JP4575638B2 - Wet tissue - Google Patents

Description

【００３８】
【発明の効果】
本発明の抗菌ウエットティッシュは、天然成分であるε−ポリリジンと食品添加物であるソルビン酸塩を併用することにより、パラベンを使用することなく、優れた抗菌、防カビ効果を有し、拭き残りも少ない。そのため、人体に対する皮膚清拭用、赤ちゃんや老人が使用する身の回り品の清拭用、台所、冷蔵庫等の生活空間や日用雑貨の清拭用、メディカル用の皮膚清拭用、雑品清拭用、食品や食品用の容器の清拭用として、衛生、安全上の面で好ましく使用することができる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wet tissue for interpersonal purposes. More specifically, the present invention relates to a wet tissue that is highly safe to the human body and has a high antifungal effect.
[0002]
[Prior art]
In general, a wet tissue is used in a state where an aqueous solution containing water as a main component is impregnated in a cloth such as a nonwoven fabric. By wiping off the human body and daily necessities with such a wet tissue, it is possible to efficiently remove dust and dirt, so that it is widely used as a product for improving hygiene and comfort.
Wet tissue may be mixed with bacteria and fungi such as mold that are present in the air such as falling bacteria during the manufacturing process and use, and these may propagate on the nonwoven fabric that is the base material during storage. . When the wiping operation is performed in this state, there is a problem that the wiping surface is changed and contaminated. For this reason, parabens and the like have been added to wet tissues for some time to prevent the growth of fungi such as bacteria and fungi on the substrate. However, although parabens have a high effect of suppressing the growth of fungi such as bacteria and fungi, there has been a demand for drugs with higher safety and a higher effect of suppressing reproduction as consumers' safety awareness increases.
[0003]
To suppress the growth of fungi such as bacteria and mold without using parabens, it is considered to increase the concentration of alcohol used as a disinfectant, disinfectant and quick-drying agent in normal wet tissue. It is done. However, when the alcohol concentration exceeds 50% by weight, there is a concern that when a person with weak skin uses it, the sebum is removed more than necessary and rough hands are caused.
Polylysine and its salts are known as agents having antibacterial performance in addition to parabens and high-concentration alcohol. JP-A-8-175901 proposes an antibacterial material to which ε-polylysine is adsorbed, and JP-A-11-76376 proposes an antibacterial material to which ε-polylysine or a salt thereof and an organic acid are attached. Has been. However, ε-polylysine alone or a combination of ε-polylysine or a salt thereof and an organic acid antibacterial material has a reproduction inhibition effect on bacteria (hereinafter referred to as an antibacterial effect), but a reproduction inhibition effect on fungi such as mold ( Hereinafter, there was a problem that fungal growth could not be suppressed because the fungicidal effect was not high.
[0004]
As an example of wet tissue imparted with antibacterial and antifungal effects without using parabens or high-concentration alcohol, JP-A-11-113780 discloses that ε-polylysine or a salt thereof, and glycerin are used in which the amount of alcohol used is suppressed. Disclosed is a wet tissue that is impregnated with a fatty acid ester, hardly causes rough skin such as skin, and is highly safe even when orally. JP-A-11-113779 discloses a sterilized wet tissue impregnated with ε-polylysine or a salt thereof and glycerin fatty acid ester without using alcohol. Although these wet tissues have antibacterial and antifungal effects and are highly safe, they contain glycerin fatty acid esters, so that foam is generated when wet tissues are used, and these substances are non-volatile in the wiped parts. However, there is a problem in practical use, such as generation of wiping residue when dried after wiping.
[0005]
[Problems to be solved by the invention]
The present invention provides a wet tissue that has little rough skin against the human body, is highly safe even when orally, has excellent antibacterial performance and anti-fungal effect during storage, and does not easily generate wiping residue even after drying after wiping. The purpose is to do.
[0006]
[Means for Solving the Invention]
The present invention includes 0.01 to 1.00 % by weight of ε-polylysine or a salt thereof, and 0.01 to 1.00 % by weight of an alkali metal salt of sorbic acid, from glycerin, propylene glycol, and polyethylene glycol. A wet tissue in which a chemical containing 5 % by weight or less of a moisturizing agent and 15 % by weight or less of ethanol is applied to a nonwoven fabric, and an area ratio of 20% or more of the nonwoven fabric surface to be a wiping surface of the wet tissue. The wet tissue is a fiber having a single yarn diameter of 0.2 to 5.0 μm, and the wiping surface is made of a material including split fibers and fibrillated ultrafine fibers.
