JP2022159227A - Processing agent, treatment agent, processed article, and manufacturing method of processed article - Google Patents

Abstract

To provide a processing agent capable of dealing with various bacteria and viruses.SOLUTION: A processing agent contains a metallic salt and two or more quaternary ammonium salts. The metallic salt is formed from at least one metallic ion selected from the group consisting of metals belonging to the fourth period, group 10 metals, group 11 metals and group 12 metals, and at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions, and the ratio (M/A) of the content mass M of the metallic salt to the total content mass A of the quaternary ammonium salts is 20/1 to 1.2/1.SELECTED DRAWING: None

Description

The present invention relates to a processing agent, a processing agent, a processed article, and a method for producing the processed article.

Due to the recent heightened awareness of hygiene, various articles around us have been subjected to antibacterial or antiviral finishing. Along with this, various antibacterial and antiviral finishing agents have been proposed. For example, U.S. Pat. No. 5,400,001 teaches a processing agent containing a quaternary ammonium salt and titanium oxide.

JP 2018-002597 A

Recently, a new type of virus has emerged, and expectations for antibacterial agents and antiviral processing agents are increasing. On the other hand, mutated strains of the new virus have also appeared, and the types of viruses are diverse.

SUMMARY OF THE INVENTION It is an object of the present invention to provide processing and treatment agents that are compatible with a variety of bacteria and viruses. Another object of the present invention is to provide a processing agent or a processed article to which the processing agent is adhered, and a method for producing the processing agent.

The present invention
comprising a metal salt and two or more quaternary ammonium salts,
The metal salt is
ions of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
The ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1.

The present invention also provides
the above processing agent;
and a binder resin.

The present invention further provides
an object to be processed;
a metal salt and two or more quaternary ammonium salts attached to the article to be treated;
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
The ratio of the mass content M of the metal salt to the total mass content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1.

The present invention further provides
an object to be processed;
a metal salt, two or more quaternary ammonium salts, and a binder resin that adhere to the article to be treated;
The metal salt and the two or more quaternary ammonium salts adhere to the workpiece through the binder resin,
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
The ratio of the mass content M of the metal salt to the total mass content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1.

The present invention further provides
A step of bringing the processing agent and the article to be processed into contact,
The processing agent contains a metal salt and two or more quaternary ammonium salts. The metal salt is at least one selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold. metal ions and
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
The ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is 20/1 to 1.2/1.

The present invention further provides
A step of bringing the treatment agent into contact with the article to be treated,
The processing agent includes a processing agent containing a metal salt and two or more quaternary ammonium salts, and a binder resin,
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
The ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is 20/1 to 1.2/1.

According to the present invention, processing and treatment agents are provided that are compatible with a variety of bacteria and viruses. According to the present invention, there are further provided a processing agent or a processed article to which the processing agent is adhered, and a method for producing the processing agent.

A quaternary ammonium ion is a monovalent cation in which four carbon bonds are directly attached to a nitrogen atom, and is known to have antibacterial and antiviral properties. Antibacterial and antiviral potency and antibacterial and antiviral spectra are said to vary with the groups attached to the nitrogen atom. In addition, it was found that the antibacterial spectrum and antiviral spectrum differed depending on the type of counter ion of the quaternary ammonium ion. This is probably because the degree of ion dissociation of the quaternary ammonium salt changes depending on the type of the counter ion, and the activity on bacterial and viral membranes also differs.

In this embodiment, at least two quaternary ammonium salts are used. This can broaden the antibacterial and antiviral spectrum. Furthermore, metal salts are used in combination with at least two types of quaternary ammonium salts. In addition to exhibiting strong cationic properties, metal ions have a small ionic radius, so they strongly act on the membranes of bacteria and viruses. This changes the potential of the membrane surface, making it more cationic and causing electrical repulsion. Therefore, it is thought that the intervals between the proteins constituting the membrane are widened and the nucleus is exposed, making it easier for bacteria and viruses to be destroyed.

In addition, in this embodiment of combining metal salts with at least two quaternary ammonium salts, the metal salts are used such that their content is in excess of the total content of the quaternary ammonium salts. . In general, quaternary ammonium salts are said to act against enveloped viruses but have little antiviral activity against non-enveloped viruses. By adding an excessive amount of metal salt, antiviral properties are exhibited even against non-enveloped viruses. It is believed that this will further broaden the antibacterial and antiviral spectrum.

[Processing agent]
The processing agent according to this embodiment contains a specific metal salt and at least two quaternary ammonium salts. This finishing agent has a broad antibacterial and antiviral spectrum and high antibacterial and antiviral properties. Therefore, the finishing agent according to the present embodiment functions as an "antibacterial finishing agent", functions as an "antiviral finishing agent", and can function as an "antibacterial and antiviral finishing agent". In particular, the processing agent according to this embodiment is useful as an "antiviral processing agent."

The processing agent is preferably aqueous, more preferably an aqueous solution. Aqueous means that each component is present in an aqueous medium. At this time, each component may be dissolved in the aqueous medium or dispersed in the aqueous medium. Aqueous media include, for example, pure water, distilled water, ion-exchanged water and tap water. The processing agent may contain an organic solvent, if desired.

The metal salt is selected from the group consisting of Fe (iron), Co (cobalt), Ni (nickel), Cu (copper), Zn (zinc), Pt (platinum), Ag (silver) and Au (gold) At least one metal ion and at least one anion selected from the group consisting of chloride ion, bromide ion, fluoride ion, iodide ion, sulfate ion, hydroxide ion, nitrate ion and acetate ion and formed from The quaternary ammonium salts include a first quaternary ammonium salt and a second quaternary ammonium salt that is different from the first quaternary ammonium salt.

The ratio of the metal salt content M to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1. The antibacterial spectrum and the antiviral spectrum are further broadened by having the content M of the metal salt in excess of the total content A of the quaternary ammonium salt. The ratio: M/A is preferably 17.5/1 to 1.6/1, particularly preferably 15/1 to 2/1.

(Quaternary ammonium salt)
A quaternary ammonium salt is a salt of a quaternary ammonium ion and its counterion (anion). The quaternary ammonium salt includes at least a first quaternary ammonium salt and a second quaternary ammonium salt. A first quaternary ammonium salt is a salt of a first quaternary ammonium ion and a first counterion. The second quaternary ammonium salt is a salt of a second quaternary ammonium ion and a second counterion.

The first quaternary ammonium salt and the second quaternary ammonium salt are different compounds. The first and second quaternary ammonium salts differ in the groups attached to the nitrogen atoms of the first and second quaternary ammonium ions and/or the first and second counterions are different. Above all, it is preferable that at least the first and second counter ions are different from each other in that a broad antibacterial spectrum and antiviral spectrum can be easily obtained while maintaining high antibacterial and antiviral properties.

Examples of the first and second counter ions include chloride ion, bromide ion, fluoride ion, iodide ion, hydroxide ion, phosphate ion, nitrate ion and sulfate ion, and other molecular ions (polyatomic ion).

