JP2019218522A - Inkjet ink - Google Patents

Abstract

To provide an inkjet ink more excellent in intermittent printability and continuous printability than current ones and capable of performing a good printing, for example, on the surface of a solid pharmaceutical.SOLUTION: The inkjet ink includes a coloring agent, gum arabic, a 12-20C higher alcohol, a 1-4C lower alcohol and water. The gum arabic has preferably a pH of 3.5 or more. The mass ratio G/H of the gum arabic G to the higher alcohol H is preferably 5 to 50. The lower alcohol has two kinds consisting of ethanol E and propanol P and preferably has a mass ratio E/P of ethanol to propanol of 3 to 9. The inkjet ink may further include polyoxyethylene polyoxypropylene glycol as a surfactant.SELECTED DRAWING: None

Description

  The present invention relates to an ink-jet ink suitable for printing, for example, characters or symbols for identification directly on the surface of a solid preparation such as a tablet to be taken as a drug or the like.

2. Description of the Related Art Techniques for printing directly on the surface of tablets, capsules, and other solid preparations to be taken as pharmaceuticals or the like by using an inkjet ink are becoming widespread.
As an inkjet ink for printing on the surface of a solid preparation, an aqueous inkjet ink containing a coloring agent such as an edible dye and water as a solvent is usually used.
As a solvent, together with water, a water-soluble organic solvent such as a lower alcohol is used in combination to impart quick drying property to the ink-jet ink, and to suppress occurrence of bleeding and the like even when steps such as heating after printing are omitted. The sharpness of printing can be improved.

In addition, when a binder is mixed with the aqueous inkjet ink, the fixability of the print on the surface of an FC (film coating) tablet coated with hydroxypropylcellulose or the like or the surface of a capsule made of a water-soluble plastic or the like can be obtained. Can be improved.
As the binder, for example, various water-soluble resins that can be used for food, such as hydroxypropylcellulose, polyvinylpyrrolidone, polyvinylpyrrolidone / vinyl acetate, pullulan, xanthan gum, and sodium alginate, can be used.

However, the ink-jet ink using the above-mentioned conventional binder may be clogged by the nozzle of the ink-jet printer during the decap time of printing, and may easily be blurred when printing is resumed.
The decap time refers to the time when the ink jet ink in the nozzles of the plurality of nozzles provided in the on-demand type ink jet printer, which is in a standby state in which the ink droplets are not ejected in accordance with the print pattern during intermittent printing, is exposed to the outside air. Time that has been.

In general, an inkjet printer is provided with a function of closing (capping) a nozzle in order to prevent the inkjet ink in the nozzle from drying and clogging when the inkjet ink in the nozzle is exposed to the outside air when the operation is stopped. It is common.
However, since the cap is released at the time of printing, the nozzle which is in a standby state at the time of intermittent printing remains in a state where the nozzle is not closed (a decapped state) until the next ink droplet is ejected. .

In the meantime, the ink-jet ink in the nozzle is continuously exposed to the outside air.
Therefore, the above-mentioned time, that is, the longer the decap time, the thicker by vaporization of water or a water-soluble organic solvent, and further, due to solid deposition, clogging of nozzles and accompanying ejection failure of inkjet ink are more likely to occur. Tend.
In the following, characteristics in which ejection failure due to nozzle clogging is unlikely to occur during the decap time will be evaluated as “intermittent printability”.

The longer the decap time at which no ejection failure occurs, the better the ink-jet ink can be evaluated as having good intermittent printing.
In addition, the conventional inkjet ink using a binder tends to cause solids to precipitate during storage or during repeated printing, and the nozzle tends to be clogged by the precipitated solids, which tends to cause ejection failure. .

As a result of these ejection failures, good printing may not be performed.
In the following, the characteristic that the ejection failure of the ink droplet due to clogging is less likely to occur when the printing is repeated is evaluated as the quality of the “continuous printability”.
The greater the number of times printing can be performed continuously without causing ejection failure, the more the ink-jet ink can be evaluated as having better continuous printability.

The above-mentioned inkjet inks using the conventional binders are liable to cause clogging because the inkjet inks containing these binders increase in viscosity due to vaporization of water or a water-soluble organic solvent, This is due to easy precipitation.
In other words, inkjet inks using conventional binders tend to clog in the nozzles due to thickening or solid deposition during intermittent printing or continuous printing, resulting in poor intermittent printing and continuous printing. Tends to decrease.

JP 2006-523751 A JP 2012-051114 A

Patent Documents 1 and 2 propose using gum arabic as a binder.
According to the study of the inventor, the inkjet ink using gum arabic thickens or deposits solids in the nozzle and around the nozzle outlet compared to the ink using the conventional binder described above. Therefore, intermittent printing and continuous printing can be improved to some extent.
However, the effect is not yet sufficient, and there is a case where the intermittent printing property is reduced or the continuous printing property is reduced, so that good printing cannot be performed on the surface of the solid preparation.

  An object of the present invention is to provide an ink-jet ink which is more excellent in intermittent printability and continuous printability than the current state, and which can perform good printing on the surface of a solid preparation, for example.

  The present invention is an inkjet ink containing a colorant, gum arabic, a higher alcohol having 12 or more and 20 or less carbon atoms, a lower alcohol having 1 or more and 4 or less carbon atoms, and water.

  ADVANTAGE OF THE INVENTION According to this invention, the intermittent printing property and continuous printing property are better than the present condition, For example, the inkjet ink which can perform favorable printing on the surface of a solid preparation can be provided.

As described above, the present invention is an inkjet ink containing a colorant, gum arabic, a higher alcohol having 12 or more and 20 or less carbon atoms, a lower alcohol having 1 or more and 4 or less carbon atoms, and water.
According to the study of the inventor, the ink jet ink using gum arabic as a binder is further blended with a higher alcohol having a carbon number in the above range, so that the ink jet ink has intermittent printability and continuous printability. Can be improved over the current situation.

