JP2004196833A - Ink discriminable by ultraviolet irradiation - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide ink capable of confirming printing by ultraviolet irradiation though confirmation of the printing cannot be made by visual observation and without causing elution and having excellent sanitary properties and further ink capable of marking swift variable information in a moment and improving the form of quality control and distribution control of foods. <P>SOLUTION: The ink discriminable by the ultraviolet irradiation is characterized as comprising flavonoid coloring matters such as apigenin, quercetin, apiin, hesperidin, naringin, citronine, daidzin, rutin and tricine and a solvent. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

【００３７】
【発明の効果】
本発明のインキは、衛生性に優れた材料を使用し、目視では印刷の確認ができないが、紫外線の照射により印字が確認できる。
又、本発明のインキは、迅速な可変情報を瞬時にマーキングし、食品類の品質管理、流通管理の形態を向上させることができる。[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an ink which is suitable for highly safe marking even on a food packaging material which may come into contact with the surface of a fresh food or a food, is difficult to be distinguished by general visible light, and can be confirmed by ultraviolet rays. .
[0002]
[Prior art]
In recent years, foods such as fresh foods have been required to display the date of manufacture, expiration date, etc., and it is essential to mark the date of manufacture on some products. It has become. For fresh food, quality management is improved by indicating the harvest date, production area, and the like for each piece.
However, apart from the general marking for confirming by display, it is necessary to mark products by a method that cannot be generally confirmed to obtain the traceability of the products.
2. Description of the Related Art Conventionally, for various special uses, inks that are difficult to confirm with visible light but are made visible by special light or capable of being read by a sensor have been developed. For such uses, those that emit violet light such as a fluorescent whitening agent are used, but are not intended for foods, and are used to mark foods with fluorescent whitening agents. This means that there are food hygiene problems and their use is restricted.
[0003]
Patent Literature 1 describes an ink that emits red-orange light when irradiated with ultraviolet light. This ink is an ink mainly composed of water and hydrophilic glycol ether. In applications where printing is performed at high speed, sufficient drying was not obtained because the amount of water was large and the drying of glycol ethers was slow. . In particular, when printing is performed on a non-porous film or the like other than paper, a sufficiently high drying speed cannot be obtained. Here, the pigment used is also made of heavy metal and is not suitable for marking in the field of food and food packaging.
[0004]
Patent Literature 2 describes an ink having good drying properties that emits red-orange light under ultraviolet light. These use xylene and methyl ethyl ketone as solvents. Therefore, although the adhesiveness to a non-porous film and the like and the drying property are good, the solvent used has odor of the solvent and restrictions on handling.
[0005]
Patent Literature 3 uses alcohol in an amount of 70% or more in place of a solvent such as methyl ethyl ketone described above, but the luminescent material used is still not suitable for marking on foods and food packaging. .
[0006]
Conventionally, for variable information that marks the confirmation of traceability, it is not possible to quickly mark the variable information by a method using an ordinary printing press. In addition, it is preferable from the viewpoint of hygiene that the ink used for marking fresh food is an ink conforming to food.
[0007]
On the other hand, conventionally, an ink jet printer or a thermal transfer printer has been used to record the production date and lot number on cans and packs of foods and the like. Since these printers can directly record variable information, there is no need to create a printing plate, and it is easy to change information by a computer, and various applications have been developed at production sites.
[0008]
In particular, ink jet printers are used in an extremely wide range because they can perform printing at high speed and require only a small amount of ink by discharging required ink. In addition, since printing can be performed in a non-contact manner, it is suitable for marking on a curved surface or a soft object. As an ink used for an ink jet printer, there is a water-soluble dye which is a food additive colorant dissolved in water, but the water resistance is poor and the ink cannot be used for an object which comes into contact with water.
[0009]
On the other hand, Patent Literature 4 discloses that an inkjet ink having excellent water resistance and suitable for printing on the surface of food has a binder of shellac, a solvent composed of water and ethanol, and sodium iron chlorophyllin or (and) A green ink composition containing sodium copper chlorophyllin as a colorant is disclosed. However, this ink is essentially a colored ink, and is generally an ink that can be easily visually confirmed, and has a different purpose from the present invention.
