JP7402938B1 - Antiviral finishing agent for non-textile products - Google Patents

Abstract

[Object] To provide a novel antiviral finishing agent for non-textile products. [Solution] An antiviral finishing agent for non-textile products containing an aluminum salt as an active ingredient. [Selection diagram] None

Description

The present invention relates to an antiviral finishing agent for non-textile products. The present invention also relates to plastic molded articles, antiviral processing compositions, and articles endowed with antiviral properties.

In recent years, against the backdrop of the spread of influenza viruses and noroviruses, as well as the pandemic of the new coronavirus infection, attention has been focused on antiviral processed products containing antiviral processing agents as a new added value. Various proposals have been made regarding articles endowed with antiviral properties (for example, Patent Document 1).

Special Publication No. 2003-511177

An object of the present invention is to provide a novel antiviral finishing agent for non-textile products. An object of the present invention is to provide a novel antiviral plastic molded product. An object of the present invention is to provide a novel composition for antiviral processing.

The present invention relates to the following inventions.
[1]
An antiviral finishing agent for non-textile products containing aluminum salt as an active ingredient.
[2]
The antiviral finishing agent for non-textile products according to [1], wherein the aluminum salt is a salt containing aluminum ions and sulfate ions.
[3]
The antiviral finishing agent for non-textile products according to any one of [1] to [3], wherein the aluminum salt is a salt containing an aluminum ion, a sulfate ion, and a monovalent cation.
[4]
The antiviral finishing agent for non-textile products according to [3], wherein the monovalent cation is a potassium ion.
[5]
The antiviral finishing agent for non-textile products according to any one of [1] to [4], wherein the non-textile product is a plastic molded product, a paint, or a coating agent.
[6]
The antiviral finishing agent for non-textile products according to any one of [1] to [5], wherein the aluminum salt has an average particle diameter of 100 μm or less.
[7]
The antiviral finishing agent for non-textile products according to any one of [1] to [6], wherein the target virus is a virus belonging to the Orthomyxoviridae or Caliciviridae family.
[8]
A product having antiviral properties, which contains a resin and the antiviral finishing agent for non-textile products according to any one of [1] to [7], and the aluminum salt is dispersed in the resin. plastic moldings.
[9]
The plastic molding imparted with antiviral properties according to [8], wherein the content of the aluminum salt is 0.25% by mass or more based on the total mass of the plastic molding imparted with antiviral properties. thing.
[10]
An antiviral processing composition containing the antiviral processing agent for non-textile products according to any one of [1] to [7], and a solvent or a solid dispersion medium.
[11]
The antiviral processing composition according to [10], wherein the content of the aluminum salt is 0.25% by mass or more based on the total nonvolatile content of the antiviral processing composition.
[12]
An article comprising a film formed from the antiviral processing composition according to [10] and imparted with antiviral properties.

According to the present invention, it is possible to provide a novel antiviral finishing agent for non-textile products. According to the present invention, it is possible to provide a novel antiviral plastic molded product. According to the present invention, it is possible to provide a novel composition for antiviral processing.

EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing this invention is demonstrated in detail. However, the present invention is not limited to the following embodiments.

As used herein, the term "antiviral finishing agent" refers to an agent used to impart antiviral properties to articles. "Antiviral" refers to reducing the number of specific viruses.

As used herein, "non-textile products" means products other than textile products (paper (eg, tissue paper), clothing, etc.). Non-textile products include, for example, plastic molded products (furniture, stationery, tableware, electrical appliances, bath supplies, toilet supplies, automobile supplies, packaging materials, protective films, wallpaper, decorative boards, etc.), solvent-based coatings, water-based coatings, etc. solvent-based paints, water-based paints, powder paints, UV-curable paints, wall coating materials, adhesives, joint materials, plasterboards, cement, tiles, rubber products, metal products, wood products, glass products, oil waxes, Examples include cleaning agents.

The antiviral finishing agent for non-textile products according to this embodiment contains an aluminum salt as an active ingredient.