The wet tissue of the present invention is characterized in that a chemical solution containing ε-polylysine or a salt thereof and an alkali metal salt of sorbic acid (hereinafter referred to as a chemical solution) is applied to the nonwoven fabric.
[0007]
ε-Polylysine or a salt thereof and an alkali metal salt of sorbic acid require a very large amount of use in order to have an antifungal effect in each compound itself, and not only causes economic disadvantages, When the amount used is increased, when a person with weak skin uses it, there is a concern that rough hands may occur, or the color may change depending on the substrate. Moreover, since each compound is non-volatile, a wiping trace may remain at the time of wiping. In the present invention, since the non-woven fabric is given a chemical solution having a specific concentration of ε-polylysine or a salt thereof and an alkali metal salt of sorbic acid, the fungicidal effect is not exhibited when each is used alone. Even at a low concentration, an excellent antifungal effect is exhibited. Moreover, since each is low concentration, generation | occurrence | production of a bubble can be suppressed and it has the effect that it is hard to generate | occur | produce the wiping residue at the time of wiping.
[0008]
The ε-polylysine used in the present invention is, for example, Streptomyces alpras subspices lysinopolymelas belonging to the genus Streptomyces, which is an ε-polylysine producing bacterium described in Japanese Patent Publication No. 59-20359. It is obtained by culturing and separating and collecting ε-polylysine from the obtained culture. ε-polylysine is a substance that is also described in the existing additive list of the Ministry of Health and Welfare, and is used for food preservatives and the like.
[0009]
In the present invention, ε-polylysine can be used in a free form, but inorganic acids such as hydrochloric acid, sulfuric acid and phosphoric acid, or acetic acid, propionic acid, fumaric acid, malic acid, citric acid, maleic acid, adipic acid, It can also be used in the form of a salt of an organic acid such as gluconic acid. Used as a salt of medium- and long-chain saturated fatty acids such as caproic acid, lauric acid, and stearic acid, and medium- and long-chain unsaturated fatty acids such as oleic acid, linoleic acid, and arachidonic acid, depending on the intended use. You can also. ε-polylysine has no essential difference in its antibacterial effect, whether in the free form or in the form of a salt with the aforementioned inorganic acid or organic acid.
[0010]
The sorbate used in the present invention is an alkali metal salt of sorbic acid represented by the chemical formula (1).
CH ₃ CH═CHCH═CHCOOR (R is Na, K, etc.) (1)
Among sorbates, potassium sorbate is certified as a food additive, and it has been used for a long period of time for the storage of various foods, and has been confirmed to be safe for the human body. It is preferable because it is relatively expensive even if it is used.
[0011]
In this invention, (epsilon) -polylysine or its salt, and sorbate are provided to the nonwoven fabric as a chemical | medical solution melt | dissolved or disperse | distributed in the solvent. If water is a solvent, that is, an aqueous solution, it can be uniformly applied and is economically advantageous.
The concentration of ε-polylysine or a salt thereof applied to the nonwoven fabric in the chemical solution is 0.01 to 3.00% by weight, preferably 0.01 to 1.00% by weight, more preferably 0.01 to 0.50. % By weight. If ε-polylysine or a salt thereof is less than 0.01% by weight, the antifungal effect is small, and if it exceeds 3.00% by weight, the antifungal effect hardly changes even when the concentration is increased. If used, there is a concern that rough skin will occur, and the base material will turn yellow or a wiping residue will occur.
[0012]
The concentration of the alkali metal salt of sorbic acid applied to the nonwoven fabric in the chemical solution is 0.01 to 3.00% by weight, preferably 0.01 to 1.00% by weight, more preferably 0.01 to 0.00. 50% by weight. If the alkali metal salt of sorbic acid is less than 0.01% by weight, the antifungal effect is reduced, and if it exceeds 3.00% by weight, the antifungal effect is almost unchanged even if the concentration is increased, and the skin is weak. If used, there is a concern that rough skin will occur, and the base material will turn yellow or a wiping residue will occur.
In the present invention, in order to further improve the fungicidal effect of ε-polylysine or a salt thereof and sorbate, it is preferable to adjust the pH of the chemical solution to 4-6. In order to adjust the pH, a buffer solution consisting of an organic acid and an organic acid salt may be used, and it has been certified as a food additive and used for various foods for a long period of time. Preference is given to using acid salts, for example sodium citrate.
[0013]
In the wet tissue of the present invention, as other additives, additives used in ordinary wet tissues, such as sterilizers, ethanol and isopropyl alcohol as drying rate improvers, glycerin and propylene glycol as moisturizers, etc. In addition, polyethylene glycol, etc., and perfume, antibacterial agent, disinfectant, thickener, dye, antioxidant, and surfactant may be added in an appropriate amount depending on the application.