That is, higher alcohols having 12 or more and 20 or less carbon atoms are solid and waxy at ordinary temperature, which is a normal printing environment, and dissolve in lower alcohols having 1 or more and 4 or less carbon atoms, but are dissolved in water. Does not dissolve.
On the other hand, gum arabic is also solid at room temperature and conversely dissolves in water, but does not dissolve in lower alcohols having 1 to 4 carbon atoms.

Therefore, due to the balance of solubility with higher alcohols, lower alcohols, and water, gum arabic is dissolved in the ink-jet ink from the beginning without providing a margin for solubility.
In a standby state where no ink droplets are ejected, a meniscus is formed at the gas-liquid interface between the inkjet ink and the outside air in the nozzle of the inkjet printer, and the inkjet ink is brought into a stationary state.

When the ink-jet ink in the nozzle is stopped and a meniscus is formed, a gum arabic deposits on the liquid surface of the formed meniscus to form a very thin film.
Thereby, drying of the inkjet ink is suppressed, and the inkjet ink inside the film is maintained in a low-viscosity state that can be ejected during the standby state.
Moreover, due to the balance between the solubility of the higher alcohol, the lower alcohol, and the water, gum arabic is in a state in which the film forming property when deposited from the inkjet ink is appropriately suppressed.

Therefore, the film formed on the liquid surface of the meniscus becomes a hard and brittle film with low continuity that can be easily broken by the discharge pressure applied to the inkjet ink in the nozzle at the next discharge.
Therefore, immediately after the end of the standby state, a predetermined volume of ink droplet can be ejected, and the intermittent printing property can be improved.

Further, by containing a higher alcohol having 12 or more and 20 or less carbon atoms, the wettability of the inkjet ink with respect to the nozzle plate is suppressed, and the ink is prevented from spreading around the nozzle outlet.
In addition, the balance of solubility due to the combined use of the above-described components prevents solids that may cause ejection failure due to nozzle clogging to precipitate in the inkjet ink during storage or during repeated printing. It can also be suppressed.

Therefore, clogging hardly occurs even when printing is repeated, and continuous printing performance can be improved.
Therefore, according to the present invention, it is possible to provide an ink-jet ink which is more excellent in intermittent printability and continuous printability than the current state, and which can perform good printing on the surface of a solid preparation, for example.

<Arabic gum>
As gum arabic, rubber-like secretions collected from stems and branches of plants such as Acacia are dried, and further purified, if necessary, to obtain arabic acid such as Ca, Mg, and K. Various gum arabic containing arabin which is a salt as a main component can be used.
Further, as gum arabic, for example, those that have been pulverized, powdered or granulated by a spray drying method or the like can be used.

In particular, it is preferable to use gum arabic having a pH of 3.5 or more when prepared as a 25% aqueous solution.
The inkjet ink containing gum arabic having a pH of less than 3.5, which is obtained by desalting and purifying gum arabic, has a slight clogging of the nozzle during the decap time, as is clear from the results of Examples described later. And the intermittent printability tends to decrease.

On the other hand, according to gum arabic having a pH of 3.5 or more, nozzle clogging hardly occurs during the decap time due to the effect of the combined use of the lower alcohol, higher alcohol, and water described above. The intermittent printability of the ink can be further improved.
Specific examples of gum arabic having a pH of 3.5 or more include, but are not limited to, Arabic Cole SS (manufactured by Sanei Pharmaceutical Co., Ltd.) pH: 4.0-4.5], Arabic Cole JPS [quickly dissolving granules by fast dissolving spray-drying method, Arabic gum powder of Japanese Pharmacopoeia, pH: 4.0-4.5], Arabic Cole JPF [spray-drying method , Powdered gum arabic, Japanese Pharmacopoeia, powdered gum arabic, pH: 4.0-4.5], gum arabic spray-dried [powder by spray-drying method, filter sterilized product, food additive, pH: 4.0-4.5] ], Gum arabic powder HP [powder by pulverization method, food additive, pH: 4.0-4.5], Gum arabic powder KC [powder by pulverization method, food additive, general industrial use, p : 4.0 to 4.5], Gum arabic powder of Japanese Pharmacopoeia [powder by pulverization method, pH: 4.0 to 4.4], Ina Gela Gum A manufactured by Ina Food Industry Co., Ltd. [powder, food additive , PH: 4 to 6] or the like, and Arabic Cole SS is particularly preferred.

<Higher alcohol>
The reason that the carbon number of the higher alcohol is limited to 12 or more and 20 or less as described above is as follows.
That is, since higher alcohols having less than 12 carbon atoms are in a liquid state at room temperature, the above-described effect of the combined use with gum arabic, lower alcohol, and water has an effect of making it difficult for nozzles to be clogged during the decap time. It cannot be obtained, and the intermittent printability decreases.

On the other hand, higher alcohols having more than 20 carbon atoms have low solubility in the above combined system, so that the stability of the ink-jet ink is reduced and solid components are easily precipitated during storage.
In addition, for example, during storage or during repetition of printing, a solid content is likely to precipitate, and the deposited solid content tends to cause clogging of a nozzle, thereby deteriorating continuous printability.
On the other hand, by selecting and using a higher alcohol having 12 or more carbon atoms and 20 or less, the intermittent printing property and the continuous printing property of the inkjet ink can be further improved by the mechanism described above. Good printing can be performed on the surface.