Among them, from the viewpoint of antibacterial properties, it is preferable that the first counter ion is chloride ion and the second counter ion is phosphate ion. That is, it is preferred that the first quaternary ammonium salt is ammonium chloride and the second quaternary ammonium salt is ammonium phosphate. Ammonium chloride is known to have the highest bactericidal activity among the quaternary ammonium salts. On the other hand, excess ammonium chloride can corrode metals. By using ammonium phosphate together with ammonium chloride, the effect on metals can be easily suppressed while maintaining high antibacterial properties.

The ratio of the content mass A1 of ammonium chloride to the content mass A2 of ammonium phosphate: A1/A2 is preferably 1/20 to 20/1 in that the antibacterial spectrum and antiviral spectrum are likely to be broader. The ratio: A1/A2 is more preferably 1/15 to 15/1, still more preferably 1/10 to 10/1, and particularly preferably 1/10 to 1/1. Furthermore, considering the stability of the processing agent, the ratio: A1/A2 is preferably 1/20 to 1/1.2, more preferably 1/15 to 1/1.6, and 1/10 to 1/2. Especially preferred. When the ratio: A1/A2 is within the above range, the buffering action of phosphate ions makes it difficult for the pH of the processing agent to fluctuate, improving the stability of the processing agent. The higher the stability of the processing agent, the more likely the ammonium cation will adsorb to bacterial and viral proteins. As a result, the effect of the processing agent is more likely to be exhibited.

The structures of the first and second quaternary ammonium ions are not particularly limited. From the viewpoint of antibacterial and antiviral properties, at least one of the first quaternary ammonium ion and the second quaternary ammonium ion has the following formula (I):

（式（Ｉ）中、Ｒ１およびＲ３は、それぞれ独立して、炭素数１～６のアルキル基、炭素数１～４のヒドロキシアルキル基または炭素数１～４のアルキレンオキサイド基であり、Ｒ２およびＲ４は、それぞれ独立して、炭素数６～２０の炭化水素基である。）
で表されることが好ましい。なかでも、第１の第４級アンモニウムイオンおよび第２の第４級アンモニウムイオンの双方が、上記式（Ｉ）で表されることが好ましい。第１および第２の第４級アンモニウムイオンの窒素原子に結合する基は、すべて同じでもよいし、一部が同じでもよいし、すべて異なっていてもよい。

(In formula (I), R1 and R3 are each independently an alkyl group having 1 to 6 carbon atoms, a hydroxyalkyl group having 1 to 4 carbon atoms or an alkylene oxide group having 1 to 4 carbon atoms, and R2 and Each R4 is independently a hydrocarbon group having 6 to 20 carbon atoms.)
is preferably represented by Among them, both the first quaternary ammonium ion and the second quaternary ammonium ion are preferably represented by the above formula (I). The groups bonded to the nitrogen atoms of the first and second quaternary ammonium ions may all be the same, some may be the same, or all may be different.

Specific examples of R1 and R3, which are alkyl groups having 1 to 6 carbon atoms, each independently include a methyl group, an ethyl group, an n-propyl group, an isopropyl group, an n-butyl group, a t-butyl group, n-pentyl group, neopentyl group, isopentyl group, 3-pentyl group, n-hexyl group, isohexyl group and the like. Specifically, R1 and R3, which are hydroxyalkyl groups having 1 to 4 carbon atoms, are each independently a hydroxymethyl group, a hydroxyethyl group, a hydroxy n-propyl group, a hydroxyisopropyl group, and a hydroxy n-butyl group. etc. Specific examples of R1 and R3, which are alkylene oxide groups having 1 to 4 carbon atoms, each independently include an ethylene oxide group, a propylene oxide group, a butylene oxide group, and the like. Among them, from the viewpoint of antibacterial and antiviral properties, R1 and R3 are each independently preferably an alkyl group having 1 to 6 carbon atoms, more preferably an alkyl group having 1 to 4 carbon atoms, and both are methyl groups. is particularly preferred.

R2 and R4 are each independently a hydrocarbon group having 6 to 20 carbon atoms and may have an aromatic ring and/or a substituent. Specifically, R2 and R4 each independently represent a linear alkyl group having 6 to 20 carbon atoms, a branched alkyl group having 6 to 20 carbon atoms, or a carbon atom having 6 to 20 carbon atoms. A hydrocarbon group, a phenyl group, a benzyl group and the like having one or more intervening double bonds can be mentioned. Substituents possessed by R2 and R4 include a hydroxy group and a carbonyl group. Among them, from the viewpoint of antibacterial and antiviral properties, R2 is preferably a hydrocarbon group having 6 to 20 carbon atoms and having one or more aromatic rings, and may be a benzyl group. From the same viewpoint, R4 is preferably an alkyl group having 8 to 18 carbon atoms, may be a linear alkyl group having 8 to 18 carbon atoms, or may be a linear alkyl group having 12 to 16 carbon atoms. you can

In particular, in the first quaternary ammonium ion, it is preferred that both R1 and R3 are methyl groups, R2 is a benzyl group, and R4 is a linear alkyl group having 12 to 16 carbon atoms. In the second quaternary ammonium ion, it is preferred that both R1 and R3 are methyl groups, R2 is a benzyl group, and R4 is a linear alkyl group having 8 to 18 carbon atoms. , the quaternary ammonium ion has a benzalkonium skeleton and moderately long chain alkyl groups. Therefore, the antibacterial and antiviral properties are further improved. Such quaternary ammonium ions are also preferable in terms of production cost and the like.

Processing agents include quaternary ammonium salts formed from quaternary ammonium ions other than those represented by formula (I) above, and quaternary ammonium salts formed from counter ions other than chloride ions and phosphate ions. A salt (hereinafter collectively referred to as another quaternary ammonium salt) may be included. Other quaternary ammonium salts include, for example, alkylpyridinium salts (cetylpyridinium salts), tetramethylammonium, tetraethylammonium, tetrapropylammonium, tetrabutylammonium, hexadecyltrimethylammonium, benzyltriethylammonium, benzyltrimethylammonium, tetra butylammonium and benzethonium.

From the viewpoint of antibacterial spectrum and antiviral spectrum, 80% by mass or more, further 90% by mass or more, particularly 100% by mass of all quaternary ammonium salts contained in the processing agent are ammonium chloride and ammonium phosphate. is preferably Among them, ammonium chloride formed from a quaternary ammonium ion represented by the above formula (I) and a chloride ion, and a quaternary ammonium ion represented by the above formula (I) and a phosphate ion The total content of ammonium phosphate formed from is preferably 80% by mass or more, more preferably 90% by mass or more, and 100% by mass of the total amount of the quaternary ammonium salt. is particularly preferred.