[0014]
When alcohol is added, ethanol with less toxicity is preferable from the viewpoint of safety. The addition amount is preferably 50% by weight or less, more preferably 30% by weight or less, and most preferably 15% by weight or less of the aqueous solution from the viewpoint of rough skin during long-term use.
The amount of glycerin, propylene glycol, polyethylene glycol, etc. added as a humectant is preferably 10% by weight or less, more preferably 5% by weight or less of the chemical solution. If it exceeds 10% by weight, bubbles or stickiness may occur on the wiping surface after wiping, and wiping residue may occur.
As an antibacterial agent or disinfectant, bamboo extract, hinokitiol, protamine, tea extract, lysozyme, chitosan and the like may be added as desired. However, it is preferable that safety is confirmed with respect to a human body like polylysine.
It is desirable that other additives have been confirmed to be safe for the human body.
[0015]
100-400 weight% is preferable with respect to the nonwoven fabric weight, and, as for the amount of chemical | medical solutions provided to the nonwoven fabric used for the wet tissue of this invention, More preferably, it is 150-300 weight%. If the amount of the applied chemical solution is less than 100% by weight, the chemical solution evaporates during storage, and the wet state cannot be maintained or the wiping effect during wiping may be reduced. If the amount of the applied chemical solution exceeds 400% by weight, the chemical solution may drip during cleaning to stain the floor or the like, or a large amount of chemical solution may remain on the wiping surface, leaving a wiping trace.
[0016]
The raw material of the nonwoven fabric which comprises the wet tissue of this invention is not limited. For example, cellulosic fiber materials such as cotton, viscose rayon, and cupra rayon, and synthetic fiber materials such as acrylic, polyester, nylon, and polypropylene are used depending on the application. Moreover, these materials may be mixed. For example, it is preferable to use a non-woven fabric made of a material containing cellulosic fibers as a wet tissue base material because water absorption is improved. Use of a non-woven fabric composed of short fibers such as cotton is preferable because it not only has good water absorption, but also has excellent flexibility, so that the touch is good. The use of a nonwoven fabric composed of cellulose long fibers is preferable because it prevents the fibers from dropping off from the nonwoven fabric during wiping and contaminates the wiping surface.
[0017]
The fineness of the fiber which comprises the nonwoven fabric in this invention is not limited. If the non-woven fabric is made of a material containing ultrafine fibers on the wiping surface, it is preferable because the surface area increases as a wet tissue base material and the wiping property is improved. It is more preferable to use acrylic split fibers and fibrillated ultrafine fibers because wiping properties are improved and hydrophilicity is also improved. The smaller the single yarn diameter of the fiber, the more the surface area is increased and the wiping property is improved.
[0018]
In the present invention, the fiber having a single yarn diameter of 0.2 to 5.0 μm is an area ratio of 20% or more of the nonwoven fabric surface to be a wet tissue wiping surface. If the single yarn diameter is 5 μm or less, the effect of wiping off dust and the like is excellent, and if it is 0.2 μm or more, cutting of single fibers due to friction can be suppressed. More preferably, an area ratio of 40% or more is a fiber having a single yarn diameter of 0.3 to 4.0 μm, and most preferably an area ratio of 60% or more is a fiber having a single yarn diameter of 0.35 to 3.5 μm. The single yarn diameter here means the diameter when the cross section of the single fiber is circular, the long diameter when the cross section is elliptical, and the maximum width when it is flat. The area ratio is given by Equation (1).
Area ratio (%) = (area occupied by fibers having a single yarn diameter within a predetermined range on the wiping surface) × 100 / (area of all fibers occupied on the wiping surface) (1)
[0019]
The mixing state of the materials is not limited, and the fibers may be mixed or may be combined in layers. There is no limitation on the mixing method and the composite method of the materials, and the fibers may be mixed to form a nonwoven fabric by a papermaking method. The nonwoven fabrics may be combined by high-pressure water flow or embossing, and the materials are dispersed on the nonwoven fabric. You may combine by what is called the airlaid method which combines.
[0020]
The method for producing the nonwoven fabric is not limited. For example, the nonwoven fabric made by the wet method, the papermaking method, and the dry method may be sufficient, and the nonwoven fabric by which these were compounded may be sufficient.
The surface state of the nonwoven fabric used in the present invention is not limited. For example, the nonwoven fabric may have through-holes, the nonwoven fabric surface may have a recess such as a circle, an ellipse, or a rectangle, or the nonwoven fabric surface may have vertical or horizontal stripes. The concave portion referred to here refers to a recessed portion that is not penetrated. The presence of through-holes, recesses, streaks, etc. on the surface of the nonwoven fabric is preferable because the effect of removing dirt during cleaning is improved.