[0010]
Inkjet inks having excellent water resistance include those in which an oil-soluble dye is dissolved in a volatile solvent such as methyl ethyl ketone and ethanol, and those in which vinyl chloride vinegar, xylene resin, butyral resin, and the like are further dissolved. Widely used as fast drying ink. These inks are excellent in water resistance and have such resistance that they do not fall off even when rubbed, but are not composed of food additives, so that they are not preferably used for applications that touch the mouth.
In addition, the above-mentioned inks can be visually checked for printing under ordinary conditions, and are not inks that can be used as hidden inks.
[0011]
[Patent Document 1]
Japanese Patent Publication No. 54-22336 [Patent Document 2]
Japanese Patent Publication No. Hei 8-26264 [Patent Document 3]
Japanese Patent Application Laid-Open No. 2000-160083 [Patent Document 4]
JP-A-53-127010
[Problems to be solved by the invention]
An object of the present invention is to provide an ink which can not confirm printing by visual inspection, can confirm printing by irradiation of ultraviolet rays, has no elution, and is excellent in hygiene. It is another object of the present invention to provide an ink that quickly marks variable information and improves the quality control and distribution control of foods.
[0013]
[Means for Solving the Problems]
That is, the present invention relates to an ink that can be distinguished by irradiation with ultraviolet light, comprising an ink containing a flavonoid pigment and a solvent.
Furthermore, the present invention relates to the above ink, wherein the flavonoid pigment is apigenin, quercetin, apiin, hespyridine, naringin, citronin, daidzin, rutin or tricine.
[0014]
Further, the present invention relates to the above ink further containing a resin.
Furthermore, the present invention relates to the above ink, wherein the solvent is ethanol.
Furthermore, the present invention relates to the above-mentioned ink, wherein the ink is an inkjet ink.
Furthermore, the present invention relates to the above-mentioned ink, which further contains a conductivity adjusting agent.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
The ink of the present invention essentially uses a flavonoid dye as a dye that can be identified by irradiation with ultraviolet rays. Flavonoid pigments are plant-derived components, and some of them, although weak, emit some light due to fluorescence. Flavonoid pigments include apigenin, quercetin, apiin, hespyridine, naringin, citronin, daidzin, rutin, tricine and the like. Among these flavonoids, naringin is a substance contained in the peels of oranges and the like of Rutaceae, and is recognized as a food ingredient as a bitter component.
[0016]
In the present invention, since the colorless printing surface emits yellow or yellow-brown light when irradiated with ultraviolet light, identification is achieved by a difference in light emission from the printing substrate. For this discrimination, naringin requires a concentration of at least 0.1% by weight in the ink. Depending on the type of ink, it is possible to increase the content, but the ink is used in a range where it is difficult to identify the printed portion due to the characteristics as a hidden ink. In addition, for ink jet, it is preferable to use 10% by weight or less in order to facilitate discharge reliability.
[0017]
In the present invention, the solvent is not limited as long as it dissolves naringin. However, for food-related applications, ethanol is preferred. For the purpose of controlling the drying property, glycerin, propylene glycol or the like can be used. The ethanol may be food-grade ethanol or food-grade denatured ethanol. The water content is acceptable if it is up to 5% by weight in an ethanol solvent. Ethanol is preferably contained in the ink in a range of 75 to 95% by weight.
[0018]
The resin used in the present invention is required to be colorless and transparent. Further, a material that can be treated similarly to this for food addition is preferable. Examples of such a resin include shellac, copal resin, dammar resin, New Ko, rosin, fabal sam, mastic, vinyl acetate, polyisobutylene, polybutene, and guaiac resin. These resins can be used in combination. Further, the resin is preferably an alcohol-soluble resin. Such a resin is dissolved in alcohol to increase the viscosity of the ink, and further functions as a binder for the printing medium.
