of catechol and a sulfonic acid derivative thereof and molybdenum, hydroxyquinoline and a sulfonic acid derivative thereof. An erasable water-soluble ink composition is characterized in that it contains at least one water-soluble colored complex selected from the complex of molybdenum and molybdenum.

Hereinafter, the ink of the present invention will be described in detail. The water-soluble colored complex is used as a coloring material, and the properties required for this are that it is easily dissolved in water and a water-soluble organic solvent, is stable in dissolution over time, and does not deposit a precipitate. There is a small adsorption power, stability such as light resistance of the complex alone is strong, and the complex does not fade with moisture, carbon dioxide gas, etc. over time, specifically, it is a catechol monosulfonic acid-molybdenum complex. -Clechol-3-sulfonic acid-molybdenum complex, catechol-4-sulfonic acid-molybdenum complex, catechol-3 as a catechol monosulfonate-molybdenum complex
-Sulfonate-molybdenum complex, catechol-4-sulfonate-molybdenum complex, catechol disulfonic acid-molybdenum complex as catechol 3,5-disulfonic acid-molybdenum complex, catechol disulfonate-molybdenum As the complex, catechol-3,5-disulfonate-molybdenum complex, hydroxyquinolinesulfonic acid-
8-Hydroxyquinoline-5-sulfonic acid-molybdenum complex as a molybdenum complex, 8-hydroxyquinoline-5-sulfonic acid-molybdenum complex as a hydroxyquinoline sulfonate-molybdenum complex, catechol-catechol-as a molybdenum complex Examples of molybdenum complexes and catechol-molybdenum complex salts include catechol-molybdenum complex salts. The above-mentioned salts are alkali metal salts such as sodium, potassium and lithium.

These water-soluble colored complexes are catechol-based compounds.
It can be easily made from a ligand such as sodium 3,5-disulfonate and a molybdate compound such as ammonium paramolybdate, and the ligand and molybdate compound are dissolved in the ink solvent when preparing the ink. Alternatively, it can be obtained by forming a complex separately from the ink solvent and mixing it with the ink solvent. Then, one kind or two or more kinds of these are selected and used as inks until the required density is obtained. The amount of these complexes used is 0.1 with respect to the total amount of ink.
˜65 wt% is preferred, and especially 1-65 wt% is preferred. When the amount of the complex used is 0.1% by weight or less, the ink concentration becomes low, and when it is 65% by weight or more, the dissolution stability becomes poor.

In addition to the above essential components, a water-soluble polymer may be used to adjust the viscosity of the ink in order to prevent bleeding of handwriting. Specifically, polyethylene oxide,
Methyl cellulose, polyvinylpyrrolidone, ethyl cellulose, hydroxyethyl cellulose, carboxymethyl cellulose, polyvinyl alcohol, polyacrylic acid, polyacrylamide, polyethyleneimine, guar
There are gum, locust bingham, quince seed gum, galactan, gum arabic, tragacanth gum, xanthan gum, dextran and the like, and one kind or two or more kinds are selected and used. The amount used is preferably 0.01 to 30% by weight with respect to the total amount of ink. Furthermore, 0.10
-20% by weight is more preferred. When the amount of the water-soluble polymer used is 0.01% by weight or less, the viscosity of the ink cannot be adjusted sufficiently and bleeding becomes large. If it is 30% by weight or more, the erasability is deteriorated.

Further, in addition, ethylene glycol, propylene glycol, diethylene glycol, if necessary.
, Triethylene glycol, 1,3-butylene glycol, thiodiglycol, glycerin, polyethylene glycol, N-methyl-2-pyrrolidone, sorbit,
Solubilizing agents such as sorbitan, acetin, urea, ethylene urea, and anti-drying agents, rust preventives, preservatives, and further polyoxyethylene alkyl ethers, polyoxyethylene alkyl aryl ethers, polyoxyethylene alkyl esters , Nonionic surfactants such as polyoxyethylene sorbitan fatty acid ester, polyoxyethylene glycerin fatty acid ester, etc., anionic surfactants such as dibasic fatty acid ester, sulfuric acid ester salt of higher alcohol, alkyl ammonium salt, alkyl PH of cationic surfactants such as benzyl ammonium salt, sodium hydroxide, sodium carbonate, alkanol amines, etc.
A regulator and the like can be added appropriately.

