JP2022013785A - Antibacterial, antiviral cleaning method - Google Patents

Abstract

To provide an antibacterial, antiviral cleaning method that can be conducted more simply while keeping effect of an antibacterial, antiviral composition on fiber to be cleaned in cleaning.SOLUTION: A cleaning method that brings about antibacterial, antiviral effect on fiber to be cleaned includes a cleaning step for subjecting the fiber to be cleaned to water washing or dry cleaning, a chlorine removing step for removing chlorine adhered to the fiber to be cleaned after the cleaning step, and an antibacterial, antiviral treatment step for spraying, coating, and impregnating the fiber to be cleaned with an antibacterial, antiviral composition containing at least a silver pyrrolidone carboxylate, a zinc pyrrolidone carboxylate, and a copper ion.SELECTED DRAWING: None

Description

The present invention relates to an antibacterial / antiviral cleaning method.

Conventionally, antibacterial and antiviral compositions containing fine particles of metals such as silver and zinc have been known (for example, Patent Documents 1 to 6 and the like). Further, textile products having antibacterial and antiviral properties have also been proposed (Patent Documents 7 and 8).

However, when the antibacterial / antiviral composition of Patent Documents 1 to 6 is applied to the fiber, the antibacterial / antiviral component is easily dropped from the fiber, and the antibacterial / antiviral property is maintained for a long period of time. Is difficult. Further, when the antibacterial / antiviral composition contains a metal such as silver, discoloration may occur.

Further, also in the case of the textile products of Patent Documents 7 and 8, there is a problem that the antibacterial / antiviral component is easily dropped from the fiber, and the antibacterial / antiviral effect is gradually lowered accordingly. Further, in the case of the textile products of Patent Documents 7 and 8, the antibacterial and antiviral effects may be hindered by dyeing with dyes and pigments, softeners, processing solvents, etc., so that they can be used. There was also the problem that various materials were greatly limited.

Therefore, in order to solve the problems of the conventional antibacterial / antiviral composition, the present inventors suppress the shedding and discoloration of the antibacterial / antiviral component from the fiber, and are excellent in antibacterial / antiviral. We have completed an antibacterial / antiviral composition for fibers that can maintain its effect for a long period of time and has few restrictions on the materials that can be used (Patent Document 9).

Japanese Unexamined Patent Publication No. 2004-2227 Japanese Unexamined Patent Publication No. 2008-520570 Japanese Unexamined Patent Publication No. 2010-70571 Japanese Unexamined Patent Publication No. 2004-528389 Japanese Unexamined Patent Publication No. 2014-208606 Japanese Unexamined Patent Publication No. 2013-503124 Japanese Unexamined Patent Publication No. 2010-30984 Japanese Unexamined Patent Publication No. 2009-57647 Japanese Patent No. 6689613

On the other hand, the antibacterial / antiviral composition for fibers of the present invention by the present inventor may be applied to a conventionally known cleaning method. When a sex composition is used, depending on the conditions, it may be difficult for the antibacterial / antiviral composition for fibers to be fixed on the fiber to be cleaned, or the original antibacterial / antiviral composition for fibers cannot be sufficiently obtained. There was a case.

The present invention has been made in view of the above circumstances, and in the case of normal cleaning, the antibacterial / antiviral composition is surely fixed to the fiber to be cleaned by a simpler method, and the antibacterial / antiviral composition is firmly fixed. The challenge is to provide antibacterial and antiviral cleaning methods that can maintain performance.

The antibacterial / antiviral cleaning method of the present invention has been made to solve the above technical problems, and is characterized by the following.

First, the antibacterial / anti-virus cleaning method of the present invention is a cleaning method for imparting antibacterial and anti-virus properties to the fiber to be cleaned, and includes a cleaning step of washing or dry-cleaning the fiber to be cleaned. After the cleaning step, a chlorine removing step of removing chlorine adhering to the fiber to be cleaned and an antibacterial / antiviral composition containing at least silver pyrrolidone carboxylate, zinc pyrrolidone carboxylate and copper ion are sprayed / applied or impregnated. It is characterized by having an antibacterial / anti-virus treatment step.

