JP2017057344A - Inkjet aqueous ink composition and solid formulation - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide: an edible inkjet aqueous ink composition excellent in discharge stability, which can be directly printed by an inkjet system on a solid formulation such as pharmaceutical products, foods and the like; and a solid formulation.SOLUTION: The inkjet aqueous ink composition relating to the present invention comprises at least one dye and a surface tension regulator. The surface tension regulator is at least one compound selected from the group consisting of decaglycerin caprylate, hexaglycerin laurate, hexaglycerin oleate, condensed tetraglycerin linoleate, fatty acid ester palm, decaglycerin laurate having an HLB of 15 or less, and decaglycerin oleate having an HLB of less than 13.SELECTED DRAWING: None

Description

  The present invention relates to an aqueous inkjet ink composition and a solid preparation, and more specifically, an edible inkjet aqueous ink composition that can be directly printed by an inkjet method on tablets or the like of pharmaceuticals and foods, and the like. Relates to solid formulations.

  For foods such as pharmaceuticals and supplements in tablets, product information is displayed not only on the package but also on the tablet body, thereby improving their distinguishability and preventing dispensing errors and accidental ingestion. Tablets with a coated surface can be printed by a contact method such as gravure printing, so information with high discrimination is displayed on the other hand. Printing by the method is difficult. Therefore, for these tablets, a marking method that can display only simple characters has become the mainstream. As a result, in the pharmaceutical industry in particular, there is an increasing need for a new printing method capable of displaying highly discriminating information even for uncoated tablets, OD tablets and the like.

  As such a printing method, for example, ink jet printing using a water-based ink composition using a dye can be cited (see Patent Document 1 below). However, the conventional water-based ink composition has a problem that ejection stability is lowered due to ejection failure due to poor meniscus surface formation at the nozzle of the inkjet head.

JP 2011-236279 A

  The present invention has been made in view of the above problems, and has an object of having edible properties that can be directly printed by an ink jet method on solid preparations such as pharmaceuticals and foods, and ejection stability. It is an object to provide an aqueous ink composition for ink jet and a solid preparation excellent in the above.

  In order to solve the above problems, the inventors of the present application have studied an aqueous inkjet ink composition and a solid preparation. As a result, the inventors have found that the above problems can be solved by adopting the following configuration, and have completed the present invention.

  That is, the aqueous ink composition for inkjet according to the present invention includes at least one dye and a surface tension adjuster in order to solve the above-described problems, and the surface tension adjuster is decaglyceryl caprylate, At least selected from the group consisting of lauric acid hexaglycerin ester, oleic acid hexaglycerin ester, condensed linolenic acid tetraglycerin ester, fatty acid ester palm palm, decaglyceryl laurate having an HLB of 15 or less, and decaglyceryl oleate having an HLB of less than 13. It is one type.

  According to the above configuration, in the aqueous inkjet ink composition using a dye, by including at least one or more of the surface tension adjusting agents listed above, due to poor meniscus surface formation at the nozzle in the inkjet head, or the like. Discharge failure can be prevented. As a result, it is possible to provide a water-based ink composition for inkjet that prevents clogging of the nozzle and the occurrence of fading in a printed image, and is excellent in ejection stability. In addition, as the surface tension adjuster, since it uses decaglyceryl caprylate that conforms to the standards of pharmaceutical additives, Japanese Pharmacopoeia or the Food Additives specified by the Pharmaceutical Affairs Law, for example, solid preparations such as pharmaceuticals and foods In contrast, printing by an inkjet method is enabled.

  In the said structure, it is preferable that the said dye is an edible synthetic pigment | dye or an edible natural pigment | dye.

  In the said structure, it is preferable that the said edible synthetic pigment | dye is at least 1 sort (s) chosen from the group which consists of an azo dye, a triphenylmethane dye, a xanthene dye, and an indigoid dye.

  Furthermore, in the above configuration, the azo dye is preferably at least one selected from the group consisting of Red No. 2, Red No. 102, Red No. 40, Yellow No. 4 and Yellow No. 5.

  In the above configuration, the triphenylmethane dye is preferably at least one of Blue No. 1 and Green No. 3.

  In the above configuration, the xanthene dye is preferably at least one selected from the group consisting of Red No. 3, Red No. 104, Red No. 105 and Red No. 106.