Antiviral processing agents have antiviral effects against both enveloped viruses (viruses with an envelope) and non-enveloped viruses. Target viruses for the antiviral finishing agent include, for example, Orthomyxoviridae, Paramyxoviridae, Filoviridae, Rhabdoviridae, Bunyaviridae, and arenaviruses. (Arenaviridae), Togaviridae, Coronaviridae, Flaviviridae, Retroviridae, Herpesviridae, Hepadnaviridae iridae), poxviridae Enveloped viruses belonging to the family Caliciviridae, Picornaviridae, Reoviridae, Parvoviridae, Adenoviridae, Papilomaviridae, etc. pillomaviridae ) and other non-enveloped viruses.

Examples of viruses belonging to the Orthomyxoviridae family include influenza A virus, influenza B virus, influenza C virus, Togoto virus, Isavirus, and the like. Viruses belonging to the family Caliciviridae include norovirus, sapovirus, lagovirus, vesivirus, nebovirus, and the like.

The target virus for the antiviral processing agent may be a virus belonging to the Orthomyxoviridae or Caliciviridae family.

Aluminum salt is a salt containing aluminum ion (Al ³⁺ ) as a constituent ion. Examples of anions included as constituent ions of the aluminum salt include sulfate ion (SO ₄ ^2- ), chloride ion (Cl ^- ), bromide ion (Br ^- ), iodide ion (I ^- ), and fluoride ion. (F ^- ), hydrogen sulfate ion (HSO ₄ ^- ), sulfite ion (SO ₃ ^2- ), hydrogen sulfite ion (HSO ₃ ^- ), nitrate ion (NO ₃ ^- ), nitrite ion (NO ₂ ^- ), phosphorus Acid ion (PO ₄ ^3- ), monohydrogen phosphate ion (HPO ₄ ^2- ), dihydrogen phosphate ion (H ₂ PO ₄ ^- ), carbonate ion (CO ₃ ^2- ), hydrogen carbonate ion (HCO ₃ ^- ), hydroxide ion (OH ⁻ ), and fatty acid ion (R—COO ⁻ (R represents a carbon chain)).

The aluminum salt may be a salt containing aluminum ions and sulfate ions, or may be a salt containing aluminum ions and chloride ions (for example, aluminum chloride). The aluminum salt is preferably a salt containing aluminum ions and sulfate ions, since it has even more excellent antiviral activity.

The aluminum salt may further contain cations other than aluminum ions. Examples of cations other than aluminum ions include potassium ions (K ⁺ ), ammonium ions (NH ₄ ⁺ ), sodium ions (Na ⁺ ), lithium ions (Li ⁺ ), rubidium ions (Rb ⁺ ), and cesium ions ( Cs ⁺ ), copper ions (Cu ⁺ ), and silver ions (Ag ⁺ ).

The aluminum salt may be a salt containing aluminum ions, sulfate ions, and no cations other than aluminum ions (for example, aluminum sulfate), and may include aluminum ions, sulfate ions, and cations other than aluminum ions. It may be a salt containing.

The aluminum salt may be a salt containing an aluminum ion, a monovalent cation, and a sulfate ion, since the antiviral activity is even more excellent. The monovalent cation may be a potassium ion or an ammonium ion.

The aluminum salt may be a compound having a composition represented by formula (1): AlM(SO ₄ ) ₂ . In formula (1), M may be potassium (K) or ammonium (NH ₄ ). The aluminum salt may be aluminum potassium sulfate, where M is potassium in formula (1), or aluminum ammonium sulfate, where M is ammonium in formula (1), since the antiviral activity will be even more excellent. , potassium aluminum sulfate.

The aluminum salt may contain at least one selected from the group consisting of aluminum potassium sulfate, aluminum ammonium sulfate, aluminum sulfate, and aluminum chloride, and aluminum potassium sulfate and aluminum ammonium sulfate. It may contain at least one kind selected from the group consisting of:

The aluminum salt may be anhydrous or hydrated. Examples of anhydrous aluminum salts include aluminum potassium sulfate anhydride, aluminum ammonium sulfate anhydride, and aluminum sulfate anhydride. Examples of hydrates of aluminum salts include potassium aluminum sulfate dodecahydrate, aluminum sulfate 14-18 hydrate, and aluminum chloride hexahydrate. When the aluminum salt is anhydrous, the ease of mixing during resin kneading is further improved and lumps are less likely to form. Furthermore, when the aluminum salt is anhydrous, air bubbles are more difficult to form inside the resin during kneading. Therefore, anhydrous forms of aluminum salts are more suitable than hydrated forms when used with resins.