Secondly, in the antibacterial / antiviral cleaning method of the first invention, it is preferable that the antibacterial / antiviral composition contains at least one of copper pyrrolidone carboxylate and potassium N-long-chain acyl amino acid.

Thirdly, in the antibacterial / antiviral cleaning method of the first or second invention, it is preferable that the chlorine removing step is a drying treatment of the fiber to be cleaned.

Fourth, in the antibacterial / antiviral cleaning method of the first to third inventions, in the antibacterial / antiviral treatment step, the antibacterial / antiviral composition is sprayed with 5 to 60 ml per 1 m ² of the fiber to be cleaned. -Preferably coated or impregnated.

Fifth, in the antibacterial / antiviral cleaning method of the first to fourth inventions, it is preferable that the antibacterial / antiviral composition contains at least one of sulfuric acid, glutamic acid and citric acid.

Sixth, in the antibacterial / antiviral cleaning method of the first to fifth inventions, it is preferable that the antibacterial / antiviral composition contains 5 to 80% by mass of alcohol.

Seventh, in the antibacterial / anti-virus cleaning method of the first to sixth inventions, it is preferable that the laundry using the fiber to be cleaned introduced in the cleaning step is the designated laundry.

According to the antibacterial / antiviral cleaning method of the present invention, the antibacterial / antiviral composition against the fiber to be cleaned is reliably performed by a simpler method while maintaining the effect of the antibacterial / antiviral composition on the fiber to be cleaned. You can fix things.

The antibacterial / antiviral cleaning method of the present invention is a cleaning method for imparting antibacterial and antiviral properties to the fiber to be cleaned, and is a cleaning step for cleaning the fiber to be cleaned, and after the cleaning step, the fiber to be cleaned is subjected to the cleaning step. It has a chlorine removing step of removing attached chlorine and an antibacterial / antiviral treatment step of spraying / applying or impregnating an antibacterial / antiviral composition. Hereinafter, each step of the antibacterial / antiviral cleaning method of the present invention will be described in detail.

(Cleaning process)
In the antibacterial / antiviral cleaning method of the present invention, first, normal cleaning is performed. As the usual cleaning in the present invention, commercial cleaning currently generally performed can be applied. Commercial cleaning can be broadly divided into two types: "water washing" for cleaning with water and "dry cleaning" for cleaning with an organic solvent. Then, the selection of the above-mentioned cleaning method is appropriately determined according to the material of the fiber to be cleaned, the degree of dirt, the type of dirt, and the like.

In addition, "washing with water" for washing with water is classified into "laundry" and "wet cleaning".
Laundry is performed in the order of "washing", "rinsing", and "dehydration" by applying physical force together with detergent in water. Further, the series of treatments in the laundry is carried out under temperature conditions set from normal temperature to high temperature (about 15 to 80 ° C.) as needed.

Wet cleaning is performed in almost the same procedure as the above-mentioned laundry, but is a cleaning method in which damage to fibers is suppressed while avoiding the application of "physical force" in the laundry process as much as possible. Examples of the cleaning method that suppresses damage include cleaning by hand washing and mechanical cleaning with a weak water flow in the cleaning step.

Dry cleaning is performed in the order of "cleaning / rinsing" and "dehydration" by applying physical force together with detergent in an organic solvent. There are multiple types of organic solvents used in dry cleaning, but currently in Japan, petroleum-based solvents are used at a rate of about 90%. In addition to petroleum-based solvents, park-based, fluorine-based, and silicon-based solvents are used in a very small number. The differences in cleaning performance due to these organic solvents are the strength of the physical force due to the difference in specific gravity, the strength of the ability to remove oily stains due to the difference in oil-dissolving ability, and the ability to remove water-soluble stains due to the difference in water holding capacity. The strength is mentioned, and it is appropriately used according to the material of the fiber to be cleaned, the degree of dirt, the type of dirt, and the like. The antibacterial / antiviral cleaning method of the present invention is applicable to any of the above types of cleaning methods. In this cleaning step, since it is necessary to treat the fiber to be cleaned in each subsequent step, the finishing step is unnecessary.