  Moreover, in the said structure, it is preferable that the said indigoid type dye is blue No. 2.

  In the said structure, it is preferable that the said edible natural pigment | dye is at least 1 sort (s) chosen from the group which consists of a cochineal pigment | dye, a copper chlorophyllin sodium, a cacao pigment | dye, and a caramel pigment | dye.

  Moreover, it is preferable that the water-based inkjet ink composition having the above-described structure has edible properties. Edible means that it consists only of substances that are approved for oral administration as pharmaceuticals or pharmaceutical additives and / or substances that are approved as foods or food additives.

  In order to solve the above-mentioned problem, the solid preparation according to the present invention is a solid preparation comprising a tablet or a capsule, and having a dry film of an aqueous inkjet ink on the surface. It consists of the water-based ink composition for inkjet.

  According to the above configuration, since the inkjet aqueous ink composition containing at least one dye and a surface tension adjusting agent such as decaglyceryl caprylate is used as the inkjet aqueous ink, inkjet recording with the inkjet aqueous ink is performed. Even if printing is directly performed on the surface of the tablet or capsule by the method, it is possible to form a dry film capable of forming a good printed image without causing ejection failure or blurring of the image. Thereby, it is possible to display product information on the solid preparation main body, and it is possible to provide a solid preparation that can improve identification and prevent dispensing mistakes and accidental ingestion. The solid preparation of the present invention is meant to include food preparations and pharmaceutical preparations.

  According to the present invention, since it contains at least one kind of dye and a surface tension adjusting agent such as decaglyceryl caprylate that can prevent ejection failure due to poor meniscus surface formation at a nozzle in an inkjet head, inkjet It is possible to provide a water-based ink composition for inkjet that is free from clogging of the nozzles of the head, ejection failure, and blurring of the image, and has excellent ejection stability. Thereby, for example, printing by an ink jet method is possible even for solid preparations such as pharmaceuticals or foods.

(Water-based ink composition for inkjet)
The ink-jet aqueous ink composition (hereinafter referred to as “water-based ink composition”) according to the present embodiment will be described below. The water-based ink composition of the present embodiment is a water-based ink containing at least one dye and a surface tension adjusting agent and having a main solvent of water. In addition, the water-based ink composition of the present embodiment may be made edible by using a material that complies with the standards of pharmaceutical additives, Japanese Pharmacopoeia, or Food Additives Standards specified by the Pharmaceutical Affairs Law. And can be suitably used for inkjet recording.

  The dye is not particularly limited as long as it is an edible pigment, and specific examples include edible synthetic pigments (synthetic tar pigments) and edible natural pigments.

  Examples of the edible synthetic pigment include at least one selected from the group consisting of azo dyes, triphenylmethane dyes, xanthene dyes, and indigoid dyes. Further, the azo dye is not particularly limited, and examples thereof include at least one selected from the group consisting of Red No. 2, Red No. 102, Red No. 40, Yellow No. 4, and Yellow No. 5. The triphenylmethane dye is not particularly limited, and examples thereof include at least one of Blue No. 1 and Green No. 3. The xanthene dye is not particularly limited, and examples thereof include at least one selected from the group consisting of Red No. 3, Red No. 104, Red No. 105 and Red No. 106. Examples of the indigoid dyes include Blue No. 2.

  The edible natural pigment includes at least one selected from the group consisting of cochineal pigment, copper chlorophyllin sodium, cacao pigment and caramel pigment.

  These dyes can be used alone or in admixture of two or more as required. In addition, these dyes comply with the standards of pharmaceutical additives, Japanese pharmacopoeia or official food additives specified by the Pharmaceutical Affairs Law. Furthermore, the permeability with respect to the solid formulation which consists of a tablet and a capsule is favorable compared with another dye.

  The content of the dye is preferably in the range of 0.5% by mass to 10% by mass and more preferably in the range of 1% by mass to 5% by mass with respect to the total mass of the aqueous ink composition. . When the dye content is 0.5% by mass or more, it is possible to prevent the density of the printed image from becoming insufficient with many dyes. On the other hand, when the content of the dye is 10% by mass or less, it is possible to prevent the dye component from being deposited in the nozzle of the inkjet head.