The average particle diameter of the aluminum salt is 100 μm or less, 90 μm or less, 80 μm or less, 70 μm or less, 60 μm or less, 50 μm or less, since the appearance is better when used in non-textile products such as antiviral plastic molded products. , 40 μm or less, 30 μm or less, 25 μm or less, 20 μm or less, 15 μm or less, or 10 μm or less. When the average particle size of the aluminum salt is 20 μm or less, the appearance when used in non-textile products such as antiviral plastic moldings becomes particularly good. The average particle diameter of the aluminum salt may be, for example, 0.1 μm or more, 1 μm or more, 5 μm or more, 10 μm or more, or 15 μm or more.

The average particle diameter of the aluminum salt may be measured on a volume basis using a laser diffraction particle size distribution analyzer SALD-2100 (Shimadzu Corporation).

The antiviral finishing agent may contain only an aluminum salt, or may contain components other than the aluminum salt depending on the shape and specific embodiment of the antiviral finishing agent. Other ingredients include, for example, preservatives, bactericidal agents, antibacterial agents, antifungal agents, algaecides, antioxidants, deodorants, chelating agents, ultraviolet absorbers, light stabilizers, solvents, emulsifiers, dispersants, Thickeners, antifoaming agents, carriers, excipients, anticaking agents, plasticizers, catalysts, etc. can be used. These components may be used alone or in combination of two or more.

The content of aluminum salt in the antiviral finishing agent may be appropriately set depending on, for example, the type of non-textile product. The content of aluminum salt in the antiviral finishing agent is, for example, 1% by mass or more, 5% by mass or more, 10% by mass or more, 20% by mass or more, 30% by mass or more, based on the total mass of the antiviral finishing agent. , 40% by mass or more, 50% by mass or more, 60% by mass or more, 70% by mass or more, 80% by mass or more, 90% by mass or more, or 95% by mass or more, and 100% by mass or less, 95% by mass or less , 90% by mass or less, 80% by mass or less, 70% by mass or less, 60% by mass or less, 50% by mass or less, 40% by mass or less, 30% by mass or less, 20% by mass or less, or 10% by mass or less.

The content of components other than aluminum salt in the antiviral finishing agent is, for example, 95% by mass or less, 90% by mass or less, 80% by mass or less, 70% by mass or less, 60% by mass or less, based on the total mass of the antiviral finishing agent. % by mass or less, 50% by mass or less, 40% by mass or less, 30% by mass or less, 20% by mass or less, 10% by mass or less, 5% by mass or less, 3% by mass or less, or 1% by mass or less, and 0 .1% by mass or more, 1% by mass or more, 3% by mass or more, 5% by mass or more, 10% by mass or more, 20% by mass or more, 30% by mass or more, 40% by mass or more, 50% by mass or more, 60% by mass or more , 70% by mass or more, 80% by mass or more, 90% by mass or more, or 95% by mass or more.

The antiviral processing agent may be in any form such as solid, liquid (including suspension), or paste. The form of the antiviral finishing agent may be appropriately set depending on the type and use of the non-textile product.

The blending amount of aluminum salt is 0.01% by mass, 0.05% by mass or more, 0.10% by mass or more, 0.15% by mass or more, 0.20% by mass or more based on the total mass of the non-textile product. , 0.25% by mass or more, 0.30% by mass or more, 0.35% by mass or more, 0.40% by mass or more, 0.45% by mass or more, 0.50% by mass or more, 0.60% by mass or more, 0.70% by mass or more, 0.80% by mass or more, 0.90% by mass or more, 1.00% by mass or more, 1.25% by mass or more, 1.50% by mass or more, 1.75% by mass or more, 2 It may be .00% by mass or more, 2.25% by mass or more, 2.50% by mass or more, 2.75% by mass or more, or 3.00% by mass or more. The blending amount of aluminum salt is 10.00% by mass or less, 9.00% by mass or less, 8.00% by mass or less, 7.00% by mass or less, 6.00% by mass based on the total mass of the non-textile product. 5.00% by mass or less, 4.50% by mass or less, 4.00% by mass or less, 3.50% by mass or less, 3.00% by mass or less, 2.50% by mass or less, 2.00% by mass or less , 1.50% by weight or less, 1.00% by weight or less, or 0.75% by weight or less.