The erasable water-soluble ink composition of the present invention can be easily obtained by mixing and stirring the above essential components with a conventionally known stirrer and uniformly dissolving them.

[0011]

The erasable water-soluble ink composition of the present invention uses a specific complex as a coloring material, and since its dissolving power in water is much larger than its adsorptive power to fibers, it is easily desorbed from the fiber surface. It is thought that it is easy to wash off with water.

[0012]

EXAMPLES The present invention will be described in more detail by way of examples. In the examples and comparative examples, "part" means "part by weight".

Example 1 Sodium catechol-3,5-disulfonate (ligand) 5.0 parts Ammonium paramolybdate (molybdic acid compound) 5.0 parts Alcox R-1000 (polyethylene oxide, water-soluble) Polymer, Meisei Chemical Industry Co., Ltd. 0.1 parts Ethylene glycol 10.0 parts Sodium hydroxide (pH adjuster) 2.0 parts Water 77.9 parts The above components are stirred and dissolved to give a yellow ink. Got

Example 2 Catechol-molybdenum complex 20.0 parts Metroze SM (polymerization degree 340, methyl cellulose, water-soluble polymer, manufactured by Shin-Etsu Chemical Co., Ltd.) 1.5 parts Ethylene glycol 5.0 parts Neugen P (nonionic surfactant, manufactured by Dai-ichi Kogyo Seiyaku Co., Ltd.) 0.1 part Sodium hydroxide (pH adjusting agent) 5.0 parts Water 68.4 parts The above components are stirred and dissolved. To obtain a yellow ink.

Example 3 8-Hydroxyquinoline-5-sulfonic acid-molybdenum complex 35.0 parts Rubiscol K-90 (polyvinylpyrrolidone, water-soluble polymer, manufactured by BASF, Germany) 8.0 parts Glycerin 5. 0 part Sodium carbonate (pH adjuster) 9.0 parts Water 43.0 parts The above components were stirred and dissolved to obtain a yellow ink.

Example 4 Catechol-3,5-disulfonic acid-molybdenum complex 10.0 parts Rubiscol K-90 (polyvinylpyrrolidone, water-soluble polymer, manufactured by BASF, Germany) 18.0 parts ethylene glycol 20.0 parts Water 52.0 parts The above components were stirred and dissolved to obtain a yellow ink.

Examples 5 to 8 In Example 1, catechol-3-sulfonic acid-molybdenum was used instead of the coloring material composed of sodium catechol-3,5-disulfonate and ammonium paramolybdate. Complex, sodium catechol-4-sulfonate-molybdenum complex, 8-hydroxyquinoline-5-
A yellow ink was obtained in the same manner as in Example 1 except that sulfonic acid-molybdenum complex and catechol-molybdenum complex sodium salt were used.

Example 9 8-Hydroxyquinoline-5-sulfonic acid-molybdenum complex 5.0 parts Catechol-4-sulfonic acid-molybdenum complex 5.0 parts Alcox R-1000 0.1 part Ethylene glycol 10.0 parts Sodium hydroxide 2.0 parts Water 77.9 parts The above components were stirred and dissolved to obtain a yellow ink.

Comparative Example 1 Commercially available Chacoma pen (trade name: Chacopa, brown ink, West Japan Chacope)
Ink using a pH indicator as a coloring material.