  The surface tension adjuster is caprylic acid decaglyceryl, lauric acid hexaglycerin ester, oleic acid hexaglycerin ester, condensed linolenic acid tetraglycerin ester, fatty acid ester palm palm, HLB of 15 or less lauric acid decaglyceryl and HLB less than 13. And at least one selected from the group consisting of decaglyceryl oleate. You may use these individually by 1 type or in mixture of 2 or more types.

  A commercially available product can be used as the decaglyceryl caprylate, and examples of such a commercially available product include Ryoto (registered trademark) polyglycerate CE19D (trade name, manufactured by Mitsubishi Chemical Foods Co., Ltd., HLB). Value 15), SY glister MCA750 (trade name, manufactured by Sakamoto Pharmaceutical Co., Ltd., HLB value 16), and the like.

As said decaglyceryl laurate, that whose HLB is 15 or less can be used. When the decaglyceryl laurate has an HLB of more than 15, the ejection stability is lowered, for example, the occurrence of fading due to clogging of the nozzles of the inkjet head. The lower limit of HLB is preferably 10 or more from the viewpoint of solubility in an aqueous solvent. In addition, as decaglyceryl laurate having an HLB of 15 or less, a commercially available product can be used. As such a commercially available product, for example, NIKKOL (registered trademark) DECAGLYN 1-L (trade name, Nikko Chemicals ( Co., Ltd., HLB value 14.5), SY Glister ML-750 (trade name, manufactured by Sakamoto Pharmaceutical Co., Ltd., HLB value 14.8), and the like.
The HLB value is an HLB value according to the Griffin method and means a value obtained by the following equation.
HLB value = 20 × (sum of formula weight of hydrophilic group / molecular weight)
The HLB value is a value in the range of 0 to 20. The larger the HLB value, the stronger the hydrophilicity, and the smaller the HLB value, the stronger the hydrophobicity.

  As said decaglyceryl oleate, that whose HLB is less than 13 can be used. When the HLB is 13 or more, the ejection stability is deteriorated, such as blurring due to clogging of the nozzles of the inkjet head. In addition, it is preferable that the minimum of HLB is 10 or more from a viewpoint of the solubility with respect to a water solvent. In addition, as decaglyceryl oleate having an HLB of less than 13, a commercially available product can be used. As such a commercially available product, for example, NIKKOL (registered trademark) DECAGLYN 1-OV (trade name, Nikko Chemicals ( Co., Ltd., HLB value 12), SY glister MO-7S (trade name, manufactured by Sakamoto Pharmaceutical Co., Ltd., HLB value 12.9), and the like.

  As the lauric acid hexaglycerin ester, a commercially available product can be used, and as such a commercially available product, for example, NIKKOL (registered trademark) HEXAGLYN 1-L (trade name, manufactured by Nikko Chemicals Co., Ltd., HLB) Value 14.5), SY Glister ML-500 (trade name, manufactured by Sakamoto Pharmaceutical Co., Ltd., HLB value 13.5), and the like.

  Commercially available products can be used as the oleic acid hexaglycerin ester. Examples of such commercially available products include SY Glyster MO-5S (trade name, manufactured by Sakamoto Pharmaceutical Co., Ltd., HLB value 11. 6) and the like.

  Commercially available products can be used as the condensed linolenic acid tetraglycerin ester. Examples of such commercially available products include SY Glyster CR-310 (trade name, manufactured by Sakamoto Pharmaceutical Co., Ltd.). It is done.

  A commercially available product can be used as the fatty acid ester palm palm. Examples of such a commercially available product include Tirabazole W-01 (trade name, manufactured by Taiyo Kagaku Co., Ltd.).

  The content of the surface tension adjusting agent is preferably in the range of 0.5% by mass to 5% by mass and preferably in the range of 1% by mass to 3% by mass with respect to the total mass of the aqueous ink composition. Is more preferable. When the content of the surface tension adjusting agent is 0.5% by mass or more, when printing is performed by an inkjet method, ejection failure due to poor meniscus surface formation at the nozzle in the inkjet head is prevented, and It is possible to prevent clogging and blurring of the printed image. As a result, the discharge stability can be improved. On the other hand, when the content of the surface tension adjusting agent is 5% by mass or less, it is possible to prevent an adverse effect on discharge due to insoluble matter or poor emulsification of the surface tension adjusting agent.