In addition, it is possible to improve the stability and suppress the precipitation of solid components during storage.
Examples of higher alcohols having 12 or more and 20 or less carbon atoms include lauryl alcohol (12 carbon atoms), tridecyl alcohol (13 carbon atoms), myristyl alcohol (14 carbon atoms), and pentadecyl alcohol (15 carbon atoms). Cetanol (carbon number 16), palmitoleyl alcohol (carbon number 16), heptadecanol (carbon number 17), stearyl alcohol (carbon number 18), isostearyl alcohol (carbon number 18), elaidyl alcohol (carbon number 18) ), Oleyl alcohol (having 18 carbon atoms), linoleyl alcohol (having 18 carbon atoms), elide linoleyl alcohol (having 18 carbon atoms), linolenyl alcohol (having 18 carbon atoms), erylinolenyl alcohol (having 18 carbon atoms) , Ricinoleyl alcohol (18 carbon atoms), nonadecyl alcohol Lumpur (19 carbon atoms), arachidyl alcohol (20 carbon atoms) and the like.

Above all, in consideration of further improving the above-mentioned effects, it is preferable to use a higher alcohol having 14 to 18 carbon atoms as the higher alcohol.
Such higher alcohols include, for example, myristyl alcohol, cetanol, stearyl alcohol, etc., with cetanol being particularly preferred.
One or more of these higher alcohols can be used.

<Mass ratio, content>
Assuming that the content of gum arabic is G (mass%) and the content of the higher alcohol is H (mass%) in the total amount of the inkjet ink, the mass ratio G / H of both is 3 or more, especially 5 or more. It is preferably 75 or less, particularly preferably 50 or less.
When the mass ratio G / H is less than this range, for example, the higher alcohol becomes excessive, the stability of the inkjet ink is reduced, and the solid content may easily precipitate during storage.

Further, for example, during storage or during repetition of printing, a solid content is likely to precipitate, and the deposited solid content tends to cause clogging of a nozzle, thereby deteriorating continuous printability.
In addition, gum arabic also functions as a thickener, but if the gum arabic is insufficient, the thickening effect becomes insufficient, and the inkjet ink is used in an appropriate manner in consideration of intermittent printability and continuous printability. In some cases, the viscosity cannot be adjusted.

Further, as described above, gum arabic functions as a binder, but when the gum arabic is insufficient, the fixability of printing to the surface of the FC tablet, the surface of the capsule, or the like may be insufficient. .
On the other hand, when the mass ratio G / H exceeds the above range, for example, the higher alcohol is insufficient, and the effect of improving the intermittent printing property and the continuous printing property of the inkjet ink by the mechanism described above is sufficiently obtained. May not be.

In other words, the effect of the combination of gum arabic, lower alcohol, and water as described above does not sufficiently obtain the effect of preventing nozzle clogging during the decap time, so that the intermittent printability may be reduced.
In addition, due to the solubility balance of each of the above components, the effect of suppressing the precipitation of solids that may cause ejection failure due to nozzle clogging in the inkjet ink during storage or during repeated printing is sufficient. , The continuous printability may be reduced.

Furthermore, since the effect of suppressing the wettability to the nozzle plate and preventing the inkjet ink from spreading around the outlet of the nozzle is not sufficiently obtained, continuous printability may be reduced.
When the gum arabic is excessive, the thickening effect of the gum arabic is also excessive, and the ink jet ink may not be adjusted to an appropriate viscosity in consideration of the intermittent printing property and the continuous printing property.

On the other hand, by setting the mass ratio G / H in the above range, the intermittent printing property and the continuous printing property of the inkjet ink are further improved by the mechanism described above, and for example, good printing on the surface of a solid preparation can be achieved. Can be.
In addition, it is possible to improve the fixability of the print on the surface of the FC tablet, the surface of the capsule, and the like, and to improve the stability of the ink-jet ink, thereby suppressing the precipitation of solids during storage.

The content G of gum arabic is preferably 0.5% by mass or more, and more preferably 2.0% by mass or less based on the total amount of the inkjet ink.
If the content G of gum arabic is less than this range, the fixability of the print on the surface of the FC tablet, the surface of the capsule, etc. may be insufficient.
In some cases, the thickening effect of gum arabic becomes insufficient, and the ink-jet ink cannot be adjusted to an appropriate viscosity in consideration of intermittent printability and continuous printability.

On the other hand, when the content G of the gum arabic exceeds the above range, the stability of the ink-jet ink is reduced, and, for example, solid content precipitates during storage or clogging occurs at the nozzle of the ink-jet printer, causing a continuous drop. The printability may be reduced.
In some cases, the thickening effect of gum arabic is also excessive, so that the ink-jet ink cannot be adjusted to an appropriate viscosity in consideration of intermittent printability and continuous printability.

On the other hand, by setting the content G of gum arabic within the above range, the ink-jet ink can be adjusted to an appropriate viscosity in consideration of the intermittent printability and the continuous printability.
Then, the intermittent printing property and the continuous printing property can be further improved, and for example, good printing can be performed on the surface of the solid preparation.
In addition, it is possible to improve the fixability of the print on the surface of the FC tablet, the surface of the capsule, and the like, and to improve the stability of the ink-jet ink, thereby suppressing the precipitation of solids during storage.

Further, the content H of the higher alcohol is preferably at least 0.02% by mass, more preferably at least 0.03% by mass, and preferably at most 0.5% by mass, particularly at most 0.3% by mass, based on the total amount of the inkjet ink. It is preferred that
If the content H of the higher alcohol is less than this range, the higher alcohol may be insufficient, and the effect of improving the intermittent printing property and the continuous printing property of the inkjet ink by the mechanism described above may not be sufficiently obtained.

On the other hand, when the content H of the higher alcohol exceeds the above range, the stability of the ink-jet ink may be reduced, and solid components may be easily precipitated during storage.
Further, for example, during storage or during repetition of printing, a solid content is likely to precipitate, and the deposited solid content tends to cause clogging of a nozzle, thereby deteriorating continuous printability.