[0019]
In the present invention, the resin is preferably contained in the ink in a range of 0.1 to 15% by weight. If the content is less than 0.1% by weight, an appropriate viscosity cannot be obtained. If it is 15% by weight or more, the stability in continuous operation decreases. In addition, there is a possibility that identification with general visible light may be facilitated.
[0020]
The ink of the present invention can be formulated as an offset ink, a gravure ink, a flexographic ink, and a screen ink. However, in printing variable information, the ink jet system is superior. There are various types of ink jet systems, and it is possible to adjust ink formation with any of the heads.However, for printing in capital letters, a solenoid valve system with a large nozzle diameter and a large amount of ink droplets is used. It is suitable to perform marking with a printer or a continuous type printer capable of responding at high speed although the characters are smaller.
[0021]
The propylene glycol or glycerin can be used as the inkjet ink of the present invention, particularly when an on-demand type inkjet printer is assumed, in order to prevent the ink from drying at the nozzle. These solvents are preferably contained in the ink in a range of 0.5 to 15% by weight. When the content is less than 1% by weight, the effect of preventing drying is insufficient and causes clogging of the nozzle. When the content is more than 20% by weight, drying of the marking surface becomes slow and the production speed is lowered. In addition, there is an adverse effect such as contamination of the transport container.
[0022]
When the inkjet ink of the present invention is used in a continuous type printer, it is necessary to adjust the conductivity of the ink, and a conductivity adjuster is used. As the conductivity adjuster, one that gives good solubility and conductivity to ethanol and is a food additive is preferable. Such conductivity adjusters include sodium lactate, sodium acetate, potassium lactate, sodium pantothenate, and sodium benzoate. Preferred conductivity adjusters are sodium lactate, sodium acetate, potassium lactate and sodium pantothenate. These conductivity adjusters are preferably incorporated in the ink in an amount of 0.5 to 10% by weight. If the content is less than 0.5% by weight, sufficient conductivity cannot be obtained, and if the content exceeds 10% by weight, the solubility is insufficient and defects such as precipitation are caused.
[0023]
The inkjet ink of the present invention may further use a pH buffer or the like for maintaining stable solubility of the dye.
The ink of the present invention can be produced by weighing these components according to the formulation, mixing and stirring, and then filtering the mixture with a 0.2-3.0 μm membrane filter. Mixing and stirring can be performed by a high-speed disperser or emulsifier in addition to a normal stirrer equipped with blades.
[0024]
The viscosity at 25 ° C. of the inkjet ink of the present invention is preferably adjusted to a range of 1.1 to 20 mPa · s. If the viscosity is too low, formation of ink dots on the printing medium will be poor, and the print density will be low. On the other hand, if the viscosity is too high, problems such as poor ejection and poor drying come out.
[0025]
Although the surface tension is suitable for a printer, it is preferable to adjust the surface tension to a range of 22 to 35 mN / m. When marking is performed with a continuous-type printer, the conductivity of the ink is preferably adjusted to a range of 0.5 to 10 mS / cm.
[0026]
When marking is performed on the surface of food and food packaging material using the inkjet ink of the present invention, the marking is performed by an inkjet method, and a marked food or food packaging material is obtained. The inkjet method includes a continuous method (multi-valued deflection, binary deflection), a drop-on-demand method (bubble jet (registered trademark) method, a piezo method, a solenoid valve method, and the like). For the marking of curved and flexible surfaces such as fresh foods, the continuous method is suitable. The nozzle hole diameter of the ink jet printer is preferably from 8 to 150 μm.
[0027]
In addition, various foods such as fresh foods, fruits such as apples, tangerines, watermelons, lemons, tomatoes and vegetables, eggs, processed foods, instant foods, dried foods, liquid foods, foods for storage, etc. In particular, if the marking is performed by linking data such as the manufacturing date, production location, production place, production process, product information, quality information, etc. Management and distribution management.
In addition, the inkjet ink of the present invention can be used for packaging materials that may come into direct contact with food. Such packaging materials are plastic materials such as polyethylene terephthalate, polystyrene, polypropylene, polyethylene, nylon.