  The water-based ink composition according to this embodiment contains water (water as a main solvent). As the water, it is preferable to use water from which ionic impurities such as ion-exchanged water, ultrafiltered water, reverse osmosis water, distilled water, or ultrapure water have been removed. In particular, water sterilized by ultraviolet irradiation or the like is preferable because generation of mold and bacteria can be prevented over a long period of time. Moreover, it does not specifically limit as content of water, It can set suitably as needed.

  The aqueous ink composition of the present embodiment may contain a wetting agent. The wetting agent is not particularly limited as long as it meets standards such as the Pharmaceutical Affairs Law, and specific examples include propylene glycol and glycerin.

  The addition amount of the wetting agent is preferably 20% by mass to 50% by mass and more preferably 30% by mass to 40% by mass with respect to the total mass of the aqueous ink composition. By setting the content of the wetting agent to 20% by mass or more, clogging in the vicinity of the nozzle of the inkjet head can be prevented, and the ejection performance can be further improved. On the other hand, by setting the content of the wetting agent to 50% by mass or less, the viscosity of the aqueous ink composition can be appropriately controlled.

  In the aqueous ink composition of the present embodiment, other additives may be blended. However, when used as an ink-jet ink for solid preparations such as pharmaceuticals, it is preferably one that complies with the standards of pharmaceutical additives, Japanese pharmacopoeia or official food additives specified by the Pharmaceutical Affairs Law. Examples of the additive include water-soluble resins, organic amines, surfactants, pH adjusters, chelating agents, preservatives, viscosity adjusters, and antifoaming agents. The content of these additives is not particularly limited, and can be appropriately set as necessary.

  The water-based ink composition of the present embodiment can be produced by mixing the aforementioned components by an appropriate method. The mixing method and the order of addition are not particularly limited. After mixing, the mixture is sufficiently stirred, and if necessary, filtration is performed to remove coarse particles and foreign matters that cause clogging. Thereby, the water-based ink composition which concerns on this Embodiment can be obtained.

  The mixing method of each material is not particularly limited, and for example, the materials can be sequentially added to a container equipped with a stirring device such as a disper, a mechanical stirrer, or a magnetic stirrer to perform stirring and mixing. Moreover, it does not specifically limit as a filtration method, For example, centrifugal filtration, filter filtration, etc. are employable.

  The aqueous ink composition of the present embodiment can be applied to ink and paint. In addition, the aqueous ink composition of the present embodiment is excellent in ejection stability when used for printing by an inkjet method, and therefore can be suitably used for inkjet ink. In particular, since the water-based ink composition of the present embodiment uses a pharmaceutical additive, a dye and a surface tension adjuster that conform to the standards of the Japanese Pharmacopoeia or the Food Additives Standard prescribed by the Pharmaceutical Affairs Law, etc. It is edible and can be directly printed on the surface of a solid agent comprising tablets or capsules such as pharmaceuticals or supplements. In addition, non-contact printing by an ink jet method is possible even for tablets with poor surface smoothness such as uncoated tablets and OD tablets.

(Solid preparation)
The solid preparation of the present embodiment is composed of a tablet or a capsule, and the surface of the solid agent is directly printed by an inkjet recording method using an inkjet aqueous ink composed of the aqueous ink composition. is there. As described above, the water-based ink composition has excellent ejection stability, does not cause clogging or blurring of the inkjet head, and provides a good printed image. Various information for improvement can be printed. As a result, dispensing errors and accidental ingestion can be prevented.

  Tablets are solid at room temperature, and for example, tablets produced by compressing and / or molding a tablet material containing an active ingredient into a certain shape are preferable. The capsule is preferably prepared by filling a powder, granule, liquid or the like in a capsule made of gelatin, cellulose derivative or the like, or encapsulating with a capsule base. The shape of a tablet and a capsule is not specifically limited, Arbitrary shapes can be employ | adopted. Tablets and capsules may be used for pharmaceuticals or foods. Examples of tablets for food use include health foods such as tablet confectionery and supplements.

  The ink jet recording method for the surface of the solid preparation is not particularly limited. Specifically, for example, the water-based ink composition can be discharged as droplets from a fine nozzle, and the droplets can be attached to the surface of the solid preparation. The discharge method is not particularly limited, and for example, a known method such as a continuous injection type (charge control type, spray type, etc.), an on-demand type (piezo type, thermal type, electrostatic suction type, etc.) can be employed. .

