JP2003079756A - Mask and allergen reducing sheet for mask - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mask having a function to reduce allergen, such as ticks and pollen, and an allergen reducing sheet for the mask. SOLUTION: The mask consisting of fibers reduced in the allergen and the allergen reducing sheet for the mask. The allergen reducing component preferably consists of at least one selected from the group consisting of a compound having the functional group expressed by a general formula at the side chain of a linear polymer, a compound formed by polymerizing or copolymerizing a monomer having the functional group expressed by the general formula or a univalent phenolic group and an aromatic hydroxy compound, such as an aromatic heterocyclic hydroxy compound; carbonate of an alkaline metal, alum, lauryl benzene sulfonate, lauryl sulfonate, polyoxyethylene lauryl ether sulfonate; phosphate and zinc sulfate and/or lead acetate.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a mask having a function of reducing allergens such as mites and pollen, and an allergen reducing sheet for a mask.

[0002]

2. Description of the Related Art Recently, atopic dermatitis, bronchial asthma,
Many allergic diseases such as allergic rhinitis are becoming a problem. The main cause is allergens (Der1, Der2) of house mites, especially dust mites that are often found in indoor dust.
Or the cedar pollen allergen (Cr
This is because many allergens such as ij1 and Crij2) are increasing in the living space. In particular, even if the dust mite allergen is exterminated by the dust mite that causes it, the dead insects will supply substances with a higher allergenicity to the living space, which is a fundamental solution to allergic diseases caused by the allergen. I can't reach it. In addition, Cr which is a cedar pollen allergen
ij1 is a glycoprotein with a molecular weight of about 40 kDa, Crij2 is a molecular weight of about 3
It is a 7kDa glycoprotein that, when attached to the nasal mucosa, is recognized as an in-vitro foreign body and causes inflammatory reactions such as sneezing, runny nose, and itchy eyes. Therefore, in order to reduce the symptoms of allergic diseases or prevent new sensitization, the only countermeasure is to prevent inhalation of allergens such as pollen, and various measures have been taken.

A mask is used most simply so as not to suck allergens such as pollen into the body. However, the mask is only a physical trapping that pollen is entangled in the fiber, the trapped pollen particles remain in the mask in a harmful state with the antigenicity of hay fever,
When the pollen that has been entangled is separated from the mask and sucked into the body due to a physical impact, hay fever is caused. Moreover, it is considered that the mask user is exposed to a dangerous state where the pollen concentration is extremely high when the mask is removed. Therefore, simply attaching a mask does not lead to a fundamental solution to the pollinosis disease caused by pollen.

In view of this, Japanese Patent Application Laid-Open No. 10-225526 discloses a method of performing a charging process to suck pollen in order to enhance the physical capturing power. However, in such a method, the static electricity is remarkably reduced due to a large amount of moisture in the exhaled air discharged from the human body, and the fact is that it does not have a sufficient capturing power. Further, a mask sheet in which a sheet containing water is inserted into a mask for use has been proposed, but there is a problem in that the intake resistance of the sheet surface becomes extremely high due to water, and it is difficult to breathe. Further, although such a mask has a high effect of cutting pollen from the front side, there is a problem that pollen that enters through the gap between the mask and the skin becomes larger than that in the past and aggravates hay fever.

[0005]

In view of the above problems, the present invention has a fiber containing a substance that reduces allergens such as pollen trapped in a mask in order to reduce symptoms of allergic diseases or prevent new sensitization. An object of the present invention is to provide a mask and an allergen-reducing sheet for a mask.

[0006]