In the present invention, the material to be cleaned is not particularly limited as long as it is a fiber that can be sprayed, coated or impregnated with an antibacterial / antiviral composition, but for example, a cellulose-based fiber (cotton, linen). , Rayon, pulp, etc.), protein fiber (wool, silk, etc.), polyamide fiber, polyester fiber, polyacrylic fiber, polyvinyl alcohol fiber, polyvinyl chloride fiber, polyvinylidene chloride fiber, polyolefin fiber , Various natural fibers such as polyurethane fibers, regenerated fibers, semi-synthetic fibers, synthetic fibers and the like can be mentioned. In addition, textile products including those molded into threads, woven and knitted fabrics, webs, non-woven fabrics, papers, nets, etc. using these, and include at least a part thereof, for example, clothing (including hats, gloves, handkerchiefs). , Bedding (including duvets and pillows), curtains, wallpaper, carpets, mats, sheets, filters, masks, wipers, towels, protective clothing, protective nets and the like can be exemplified.

Further, in the cleaning step of the present invention, it is preferable to introduce a designated laundry of a textile product using the fibers to be cleaned exemplified above, or a laundry that can be a designated laundry. The designated laundry means a laundry contaminated by a pathogen causing an infectious disease or a laundry having a risk of contamination, and a laundry to which human waste and vomit are attached.

(Chlorine removal process)
Next, a chlorine removing step of removing chlorine adhering to the fibers to be cleaned for which the cleaning step has been completed is performed. At the completion of the cleaning step, residual chlorine may be present on the surface of the fiber to be cleaned depending on the detergent or the like used. This residual chlorine may cause the adhesiveness of the antibacterial / antiviral composition used in the present invention to be cleaned, which will be described later, and the deterioration of the antibacterial / antiviral performance. Therefore, in this chlorine removal step, residual chlorine remaining on the surface of the fiber to be cleaned is completely removed when the cleaning step is completed. The method for removing chlorine is not particularly limited as long as it can remove chlorine from the fiber to be cleaned, but in the present invention, it is preferable to remove residual chlorine by completely drying the fiber to be cleaned.

Examples of the method for completely drying in the present invention include a tumbler dryer, a static dryer (including natural drying), a cotton press machine, a shirt press machine, a human body press machine, an iron and the like. Further, as the drying conditions, warm air at 40 ° C to 80 ° C or contact with the iron plate surface at 120 ° C to 180 ° C is preferable. In addition, although drying may be performed in the cleaning step of the previous step, chlorine may not be completely removed by this drying, so this chlorine removing step is an indispensable step.

Further, when a park-based (tetrachlorethylene) solvent is used for dry cleaning in the cleaning step, it may be difficult to apply the present invention because the remaining chlorine cannot be completely removed even by drying because the park-based organic solvent is a chlorine-based organic solvent. ..

(Antibacterial / antiviral treatment process)
Next, antibacterial and antiviral treatment is performed on the fibers to be cleaned that have been subjected to the chlorine removal step. Specifically, the fiber to be cleaned is sprayed / coated or impregnated with an antibacterial / antiviral composition.

The antibacterial / antiviral composition used in the antibacterial / antiviral cleaning method of the present invention contains amino acid silver, amino acid zinc and copper ion in water as a solvent. In the antibacterial / antiviral composition, at least a part of the blended amino acid silver and amino acid zinc, silver and zinc, are present in an ionized state.

Examples of amino acids in the amino acids silver and zinc are glycine, alanine, valine, leucine, phenylalanine, tyrosine, treonine, tryptophan, methionine, aspartic acid, lysine, arginine, histidinepydolic acid, L-glutamic acid and L-glutimic acid. , L-glutiminic acid, L-glutamate lactam, L-glutiminic acid, L-pyrrolidone carboxylic acid, L-pyrroglutamic acid, one or more of oxoproline can be exemplified. Among these, L-pyrrolidone carboxylic acid is excellent in antibacterial and antiviral effects. Therefore, by blending silver pyrrolidone carboxylate and zinc pyrrolidone carboxylate in the antibacterial and antiviral composition, antibacterial and antiviral. The effect can be surely enhanced.

The blending amount of the amino acid silver and the amino acid zinc can be appropriately designed, but for example, the total amount of silver ion and zinc ion per 1000 ml of water is preferably 15,000 mg / L or more, and in practice, silver ion per 1000 ml of water. It is more preferable that the total amount of zinc ions is in the range of about 15,000 mg / L to 100,000 mg / L.