The total concentration of the quaternary ammonium salt is not particularly limited, and may be appropriately set in consideration of the viscosity of the processing agent, the method of attaching the processing agent to the article to be processed, the use of the article to be processed, and the like. The total concentration of the quaternary ammonium salt in the processing agent is preferably 0.005% by mass or more, more preferably 0.01% by mass or more, more preferably 0.05% by mass, from the viewpoints of easy preparation and excellent stability and handleability. % or more is more preferable, 0.075% by mass or more is particularly preferable, and 0.1% by mass or more is particularly preferable. From the same viewpoint, the total concentration is preferably 10% by mass or less, preferably 5.5% by mass or less, more preferably 1% by mass or less, and particularly preferably 0.75% by mass or less. Specifically, the total concentration may be 0.005% by mass or more and 10% by mass or less.

When the finishing agent is applied to the article to be treated by a coating method, for example, a finishing agent containing a quaternary ammonium salt at the concentration described above is used. When the processing agent is attached to the article to be treated by impregnation, for example, the processing agent is used after being diluted with an aqueous medium. The dilution rate is not particularly limited, and is appropriately set according to the shape and material of the article to be treated. The dilution ratio is preferably 1000 times or less.

The source of the quaternary ammonium salt is not particularly limited. Sources of quaternary ammonium salts may be included, for example, in processing or treating agents marketed for other uses (eg, dye fixation).

(metal salt)
Metal salts (hereinafter sometimes referred to as first metal salts) include Fe (iron), Co (cobalt), Ni (nickel), Cu (copper), Zn (zinc), Pt (platinum), Ag ( at least one metal ion selected from the group consisting of silver) and Au (gold), chloride ion, bromide ion, fluoride ion, iodide ion, sulfate ion, hydroxide ion, nitrate ion and acetic acid and at least one anion selected from the group consisting of ions. A 1st metal salt is used individually by 1 type or in combination of 2 or more types. The first metal salt may be added to the processing agent as a hydrate. Among these, copper, zinc and silver are preferred, and copper is more preferred, from the viewpoint of antibacterial and antiviral properties.

The counter ion (anion) of the metal ion is at least one selected from the group consisting of chloride ion, bromide ion, fluoride ion, iodide ion, sulfate ion, hydroxide ion, nitrate ion and acetate ion. be. Among them, at least one selected from the group consisting of polyatomic ions such as sulfate ions, hydroxide ions, nitrate ions and acetate ions is preferable from the viewpoint of production cost, etc., and is more preferable than sulfate ions, nitrate ions and acetate ions. At least one selected from the group consisting of is more preferable.

As the first metal salt, at least one selected from the group consisting of copper sulfate, copper chloride, copper acetate, zinc sulfate, zinc nitrate, zinc acetate, iron sulfate and silver nitrate is preferably exemplified. Among them, at least one selected from the group consisting of copper sulfate, copper chloride, copper acetate, zinc sulfate, zinc nitrate and silver nitrate is particularly preferable from the viewpoint of antibacterial and antiviral properties.

The processing agent may contain a metal salt other than the first metal salt (hereinafter referred to as another metal salt). Other metal salts include, for example, zinc salts such as zinc citrate, zinc malate, zinc fumarate, zinc glycolate, zinc lactate, zinc gluconate; ferrous citrate, ferrous malate, ascorbic acid There are iron salts such as ferrous iron and ferrous lactate. Other metal salts may be water-soluble metal salts including sodium, magnesium, calcium, potassium, aluminum, manganese, titanium, chromium, vanadium, and the like.

However, from the viewpoint of antibacterial and antiviral properties, 80% by mass or more, further 90% by mass or more, particularly 100% by mass of all metal salts contained in the processing agent should be the first metal salt. is preferred.

The concentration of the first metal salt is not particularly limited, and may be appropriately set in consideration of the viscosity of the processing agent, the method of attaching the processing agent to the article to be processed, the application of the article to be processed, and the like. The concentration of the first metal salt in the processing agent is preferably 0.06% by mass or more, more preferably 0.09% by mass or more, and more preferably 0.12% by mass or more in terms of ease of preparation and excellent stability and handleability. is more preferable, and 0.5% by mass or more is particularly preferable. From the same viewpoint, the concentration is preferably 50% by mass or less, preferably 32.5% by mass or less, more preferably 15% by mass or less, and particularly preferably 10% by mass or less. Specifically, the concentration may be 0.06% by mass or more and 50% by mass or less.

When the processing agent is applied to the article to be treated by coating, for example, a processing agent containing the first metal salt at the concentration described above is used. When the processing agent is applied to the article to be treated by the impregnation method, the processing agent is used after being diluted with an aqueous medium as described above.

The processing agent optionally contains other ingredients. Other components include, for example, a softening agent, a dye fixing agent, an antistatic agent, and a water repellent, which improve the texture of the article to be treated. The other component preferably does not easily destabilize the metal ions generated by the dissociation of the first metal salt, or hardly forms a chelate with the metal ion, and more preferably does not form a chelate with the metal ion.

[Processing agent]
The processing agent according to the present embodiment contains the processing agent described above and a binder resin. As a result, the first metal salt and the two kinds of quaternary ammonium salts are fixed to the article to be treated via the binder resin, so antibacterial and antiviral properties can be easily exhibited over a long period of time. "Fixation" means to adhere more strongly than "adhesion". The treatment according to this embodiment can function as an "antibacterial treatment," function as an "antiviral treatment," and function as an "antibacterial and antiviral treatment." In particular, the treatment agent according to this embodiment is useful as an "antiviral treatment agent."

(binder resin)
The binder resin is not particularly limited, and examples thereof include acrylic resins, polyvinyl alcohol, ethylene/vinyl acetate resins, polyurethane resins, polyamide resins, polyester resins, silicone resins, and fluorine resins.

The blending amount of the binder resin is also not particularly limited, and may be, for example, 1% by mass or more and 50% by mass or less of the treatment agent. The binder resin may be included in any form. For example, a commercially available agent containing a binder resin may be mixed with a processing agent containing a first metal salt, two quaternary ammonium salts, an aqueous medium, and the like.

[Processed goods]
A processed article according to the present embodiment includes an article to be treated, and a metal salt and two or more quaternary ammonium salts adhering to the article to be treated. The metal salt and two or more quaternary ammonium salts are derived from the processing agents described above. The processed article according to this embodiment also includes an article to be treated, and a metal salt, two or more quaternary ammonium salts, and a binder resin attached to the article to be treated. The metal salt, two or more quaternary ammonium salts and the binder resin are derived from the treating agents described above. These fabricated articles also have broad antibacterial and antiviral spectrum and high antibacterial and antiviral properties.

When using the above treatment agent, the metal salt (first metal salt) and two or more quaternary ammonium salts are adhered (fixed) to the article to be treated via the binder resin.