The antiviral finishing agent according to the present embodiment can impart antiviral properties to non-textile products not only by being attached to the surface of the non-textile product, but also by being included in the non-textile product.

The antiviral activity value of the antiviral finishing agent may be 2 or more, or 3 or more. The antiviral activity value of the antiviral finishing agent can be measured by the method described in the Examples below.

The antiviral finishing agent according to this embodiment has light resistance. Therefore, in those subjected to antiviral processing using the antiviral processing agent according to the present embodiment, a significant decrease in antiviral activity due to light exposure is suppressed.

The antiviral finishing agent according to this embodiment has water resistance. Therefore, in the products subjected to antiviral processing using the antiviral processing agent according to the present embodiment, a significant decrease in antiviral activity due to contact with water is suppressed.

Since the antiviral processing agent according to the present embodiment contains an aluminum salt as an active ingredient, it can be obtained at a lower cost than compounds containing silver, copper, and platinum as active ingredients, and is therefore advantageous in terms of cost.

Antiviral articles containing a photocatalyst such as titanium oxide as an active ingredient require the presence of light to exhibit an antiviral effect, but those treated with the antiviral finishing agent according to this embodiment , can exert antiviral effects regardless of whether light is present or not.

The non-textile product according to this embodiment is a non-textile product that contains the above-mentioned aluminum salt, which is an active ingredient of an antiviral finishing agent, and is imparted with antiviral properties.

The method for manufacturing a non-textile product according to the present embodiment includes a step of incorporating or adhering an antiviral finishing agent into the non-textile product. This method can also be regarded as a method for imparting antiviral properties to non-textile products, which includes a step of incorporating or adhering an anti-textile product antiviral finishing agent to non-textile products.

The method of incorporating the antiviral finishing agent into the non-textile product is not particularly limited, and may be, for example, a method of mixing the antiviral finishing agent into the material of the non-textile product in the manufacturing process of the non-textile product. The method of attaching the antiviral finishing agent to the non-textile product is not particularly limited, and includes a method of applying or spraying a liquid containing the antiviral finishing agent onto the surface of the non-textile product, and a method of applying a liquid antiviral finishing agent to the non-textile product. It may be a method of immersing it in an agent. In the method of attaching an antiviral finishing agent to a non-textile product, if necessary, after attaching the antiviral finishing agent to the non-textile product, the article to which the antiviral finishing agent is attached may be dried.

The antiviral plastic molded article according to this embodiment includes a resin and the above-mentioned antiviral processing agent. In antiviral plastic moldings, aluminum salts are dispersed in the resin.

Examples of resins include polyolefin resins such as polyethylene and polypropylene, polystyrene resins, polyurethane resins, ABS resins, acrylic resins, vinyl chloride resins, vinylidene chloride resins, polyethylene terephthalate resins, nylon resins, polycarbonate resins, phenol resins, and melamine resins. , urea resin, epoxy resin, polyacetal resin, PVA resin, EVA resin, vinyl acetate resin, alkyd resin, silicone resin, and fluororesin.

In the antiviral plastic molded product, the content of aluminum salt is 0.15% by mass or more, 0.20% by mass or more, 0.25% by mass or more, 0.1% by mass or more, 0.20% by mass or more, 0.25% by mass or more, based on the total mass of the antiviral plastic molded product. 30% by mass or more, 0.35% by mass or more, 0.40% by mass or more, 0.45% by mass or more, 0.50% by mass or more, 0.60% by mass or more, 0.70% by mass or more, 0.80 Mass% or more, 0.90 mass% or more, 1.00 mass% or more, 1.25 mass% or more, 1.50 mass% or more, 1.75 mass% or more, 2.00 mass% or more, 2.25 mass% % or more, 2.50 mass % or more, 2.75 mass % or more, or 3.00 mass % or more. The blending amount of the aluminum salt is 10.00% by mass or less, 9.00% by mass or less, 8.00% by mass or less, 7.00% by mass or less, 6.00% by mass or less, based on the total mass of the antiviral plastic molded product. mass% or less, 5.00 mass% or less, 4.50 mass% or less, 4.00 mass% or less, 3.50 mass% or less, 3.00 mass% or less, 2.50 mass% or less, 2.00 mass% % or less, 1.50% by weight or less, 1.00% by weight or less, or 0.75% by weight or less.