The copper ion contained in the antibacterial / antiviral composition used in the present invention may be due to various copper compounds, and specifically, for example, copper nitrate, copper chloride, copper sulfate, copper oxide, copper sulfate. , Copper iodide, copper carbonate, copper citrate, copper glutamate, copper amino acid and the like can be exemplified, and copper amino acid is preferable. Among these, copper sulfate (copper sulfate pentahydrate) can be particularly preferably used.

Similar to the amino acids silver and zinc, the amino acids of the amino acid copper are, for example, glycine, alanine, valine, leucine, phenylalanine, tyrosine, treonine, tryptophan, methionine, aspartic acid, lysine, arginine, histidine pidolic acid, L-glutamic acid. , L-glutimic acid, L-glutimic acid, L-glutamate lactam, L-glutiminic acid, L-pyrrolidone carboxylic acid, L-pyrrolidonic acid, oxoproline can be exemplified. Among these, L-pyrrolidone carboxylic acid is excellent in antibacterial and antiviral effects, so by blending copper pyrrolidone carboxylate in the antibacterial and antiviral composition, the antibacterial and antiviral effects are surely enhanced. be able to.

The blending amount of the amino acid copper can be appropriately designed, but for example, the copper ion per 1000 ml of water is preferably 100 mg / L or more, and in practice, the total amount of silver ion and zinc ion per 1000 ml of water is 100 mg. It is more preferably in the range of / L to about 500 mg / L.

Further, the antibacterial / antiviral composition used in the present invention may appropriately contain other metals such as nickel, magnesium, iron and titanium.

Further, the antibacterial / antiviral composition used in the present invention preferably contains potassium N-long complex acyl amino acid as a surfactant. In the N-long complex acyl amino acid potassium, potassium ion easily binds to silver ion, zinc ion, and copper ion of the antiviral composition, and effectively binds to fiber. Therefore, the N-long complex acyl amino acid potassium has a role of retaining an antiviral component. In addition, the N-long complex acylamino acid potassium can enhance the permeability of the antibacterial / antiviral composition into the inside of the fiber as a surfactant and the aggregation due to pH. After the antibacterial / antiviral composition permeates the inside of the fiber, it aggregates to fix the antibacterial / antiviral composition to the fiber, so that shedding is suppressed and the antibacterial / antiviral property is maintained for a long period of time. can do.

The blending ratio of the antibacterial / antiviral composition and the N-long complex acyl amino acid potassium can be appropriately set depending on the intended use, purpose, etc., and is 0.005, for example, with respect to the antibacterial / antiviral composition. The range of mass% to 10% by mass can be exemplified. When the blending ratio of the N-long complex acylamino acid potassium is in this range, the above effect is surely exhibited.

Further, by adding various acids such as hydrochloric acid, nitric acid, phosphoric acid, acetic acid, and sulfuric acid to the antibacterial / antiviral composition, the aggregation property can be enhanced. Among these, sulfuric acid is preferable from the viewpoint of solubility and permeability (penetration stability) of metal ions. The concentration of various acids such as sulfuric acid in the antibacterial / antiviral composition is not particularly limited, and can be appropriately set within a range that does not interfere with the antibacterial / antiviral property.

It is preferable to add glutamic acid to the antibacterial / antiviral composition used in the present invention. Glutamic acid has excellent water solubility and correlation with carboxylic acid-based materials, and can also be used as a raw material for pyrrolidone carboxylic acid, so that the permeability to fibers can be further enhanced.

Further, it is preferable to add citric acid to the antibacterial / antiviral composition. Citric acid has excellent solubility and can further enhance the permeability to fibers.

Further, it is preferable to add alcohol to the antibacterial / antiviral composition. As the alcohol, ethanol and isopropyl alcohol (IPA) can be preferably used. The amount of alcohol added is not particularly limited, but is usually considered in the range of 5 to 80% by mass, preferably 10 to 70% by mass. By blending alcohol with the antibacterial / antiviral composition, it is possible to reliably remove chlorine adhering after the chlorine removing step.