The amounts of the first metal salt and the two or more quaternary ammonium salts attached are not particularly limited, and may be appropriately set according to the usage pattern of the processed article. The total amount (mass) of the metal salt and the two or more quaternary ammonium salts attached is preferably 0.01% or more of the mass of the article to be treated, and 0 0.025% or more is more preferable, and 0.04% or more is particularly preferable. From the viewpoint of cost, etc., the total adhesion amount of the metal salt and the two or more quaternary ammonium salts may be 8% or less, 5% or less, or 2% or less of the mass of the article to be treated. can be The total adhesion amount of the metal salt and two or more quaternary ammonium salts is preferably 0.01% or more and 8% or less of the mass of the article to be treated.

(Item to be processed)
The article to be processed is not particularly limited. The article to be treated includes, for example, at least one selected from the group consisting of natural fibers, regenerated fibers, semi-synthetic fibers and synthetic fibers. Natural fibers are broadly classified into vegetable fibers and animal fibers. Plant fibers include cotton, hemp, pulp, and the like. Animal fibers include feathers, silk, animal hair (wool, angora, cashmere, mohair, camel hair, rabbit hair, horse hair, llama hair) and the like. Regenerated fibers include rayon, polynosic, cupra, solvent-spun cellulose fibers, and the like. Semi-synthetic fibers include acetate, triacetate, and the like. Synthetic fibers include polyester, polyolefin, polyamide, polyurethane, acrylic and the like.

The article to be treated may contain animal fibres, in particular animal hair and also wool. When the article to be treated contains animal fibers, the antibacterial and antiviral properties of the article to be processed are less likely to deteriorate. That is, it exhibits excellent durability. Processed articles comprising animal fibers, for example, have high wash durability. Processed articles containing animal fibers, for example, exhibit high wash durability even when no binder resin is used. Although the reason for this is not clear, it is believed that the side chains of the amino acids that constitute the protein contained in the animal fiber and the metal ions or quaternary ammonium ions contained in the processing agent or the processing agent form ionic bonds. be done.

Among animal fibers, animal hair (especially wool) is easily made into thread and easily formed into fabric (woven fabric, knitted fabric, non-woven fabric). Since the processing agent or treatment agent can be easily fixed to the surface of the fabric, antibacterial and antiviral properties are likely to be exhibited, and durability is likely to be improved.

The mass ratio of animal fibers in the product to be treated may be 10% by mass or more, 20% by mass or more, or 30% by mass or more. In one aspect, the mass ratio of animal fibers in the product to be treated is 10% by mass or more and 100% by mass or less.

The mass ratio of the wool in the product to be treated may be 10% by mass or more, 20% by mass or more, or 30% by mass or more. In one aspect, the mass ratio of wool to the processed product is 10% by mass or more and 100% by mass or less.

The article to be treated may be the above fiber itself, may be a yarn obtained by twisting at least one of the above fibers, or may be a fiber structure formed by the above fiber or yarn.

The yarn may be a monofilament yarn, a multifilament yarn, or a spun yarn. The fibers or threads thereof can be used, for example, as padding for pillows, duvets, jackets and coats. The fineness and length of the fiber or thread are not particularly limited, and are appropriately set according to the application.

Fiber structures include, for example, woven fabrics, knitted fabrics, non-woven fabrics, and granulated cotton (also referred to as ball-shaped cotton or granulated cotton) in which fibers or threads are aggregated in a granular form. As described above, the fiber structure may be a fabric such as a woven fabric, a knitted fabric, or a non-woven fabric, since it is easy to develop antibacterial and antiviral properties and to improve durability. The fiber structure is, for example, bedding products such as duvet covers, bed sheets and pillowcases, bedding stuffing, nightwear (pajamas), outerwear, underwear, sweaters, cutter shirts, suits, general clothing such as school uniforms, and clothing It is used as interior decoration items such as padding, curtains, carpets, wallpapers and tablecloths, bathroom items such as hand towels, bath towels and foot wipe mats, and sanitary materials such as infection prevention masks, gauze and bandages.

A specific example of the processed article will be described. A non-woven fabric is suitable as the article to be treated in disposable applications. The form of the nonwoven fabric is not particularly limited, and examples thereof include short fiber nonwoven fabrics, long fiber nonwoven fabrics, and laminates thereof. In particular, from the viewpoint of preventing strike-through of the treatment agent and preventing processing troubles, the basis weight (mass per unit area) of the nonwoven fabric is preferably 10 g/m ² or more, and particularly preferably 15 g/m ² or more. In the case of disposable use, the fabric weight of the nonwoven fabric is preferably 150 g/m ² or less, particularly preferably 100 g/m ² or less, from the viewpoints of cost, handleability, and the like. The type of nonwoven fabric is also not particularly limited. Types of nonwoven fabrics include, for example, thermal bonded nonwoven fabrics (air-through nonwoven fabrics, embossed nonwoven fabrics, etc.), needle-punched nonwoven fabrics, hydroentangled nonwoven fabrics, spunbond nonwoven fabrics, meltblown nonwoven fabrics, and the like. In particular, when a processing agent or treatment agent is applied by a coating method, which will be described later, thermal bond nonwoven fabrics and spunbond nonwoven fabrics are preferred from the viewpoint of production processes and adhesion.

[Manufacturing method of processed goods]
The processed article according to the present embodiment is manufactured, for example, by a method comprising a step of bringing the above-described processing agent or treatment agent into contact with the above-described article to be processed.

If the article to be treated is a fiber, thread, sliver or top, the fiber, thread, sliver or top may be used to form a fiber structure after the contacting step. The article to be processed may be a fiber structure before cutting, or may be a fiber structure after cutting and sewing.

(Contact process)
The method of contacting the processing agent or the processing agent with the article to be processed is not particularly limited. The contact method includes, for example, an immersion method and a spray method. The dipping method is preferably used for any of fibers, yarns and fiber structures (either before or after sewing). The spraying method is particularly preferably used for the textile structure after sewing.

Contacting methods also include coating methods. The coating method is particularly preferably used for fiber structures before sewing (and before cutting). The coating method is not particularly limited, and examples thereof include die coating method, knife coating method, and roll coating method (eg, gravure coating method, flexo coating method). When using a coating method, it is preferable to use a treatment agent containing a binder resin.

The processing agent or treatment agent is brought into contact with the article to be treated so that the total adhesion amount of the metal salt and the two or more quaternary ammonium salts is within the above range. The conditions of the contacting step (temperature, humidity, presence/absence of load, conveying speed of the article to be treated, etc.) are not particularly limited, and are appropriately set according to the shape and type of the article to be treated, the viscosity of the processing agent, and the like.

The contacting step may be performed by an immersion method. In particular, when the article to be treated contains wool, the immersion method may be used from the viewpoint of productivity. In the immersion method, the processing agent or treatment agent is prepared to have a concentration of, for example, 1% o.w.f or more and 20% o.w.f or less. The concentration of the processing agent or treatment agent used in the dipping method may be 4% o.w.f or more, and may be 7% o.w.f or more. The concentration of the processing agent or treatment agent used in the dip method may be 17.5% o.w.f or less, and may be 15% o.w.f or less.