  In the following, preferred embodiments of the present invention will be described in detail by way of example. However, materials, contents, and the like described in the following examples are not intended to limit the scope of the present invention only to those unless otherwise specified.

(Examples 1 to 16)
In Examples 1 to 16, SY Glister MCA-750 (trade name, manufactured by Sakamoto Pharmaceutical Co., Ltd., HLB16) was used as decaglyceryl caprylate, which is a surface tension adjusting agent, and the dyes are listed in Tables 1 and 2 below. Various types shown were used.

  The aqueous ink compositions of Examples 1 to 16 were prepared by putting each material shown in Table 1 or 2 into a container and stirring with a disper. The numerical values in the following Tables 1 and 2 are all expressed in mass% unless otherwise specified. The same applies to numerical values in other tables described later. Each material complies with the standards of pharmaceutical additives, Japanese pharmacopoeia or official food additives specified by the Pharmaceutical Affairs Law.

(Examples 17 to 32)
In Examples 17 to 32, as shown in Tables 3 and 4 below, Ryoto (registered trademark) polyglycerin CE19D (trade name, manufactured by Mitsubishi Chemical Foods, Inc.) HLB15) was used. Otherwise, the aqueous ink compositions of Examples 17 to 32 were prepared in the same manner as in Examples 1 to 16, respectively.

(Examples 33 to 48)
In Examples 33 to 48, as shown in Tables 5 and 6 below, decaglyceryl laurate (NIKKOL (registered trademark) DECAGLLY 1-Y, manufactured by Nikko Chemicals, HLB14.5) was used as a surface tension modifier. Using. Otherwise, the aqueous ink compositions of Examples 33 to 48 were prepared in the same manner as in Examples 1 to 16, respectively.

(Examples 49 to 64)
In Examples 49 to 64, as shown in Tables 7 and 8 below, SY Glister ML-750 (trade name, manufactured by Sakamoto Pharmaceutical Co., Ltd., HLB 14.8) is used as decaglyceryl laurate which is a surface tension adjusting agent. Was used. Otherwise, the aqueous ink compositions of Examples 49 to 64 were prepared in the same manner as in Examples 1 to 16, respectively.

(Comparative Examples 1-16)
In Comparative Examples 1 to 16, as shown in Tables 9 and 10 below, polyglyceryl-10 laurate (Glysurf 10 ML, manufactured by Aoki Yushi Kogyo Co., Ltd., HLB 15.2) was used as a surface tension adjusting agent. Other than that was carried out similarly to Examples 1-16, and prepared the water-based ink composition of this comparative example 1-16.

(Comparative Examples 17-32)
In Comparative Examples 17 to 32, as shown in Tables 11 and 12 below, myristic acid decaglycerin ester (Glysurf 10MM, manufactured by Aoki Oil & Fat Co., Ltd., HLB 14.9) was used as a surface tension adjuster. Otherwise, the aqueous ink compositions of Comparative Examples 17 to 32 were prepared in the same manner as in Examples 1 to 16, respectively.

(Comparative Examples 33 to 48)
In Comparative Examples 33 to 48, as shown in Tables 13 and 14 below, myristic acid decaglycerin ester (Ryoto (registered trademark) polyglycerin M-7D, manufactured by Mitsubishi Chemical Foods Co., Ltd., HLB16) as a surface tension modifier. Was used. Otherwise, the aqueous ink compositions of Comparative Examples 33 to 48 were prepared in the same manner as in Examples 1 to 16, respectively.

(Comparative Examples 49-64)
In Comparative Examples 49 to 64, as shown in Tables 15 and 16 below, myristic acid decaglycerin ester (Ryoto (registered trademark) Polyglycerin M-10D, manufactured by Mitsubishi Chemical Foods, HLB15) as a surface tension adjuster Was used. Otherwise in the same manner as in Examples 1 to 16, water-based ink compositions of Comparative Examples 49 to 64 were prepared.

(Comparative Examples 65-80)
In Comparative Examples 65 to 80, stearic acid decaglycerin ester (NIKKOL (registered trademark) DECAGLYN 1-50SV, manufactured by Nikko Chemicals Co., Ltd., HLB12) was used as a surface tension adjusting agent as shown in Tables 17 and 18 below. . Other than that was carried out similarly to Examples 1-16, respectively, and prepared the water-based ink composition of each Comparative Examples 65-80.