[0021]
The basis weight of the nonwoven fabric used for the wet tissue of the present invention is preferably 15 to 200 g / m ² . When the basis weight of the nonwoven fabric is less than 15 g / m ² , the nonwoven fabric may be broken during wiping. On the other hand, if the basis weight exceeds 200 g / m ² , the nonwoven fabric becomes too thick to be difficult to follow the wiping surface, and the wiping property may be lowered.
The thickness of the nonwoven fabric is preferably 0.1 to 2.0 mm, more preferably 0.2 to 1.0 mm, when measured under a load of 0.98 N / cm ² from the viewpoint of durability and handleability. Most preferably, the thickness is 0.3 to 0.7 mm.
[0022]
The form of the wet tissue is usually a form of a package that is housed in a container whose inside is formed so as to be hermetically sealed, and the wet tissue base material can be pulled out one by one from the container, and is not limited. For example, it may be a cylindrical plastic container storing a wet tissue substrate wound in a roll shape, a pillow package or a paper container stored in a folded state one by one, or a composite form of these.
[0023]
The method for producing the wet tissue is not limited. For example, a wet tissue base material wound in a roll is stored in a cylindrical plastic container that is opened only in one direction, impregnated with a certain amount of chemical solution, heat sealed on the top with a plastic sheet, etc. Alternatively, a non-woven fabric folded one by one may be stored in a bag-made container that is opened in only one direction with a plastic sheet or the like, impregnated with a certain amount of chemical solution, and then opened. A method of heat-sealing the mouth, a method of impregnating a certain amount of a chemical solution in a folded state one by one, storing a plastic sheet etc. while making a bag in a wet state, a chemical solution while pulling out a sheet from a nonwoven fabric roll After impregnating a certain amount, it may be cut and folded one by one, or rewound into a roll shape and stored in a container. Good.
[0024]
The step of impregnating the non-woven fabric with the chemical solution may be before or after slitting the roll-shaped non-woven fabric, and may be before or after storing the non-woven fabric in the container. The same applies to the case where the sheets are folded one by one, and the step of impregnating the non-woven fabric with the chemical solution may be performed before or after the folding, or a method in which these are combined.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
EXAMPLES Hereinafter, the present invention will be described more specifically with reference to examples, but the present invention is not limited to these examples.
The antifungal property, rough skin property, and evaluation of the remaining wiping were performed by the following methods.
(1) Antifungal Evaluation Method The antifungal property of the sample was evaluated according to the halo method (JIS L1902-1990). That is, conidia for one test tube of black mold (IFO-4414) grown on a Sabouraud agar medium (10 ml) for storage of black mold for 2 weeks in 10 ml of a spore dispersant (0.005% dioctylsulfosuccinic acid) together with mycelia In addition to 100 ml of Sabouraud agar medium which was dispersed, filtered with sterile absorbent cotton, dissolved and kept at 45 ° C., 10 ml was dispensed per dish to prepare a plate medium.
The obtained wet tissue was cut into a size of 2 cm × 2 cm, placed on the prepared medium, and cultured at 25 ° C. for 7 days. The evaluation is that the growth inhibition zone (halo-) is formed around the sample (-), the growth of the fungus not observed on the sample (-), and the growth of the fungus up to the sample. What was recognized was set as (+).
[0026]
(2) Evaluation method of rough skin The obtained wet tissue was brought into contact with both hands of the paneler for 5 minutes and then air-dried. This operation was repeated twice a day for one month. After that, I had my skin condition self-reported. The number of panelists was 20.
[0027]
(3) Evaluation method for remaining wiping property The surface of a clean mirror without wiping marks or the like was wiped back and forth by the panel with the obtained wet tissue, and the mirror surface was dried. A panelist observed the wiping surface and evaluated the remaining wiping in three stages.
5: The wiping residue is hardly noticeable or even if there is wiping residue.
3: There is a little wiping residue, and the wiping residue is a little worrisome.
1: Since there is wiping residue, the wiping residue is worrisome and dry wiping is necessary.
There were 20 panelists, and the average score was taken as the evaluation result.
[0028]
[Example 1]
A non-woven fabric (Charelia (registered trademark) C1030, manufactured by Asahi Kasei Co., Ltd.) containing 90% by weight of short fibers of acrylic ultrafine fibers having an average basis weight of 30 g / m ² and 10% by weight of polyester short fibers was prepared.