On the other hand, by setting the content H of the higher alcohol to the above range, the intermittent printing property and the continuous printing property of the ink-jet ink are further improved by the mechanism described above, and for example, the surface of a solid preparation can be improved. Can print.
In addition, it is possible to improve the stability of the ink-jet ink and suppress the solid content from being deposited during storage.

<Lower alcohol>
The number of carbon atoms of the lower alcohol is limited to 1 or more and 4 or less as described above for the following reason.
That is, with a lower alcohol having more than 4 carbon atoms, good quick drying properties cannot be imparted to the inkjet ink.

Therefore, in particular, when heating or the like is not performed after printing, the printed ink-jet ink spreads on the surface of the solid preparation to easily cause bleeding or the like, and the clarity of printing may be reduced.
On the other hand, by using a lower alcohol having 1 to 4 carbon atoms, good quick drying properties can be imparted to the inkjet ink.

Then, even if a step such as heating after printing is omitted, the occurrence of bleeding or the like is suppressed, and the sharpness of printing can be improved.
Lower alcohols having 1 to 4 carbon atoms include methanol (1 carbon atom), ethanol (2 carbon atoms), 1-propanol (3 carbon atoms), 2-propanol (3 carbon atoms), 1-butanol (Carbon number 4), 2-butanol (carbon number 4), isobutyl alcohol (carbon number 4), tert-butyl alcohol (carbon number 4).

In consideration of further improving the clarity of printing while suppressing clogging in the nozzle due to too fast drying property of the ink-jet ink, the lower alcohol has 2 or 3 carbon atoms. It is preferable to select and use the following.
That is, it is preferable to use at least one of ethanol, 1-propanol and 2-propanol among the above as the lower alcohol.

In particular, it is preferable to use ethanol in combination with 1-propanol and / or 2-propanol (hereinafter sometimes collectively referred to as “propanol”).
Ethanol is excellent in quick drying and functions to improve the clarity of printing.
Further, the lower alcohol and water are supplied into the nozzle by the capillary force generated in the nozzle smoothly without repelling as the number of carbons increases in the order of water <methanol <ethanol <propanol <butanol.

Therefore, by using propanol together with ethanol, the inkjet ink can be quickly supplied into the nozzles, and the responsiveness of high-frequency printing can be improved.
The responsiveness of high-frequency printing means that when using an inkjet printer with a high printing speed (printing frequency) and continuous printing at high speed, the supply of inkjet ink to the nozzles will not catch up and the print will not fade. Refers to the characteristics that enable continuous printing.

It can be said that an ink jet ink having higher responsiveness for high-frequency printing is more widely applicable to ink jet printers having various printing speeds, and is excellent in versatility.
<Mass ratio, content>
In the above combination system, when the content of ethanol and the content of propanol in the total amount of the inkjet ink are E (mass%) and P (mass%), respectively, the mass ratio E / P of both is 2 or more, particularly 3 It is preferably at least 16 and particularly preferably at most 9 or less.

If the mass ratio E / P is less than the above range, ethanol may be insufficient, and the quick drying property of the inkjet ink may be reduced, and the sharpness of the print may be deteriorated unless heating is performed after printing.
On the other hand, if the mass ratio E / P exceeds the above range, propanol may be insufficient, and the responsiveness of high-frequency printing may be reduced.

On the other hand, by setting the mass ratio E / P within the above range, both the sharpness of printing and the responsiveness of high-frequency printing can be further improved.
When the content of the lower alcohol in the total amount of the inkjet ink is L (mass%) and the content of water is W (mass%), the mass ratio L / W of both is 0.5 or more. And preferably 2 or less.

As described above, when two types of lower alcohols, ethanol and propanol, are used in combination, the content L of the lower alcohols is the total content of the two types of lower alcohols, that is, L = E + P.
When the mass ratio L / W is less than the above range, the lower alcohol is insufficient and the quick drying property of the ink-jet ink is reduced. In particular, the sharpness of the print may be deteriorated unless heating is performed after printing.

In addition, the lower alcohol which is a good solvent for the higher alcohol is insufficient, and the solubility of the higher alcohol is insufficient, so that the stability of the inkjet ink tends to decrease.
On the other hand, when the mass ratio L / W exceeds the above range, water, which is a good solvent for gum arabic, is insufficient, and the solubility of the gum arabic is insufficient, so that the stability of the inkjet ink also decreases. Tend.

In any case, for example, solid content may be deposited during storage, or clogging may easily occur in nozzles of an inkjet printer, and continuous printing may be deteriorated.
In addition, water functions, for example, to increase the contact angle of the inkjet ink with the surface of the solid preparation to improve the clarity of the print, but if water is insufficient, the effect becomes insufficient and the clarity of the print becomes poor. May be reduced.

On the other hand, by setting the mass ratio L / W within the above range, it is possible to improve the sharpness of printing while maintaining good quick-drying properties of the ink-jet ink and increasing the contact angle.
In addition, it is also possible to improve the stability of the ink-jet ink while maintaining good solubility of the higher alcohol and gum arabic, to suppress the solid content from being precipitated during storage, and to improve the continuous printability. .

The water content W is the remaining amount of each component described above and each component described below.
That is, the content of each component may be set in a predetermined range, and the water content W may be set so that the total amount of the inkjet ink to which water is added is 100% by mass.
<Colorant>
As the coloring agent, various coloring agents approved for use as food additives or pharmaceutical additives can be used. As the coloring agent, for example, one or more kinds of synthetic or natural edible dyes and the like can be mentioned.