After immersion, a drying treatment is performed. The drying temperature is, for example, 60° C. or higher and 180° C. or lower. The drying temperature may be 90° C. or higher, and may be 120° C. or higher. The drying temperature may be 160° C. or lower, and may be 140° C. or lower. The drying time is, for example, 0.5 minutes or more and 10 minutes or less. The drying time may be 1 minute or longer, and may be 1.5 minutes or longer. The drying time may be 9 minutes or less, and may be 8 minutes or less.

After drying, further curing may be performed. The curing temperature is, for example, 100° C. or higher and 195° C. or lower. The curing temperature may be 125° C. or higher, and may be 150° C. or higher. The curing temperature may be 185° C. or lower, and may be 175° C. or lower. The curing time is, for example, 0.1 minute or more and 5 minutes or less. The curing time may be 0.3 minutes or longer, and may be 0.5 minutes or longer. The curing time may be 4 minutes or less, and may be 3 minutes or less. Finally, it may be steamed.

The present invention will be described in more detail by the following examples, but the invention is not limited thereto. In the examples, "parts" and "%" are based on mass unless otherwise specified.

[Example 1]
(1) Preparation of Processing Agent The components shown in Table 1 were mixed to a predetermined concentration to prepare processing agent x1.

(2) Production of Processed Article A spunbond nonwoven fabric (made of polyethylene terephthalate, mass per unit area: 20 g/m ² ) was prepared as an article to be processed. One side of this spunbond nonwoven fabric was coated with a treatment agent x1 in an amount of 24 g/m ² using a gravure coater. Then, it was dried at 80° C. to 100° C. for 4 minutes to obtain a pale blue processed article X1. The total adhesion amount of the metal salt and two or more quaternary ammonium salts is 1.39% (the total adhesion amount (M) of the metal salt is 1.03%, the quaternary ammonium salt was 0.36%, ratio: M/A=2.86/1). Also, the ratio of the content mass A1 of ammonium chloride to the content mass A2 of ammonium phosphate: A1/A2 was 1/5.

(3) Evaluation (a) Antiviral evaluation 1 (antiviral test using SARS-CoV-2)
Using JIS L 1922 "Antiviral Test Method for Textile Products", an antiviral test was conducted under the following conditions and procedures. Processed article X1 was used as a specimen.

(Test condition 1)
・Test virus: SARS-CoV-2
・Host cell: VeroE6/TMPRSS2 (African green monkey kidney-derived cell)
・Cell culture medium: EMEM
・Washing solution: A solution obtained by diluting SCDLP 10-fold with DMEM containing 2% FBS (fetal bovine serum) ・Action conditions: 25°C, 2 hours ・Infectivity titer measurement method: Plaque measurement method

(Test procedure 1)
First, host cells were infected with a test virus, EMEM was added, and the cells were cultured at 37° C. for a predetermined time. Then, it was centrifuged at 1000×g at 4° C. for 15 minutes to obtain a supernatant (virus suspension). The resulting virus suspension was diluted 10-fold with sterile distilled water to prepare a test virus suspension A of 1×10 ⁷ to 5×10 ⁷ PFU/mL.
0.4 g of specimen was then inoculated with 0.2 mL of test virus suspension A. After acting at 25° C. for 2 hours, 20 mL of washing solution was added and stirred with a vortex mixer to wash out the virus from the sample. The washed solution was serially diluted and the virus infectivity titer was measured by the plaque measurement method. Finally, the antiviral activity value was calculated by the following formula.
Mv=lg(Va)-lg(Vb)
Mv: Antiviral activity value lg (Va): Common logarithm of the virus infectivity value (PFU/standard cloth) of the standard cloth immediately after inoculation lg (Vb): Viral infectivity value (PFU/specimen) of the sample after standing for 2 hours common logarithm of

The antiviral activity value is evaluated as follows.
Antiviral activity value ≥ 3.0: Sufficient effect 3.0 > Antiviral activity value ≥ 2.0: Effective

The calculated antiviral activity value was 3.7, indicating that treatment x1 and processed article X1 had sufficient antiviral activity against SARS-CoV-2.

(b) Antiviral evaluation 2 (antiviral test using SARS-CoV-2)
An antiviral test was performed under the following conditions and procedures. Processed article X1 was used as a specimen.

(Test condition 2)
・Test virus: SARS-CoV-2
・Host cell: VeroE6/TMPRSS2 (African green monkey kidney-derived cell)
・Cell culture medium: DMEM, EMEM
・Drug inactivating agent: A solution obtained by diluting SCDLP 10-fold with DMEM containing 2% FBS (fetal bovine serum) ・Action conditions: 25°C, 10 minutes ・Infectivity titer measurement method: Plaque measurement method

(Test procedure 2)
First, host cells were infected with a test virus, EMEM was added, and the cells were cultured at 37° C. for a predetermined time. Then, it was centrifuged at 1000×g at 4° C. for 15 minutes to obtain a supernatant (virus suspension). The resulting virus suspension was diluted 10-fold with sterile distilled water to prepare a test virus suspension B of 1×10 ⁷ to 5×10 ⁷ PFU/mL.
Then, 0.2 g of specimen was inoculated with 0.6 mL of EMEM diluted 10-fold with sterile distilled water. The specimen was squeezed and the supernatant collected. 0.1 mL of this supernatant and 0.9 mL of drug inactivator were thoroughly stirred. Subsequently, this mixed solution was serially diluted with DMEM containing 2% FBS, and the presence or absence of cytotoxicity was confirmed by plaque assay.

Separately, 0.2 g of specimen was inoculated with 0.6 mL of test virus suspension B. After reacting at 25° C. for 10 minutes, the sample was squeezed out and the supernatant was recovered. This supernatant was inactivated under the same conditions that confirmed inactivation in the cytotoxicity test to obtain a reaction stop solution. The obtained reaction-stopped solution was serially diluted with DMEM containing 2% FBS, and the virus infectivity titer was measured by the plaque assay method. Finally, the antiviral activity value was calculated in the same manner as above.

No sample cytotoxicity was observed. In addition, the calculated antiviral activity value was 4.4. These tests indicated that Treatment x1 and Worked Article X1 had sufficient antiviral activity against SARS-CoV-2, even in Antiviral Test 2.

(c) Antiviral evaluation 3 (antiviral test using human influenza virus (H3N2))
Based on ISO18184 (Textiles - Determination of antiviral activity of textile products), an antiviral test was conducted under the following conditions and procedures. Processed article X1 was used as a specimen.