ε-polylysine (manufactured by Chisso Corp.) 0.02% by weight, potassium sorbate (manufactured by Chisso Corp.) 0.025% by weight, ethanol 5% by weight, propylene glycol 2.5% by weight, citric acid 0 19% by weight, 0.74% by weight of sodium citrate and 91.525% by weight of purified water were blended to obtain an impregnating solution.
100 g of the nonwoven fabric was impregnated with 200 g of the impregnating solution to obtain a wet tissue. As shown in Table 1, the obtained wet tissue had extremely good safety to the human body, antifungal property during storage, and unwiping property. Moreover, since the base material contains acrylic ultrafine fibers, the wiping property was also good.
[0030]
[Example 2 ]
40% by weight of rayon short fibers and 60% by weight of short fibers of split fiber type yarns obtained by composite spinning of nylon and polyester were mixed to obtain a composite nonwoven fabric having an average basis weight of 40 g / m ² by the spunlace method. In this composite nonwoven fabric, nylon and polyester were partly separated by high-pressure water flow during the manufacturing process, and became ultrafine fibers. A wet tissue was obtained in the same manner as in Example 1 except that this composite nonwoven fabric was used. As shown in Table 1, the obtained wet tissue had extremely good safety to the human body, antifungal property during storage, and wiping residue. Moreover, since the ultrafine fiber was contained in the base material, the wiping property was also good.
[0031]
[Example 3 ]
ε-polylysine (manufactured by Chisso Corp.) 0.75% by weight, potassium sorbate (manufactured by Chisso Corp.) 0.75% by weight, purified water 90.70% by weight Wet tissue was obtained by the method. As shown in Table 1, the obtained wet tissue had good safety to the human body, antifungal property during storage, and wiping residue.
[0032]
[ Comparative Example 1 ]
ε-polylysine (manufactured by Chisso) 2% by weight, potassium sorbate (manufactured by Chisso) 2.5% by weight, purified water 87.070% by weight The same method as in Example 1 I got a wet tissue. As shown in Table 1, the obtained wet tissue had good safety to the human body, antifungal property during storage, and wiping residue.
[0033]
[Comparative Example 2 ]
A wet tissue was obtained in the same manner as in Example 1 except that ε-polylysine was not blended and the weight% of purified water was increased accordingly. As shown in Table 1, although the obtained wet tissue had good safety to the human body and wiping-off property, it had a problem in antifungal properties during storage and was unusable for practical use.
[0034]
[Comparative Example 3 ]
A wet tissue was obtained in the same manner as in Example 1 except that potassium sorbate was not blended and the weight% of purified water was increased accordingly. As shown in Table 1, although the obtained wet tissue had good safety to the human body and good wiping property, it had a problem with antifungal properties during storage and was not practical.
[0035]
[Comparative Example 4 ]
ε-polylysine (manufactured by Chisso Corp.) 0.02% by weight, potassium sorbate (manufactured by Chisso Corp.) 15% by weight, and purified water 76.550% by weight The same method as Example 1 I got a wet tissue. As shown in Table 1, although the obtained wet tissue had good antifungal properties during storage, it had problems in safety to the human body and wiping residue, and was unbearable for practical use.
[0036]
[Comparative Example 5 ]
ε-polylysine (manufactured by Chisso Corp.) 15% by weight, potassium sorbate (manufactured by Chisso Corp.) 0.025% by weight, purified water 76.545% by weight The same method as in Example 1 I got a wet tissue. As shown in Table 1, although the obtained wet tissue had good antifungal properties during storage, it had problems in safety to the human body and wiping residue, and was unbearable for practical use.
[0037]
[Table 1]

[0038]
【The invention's effect】
The antibacterial wet tissue of the present invention has an excellent antibacterial and antifungal effect without using parabens by using ε-polylysine, which is a natural component, and sorbate, which is a food additive, and can be wiped off. There are few. Therefore, for wiping the skin on the human body, wiping personal items used by babies and the elderly, wiping living spaces such as kitchens and refrigerators, daily necessities, wiping skin for medical use, and wiping miscellaneous goods It can be preferably used in terms of hygiene and safety for wiping foods and food containers.

Claims (2)

A humectant comprising 0.01 to 1.00 % by weight of ε-polylysine or a salt thereof, and 0.01 to 1.00 % by weight of an alkali metal salt of sorbic acid, and selected from glycerin, propylene glycol, and polyethylene glycol 5 % by weight or less and ethanol containing 15 % by weight or less of a wet tissue to which a non-woven fabric surface is applied. A wet tissue, characterized in that it is a fiber of 2 to 5.0 μm, and the wiping surface is composed of a material containing split fibers and fibrillated ultrafine fibers.   The wet tissue according to claim 1, wherein the nonwoven fabric is made of acrylic fibers.