  Among them, examples of the synthetic food color include Food Red No. 2, Food Red No. 3, Food Red No. 102, Food Red No. 104, Food Red No. 105, Food Red No. 106, Food Yellow No. 4, Food Yellow No. 5, Edible green # 1, edible blue # 1, edible blue # 2, edible red # 40, edible red # 40 aluminum lake, edible red # 3 aluminum lake, edible yellow # 4 aluminum lake, edible blue # 1 aluminum lake, edible Blue No. 2 aluminum lake and the like.

  Examples of natural food colorings include, for example, caramel coloring, tomato coloring, turmeric coloring, gardenia coloring, β-carotene coloring, palm oil carotene, marigold coloring, safflower coloring, capsicum coloring, monascus coloring, annatto coloring, lac coloring, Cochineal pigment, Benikouji pigment, beet red pigment, red cabbage pigment, purple yam pigment, red radish pigment, grape peel pigment, anthocyanin pigment, perilla pigment, elderberry pigment, purple corn pigment, gardenia pigment, cacao pigment, oyster pigment, kouryan Pigment, spirulina pigment, paprika pigment, squid pigment, riboflavin, riboflavin butyrate, riboflavin phosphate sodium, chlorophyll, copper chlorophyll and its metal salts (such as sodium salt), iron chlorophyll and And the like metal salts (sodium salt, etc.).

The type and content of the colorant can be appropriately set according to the color, the color density, and the like.
<Surfactant>
The inkjet ink of the present invention may further contain a surfactant in order to adjust the surface tension, wettability, and the like.
As the surfactant, for example, a surfactant that can be used for food or the like, such as polyoxyethylene polyoxypropylene glycol, can be used.

According to the study by the inventors, polyoxyethylene polyoxypropylene glycol is excellent in the function of improving the intermittent printability of the inkjet ink.
That is, when the above-mentioned decap time becomes long, the concentration of the ink-jet ink increases due to drying, the surface tension changes, and the wettability of the ink-jet ink to the inner surface of the nozzle and the contact angle of the meniscus change accordingly.

As a result, a stable meniscus may not be maintained in the nozzle.
In addition, as the concentration increases, the viscosity of the ink-jet ink may increase, or the solid content may easily precipitate.
These factors cause clogging of the nozzles during the decap time, causing blurring or the like when printing is resumed.

In addition, the drying of the ink-jet ink proceeds during the decap time, the position where the meniscus is formed in the nozzle gradually recedes, and the discharge of the ink-jet ink is delayed when printing is resumed. Become.
In contrast, polyoxyethylene polyoxypropylene glycol has low surface tension and high wettability, so it is oriented at the gas-liquid interface forming a meniscus to suppress drying of the inkjet ink and to reduce the wettability of the inkjet ink. It works to stabilize.

Therefore, a stable meniscus can be maintained at a predetermined position in the nozzle.
Moreover, polyoxyethylene polyoxypropylene glycol forms micelles around the solids contained in the ink-jet ink, such as a coloring agent and a head residue generated when the ink-jet ink is repeatedly ejected. It also acts to suppress the precipitation of solids.

Therefore, by using polyoxyethylene polyoxypropylene glycol as the surfactant, the intermittent printability of the inkjet ink can be improved.
Examples of the polyoxyethylene polyoxypropylene glycol include, for example, those represented by the formula (1):
_{HO (C 2 H 4 O)} a - (C 3 H 6 O) b - (C 2 H 4 O) c H (1)
Various polyoxyethylene polyoxypropylene glycols which are condensates of polyoxyethylene and polyoxypropylene represented by the following formulas and have the above-mentioned functions can be used.

Above all, for example, polyoxyethylene polyoxypropylene glycol which is liquid at 15 to 25 ° C. is preferable from the viewpoint of improving the intermittent printability of the inkjet ink.
As polyoxyethylene polyoxypropylene glycol presenting a liquid in the above temperature range, for example,
E. represented by a + c in equation (1) O. The number of repeating units of (ethylene oxide) is 3 or more, 200 or less, particularly 170 or less, and P. represented by b in the formula (1). O. The number of repeating units of (propylene oxide) is 15 or more, 70 or less, particularly 40 or less,
The compound which is is mentioned.

Specific examples of the polyoxyethylene polyoxypropylene glycol include, but are not limited to, one or more of the following various compounds.
PE-61 [a + c = 5, b = 30, a + b + c = 35, cloud point (1% by mass water diluent): 24 ° C.) in the Newpole (registered trademark) PE series manufactured by Sanyo Chemical Industries, Ltd., PE −62 [a + c = 10, b = 30, a + b + c = 40, cloud point (1% by weight in water): 30 ° C.], PE-71 [a + c = 5, b = 35, a + b + c = 40, cloud point (1 Mass% water dilution): 20 ° C], PE-74 [a + c = 30, b = 35, a + b + c = 65, cloud point (1 mass% water dilution): 56 ° C], PE-75 [a + c = 48, b = 35, a + b + c = 83, cloud point (1% by mass water dilution): 69 ° C.).

  L-31 [a + c = 3, b = 17, a + b + c = 20, cloud point: 39 ° C.] in the ADEKA (registered trademark) Pluronic L series manufactured by ADEKA Corporation, and F-68 [a + c = 160, b = 30, a + b + c = 190, cloud point: over 100 ° C.], F-87 [a + c = 120, b = 40, a + b + c = 160, cloud point: over 100 ° C.], F-127 [a + c = 196, b = 67, a + b + c = 263, cloud point: more than 100 ° C.], P-85 [a + c = 54, b = 39, a + b + c = 93, cloud point: 75 ° C.], P-123 [a + c = 42, b = 67, a + b + c = 109].