In order to achieve the above object, the present invention according to claim 1 provides a mask made of fibers obtained by spinning a fiber raw material having an allergen-reducing component. Further, the present invention according to claim 2 provides a mask made of fibers obtained by spinning an allergen-reducing component and a fiber raw material. Further, the present invention according to claim 3 provides a mask in which the allergen-reducing component is chemically bonded to the fiber and / or post-fixed to the fiber. The present invention according to claim 4 provides the mask according to any one of claims 1 to 3, wherein the allergen-reducing component is an aromatic hydroxy compound. Further, the present invention according to claim 5 is the compound in which the aromatic hydroxy compound has at least one represented by the general formulas (1) to (6) in the side chain of the linear polymer. To provide a mask. Further, the present invention according to claim 6 is such that the aromatic hydroxy compound is a monomer having a monomer containing at least one of the general formulas (1) to (6) and / or having a monovalent phenol group. The mask according to claim 4, which is obtained by polymerizing or copolymerizing a body. The present invention according to claim 7 provides the mask according to claim 4, wherein the aromatic hydroxy compound is an aromatic heterocyclic hydroxy compound. Further, in the invention according to claim 8, the allergen-reducing component is at least selected from the group consisting of alkali metal carbonate, alum, laurylbenzene sulfonate, lauryl sulfate, and polyoxyethylene lauryl ether sulfate. Claim 1 which is one
A mask according to any one of items 3 is provided. Further, in the present invention according to claim 9, the allergen-reducing component is a phosphate and zinc sulfate and / or lead acetate.
Item 10. A mask according to any one of items. The present invention according to claim 10 provides the mask according to any one of claims 1 to 9, wherein the allergen is derived from pollen.
Further, the present invention according to claim 11 provides an allergen-reducing sheet for a mask, which comprises a fiber containing an allergen-reducing component.

The allergen-reducing component used in the present invention is not particularly limited as long as it can inactivate the allergen and suppress the antigen-antibody reaction, and any component may be used, for example, tannin. Acids, plant extracts such as catechin, hydroxybenzoic acid such as 2,5-dihydroxybenzoic acid, and the like.

Among the above allergen-reducing ingredients, the masking and allergen-reducing sheet for masks are colored, and because they come into direct contact with the mouth, oral acute toxicity and skin irritation are comprehensively considered, preferably the allergens described below. Reducing components are preferred.

The allergen-reducing component used in the present invention is preferably an aromatic hydroxy compound. The aromatic hydroxy compound is not particularly limited, and in particular, the side chains of the linear polymer have the following general formula (1) to
The compound having at least one represented by (6) is preferable.

[0010]

[Chemical 2] (R is hydrogen or a hydroxyl group, at least one is a hydroxyl group, and n is 0 to 5)

In the compound having the functional groups represented by the above general formulas (1) to (6) in the side chain of the linear polymer, the number of n is 0 to 5. When it exceeds 5, the effect of using the linear polymer may be lost. Further, at least one of R is a hydroxyl group, and without the hydroxyl group, the allergen reduction effect may not be sufficiently exhibited. If there are too many hydroxyl groups, the colorability of the mask and the mask reducing sheet may become strong, so one hydroxyl group is preferred. Further, the position of the hydroxyl group is preferably bonded to a site having the least steric hindrance, and for example, in the general formula (1), it is preferably in the para position.

The above-mentioned linear polymer means, for example, synthetic polymers such as vinyl polymers, polyesters and polyamides. Further, the chemical bond between the functional group represented by the general formulas (1) to (6) and the linear polymer is not particularly limited, and examples thereof include a carbon-carbon bond, an ester bond, an ether bond, and an amide bond. To be General formula (1) to
The compound having the functional group represented by (6) in the side chain of the linear polymer is, for example, poly-3,4,5-hydroxy, because of its safety, availability, and easy binding to fibers. Vinyl benzoate, polyvinylphenol, polytyrosine, poly (1-vinyl-5-hydroxynaphthalene), poly (1-vinyl-6-hydroxynaphthalene), poly (1
-Vinyl-5-hydroxyanthracene) is preferred.

As the aromatic hydroxy compound, a monomer containing at least one of the above general formulas (1) to (6) and / or a monomer having a monovalent phenol group is polymerized or Those obtained by copolymerization are preferable.

The monomer having at least one monovalent phenol group is not particularly limited as long as it is a compound having at least one monomer having one hydroxyl group bonded to the benzene ring, and examples thereof include vinylphenol. , Tyrosine, 1,2-di (4-hydroxyphenyl) ethene represented by the following general formula 7 and the like. When the active ingredient has a monovalent phenol group, it has an effect that it is less likely to be discolored than a polyhydric phenol.

[Chemical 3]

The other monomer to be copolymerized with the monomer having one or more monovalent phenol groups is ethylene,
Examples thereof include acrylate, methacrylate, methyl methacrylate, hydroxyethyl methacrylate, hydroxyethyl acrylate, hydroxypropyl acrylate, hydroxypropyl methacrylate and styrene.

The aromatic hydroxy compound is preferably an aromatic heterocyclic hydroxy compound.