[0028]
The data to be marked can include the production place, harvest date and time, producer, date, special symbols, and the like.
[0029]
These notations give reliability to the distribution form of the product as a reliable display method of the route. In the case of marking, water droplets and the like may adhere to the surface due to the characteristics of fresh food, but in such cases, forced drying of the marking surface by pressurized air (air gun) immediately before marking or application of hot air Forcibly removing water droplets is an effective processing means.
[0030]
Fresh foods with markings such as production place, harvest date and sugar content include fruits such as tangerines, apples and watermelons, vegetables, meats and fresh fish.
Food packaging materials include bread, confectionery, ramen, noodles, juice, milk,
In addition, it can be applied to medicines, cosmetics, shipping medicines, and the like, as well as foods, and foods that require attention as in the case of foods.
[0031]
【Example】
Hereinafter, the present invention will be described in detail with reference to examples. In the examples, parts and% indicate parts by weight and% by weight, respectively.
(Example 1)
After mixing and dissolving the following raw materials, the mixture was filtered through a 0.8 μm membrane filter to prepare an inkjet ink.
Naringin 3.0 parts White shellac 8.0 parts Copal resin 3.0 parts Sodium lactate 2.0 parts Ethanol 84.0 parts
(Example 2)
An ink-jet ink was manufactured in the same manner as in Example 1 except that the following formulation was used.
Naringin 2.0 parts White shellac 8.0 parts Copal resin 3.0 parts Sodium pantothenate 2.5 parts Ethanol 84.5 parts
(Example 3)
An ink-jet ink was manufactured in the same manner as in Example 1 except that the following formulation was used.
Naringin 2.0 parts White shellac 9.0 parts Copal resin 4.0 parts Sodium lactate 2.7 parts Purified water 1.3 parts Propylene glycol 1.0 parts Ethanol 80.0 parts
With respect to the inks obtained in the examples, the viscosity at 25 ° C. (mPa · s), the surface tension (mN / m), and the conductivity (mS / cm) were measured. The viscosity was measured using a viscometer (“Digital Viscomate”, manufactured by YAMAICHI), and the surface tension was measured using a surface tensiometer (“Surface Tensiometer”, manufactured by KYOWA INTERFACE). Was measured using a conductivity meter (“Conductivity meter” manufactured by HORIBA).
In addition, the inks obtained in the examples and comparative examples were put into an ink tank of a continuous type ink jet printer and marked on a polyester film, and the obtained markings were evaluated as follows. In addition, marking was performed continuously for three months, and the presence or absence of nozzle clogging and the occurrence of trouble in the ink circulation system were evaluated. Further, marking was performed continuously for three hours, and the ejection stability was evaluated (good: no ejection stop, defective: ejection stop). Table 1 shows the results.
[0035]
-Print density Whether or not visual confirmation in a dark room by ultraviolet irradiation (black light 254 nm) of the marking material is possible.
Drying property The marking surface was touched with a finger after 5 seconds, and the presence or absence of dye removal was visually checked. (Good: no pigment removal, poor: pigment removal)
-Printability-Continuous dischargeability-Abnormality after 300 hours-Adhesiveness-Peeling by mending tape [0036]
[Table 1]

[0037]
【The invention's effect】
The ink of the present invention uses a material having excellent hygiene properties, and although printing cannot be confirmed visually, printing can be confirmed by irradiation with ultraviolet rays.
Further, the ink of the present invention can quickly mark variable information and improve quality control and distribution control of foods.

Claims (5)

An ink distinguishable by ultraviolet irradiation, comprising a flavonoid dye and a solvent. The ink according to claim 1, wherein the flavonoid pigment is apigenin, quercetin, apiin, hespyridine, naringin, citronin, daidzin, rutin or tricine. 3. The ink according to claim 1, wherein the solvent is ethanol. The ink according to any one of claims 1 to 3, wherein the ink is an inkjet ink. The ink according to claim 4, further comprising a conductivity adjuster.