(Test condition 3)
・Test virus: human influenza virus (H3N2)
・Host cell: MDCK cell (canine kidney-derived cell)
・Washing solution: SCDLP medium ・Action conditions: 25°C, 2 hours ・Infectivity titer measurement method: Plaque measurement method

(Test procedure 3)
First, host cells were infected with the test virus and cultured at 37° C. for a predetermined period of time. Then, it was centrifuged at 1000×g at 4° C. for 15 minutes to obtain a supernatant (virus suspension). The resulting virus suspension was diluted 10-fold with sterile distilled water to prepare a test virus suspension C of 1×10 ⁷ to 5×10 ⁷ PFU/mL.
0.4 g of specimen was then inoculated with 0.2 mL of test virus suspension C. After acting at 25° C. for 2 hours, 20 mL of washing solution was added and stirred with a vortex mixer to wash out the virus from the sample. The washed solution was serially diluted and the virus infectivity titer was measured by the plaque measurement method. Finally, the antiviral activity value was calculated in the same manner as in the antiviral test 1.

The antiviral activity value is evaluated as follows.
Antiviral activity value ≥ 3.0: Sufficient effect 3.0 > Antiviral activity value ≥ 2.0: Effective

The calculated antiviral activity value was 4.2, indicating that this treatment agent x1 and processed article X1 have sufficient antiviral activity against human influenza virus (H3N2).

[Example 2]
(1) Preparation of processing agent The components shown in Table 2 were mixed so as to have a predetermined concentration to prepare processing agent x2.

(2) Fabrication of Processed Articles Washed feathers (90% down, 10% feathers) were prepared as articles to be treated. 10 g of this feather was placed in a 500 mL beaker. In another beaker, 200 mL of water, 1 g (10% o.w.f) of processing agent x2, and several drops of penetrant (Clean N15, manufactured by Lion Corporation, nonionic surfactant) were added and mixed. . This mixture was added to the beaker containing the feathers, adjusted to a bath ratio of 1:30, and blended at 60° C. for 15 minutes. After that, it was dehydrated and dried at 80° C. for 3 hours to obtain processed article X2. The total adhesion amount of the metal salt and two or more quaternary ammonium salts relative to the mass of the product to be treated is 0.56% (the adhesion amount (M) of the metal salt is 0.51%, and the amount of the quaternary ammonium salt is 0.51%. The total adhesion amount (A) was 0.05%, ratio: M/A=10.2/1). Also, the ratio of the content mass A1 of ammonium chloride to the content mass A2 of ammonium phosphate: A1/A2 was 1/5.25.

(3) Evaluation (a) Antibacterial evaluation (antibacterial test using Staphylococcus aureus)
An antibacterial test was conducted by the fungal liquid absorption method in accordance with JIS L 1902 "Antibacterial test method and antibacterial effect of textile products". Processed article X2 was used as a specimen. Using Staphylococcus aureus NBRC 12732, the bacteriostatic activity value represented by the following formula was calculated to evaluate antibacterial properties.

Bacteriostatic activity value [S] = (Mb-Ma) - (Mc-Mo)
Ma: Mean value of common logarithm values of unprocessed feathers immediately after inoculation with the test bacterial solution Mb: Average value of common logarithmic values of unprocessed feathers after 18-hour incubation Mo: Average of common logarithmic values immediately after inoculation with the test bacterial solution Value Mc: mean value of common logarithm values after 18 hours culture of specimen

The antibacterial activity value is evaluated as follows.
Antibacterial activity value ≥ 3.0: Sufficient effect 3.0 > Antibacterial activity value ≥ 2.0: Effective

The calculated antibacterial activity value was 5.3, indicating that this processing agent x2 and processed article X2 have sufficient antibacterial activity against Staphylococcus aureus.

(b) Durability evaluation (equivalent to washing 3 times)
The antibacterial properties of processed article X23, equivalent to _three washes, were evaluated.

(Washing procedure)
The processed article X2 was washed three times by a method referring to the home washing method 103 defined in JIS L 0217. Specifically, the washing method is as follows.
About 10 g of processed article X2 was placed in a washing net, put into a domestic washing machine, and washed for 15 minutes using 17 liters of water and 22.7 mL of JAFET detergent. After washing, the fabric was rinsed for 12 minutes and dried at 80°C for 3 hours. Thus, processed article X23, which is equivalent to washing _three times, was obtained.

(Antibacterial evaluation)
An antibacterial test using Staphylococcus aureus was performed in the same manner as in the above antibacterial evaluation using the obtained processed article _X2-3 as a specimen.
The calculated antibacterial activity value was 6.0, indicating that processed article _X2-3 still had sufficient antibacterial activity against Staphylococcus aureus.

[Example 3]
(1) Preparation of processing agent The components shown in Table 3 were mixed so as to have a predetermined concentration to prepare processing agent x3.

(2) Fabrication of processed article As the article to be treated, a fabric containing wool (30% by mass of wool, 70% by mass of polyester, navy blue, weight per unit area of 270 g / m ² , 44 count two-ply yarn for both warp and weft, warp density 67 A weft yarn density of 64 wefts/inch, manufactured by Toa Boshoku Co., Ltd.) was cut into a length of 30 cm and a width of 23 cm.

After the article to be treated was fully immersed in the processing agent x3, it was taken out. Next, the excessive processing agent x3 was removed by mangle while permeating the processing agent x3 into the inside of the article to be processed. Again, the article to be treated was immersed in the processing agent x3, and excess processing agent x3 was removed by mangle. The final pick-up rate was 66%, and the amount of the processing agent x3 adhered to the workpiece was 10%owf.

Subsequently, the article to be treated was dried at 130° C. for 5 minutes, cured at 165° C. for 1 minute, and steamed at 120° C. for 1 minute to obtain a processed article X3. The total adhesion amount of the metal salt and two or more quaternary ammonium salts with respect to the mass of the product to be treated is 0.57% (the adhesion amount (M) of the metal salt is 0.52%, and the amount of the quaternary ammonium salt is 0.52%. The total adhesion amount (A) was 0.05%, ratio: M/A=10.4/1). Also, the ratio of the content mass A1 of ammonium chloride to the content mass A2 of ammonium phosphate: A1/A2 was 1/5.42.

(3) Evaluation (a) Antiviral evaluation 3
An antiviral test using human influenza virus (H3N2) was performed in the same manner as in antiviral property evaluation 3 performed in Example 1, using the obtained processed product X3 as a specimen.
The calculated antiviral activity value was 4.3, indicating that the finishing agent x2 and the finished article X3 have sufficient antiviral activity against human influenza virus (H3N2).

(b) Antibacterial Evaluation Using the obtained processed article X3 as a sample, an antibacterial test using Staphylococcus aureus was performed in the same manner as in the antibacterial evaluation performed in Example 2.
The calculated antibacterial activity value was 6.0, indicating that the finishing agent x2 and the finished article X3 had sufficient antibacterial activity against Staphylococcus aureus.

(c) Durability evaluation (product equivalent to 10 washings)
The antibacterial and antiviral properties of Fabricated Article X3 ₁₀ , equivalent to 10 washes, were evaluated.