(Comparative Examples 81-96)
In Comparative Examples 81-96, as shown in Tables 19 and 20 below, stearic acid decaglycerin ester (Ryoto (registered trademark) polyglycerester SWA-10D, manufactured by Mitsubishi Chemical Foods Co., Ltd., HLB14) as a surface tension modifier. Was used. Otherwise, the aqueous ink compositions of Comparative Examples 81 to 96 were prepared in the same manner as in Examples 1 to 16, respectively.

(Comparative Examples 97-112)
In Comparative Examples 97 to 112, as shown in Tables 21 and 22 below, stearic acid decaglycerin ester (Ryoto (registered trademark) polyglycerester SWA-15D, manufactured by Mitsubishi Chemical Foods, HLB13) as a surface tension adjuster Was used. Otherwise, the aqueous ink compositions of Comparative Examples 97 to 112 were prepared in the same manner as in Examples 1 to 16, respectively.

(Examples 65 to 80)
In Examples 65 to 80, as shown in Tables 23 and 24 below, decaglyceryl monooleate (NIKKOL (registered trademark) DECAGLLY 1-OV, manufactured by Nikko Chemicals Co., Ltd., HLB12) is used as the surface tension adjusting agent. It was. Otherwise, the aqueous ink compositions of Examples 65 to 80 were prepared in the same manner as in Examples 1 to 16, respectively.

(Comparative Examples 113-128)
In Comparative Examples 113 to 128, as shown in Tables 27 and 28 below, decaglyceryl oleate (Ryoto (registered trademark) polyglycerester O-15D, manufactured by Mitsubishi Foods Corporation, HBL13) was used as a surface tension modifier. It was. Otherwise, the aqueous ink compositions of Comparative Examples 113 to 128 were prepared in the same manner as in Examples 1 to 16.

(Examples 81 to 96)
In Examples 81-96, as shown in Tables 27 and 28 below, hexaglycerin monolaurate (NIKKOL (registered trademark) HEXAGLYN 1-L, manufactured by Nikko Chemicals Co., Ltd., HLB14.5) was used as a surface tension adjuster. Using. Otherwise, the aqueous ink compositions of Examples 81 to 96 were prepared in the same manner as in Examples 1 to 16, respectively.

(Comparative Examples 129 to 144)
In Comparative Examples 129 to 144, as shown in Tables 29 and 30 below, myristic acid hexaglycerin ester (NIKKOL (registered trademark) HEXIAGLYN 1-M, manufactured by Nikko Chemicals, HLB11) was used as a surface tension modifier. . Otherwise, the aqueous ink compositions of Comparative Examples 129 to 144 were prepared in the same manner as in Examples 1 to 16, respectively.

(Examples 97 to 112)
In Examples 97 to 112, as shown in Tables 31 and 32 below, lauric acid hexaglycerin monoester (SY Glister ML-500, manufactured by Sakamoto Pharmaceutical Co., Ltd., HLB 13.5) is used as a surface tension adjuster. It was. Otherwise, the aqueous ink compositions of Examples 97 to 112 were prepared in the same manner as in Examples 1 to 16, respectively.

(Examples 113 to 128)
In Examples 113 to 128, as shown in Tables 33 and 34 below, oleic acid hexaglycerin monoester (SY Glyster MO-5S, manufactured by Sakamoto Pharmaceutical Co., Ltd., HLB 11.6) is used as a surface tension adjuster. It was. Otherwise, the aqueous ink compositions of Examples 113 to 128 were prepared in the same manner as in Examples 1 to 16, respectively.

(Examples 129 to 144)
In Examples 129 to 144, as shown in Tables 35 and 36 below, condensed linolenic acid tetraglycerin ester (SY Glyster CR-310, manufactured by Sakamoto Pharmaceutical Co., Ltd.) was used as a surface tension adjuster. Otherwise, the aqueous ink compositions of Examples 129 to 144 were prepared in the same manner as in Examples 1 to 16, respectively.