Further, the antibacterial / antiviral composition used in the present invention may contain various other additives in consideration of use, handleability, storage stability and the like. For example, surfactants, oils, alcohols other than the above, moisturizers, thickeners, preservatives, antioxidants, chelating agents, pH regulators, fragrances, pigments, vitamins, etc. as compounding agents usually used in pharmaceutical products. , Crude drugs, plant extracts, etc. can be blended. Further, the pH can be adjusted by using an acid such as zinc sulfate heptahydrate and copper sulfate pentahydrate, sodium hydroxide and the like.

In this antibacterial / antiviral treatment step, the antibacterial / antiviral composition having the above composition is sprayed / applied or impregnated on the fiber to be cleaned, but the method is as long as the fiber to be cleaned can be reliably fixed. It is not particularly limited, and can be sprayed / applied or impregnated using, for example, a washing machine, a hand spray, a sprayer, a spraymatic, a tub, a bucket or the like.

The fixing amount of the antibacterial / antiviral composition can be appropriately set according to the antibacterial / antiviral performance, but is usually sprayed in the range of 5 to 60 ml, preferably 30 to 50 ml per 1 m ² of the fiber to be cleaned. Application or impregnation is considered.

In addition, this antibacterial / antivirus treatment step also includes a drying step and a finishing step after spraying / coating or impregnating the fiber to be cleaned. In the present invention, it is completed by the above-mentioned cleaning step, chlorine removing step, antibacterial / antiviral treatment step.

According to the antibacterial / anti-virus cleaning method of the present invention, chlorine is removed from the surface of the fiber to be cleaned by the chlorine removing step, so that the antibacterial / anti-virus composition can be reliably fixed. Further, since the antibacterial / antiviral composition used in the present invention to be fixed on the surface of the fiber to be cleaned contains amino acid silver, amino acid zinc, copper ion and the like, the antibacterial / antiviral component may be removed from the fiber to be cleaned. Discoloration is suppressed, and excellent antibacterial and antiviral effects can be maintained for a long period of time.

Further, the antibacterial / antiviral effect of the antibacterial / antiviral composition sprayed / applied or impregnated on the fiber to be cleaned is not easily inhibited by other materials such as dyes, pigments, softeners and processing solvents. The cleaned fibers sprayed, coated or impregnated with such an antibacterial / antiviral composition can inactivate bacteria and viruses scattered and suspended in the living space, and are excellent antibacterial / antiviral. Can sustain sex.

Further, the antibacterial / anti-virus cleaning method of the present invention is particularly suitable for cleaning clothes, bedding, curtains, carpets, mats, sheets, filters, masks, wipers, towels, protective clothing, protective nets, etc. that may be designated laundry. It can be suitably applied. The laundry that has been cleaned by the antibacterial / antiviral cleaning method of the present invention has reliable sterilization and antibacterial / antiviral effects, and therefore can be safely used in an environment that can be designated laundry.

Hereinafter, the antibacterial / antiviral cleaning method of the present invention will be described together with Examples, but the present invention is not limited to the following Examples.

<Preparation of antibacterial / antiviral composition>
An antibacterial / antiviral composition was prepared by the following procedure.
(1) 0.1 mol of silver nitrate and 0.1 mol of sodium hydrogen carbonate were added to 1000 ml of pure water, and the mixture was stirred at room temperature in a light-shielded room for 10 minutes.
(2) The product was dehydrated using a filter paper and washed with 1000 ml of pure water.
(3) The paste having a dry weight of 6.75 g obtained in (2) above and 6.96 g of L-pyrrolidone carboxylic acid are added to 1000 ml of pure water and heated to react with 1000 mg of silver pyrrolidone carboxylate /. I got L.
(4) Similar to the above (1), (2) and (3), zinc nitrate is used as a material and reacted with L-pyrrolidone carboxylic acid to form zinc pyrrolidone carboxylate (zinc: 82%, pyrrolidone carboxylic acid compound: 18%). 16.5 g (dry weight) was obtained.
(5) Silver pyrrolidone carboxylate, zinc L-pyrrolidone carboxylate, and copper sulfate pentahydrate were blended as follows to prepare an antibacterial / antiviral composition.
Formulation in 1000 ml of water 100 mg / L of silver pyrrolidone carboxylate as described above
Zinc L-pyrrolidone carboxylate 16500 mg / L
Copper sulfate pentahydrate 2400mg / L

<Preparation of test fiber cloth>
Hair (100% wool, black cloth), polyester (100% white cloth), and cotton (100% white cloth) are prepared as fibers to be cleaned, and as a cleaning step, these are thoroughly washed by washing with water, and then a chlorine removal step is performed. As a result, each test fiber cloth of wool cloth, polyester cloth and cotton cloth was prepared after being sufficiently dried to remove chlorine adhering to the cleaning fiber.