(Washing procedure)
The processed article X3 was washed in accordance with the home washing method 103 specified in JIS L 0217 to obtain an article equivalent to washing 10 times. Specifically, the washing method is as follows.
About 70 g of the processed article X3 and a load cloth (woven fabric of 100% cotton) were prepared so that the sum of the mass of the processed article X3 and the weight of the processed article X3 was 1 kg. Put the processed article X3 and the load cloth in a washing net, put it in a domestic washing machine, use 30 liters of water and 20 g of a commercially available detergent (attack powder detergent, manufactured by Kao Corporation, weakly alkaline) for 50 minutes. washed. After washing, it was rinsed for 40 minutes and hung to dry indoors to obtain product X310 equivalent to ₁₀ washes.

(Antiviral evaluation 3)
An antiviral test using human influenza virus (H3N2) was performed in the same manner as in Antiviral Property Evaluation 3 conducted in Example 1, using the obtained processed article X3 ₁₀ as a specimen.
The calculated antiviral activity value was 3.0, indicating that Artifact X3 ₁₀ still had sufficient antiviral activity against human influenza virus (H3N2).

(Antibacterial evaluation)
An antibacterial test using Staphylococcus aureus was performed in the same manner as the antibacterial evaluation conducted in Example 2 using the obtained processed article _X3-10 as a specimen.
The calculated antimicrobial activity value was 4.6, indicating that the processed article X3 ₁₀ still had sufficient antimicrobial activity against Staphylococcus aureus.

[Comparative Example 1]
(1) Preparation of processing agent The components shown in Table 3 were mixed so as to have a predetermined concentration to prepare processing agent y1.

(2) Production of Processed Article A pulp spunlace nonwoven fabric (mass per unit area: 50 g/m ² , thickness: 0.45 mm) was prepared as an article to be processed. This pulp spunlace nonwoven fabric was impregnated with processing agent y1. Then, it was dried at 80° C. for 30 minutes to obtain a pale blue processed article Y1. The total adhesion amount of the metal salt and two or more quaternary ammonium salts relative to the mass of the product to be treated is 0.48% (the adhesion amount of the metal salt is 0.4%, and the total adhesion amount of the quaternary ammonium salt is 0.08%).

(3) Evaluation (a) Antiviral evaluation 3
An antiviral test using human influenza virus (H3N2) was performed in the same manner as in antiviral property evaluation 3 in Example 1, using processed product Y1 as a specimen.

The calculated antiviral activity value was 0.6, indicating that this processing agent y1 and processed article Y1 did not have antiviral activity against human influenza virus (H3N2). This is probably because EDTA-Cu, which is a metal salt, forms a chelate and is stabilized in this state, and the antiviral properties of copper ions are not exerted.

（式（Ｉ）中、Ｒ１およびＲ３は、それぞれ独立して、炭素数１～６のアルキル基、炭素数１～４のヒドロキシアルキル基または炭素数１～４のアルキレンオキサイド基であり、Ｒ２およびＲ４は、それぞれ独立して、炭素数６～２０の炭化水素基である。）
で表される、態様３の加工剤。
（態様５）
前記式（Ｉ）において、
前記Ｒ１および前記Ｒ３は、いずれもメチル基であり、
前記Ｒ２は、ベンジル基であり、
前記Ｒ４は、炭素数８～１８のアルキル基である、態様４の加工剤。
（態様６）
前記塩化アンモニウムの含有質量Ａ１と前記リン酸アンモニウムの含有質量Ａ２との比率：Ａ１／Ａ２は、１／２０～２０／１である、態様３～５の加工剤。
（態様７）
態様１～６の加工剤と、
バインダー樹脂と、を含む、処理剤。
（態様８）
被処理品と、
前記被処理品に付着する、金属塩および２種以上の第４級アンモニウム塩と、を含み、
前記金属塩は、鉄、コバルト、ニッケル、銅、亜鉛、白金、銀および金よりなる群から選択される少なくとも１種の金属のイオンと、
塩化物イオン、臭化物イオン、フッ化物イオン、ヨウ化物イオン、硫酸イオン、水酸化物イオン、硝酸イオンおよび酢酸イオンよりなる群から選択される少なくとも１種の陰イオンと、から形成され、
前記金属塩の含有質量Ｍと前記第４級アンモニウム塩の総含有質量Ａとの比率：Ｍ／Ａは、２０／１～１．２／１である、加工物品。
（態様９）
被処理品と、
前記被処理品に付着する、金属塩、２種以上の第４級アンモニウム塩およびバインダー樹脂と、を含み、
前記金属塩および前記２種以上の第４級アンモニウム塩は、前記バインダー樹脂を介して、前記被処理品に付着しており、
前記金属塩は、鉄、コバルト、ニッケル、銅、亜鉛、白金、銀および金よりなる群から選択される少なくとも１種の金属のイオンと、
塩化物イオン、臭化物イオン、フッ化物イオン、ヨウ化物イオン、硫酸イオン、水酸化物イオン、硝酸イオンおよび酢酸イオンよりなる群から選択される少なくとも１種の陰イオンと、から形成され、
前記金属塩の含有質量Ｍと前記第４級アンモニウム塩の総含有質量Ａとの比率：Ｍ／Ａは、２０／１～１．２／１である、加工物品。
（態様１０）
前記金属塩および前記２種以上の第４級アンモニウム塩の合計の付着量は、前記被処理品の質量の０．０１％以上８％以下である、態様８または９の加工物品。
（態様１１）
前記被処理品は、天然繊維、再生繊維、半合成繊維、および、合成繊維よりなる群から選択される少なくとも１種を含む、態様８～１０の加工物品。
（態様１２）
前記被処理品は、羊毛を１０質量％以上含む、態様８～１１の加工物品。
（態様１３）
加工剤と、被処理品とを、接触させる工程を備え、
前記加工剤は、金属塩および２種以上の第４級アンモニウム塩を含み、
前記金属塩は、鉄、コバルト、ニッケル、銅、亜鉛、白金、銀および金よりなる群から選択される少なくとも１種の金属のイオンと、
塩化物イオン、臭化物イオン、フッ化物イオン、ヨウ化物イオン、硫酸イオン、水酸化物イオン、硝酸イオンおよび酢酸イオンよりなる群から選択される少なくとも１種の陰イオンと、から形成され、
前記金属塩の含有質量Ｍと前記第４級アンモニウム塩の総含有質量Ａとの比率：Ｍ／Ａは、２０／１～１．２／１である、加工物品の製造方法。
（態様１４）
前記接触させる工程において、前記被処理品を前記加工剤に浸漬する、態様１３の加工物品の製造方法。
（態様１５）
処理剤と、被処理品とを、接触させる工程を備え、
前記処理剤は、金属塩および２種以上の第４級アンモニウム塩を含む加工剤と、バインダー樹脂と、を含み、
前記金属塩は、鉄、コバルト、ニッケル、銅、亜鉛、白金、銀および金よりなる群から選択される少なくとも１種の金属のイオンと、
塩化物イオン、臭化物イオン、フッ化物イオン、ヨウ化物イオン、硫酸イオン、水酸化物イオン、硝酸イオンおよび酢酸イオンよりなる群から選択される少なくとも１種の陰イオンと、から形成され、
前記金属塩の含有質量Ｍと前記第４級アンモニウム塩の総含有質量Ａとの比率：Ｍ／Ａは、２０／１～１．２／１である、加工物品の製造方法。
（態様１６）
前記接触させる工程において、前記処理剤を前記被処理品にコーティングする、態様１５の加工物品の製造方法。 The present disclosure includes the following aspects.
(Aspect 1)
comprising a metal salt and two or more quaternary ammonium salts,
The metal salt is
ions of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
A processing agent, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1.
(Aspect 2)
The processing agent of aspect 1, wherein the metal ions comprise copper ions.
(Aspect 3)
The two or more quaternary ammonium salts are
ammonium chloride formed from a first quaternary ammonium ion and a chloride ion;
3. The processing agent of aspect 1 or 2, comprising an ammonium phosphate formed from a second quaternary ammonium ion and a phosphate ion.
(Aspect 4)
The first quaternary ammonium ion and the second quaternary ammonium ion are represented by the following formula (I):