(Examples 145 to 160)
In Examples 145 to 160, as shown in Tables 37 and 38 below, fatty acid ester palm palm (Tirabazole W-01, manufactured by Taiyo Chemical Co., Ltd.) was used as a surface tension adjuster. Otherwise, the aqueous ink compositions of Examples 145 to 160 were prepared in the same manner as in Examples 1 to 16, respectively.

(Evaluation of missing nozzles and fading)
As ejection stability of the water-based ink compositions of each Example and Comparative Example, evaluation of nozzle omission and blurring of a printed image was performed. That is, mat paper (trade name: Superfine paper, manufactured by Epson Corporation) was prepared as a recording medium, and printing was performed using the water-based ink compositions prepared in Examples and Comparative Examples. Printing was performed by a single pass (one pass) method using an inkjet printer (printing jig with KC 600 dpi head).

  Evaluation of nozzle omission and fading was performed by checking whether nozzle omission or fading was observed in the printed image when the ink jet printer was stopped after discharging the aqueous ink composition from the head and then printing was performed again. . The results are shown in Tables 1 to 35. A circle in the table means a case where neither nozzle missing nor fading was observed. X means a case where at least one of nozzle missing or blurring occurs during printing.

  The term “nozzle missing” means that ink droplets (droplets) made of a water-based ink composition are not ejected from a nozzle where clogging has occurred. Fading means fading of an image in a print start portion. Further, 15 min in each table represents a time interval (open time) from when the water-based ink composition is first ejected from the head to when it is stopped and then printed again.

(result)
As shown in Tables 1-8, 23, 24, 27, 28, 31-38, as a surface tension adjuster, caprylic acid decaglyceryl, lauric acid hexaglycerin ester, oleic acid hexaglycerin ester, condensed linolenic acid tetraglycerin ester In the case of using fatty acid ester palm palm, decaglyceryl laurate having an HLB of 15 or less, and decaglyceryl oleate having an HLB of less than 13, in any dye, nozzle omission and fading do not occur during printing, It was confirmed that the discharge stability was excellent.

On the other hand, as shown in Tables 9 to 22, 25, 26, 29, and 30, as surface tension adjusting agents, decaglyceryl laurate having an HLB of more than 15, decaglyceryl oleate and myristic acid decaglycerin ester having an HLB of 13 or more. When stearic acid decaglycerin ester or myristic acid hexaglycerin ester was used, at least one of nozzle omission or fading occurred during printing in any dye.

Claims (10)

Comprising at least one dye and a surface tension modifier;
The surface tension adjusting agent is caprylic acid decaglyceryl, lauric acid hexaglycerin ester, oleic acid hexaglycerin ester, condensed linolenic acid tetraglycerin ester, fatty acid ester palm palm, HLB of 15 or less lauric acid decaglyceryl and HLB less than 13. An aqueous ink composition for inkjet which is at least one selected from the group consisting of decaglyceryl oleate.   The aqueous ink composition for inkjet according to claim 1, wherein the dye is an edible synthetic pigment or an edible natural pigment.   The aqueous ink composition for inkjet according to claim 2, wherein the edible synthetic pigment is at least one selected from the group consisting of azo dyes, triphenylmethane dyes, xanthene dyes and indigoid dyes.   The aqueous ink composition for inkjet according to claim 3, wherein the azo dye is at least one selected from the group consisting of Red No. 2, Red No. 102, Red No. 40, Yellow No. 4 and Yellow No. 5.   The water-based ink composition for inkjet according to claim 3, wherein the triphenylmethane dye is at least one of Blue No. 1 and Green No. 3.   The water-based ink composition for inkjet according to claim 3, wherein the xanthene dye is at least one selected from the group consisting of Red No. 3, Red No. 104, Red No. 105 and Red No. 106.   The aqueous ink composition for inkjet according to claim 3, wherein the indigoid dye is Blue No. 2.   The water-based ink composition for inkjet according to claim 2, wherein the natural food colorant is at least one selected from the group consisting of cochineal colorant, copper chlorophyllin sodium, cacao colorant and caramel colorant.   The aqueous ink composition for inkjet according to any one of claims 1 to 8, which has edible properties. A solid preparation comprising a tablet or a capsule and having a dry film of an aqueous inkjet ink on its surface,
The solid formulation which the said water-based ink for inkjets consists of the water-based ink composition for inkjets in any one of Claims 1-9.