Comparative Example 2 Catechol-3,5-disulfonic acid-copper (trivalent) complex 20.0 parts Metroze SM (polymerization degree 340, methyl cellulose, water-soluble polymer, Shin-Etsu Chemical Co., Ltd. )) 1.5 parts Ethylene glycol 5.0 parts Neugen P (nonionic surfactant, manufactured by Dai-ichi Kogyo Seiyaku Co., Ltd.) 0.1 part Sodium hydroxide (pH adjuster) 5.0 parts Water 68.4 parts The above components were stirred and dissolved to obtain a brown ink.

Comparative Example 3 Sodium catechol-3,5-disulfonate 5.0 parts Nickel nitrate hexahydrate 5.0 parts Rubiscol K-90 18.0 parts Glycerin 20.0 parts Water 52.0 parts The above components were stirred and dissolved to obtain a yellow-green ink.

Comparative Example 4 Water Yellow # 1 (water-soluble dye, manufactured by Orient Chemical Industry Co., Ltd.) 14.0 parts Rubiscol K-90 8.0 parts Glycerin 5.0 parts Water 73.0 Parts The above components were stirred and dissolved to obtain a yellow ink.

Comparative Example 5 Water Yellow # 2 (water-soluble dye, manufactured by Orient Chemical Industry Co., Ltd.) 10.0 parts Rubiscol K-90 (polyvinylpyrrolidone, water-soluble polymer, BASF, Germany) 18.0 parts Ethylene glycol 20.0 parts Water 52.0 parts The above components were stirred and dissolved to obtain a yellow ink.

[0024]

The inks obtained in Examples 1, 5 to 9 and Comparative Example 1 were filled in felt-tip pens (made by Pentel), and the test cloths (65% polyester, 35% cotton blade, color,
The test was conducted using a sample with a straight line written on the white). Commercially available airbrushes (Home Hand Pace Y-) using the inks obtained in Examples 2 and 3 and Comparative Examples 2 and 3, respectively.
The test was performed by using a 3rd type, manufactured by Itoya Co., Ltd.) as a sample by writing a straight line on a test cloth (65% polyester, 35% cotton, color, white). Samples obtained by printing straight lines on a test cloth (65% polyester, 35% cotton blade, color, white) by screen printing using the inks obtained in Example 4 and Comparative Example 4 were sampled. As a test. The results are shown in Tables 1 and 2.

[0025]

[Table 1]

[0026]

[Table 2] Density: Visually determine the density of the handwriting ... ○ Readable
× Indecipherable bleeding: Visually determine bleeding of handwriting ... ○ Small bleeding × Large bleeding erasability: After leaving the sample at room temperature for 1 day, soak it in water,
After 1 hour, visually judge the state of the removed handwriting ... ○ Completely erased × Do not erase Discolored over time: The sample was stored for 1 month at room temperature, and the discolored state was visually determined… ○ No discoloration

The above test was conducted using polyester 6 as a test cloth.
5%, 35% cotton blended with nylon, vinylon,
In each of the acetate, acrylic, and polyester fibers, more excellent erasability was obtained. Also, when writing on paper, good results were obtained also on high-quality paper, Japanese paper, drawing paper, Kent paper, and the like.

As described above, the erasable water-soluble ink composition of the present invention is easily washed off with water, and the handwriting can be easily erased by washing with water. Therefore, unlike ink that erases handwriting due to chemical changes in ink, discoloration with time does not occur due to carbon dioxide gas in the air, a treatment liquid for cloth, or the like. Also, the density of handwriting can be increased.
Further, the erasable water-soluble ink of the present invention can be easily erased by water even when printed on paper, and thus can be used for recycling paper. Since the ink of the present invention has a yellowish ink color, the handwriting can be clearly discerned even when writing on a dark cloth.

Claims (1)

Claim: What is claimed is: 1. A coloring material and at least water, wherein the coloring material is a complex of catechol and its sulfonic acid derivative with molybdenum, and hydroxyquinoline and its sulfonic acid derivative and molybdenum. An erasable water-soluble ink composition comprising at least one water-soluble colored complex selected from complexes with