Examples of the shape of the antiviral plastic molded product include a sheet, a plate, a film, and a three-dimensional shape.

The antiviral plastic molded article can be manufactured, for example, by a method including mixing or kneading a resin and an aluminum salt to obtain a resin material, and molding the resin material. A conventional method can be used for mixing or kneading.

The antiviral processing composition according to this embodiment contains the above-mentioned antiviral processing agent. In the composition for antiviral processing, the above-mentioned aluminum salt is an active ingredient for antiviral processing. The antiviral processing composition according to this embodiment is used, for example, as a coating agent or paint. The antiviral processing composition may be in liquid or powder form. Examples of the paint include solvent-based paints, UV-curable paints, powder paints, and water-based paints. Examples of solvent-based paints include polyurethane resins, epoxy resins, acrylic resins, fluororesins, alkyd resins, melamine resins, silicone resins, vinyl chloride resins, and nitrocellulose. Examples of water-based paints include vinyl chloride resin emulsion systems, vinyl acetate resin emulsion systems, rosin resin emulsion systems, and acrylic resin emulsion systems. Examples of the powder coating include vinyl chloride resin, polyethylene resin, epoxy resin, acrylic resin, fluororesin, polyester resin, and epoxy polyester resin. Examples of UV-curable paints include acrylic resins.

The antiviral processing composition may contain the above-mentioned antiviral processing agent and a solvent or solid dispersion medium. When the antiviral processing composition contains a solvent, the antiviral processing composition can be suitably used in solvent-based paints, solvent-based coating agents, water-based paints, water-based coating agents, cleaning agents, and the like. When the composition for antiviral processing contains a solid dispersion medium, the composition for antiviral processing can be suitably used for applications such as powder coatings and wall coating materials. Solid dispersion media include powder mixed products. Examples of solid dispersion media include talc, calcium carbonate, magnesium carbonate, kaolin, barium sulfate, barium carbonate, titanium oxide, potassium titanate, zinc oxide, iron oxide, zinc phosphate, chromium oxide, silica, zeolite, glass, and diatomaceous earth. , mica, bentonite, silica sand, metal powder, zinc stearate, magnesium stearate, activated carbon, carbon black, graphite, red iron, dark blue, ultramarine, molybdenum red, chrome green, yellow lead, phthalocyanine blue, phthalocyanine green, Hansa Yellow , pererin red, quinacridone red, and thioindigo red.

The solvent may be water or an organic solvent. Examples of solvents include aromatic hydrocarbon compounds such as toluene, xylene, and ethylbenzene, alicyclic hydrocarbon compounds such as cyclohexane, methylcyclohexane, and ethylcyclohexane, ketone compounds such as acetone, methyl ethyl ketone, methyl isobutyl ketone, and cyclohexanone, and acetic acid. Ester compounds such as ethyl, propyl acetate, butyl acetate, isobutyl acetate, propylene glycol methyl ether acetate, propylene glycol methyl ether propionate, methanol, ethanol, isopropyl alcohol, cyclohexanol, n-butanol, isobutanol, tert-butanol, Examples include alcohol compounds such as tert-amyl alcohol and diacetone alcohol, ether compounds such as diethylene glycol dimethyl ether, diethylene glycol diethyl ether, and dipropylene glycol dimethyl ether, aliphatic hydrocarbon compounds such as heptane, hexane, octane, and mineral spirit, and water. . One type of solvent may be used alone, or two or more types may be used in combination.