The above aromatic heterocyclic hydroxy compound is
There is no particular limitation, and for example, 2-hydroxyfuran, 2-
Hydroxythiophene, hydroxybenzofuran, 3-
Hydroxy pyridine etc. are mentioned. Further, it may be a compound containing an aromatic heterocyclic hydroxy group in the side chain of a linear polymer, a compound obtained by polymerizing or copolymerizing a monomer having an aromatic heterocyclic hydroxy group, and the like.

Examples of the aromatic heterocyclic hydroxy group include those in which a hydroxy group is bound to a heterocyclic skeleton such as thiophene and furan represented by the following general formulas 8 and 9, and a heterocyclic group represented by the following general formula 10. A skeleton having a ring and an aromatic ring to which a hydroxy group is bonded, a heterocyclic skeleton having a hydroxy group and an alkyl group (having 5 or less carbon atoms), and a skeleton having a heterocycle and an aromatic group having a hydroxy group. Examples thereof include those having an alkyl group (having 5 or less carbon atoms).

[Chemical 4]

The allergen-reducing components used in the present invention include alkali metal carbonates, alums, laurylbenzene sulfonates, lauryl sulfates, polyoxyethylene lauryl ether sulfates, phosphates, and zinc sulfate. And / or lead acetate is preferably used because there is little concern about coloring the mask and the mask reducing sheet.

Examples of the alkali metal carbonates include lithium, sodium, potassium, rubidium, cesium,
Examples thereof include alkali metal carbonates of francium, and sodium carbonate and potassium carbonate are particularly preferably used for masks and mask allergen-reducing sheets because of the ease of post-treatment of fibers.

As the alum, aluminum sulfate and
A double salt composed of an alkali metal or a sulfate of a monovalent ion such as thallium or ammonium can be used. Further, double salts in which aluminum is replaced by chromium, iron, etc. are also mentioned. Preferred are potassium aluminum sulfate and sodium aluminum sulfate. Aluminum potassium sulfate, which has a particularly high ability to reduce allergens, is mainly a dodecahydrate (AlK (SO ₄ ) ₂ · 12H ₂ O) or anhydrate (AlK (SO ₄ ) ₂ ). May be a partial hydrate existing in the process of gradually losing water molecules. Some of the alum is
It is a highly safe substance because it has been designated as a food additive and a raw material for cosmetics as potassium alum. Further, when alum is used for the mask and the mask reducing sheet, it does not give a sticky feeling, and the usability is good. In terms of such safety, feeling in use, and ease of post-treatment of fibers, it is particularly preferably used as a mask and an allergen-reducing sheet for a mask.

Examples of the salts of lauryl benzene sulfonate, lauryl sulfate and polyoxyethylene lauryl ether sulfate include metal salts such as lithium, sodium, potassium and magnesium, ammonium salts and amine salts such as triethanolamine. And particularly preferably sodium salt and triethanolamine salt.

The above-mentioned phosphate refers to salts that produce PO ₄ ^3- ions when dissolved in an aqueous solvent, and examples thereof include sodium dihydrogen phosphate (monosodium phosphate) and phosphorus as used in Examples. In addition to disodium hydrogenphosphate (disodium phosphate), potassium dihydrogenphosphate and the like can be mentioned.

As the above-mentioned zinc sulfate, a hydrate (heptahydrate) or an anhydride is mainly used, but it is a partial hydrate existing in a process in which the hydrate loses water molecules stepwise. It may be. Zinc sulphate has been known as "Shiraban" or "zinc flower" since ancient times and is listed in the Japanese Pharmacopoeia.
In addition, it is a food additive, it is highly safe because it is added to the milk substitute food for the purpose of supplying Zn, which is a trace metal element essential for human growth and health maintenance, and masks and mask reduction sheets It is preferably used for.

The above-mentioned lead acetate is a hydrate (trihydrate) or anhydrate, but it is a partial hydrate existing in the process of the hydrate gradually losing water molecules. May be.
The lead acetate has been known as lead sugar since ancient times and is listed in the Japanese Pharmacopoeia.

The mask and the allergen-reducing sheet for a mask of the present invention contain at least the above-mentioned allergen-reducing component.
It suffices if one of the fibers is included as an active ingredient.
It is also possible to combine two or more.