Next, as an antibacterial / antiviral treatment step, the antibacterial / antiviral composition prepared in a 4% aqueous solution is sprayed onto the surfaces of the wool cloth and the polyester cloth under the condition of 50 ml per 1 m ² . did. Since the cotton cloth is a standard cloth, it is not processed without antibacterial / antiviral treatment.

<Antiviral test>
An antiviral test was performed on the sample cloth prepared in the above procedure. The test was conducted in accordance with JIS L 1922: 2016 (ISO 18184: 2014) "Antiviral test method for textile products". The plaque method was used as the method for quantifying the virus titer, and the influenza A virus (H3N2) ATCC VR-1679 (MDCK cell ATCC CCL-34) was used as the virus (host cell). The results are shown in Table 1.

In the antiviral test of JIS L 1922: 2016, as an index of antiviral effect, it was considered that the antiviral activity value Mv was effective when 3> Mv ≧ 2.0, and that Mv ≧ 3.0 was sufficient. In the above test, the wool cloth was 2.8 and the polyester cloth was 3.0. Therefore, the effect of the antibacterial / antiviral cleaning method of the present invention was demonstrated from the above test.

<Antiviral test after washing>
Two samples of cotton cloth (180 pieces) broad cloth subjected to the same antibacterial and antiviral treatment as above were prepared.

One of the above samples was washed 50 times, and the original product and the sample after washing 50 times were subjected to the same anti-virus test according to JIS L 1922: 2016 (ISO 18184: 2014). As the reference cloth, the same cotton (100% white cloth) as above was used. The results are shown in Table 2.

In the above results, the antiviral activity value Mv of the cloth after washing 50 times was 4.6, the antiviral activity value of the raw cloth was 4.2, and the cloth after washing showed a higher antiviral activity value. From these results, it was confirmed that the cloth subjected to the antibacterial / antiviral cleaning method of the present invention had an excellent antiviral effect after being washed multiple times.

Claims (7)

A cleaning method that imparts antibacterial and antiviral properties to the fibers to be cleaned.
A cleaning step of washing or dry cleaning the fibers to be cleaned,
After the cleaning step, a chlorine removing step of removing chlorine adhering to the fiber to be cleaned and a chlorine removing step.
An antibacterial / antiviral cleaning method comprising at least an antibacterial / antiviral treatment step of spraying / coating or impregnating an antibacterial / antiviral composition containing silver pyrrolidone carboxylate, zinc pyrrolidone carboxylate and copper ion. .. The antibacterial / antiviral cleaning method according to claim 1, wherein the antibacterial / antiviral composition contains at least one of copper pyrrolidone carboxylate and potassium N-long-chain acyl amino acid. The antibacterial / antiviral cleaning method according to claim 1 or 2, wherein the chlorine removing step is a drying treatment of the fiber to be cleaned. The antibacterial / antiviral treatment step according to any one of claims 1 to 3, wherein the antibacterial / antiviral composition is sprayed / applied or impregnated with 5 to 60 ml per 1 m ² of the fiber to be cleaned. The described antibacterial / antiviral cleaning method. The antibacterial / antiviral cleaning method according to any one of claims 1 to 4, wherein the antibacterial / antiviral composition contains at least one of sulfuric acid, glutamic acid, and citric acid. The antibacterial / antiviral cleaning method according to any one of claims 1 to 5, wherein the antibacterial / antiviral composition contains 5 to 80% by mass of alcohol. The antibacterial / anti-virus cleaning method according to any one of claims 1 to 6, wherein the laundry using the fiber to be cleaned to be introduced in the cleaning step is a designated laundry.