  P188 [a + c = 160, b = 30, a + b + c = 190], P407 [a + c = 196, b = 67, a + b + c = 263] of the Corifall series manufactured by BASF Japan, F68 [a + c] of the Lutrol series = 160, b = 30, a + b + c = 190, cloud point: more than 100 ° C.], F127 [a + c = 196, b = 67, a + b + c = 263].

In particular, a compound in which a + b + c in the formula (1) is 40 or less, particularly 35 or less, is preferable from the viewpoint of improving the intermittent printability of the inkjet ink.
The content of polyoxyethylene polyoxypropylene glycol is preferably at least 0.4% by mass, more preferably at least 0.6% by mass, and preferably at most 1.5% by mass, especially 1.2% by mass, based on the total amount of the inkjet ink. % Is preferable.

If the content of polyoxyethylene polyoxypropylene glycol is less than this range, the above-described effect of improving intermittent printing may not be sufficiently obtained.
On the other hand, when the content of polyoxyethylene polyoxypropylene glycol exceeds the above range, the surface tension of the inkjet ink tends to be low and the wettability tends to be too high.

Then, when printing is repeated, the ink jet ink may spread at the nozzle outlet of the nozzle plate to form an ink pool, and the continuous printability may be reduced.
In addition, there is a case where the meniscus is not formed in the nozzle and the ink-jet ink leaks from the tip of the nozzle, or a discharge failure due to the bite of the bubble is more likely to occur.
On the other hand, by adjusting the content of polyoxyethylene polyoxypropylene glycol to the above range, the wettability of the inkjet ink is adjusted to an appropriate range, without causing ejection failure and leakage due to bubble bite, and The intermittent printability can be improved without lowering the continuous printability.

As described above, water (for example, ultrapure water) is added to each of the above components to make the total amount 100% by mass, whereby the inkjet ink of the present invention is prepared.
The inkjet ink of the present invention containing the above components can be suitably used for the above-described on-demand type inkjet printer.
In particular, it is possible to directly print on the surface of tablets, capsules, and other solid preparations by using an on-demand type inkjet printer of various types such as a thermal type and a piezo type.

Hereinafter, the present invention will be described based on examples and comparative examples, but the configuration of the present invention is not necessarily limited to these examples and comparative examples.
<Example 1>
(Preparation of pigment dispersion)
The following components were blended, stirred, and then dispersed using a bead mill to prepare a pigment dispersion.

表１中の各成分は下記のとおり。
カーボンブラック：ＬＦＦ〔三菱化学(株)製のＭＡ８〕
分散剤：モノオレイン酸デカグリセリル〔日光ケミカルズ(株)製のＮＩＫＫＯＬ（登録商標）ＤＥＣＡＧＬＹＮ １−ＯＶ、ＨＬＢ：１２．０〕
エタノール：１７質量部
（インクジェットインクの調製）
下記の各成分を配合したのち、５μｍのメンブランフィルタを用いてろ過してインクジェットインクを調製した。

Each component in Table 1 is as follows.
Carbon black: LFF [MA8 manufactured by Mitsubishi Chemical Corporation]
Dispersant: decaglyceryl monooleate [NIKKOL (registered trademark) DECAGLYN 1-OV, HLB: 12.0, manufactured by Nikko Chemicals Co., Ltd.]
Ethanol: 17 parts by mass (Preparation of inkjet ink)
After blending the following components, the mixture was filtered using a 5 μm membrane filter to prepare an inkjet ink.

表２中の各成分は下記の通り。
アラビアガム水溶液：アラビアガム〔三栄薬品貿易(株)製のアラビックコールＳＳ、速溶化スプレードライ法による速溶性顆粒、食品添加物、ｐＨ：４．０〜４．５〕の２０％水溶液（アラビアガム：１．５質量％、水：６．０質量％）
セタノール：高級アルコール、炭素数１６
エタノール：低級アルコール、炭素数２
１−プロパノール：低級アルコール、炭素数３
ＰＥＰＰＧ：式(１)中のａ＋ｃ＝５、ｂ＝３０、ａ＋ｂ＋ｃ＝３５であるポリオキシエチレンポリオキシプロピレングリコール〔三洋化成工業(株)製のニューポールＰＥ−６１、曇点（１質量％水希釈液）：２４℃〕
水：超純水
アラビアガムの含有量は、インクジェットインクの総量中の１．５質量％、アラビアガムと、高級アルコールとしてのセタノールの質量比Ｇ／Ｈは１５．０であった。

Each component in Table 2 is as follows.
Gum arabic aqueous solution: 20% aqueous solution of gum arabic [Arabic Cole SS, manufactured by Sanei Pharmaceutical Co., Ltd., fast-dissolving granules by fast-dissolving spray-drying method, food additive, pH: 4.0 to 4.5] (gum arabic) : 1.5% by mass, water: 6.0% by mass)
Cetanol: higher alcohol, carbon number 16
Ethanol: lower alcohol, carbon number 2
1-propanol: lower alcohol, carbon number 3
PEPPG: polyoxyethylene polyoxypropylene glycol having a + c = 5, b = 30 and a + b + c = 35 in the formula (1) [Newpole PE-61 manufactured by Sanyo Chemical Industries, Ltd., cloud point (1% by mass water) Diluent): 24 ° C]
Water: ultrapure water The content of gum arabic was 1.5% by mass of the total amount of the inkjet ink, and the mass ratio G / H of gum arabic and cetanol as a higher alcohol was 15.0.

The content of ethanol as a lower alcohol was 40.4% by mass, including that in the pigment dispersion, and the mass ratio E / P between ethanol and 1-propanol was 5.05.
Further, the total content of ethanol and 1-propanol as the lower alcohol was 48.4% by mass, and the water content was 46.0% by mass including that in the aqueous solution of gum arabic, the mass ratio of the lower alcohol to water. L / W was 1.05.