(In formula (I), R1 and R3 are each independently an alkyl group having 1 to 6 carbon atoms, a hydroxyalkyl group having 1 to 4 carbon atoms or an alkylene oxide group having 1 to 4 carbon atoms, and R2 and Each R4 is independently a hydrocarbon group having 6 to 20 carbon atoms.)
A processing agent according to aspect 3, represented by
(Aspect 5)
In the formula (I),
Both the R1 and the R3 are methyl groups,
The R2 is a benzyl group,
A processing agent according to aspect 4, wherein said R4 is an alkyl group having 8 to 18 carbon atoms.
(Aspect 6)
The processing agent according to aspects 3 to 5, wherein the ratio of the ammonium chloride content A1 to the ammonium phosphate content A2: A1/A2 is 1/20 to 20/1.
(Aspect 7)
A processing agent according to aspects 1 to 6;
and a binder resin.
(Aspect 8)
an object to be processed;
a metal salt and two or more quaternary ammonium salts attached to the article to be treated;
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
The processed article, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1.
(Aspect 9)
an object to be processed;
a metal salt, two or more quaternary ammonium salts, and a binder resin that adhere to the article to be treated;
The metal salt and the two or more quaternary ammonium salts adhere to the workpiece through the binder resin,
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
The processed article, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1.
(Mode 10)
10. The processed article according to mode 8 or 9, wherein the total adhesion amount of the metal salt and the two or more quaternary ammonium salts is 0.01% or more and 8% or less of the mass of the article to be treated.
(Aspect 11)
A processed article according to aspects 8 to 10, wherein the article to be treated includes at least one selected from the group consisting of natural fibers, regenerated fibers, semi-synthetic fibers, and synthetic fibers.
(Aspect 12)
The processed article according to aspects 8 to 11, wherein the article to be treated contains 10% by mass or more of wool.
(Aspect 13)
A step of bringing the processing agent and the article to be processed into contact,
The processing agent contains a metal salt and two or more quaternary ammonium salts,
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
A method for producing a processed article, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1.
(Aspect 14)
A method of manufacturing a processed article according to mode 13, wherein in the contacting step, the article to be processed is immersed in the processing agent.
(Aspect 15)
A step of bringing the treatment agent into contact with the article to be treated,
The processing agent comprises a processing agent containing a metal salt and two or more quaternary ammonium salts, and a binder resin,
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
A method for producing a processed article, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1.
(Aspect 16)
16. The method of manufacturing a processed article according to mode 15, wherein in the contacting step, the processing agent is coated on the article to be processed.

The processing agent and treatment agent of the present invention have a wide antibacterial spectrum and antiviral spectrum, and are therefore suitable for removing various bacteria and viruses.

Claims (16)

comprising a metal salt and two or more quaternary ammonium salts,
The metal salt is
ions of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
A processing agent, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1. 2. The processing agent according to claim 1, wherein said metal ions include copper ions. The two or more quaternary ammonium salts are
ammonium chloride formed from a first quaternary ammonium ion and a chloride ion;
3. A processing agent according to claim 1 or 2, comprising an ammonium phosphate formed from a second quaternary ammonium ion and a phosphate ion. The first quaternary ammonium ion and the second quaternary ammonium ion are represented by the following formula (I):

(In formula (I), R1 and R3 are each independently an alkyl group having 1 to 6 carbon atoms, a hydroxyalkyl group having 1 to 4 carbon atoms or an alkylene oxide group having 1 to 4 carbon atoms, and R2 and Each R4 is independently a hydrocarbon group having 6 to 20 carbon atoms.)
The processing agent according to claim 3, represented by In the formula (I),
Both the R1 and the R3 are methyl groups,
The R2 is a benzyl group,
The processing agent according to claim 4, wherein said R4 is an alkyl group having 8 to 18 carbon atoms. The processing agent according to any one of claims 3 to 5, wherein the ratio of the content mass A1 of the ammonium chloride to the content mass A2 of the ammonium phosphate: A1/A2 is 1/20 to 20/1. . The processing agent according to any one of claims 1 to 6,
and a binder resin. an object to be processed;
a metal salt and two or more quaternary ammonium salts attached to the article to be treated;
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
The processed article, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1. an object to be processed;
a metal salt, two or more quaternary ammonium salts, and a binder resin that adhere to the article to be treated;
The metal salt and the two or more quaternary ammonium salts adhere to the workpiece through the binder resin,
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
The processed article, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1. 10. The processed article according to claim 8 or 9, wherein the total adhesion amount of said metal salt and said two or more kinds of quaternary ammonium salts is 0.01% or more and 8% or less of the mass of said article to be treated. 11. The processed article according to any one of claims 8 to 10, wherein said article to be treated includes at least one selected from the group consisting of natural fibers, regenerated fibers, semi-synthetic fibers, and synthetic fibers. The processed article according to any one of claims 8 to 11, wherein the processed article contains 10% by mass or more of wool. A step of bringing the processing agent and the article to be processed into contact,
The processing agent contains a metal salt and two or more quaternary ammonium salts,
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
A method for producing a processed article, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1. 14. The method of manufacturing a processed article according to claim 13, wherein in said contacting step, said article to be processed is immersed in said processing agent. A step of bringing the treatment agent into contact with the article to be treated,
The processing agent includes a processing agent containing a metal salt and two or more quaternary ammonium salts, and a binder resin,
The metal salt is an ion of at least one metal selected from the group consisting of iron, cobalt, nickel, copper, zinc, platinum, silver and gold;
at least one anion selected from the group consisting of chloride ions, bromide ions, fluoride ions, iodide ions, sulfate ions, hydroxide ions, nitrate ions and acetate ions;
A method for producing a processed article, wherein the ratio of the content M of the metal salt to the total content A of the quaternary ammonium salt: M/A is from 20/1 to 1.2/1. 16. The method of manufacturing a processed article according to claim 15, wherein in the contacting step, the processing agent is coated on the article to be processed.