In the antiviral processing composition, the content of the aluminum salt is 0.01% by mass or more, 0.05% by mass or more, 0.10% by mass or more, based on the total nonvolatile content of the antiviral processing composition. 0.15% by mass or more, 0.20% by mass or more, 0.25% by mass or more, 0.30% by mass or more, 0.35% by mass or more, 0.40% by mass or more, 0.45% by mass or more, 0 .50% by mass or more, 0.60% by mass or more, 0.70% by mass or more, 0.80% by mass or more, 0.90% by mass or more, 1.00% by mass or more, 1.25% by mass or more, 1. 50% by mass or more, 1.75% by mass or more, 2.00% by mass or more, 2.25% by mass or more, 2.50% by mass or more, 2.75% by mass or more, or 3.00% by mass or more. It's fine. The blending amount of the aluminum salt is 10.00% by mass or less, 9.00% by mass or less, 8.00% by mass or less, 7.00% by mass or less, 6 based on the total nonvolatile content of the antiviral processing composition. .00 mass% or less, 5.00 mass% or less, 4.50 mass% or less, 4.00 mass% or less, 3.50 mass% or less, 3.00 mass% or less, 2.50 mass% or less, 2. 00% by mass or less, 1.50% by mass or less, 1.00% by mass or less, or 0.75% by mass or less. As used herein, "nonvolatile matter" refers to components other than volatile substances, and refers to components that remain without being volatile when the antiviral processing composition is dried.

The composition for antiviral processing may contain other components other than those mentioned above. The composition for antiviral processing may further contain a curable component. As the curable component, for example, those used in solvent-based polyurethane resin coatings can be used.

The composition for antiviral processing can be produced, for example, by a method that includes mixing raw materials containing a solvent and other components added as necessary, and an aluminum salt.

The article according to this embodiment includes a film that is formed from an antiviral processing composition and has antiviral properties. The article may further include a base material. That is, the article according to the present embodiment may include a base material and a film formed on the base material and provided with antiviral properties.

Examples of the base material include polyolefin resins such as polyethylene and polypropylene, polystyrene resins, polyurethane resins, ABS resins, acrylic resins, vinyl chloride resins, vinylidene chloride resins, polyethylene terephthalate resins, nylon resins, polycarbonate resins, phenol resins, and melamine. Examples include resin, urea resin, epoxy resin, polyacetal resin, PVA resin, EVA resin, vinyl acetate resin, alkyd resin, silicone resin, fluorine resin, plaster, cement, tile, rubber, metal, wood, and glass. The base material may be sheet-like, plate-like, film-like, or three-dimensional.

The nonvolatile weight of the membrane imparted with antiviral properties is, for example, 1 g/m ² or more, 3 g/m ² or more, 5 g/m ² or more, 10 g/m ² or more, 20 g/m ² or more, 50 g/m ² 100g/ ^m2 or more, 200g/ ^m2 or more, 500g/m2 ^or more, or 1000g/m2 or more, and 1000g/ ^m2 or less, 500g/ ^{m2 or} less, 200g/ ^m2 or less, 100g /m ² or less, 50 g/m ² or less, 20 g/m ² or less, 10 g/m ² or less, 5 g/m ² or less, 3 g/m ² or less, or 1 g/m ² or less. The film imparted with antiviral properties may be formed over part or all of the surface of the base material.

Examples of goods include furniture, stationery, tableware, electrical appliances, bath goods, toilet goods, automobile goods, packaging materials, protective films, wallpaper, decorative boards, joint materials, plasterboard, cement, tiles, rubber products, Examples include metal products, wood products, and glass products.

The article according to the present embodiment can be manufactured, for example, by a method that includes applying the above-described antiviral processing composition onto a substrate to form a coating film. A primer may be applied to the base material before applying the antiviral processing composition.

Hereinafter, the present invention will be explained more specifically based on Examples. However, the present invention is not limited to the following examples. "%" in the examples means "% by mass" unless otherwise specified.

<Measurement of antiviral activity value>
～Antiviral test method～
It was carried out using ISO21702 as a reference. 0.4 mL of influenza virus or feline calicivirus culture solution was inoculated onto a 50 mm square test piece. Thereafter, a 40 mm square polyethylene film was placed on top, and the sample and virus were brought into contact at 25° C. and a humidity of 90% or higher. After 24 hours, the virus was washed out with 10 mL of SCDLP medium. Thereafter, a 10-fold dilution series of the washout solution was prepared and used to measure the virus infectivity.