<Example 2>
Gum arabic having a pH of less than 3.5, obtained by desalting and purifying gum arabic [San Arabic, manufactured by Sanei Pharmaceutical Co., Ltd., fast-dissolving granules by a fast dissolving spray-dry method, emulsified flavor, pH: 1. 6 to 2.2] were prepared in the same manner as in Example 1 except that the same amounts were used.

The mass ratio G / H of gum arabic and cetanol was 15.0, the mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.05.
<Examples 3 to 6>
Instead of cetanol, higher alcohols such as myristyl alcohol (14 carbons, Example 3), stearyl alcohol (18 carbons, Example 4), lauryl alcohol (12 carbons, Example 5), arachidyl alcohol (carbon An ink-jet ink was prepared in the same manner as in Example 1, except that the same amount of Formula 20 and Example 6) were blended.

The mass ratio G / H of gum arabic and higher alcohol was 15.0, the mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.05.
<Example 7>
Instead of surfactants A and B, 1.0% by mass of sorbitan monolaurate [Emazole L-10V manufactured by Kao Corporation, HLB: 8.6, hereinafter referred to as "SmL"], which is a sorbitan fatty acid ester, is used. An ink-jet ink was prepared in the same manner as in Example 1 except that it was blended.

The mass ratio G / H of gum arabic and cetanol was 15.0, the mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.05.
<Example 8>
An inkjet ink was prepared in the same manner as in Example 1, except that the content of cetanol was 0.3% by mass and the content of water was 45.8% by mass.

The mass ratio G / H of gum arabic and cetanol was 5.0, the mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.06.
<Example 9>
An ink-jet ink was prepared in the same manner as in Example 1, except that the content of cetanol was 0.03% by mass and the content of water was 46.07% by mass.

The mass ratio G / H of gum arabic and cetanol was 50.0, the mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.05.
<Example 10>
An ink-jet ink was prepared in the same manner as in Example 1, except that the content of cetanol was 0.5% by mass and the content of water was 45.6% by mass.

The mass ratio G / H of gum arabic and cetanol was 3.0, the mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.06.
<Example 11>
An inkjet ink was prepared in the same manner as in Example 1, except that the content of cetanol was set to 0.02% by mass and the content of water was set to 46.08% by mass.

The mass ratio G / H of gum arabic and cetanol was 75.0, the mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.05.
<Example 12>
An ink-jet ink was prepared in the same manner as in Example 1 except that the content of ethanol was 43.4% by mass, including that in the pigment dispersion, and the content of 1-propanol was 5.0% by mass. .

The mass ratio G / H of gum arabic and cetanol was 15.0, the mass ratio E / P of ethanol and 1-propanol was 8.68, and the mass ratio L / W of lower alcohol and water was 1.05.
<Example 13>
An ink-jet ink was prepared in the same manner as in Example 1 except that the content of ethanol was 37.4% by mass, including that in the pigment dispersion, and the content of 1-propanol was 11.0% by mass. .

The mass ratio G / H of gum arabic and cetanol was 15.0, the mass ratio E / P of ethanol and 1-propanol was 3.40, and the mass ratio L / W of lower alcohol and water was 1.05.
<Example 14>
An ink-jet ink was prepared in the same manner as in Example 1 except that the content of ethanol was 45.4% by mass, including that in the pigment dispersion, and the content of 1-propanol was 3.0% by mass. .

The mass ratio G / H of gum arabic and cetanol was 15.0, the mass ratio E / P of ethanol and 1-propanol was 15.1, and the mass ratio L / W of lower alcohol and water was 1.05.
<Example 15>
An ink-jet ink was prepared in the same manner as in Example 1, except that the content of ethanol was 32.4% by mass, including that in the pigment dispersion, and the content of 1-propanol was 16.0% by mass. .

The mass ratio G / H of gum arabic and cetanol was 15.0, the mass ratio E / P of ethanol and 1-propanol was 2.03, and the mass ratio L / W of lower alcohol and water was 1.05.
<Comparative Examples 1 and 2>
An ink-jet ink was prepared in the same manner as in Example 1 except that the same amounts of hydroxypropylcellulose (HPC, Comparative Example 1) and polyvinylpyrrolidone / vinyl acetate (PVP / HPC, Comparative Example 2) were used instead of gum arabic. did.

The mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.05.
<Comparative Example 3>
An ink-jet ink was prepared in the same manner as in Example 1, except that cetanol was not added and the water content was 46.1% by mass.

The mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.05.
<Comparative Examples 4 and 5>
An ink-jet ink was prepared in the same manner as in Example 1 except that the same amount of 1-decanol (10 carbon atoms, Comparative Example 4) and behenyl alcohol (22 carbon atoms, Comparative Example 5) were blended as higher alcohols instead of cetanol. Prepared.

The mass ratio G / H of gum arabic and higher alcohol was 15.0, the mass ratio E / P of ethanol and 1-propanol was 5.05, and the mass ratio L / W of lower alcohol and water was 1.05.
<Intermittent printing test>
Using an on-demand type ink jet printer (setting frequency: 6 kHz), the following print pattern was printed on offset coated paper with the ink jet ink prepared in Examples and Comparative Examples, and after standing for a certain period of time, Printed again.

(Print pattern)
* Uppercase letters “ABCDE” and lowercase letters “abcdefg” with a font size of 11 points are two rows, one for orthographic and one for italic.
* One QR code (registered trademark) of 1.2 cm x 1.2 cm,
One solid part of * 1.2 cm × 1.2 cm and one bar code were arranged in one row and arranged in four rows with different font thickness for each row.