~Measurement method for virus infectivity (plaque method)~
Cells cultured in a monolayer in a 6-well plate were washed with maintenance medium. The medium was removed, and 0.1 mL of a 10-fold dilution series of the washing solution was inoculated into each well. Influenza virus was cultured at 34°C, and feline calicivirus was cultured at 37°C for 1 hour under 5% CO ₂ conditions. After culturing, cells were washed with maintenance medium. Agar medium was poured into the wells after washing, and the agar medium was allowed to stand at room temperature for 10 minutes to solidify the agar medium. Thereafter, the cells were cultured for 2-3 days at 34° C. for influenza virus and 37° C. for feline calicivirus under 5% CO ₂ conditions. After culturing, a 3.7% formalin solution was added and the cells were fixed by standing for 1 hour. After fixation, the formalin solution and agar medium were removed, and the cells were stained with methylene blue solution. Cells infected with the virus are not stained but appear as white plaques, so the virus infectivity was calculated by counting the number of plaques. The following formula was used for calculation.
V=(10×C×D×N)/A
V: Viral infectivity per 1 cm ² of sample (PFU/cm ² )
C: Number of plaques D: Dilution ratio of washing solution N: Amount of SCDLP A: Contact area of sample and virus (area of polyethylene film)

～Calculation of antiviral activity value～
Antiviral activity values were calculated according to the following formula. When the antiviral activity value was 3 or more, it was evaluated as highly effective (◎), and when the antiviral activity value was 2 or more and less than 3, it was evaluated as moderately effective (○).
Antiviral activity value = log (Vb) - log (Vc)
Log (Vb): Common logarithm value of virus infection value per 1 cm ² of unprocessed sample after 24 hours Log (Vc): Common log value of virus infection value per 1 cm ² of antiviral processed sample after 24 hours

<Preparation of test piece>
～Production of plastic molded products with antiviral processing agent added～
Polyethylene resin (Japan Polyethylene Co., Ltd.) was kneaded at 140°C to 160°C using a test mixing roll machine. Aluminum salt powder was added thereto in an amount of 0.25% to 4% based on the weight of the resin, and kneaded for an additional 15 minutes to disperse the aluminum salt in the polyethylene resin. Thereafter, it was formed into a sheet with a thickness of 1 mm to obtain a test piece.

～Preparation of paint film added with antiviral finishing agent～
Aluminum salt was added to a commercially available solvent-based polyurethane resin paint (Washin Paint Co., Ltd.) in an amount of 0.25% to 2% based on the weight of the nonvolatile content of the paint, and was well dispersed. Thereafter, the prepared paint was applied to a polypropylene plate sprayed with a primer (Dome-Q Technology Co., Ltd.) so that the weight of non-volatile matter was 10 g/m ² . Thereafter, it was cured at room temperature for 1 day and used as a test piece.

～About aluminum salt～
・Potassium aluminum sulfate anhydrous (aluminum salt A)...Daimei Kagaku Kogyo Co., Ltd.・Potassium aluminum sulfate anhydrous (aluminum salt B)...Naito Pharmaceutical Co., Ltd.・Aluminum ammonium sulfate 12 water (aluminum salt C)...Kanto Kagaku Co., Ltd.・Potassium aluminum sulfate anhydrous (aluminum salt D)...Kanto Kagakusha ・Aluminum salt E, aluminum salt F...Reference to Food Additives Official Manual, 9th edition, aluminum potassium sulfate 12 water (Kanto Kagakusha) ) was heated at 200°C for 4 hours to obtain anhydrous potassium aluminum sulfate. Thereafter, the obtained anhydrous potassium aluminum sulfate was ground to give aluminum salt E and aluminum salt F.
・Aluminum sulfate 14-18 hydrate (aluminum salt G)...Kanto Kagaku Co., Ltd.・Aluminum chloride hexahydrate (aluminum salt H)...Kanto Kagaku Co., Ltd.・Aluminum ammonium sulfate anhydrous (aluminum salt I)... - Referring to the Food Additives Official Manual, 9th Edition, aluminum ammonium sulfate 12 water (Kanto Kagaku Co., Ltd.) was heated at 200°C for 4 hours, and then ground to obtain aluminum ammonium sulfate anhydrous.
・Aluminum sulfate anhydrous (aluminum salt J)...Kanto Kagakusha

<Evaluation results>
(antiviral)
Table 1 shows the results of imparting antiviral properties to plastic molded articles using aluminum salts. As used herein, "anti-IV activity" means anti-influenza virus activity, and "anti-FCV activity" means anti-feline calicivirus activity.

As shown in Table 1, it was shown that plastic molded articles containing aluminum salts have antiviral properties.

(light resistance)
A polyethylene resin sheet containing aluminum salt A was irradiated with xenon light for 10 hours, and then the antiviral activity value was measured. The results are shown in Table 2.

As shown in Table 2, aluminum salt A remained unchanged even after light irradiation, with anti-IV activity ◎ at 0.5% and anti-FCV activity ◎ at 1.0%. Aluminum salt B did not change even after light irradiation, and both anti-IV activity and anti-FCV activity were ◎ at 0.5%.

(water resistance)
A polyethylene resin sheet containing aluminum salt A or aluminum salt B was immersed in distilled water at 25° C. for 16 hours. Thereafter, antiviral activity values were measured. The results are shown in Table 3.

Both aluminum salt A and aluminum salt B had anti-IV activity ◎ at 2.0% and anti-FCV activity ◎ at 3.0% even after the immersion treatment.

(Evaluation of resin appearance of plastic molded product)
The resin appearance of a plastic molded article (polyethylene resin) containing aluminum salt was evaluated. The results are shown in Tables 4 and 5.

As shown in Table 4, it was shown that by reducing the average particle size of the aluminum salt, the resin appearance of the plastic molded product became even better.

As shown in Table 5, when each sulfate was a hydrate, it was difficult to mix during resin kneading, and lumps were likely to occur (it is assumed that the sulfates became anhydrous and solidified during heating during resin kneading). In addition, bubbles were generated inside the resin during kneading of the aluminum chloride hydrate. Therefore, anhydrides are suitable when added to resins.

<About solvent-based coatings and paints>
An antiviral test was conducted using a test piece prepared by adding an aluminum salt to a solvent-based polyurethane resin paint and coating it on a substrate so that the weight of nonvolatile matter was 10 g/m ² . The results of the antiviral test were evaluated in the same manner as for plastic molded products (polyethylene resin).

Aluminum salt A, aluminum salt B, aluminum salt E, aluminum salt J, and aluminum salt D had anti-IV activity and anti-FCV activity at 1%. Aluminum salt I had anti-FCV activity of 1% at 1%.

When used as a coating, aluminum salt A with an average particle size of 4.3 μm and aluminum salt B with an average particle size of 15 μm had a good appearance of the coating film. Aluminum salt E having an average particle size of 79 μm had a slightly rough surface. . Aluminum salt F having an average particle diameter of 133 μm had poor dispersibility within the coating film, and the particles were very noticeable, resulting in a significantly poor appearance.

Claims (8)

An antiviral finishing agent for non-textile products containing aluminum salt as an active ingredient,
the aluminum salt is potassium aluminum sulfate anhydride;
The average particle size of the aluminum salt is 20 μm or less,
Antiviral finishing agent for non-textile products, where the non-textile product is a plastic molded product, a solvent-based paint, a UV-curable paint, a powder paint, or a solvent-based coating agent (provided that the non-textile product does not contain metal ions having antibacterial properties and (Excluding those containing water-insoluble metal salts produced by reaction with activators as active ingredients, and those containing iron ions, aluminum ions, tungsten oxide, and sulfonic acid as active ingredients). The antiviral finishing agent for non-textile products according to claim 1 , wherein the aluminum salt has an average particle size of 15 μm or less. The antiviral finishing agent for non-textile products according to claim 1 or 2, wherein the target virus is a virus belonging to the Orthomyxoviridae or Caliciviridae family. containing a resin and the antiviral finishing agent for non-textile products according to claim 1 or 2,
A plastic molded article imparted with antiviral properties, wherein the aluminum salt is dispersed in the resin. The plastic molding imparted with antiviral properties according to claim 4 , wherein the content of the aluminum salt is 0.25% by mass or more based on the total mass of the plastic molding imparted with antiviral properties. thing. It contains the antiviral finishing agent for non-textile products according to claim 1 or 2, and an organic solvent or a solid dispersion medium ,
An antiviral processing composition for non-textile products . The antiviral processing composition according to claim 6 , wherein the content of the aluminum salt is 0.25% by mass or more based on the total nonvolatile content of the antiviral processing composition. A non-textile product comprising a film formed from the antiviral processing composition according to claim 6 and imparted with antiviral properties.