(Evaluation)
Characters were visually observed in the print after the standing, and continuous printability was evaluated based on the following criteria.
：: No chipping was observed in the characters even after printing for 30 minutes.
：: Chipping was observed in the characters after standing for 30 minutes, but not after 20 minutes.

C: Character chipping was observed after standing for 20 minutes, but no chipping was observed after standing for 10 minutes.
X: The character was chipped even after standing for 10 minutes, and the character could not be read.
<Stability test>
The viscosity was measured after the ink-jet inks prepared in the examples and comparative examples were stored for a certain period of time in an environment of 45 ° C., the rate of change with respect to the viscosity before storage was determined, and the stability was evaluated based on the following criteria. .

A: The rate of change in viscosity after storage for 6 weeks was within ± 10%.
：: The change in viscosity after storage for 6 weeks exceeded ± 10%, but the change in viscosity after storage for 4 weeks was within ± 10%.
Δ: The rate of change in viscosity after storage for 4 weeks exceeded ± 10%, but the rate of change in viscosity after storage for 2 weeks was within ± 10%.

×: The rate of change in viscosity exceeded ± 10% even after storage for 2 weeks.
<Continuous printability test>
Using an on-demand type ink jet printer (setting frequency: 6 kHz), a plurality of parallel ruled lines are continuously formed at a printing speed of 50 m / min on offset coated paper with the ink jet inks prepared in Examples and Comparative Examples. Printed.

Then, the printed ruled lines were visually observed, and the ejection stability was evaluated based on the following criteria.
：: Fine ruled lines could be printed at regular intervals. Good Δ: The ruled lines were slightly wavy, or the intervals between the ruled lines were slightly varied, but at a normal level.
×: The undulation of the ruled line was larger than “△”, or the variation of the interval was larger. Bad.

<Response test of high frequency printing>
Using an on-demand type ink jet printer (setting frequency: 12 kHz), 20 lines of a solid surface having a length of 13 mm and a width of 240 mm were continuously formed on the offset coated paper with the ink jet inks prepared in Examples and Comparative Examples. Printed.
Then, the printed solid surface was visually observed, and the response of high-frequency printing was evaluated based on the following criteria.

：: No fading was observed on the solid surface of all the rows.
Δ: In the printing end portion of the solid surface after the 18th line, blurring due to the inability to supply the ink was observed.
×: Blurring was already observed before the 18th line.
<Print clarity test>
Using an on-demand type inkjet printer (setting frequency: 6 kHz), four-point lowercase letters "abcdefg" were printed on the surface of the FC tablet with the inkjet inks prepared in Examples and Comparative Examples.

The print was visually observed, and the sharpness of the print was evaluated based on the following criteria.
：: The sharpness was excellent.
Δ: The sharpness was slightly inferior to “○”, but at a normal level.
×: The sharpness was inferior to “△”.
The above results are shown in Tables 3 to 6.

表３〜表６の実施例１〜１５、比較例１〜５の結果より、結着剤としてアラビアガムを用いるとともに、炭素数１２以上、２０以下の高級アルコール、炭素数１以上、４以下の低級アルコール、および水を併用することにより、現状よりも間欠印字性や連続印字性にすぐれ、たとえば、固形の製剤の表面に良好な印字をすることができるインクジェットインクを提供できることが判った。

From the results of Examples 1 to 15 and Comparative Examples 1 to 5 in Tables 3 to 6, while using gum arabic as a binder, a higher alcohol having 12 or more and 20 or less carbon atoms, a higher alcohol having 1 or more and 4 or less carbon atoms. It has been found that by using a lower alcohol and water in combination, it is possible to provide an inkjet ink which is superior in intermittent printing property and continuous printing property as compared with the current state, and which can perform good printing on the surface of a solid preparation, for example.

From the results of Examples 1 and 2, it was found that it is preferable to select and use gum arabic having a pH of 3.5 or more.
From the results of Example 1 and Examples 3 to 6, as the higher alcohol, those having 14 to 18 carbon atoms in the above range, such as myristyl alcohol, cetanol, and stearyl alcohol are preferable, and cetanol is particularly preferable. It turns out.

From the results of Examples 1 and 7, it was found that when a surfactant was contained, it was preferable to use polyoxyethylene polyoxypropylene glycol as the surfactant.
From the results of Example 1 and Examples 8 to 11, the mass ratio G / H of gum arabic G and higher alcohol H is preferably 3 or more, particularly preferably 5 or more, and is preferably 75 or less, particularly preferably 50 or less. It turns out.

From the results of Example 1 and Examples 12 to 15, when two types of lower alcohols, ethanol E and propanol P, are used in combination, the mass ratio E / P of both is preferably 2 or more, particularly 3 or more, and 16 Below, it was found that it is particularly preferable to be 9 or less.
Further, from the results of Examples 1 to 15, it was found that the mass ratio L / W of the lower alcohol L to the water W was preferably 0.5 or more, and more preferably 2 or less.

Claims (5)

  An inkjet ink comprising a coloring agent, gum arabic, a higher alcohol having 12 or more and 20 or less carbon atoms, a lower alcohol having 1 or more and 4 or less carbon atoms, and water.   The inkjet ink according to claim 1, wherein the gum arabic has a pH of 3.5 or more.   3. The ink-jet ink according to claim 1, wherein when the content of the gum arabic is G and the content of the higher alcohol is H, the mass ratio G / H between the two is 5 or more and 50 or less. 4.   The said lower alcohol is two kinds of ethanol and propanol, When the content of said ethanol is E and the content of said propanol is P, the mass ratio E / P of both is 3 or more and 9 or less. 4. The inkjet ink according to any one of items 1 to 3.   The inkjet ink according to any one of claims 1 to 4, further comprising polyoxyethylene polyoxypropylene glycol as a surfactant.