The amount of the allergen-reducing component contained in the fiber is preferably 0.1 to 300% by weight. It is more preferably 0.2 to 100% by weight, and particularly preferably 0.5 to 50% by weight. If it is less than 0.1% by weight, it may be difficult to exert the effect of reducing allergen, and if it exceeds 300% by weight, the surface layer of the fiber becomes hard and brittle, and the physical properties are deteriorated. It may be easier to fall out of.

The fiber raw material according to claim 1 is a copolymer of a polymerizable monomer having an allergen-reducing component and a polymerizable monomer which is a general fiber raw material. The polymerizable monomer having the allergen-reducing component is not particularly limited as long as it is a monomer obtained by adding a polymerizable property to the allergen-reducing component.

The fiber raw material described in claim 2 is the fiber raw material having the allergen-reducing component obtained in claim 1 and / or a general fiber raw material. The above-mentioned general fiber raw material is not particularly limited as long as it is usually processed and used as a fiber, and examples thereof include polyamide fibers (nylon, etc.), acrylic fibers, polyvinylidene chloride, polyvinyl chloride, and poly (vinyl chloride). Acrylonitrile, polyester, polyolefin fibers (polyethylene, polypropylene, etc.), synthetic fiber materials such as polyurethane, semi-synthetic fiber materials such as acetate, recycled fiber materials such as cupra and rayon, and natural fibers can be used.

Further, a method in which a fiber raw material having the above allergen-reducing component and a general fiber raw material are mixed or twisted and spun together may be used.

Any method may be used as a method of copolymerizing the above-mentioned allergen-reducing component and the polymerizable monomer which is a fiber raw material, for example, vinyl polymerization, cyclization polymerization,
Examples thereof include addition reactions such as ring-opening polymerization, hydrogen transfer polymerization such as transfer polymerization and isomerization polymerization, oxidative polymerization, denitrification polymerization, decarboxylation polymerization, polycondensation, addition condensation and the like. According to this method, since the allergen-reducing component can be strongly applied to the fiber, it is less likely that the allergen-reducing component will fall off and be inactivated by repeated use, and masks and masks for long-term use It becomes possible to obtain an allergen-reduced sheet.

The allergen-reducing component used in the copolymerization reaction is not particularly limited as long as it is a monomer in which the allergen-reducing component has a polymerizable property as described above. Among them, a compound having at least one of the above general formulas (1) to (6) in the side chain of a linear polymer, and a single amount containing at least one of the above general formulas (1) to (6) Monomers or oligomers capable of forming a compound obtained by polymerizing or copolymerizing a polymer and / or a monomer having a monovalent phenol group are preferably used.

The method of spinning the allergen-reducing component and the fiber raw material (general fiber raw material, reducing component-containing fiber raw material) is not particularly limited, and the following methods may be mentioned. 1) Melt spinning method: For example, in the case of a fiber raw material to be melted, after heating and melting the fiber raw material, an allergen-reducing component whose decomposition point is equal to or higher than the heating melting point of the fiber raw material is kneaded to obtain a molten mixed liquid, which is desired A method of extruding into an inert cooling medium (for example, air, nitrogen, water, etc.) through a spinneret having fine pores, cooling and solidifying to form a fiber. 2) Wet spinning method: For example, a fiber raw material is dissolved in a solvent to form a solution, the allergen-reducing component is dispersed and mixed or dissolved (spinning stock solution), and this is extruded through a spinneret into a liquid for regenerating and solidifying a polymer. A method of solidifying a polymer dissolved in a spinning dope into a fibrous state. 3) Dry spinning method: For example, a fiber raw material is dissolved in a volatile solvent, and an allergen-reducing component is dispersed and mixed or dissolved to prepare a spinning stock solution, which is extruded into a heated gas through a spinneret to remove the solvent in the spinning stock solution. A method of solidifying into a fibrous state by evaporating. The above three methods are widely used industrially, and can be selectively used depending on the intended mask and mask allergen reduction sheet.

Further, as a method other than the above, 4) emulsion spinning method: an emulsion (suspension, slurry) of a fiber raw material is prepared, and allergen-reducing components are dispersed and mixed or dissolved to prepare a spinning dope, which is a wet spinning method or Method of spinning according to dry spinning method 5) Conjugate spinning method: Allergen-reducing component itself is dispersed and mixed or dissolved in separately melted two or more components of a fiber raw material melt, or the allergen-reducing component itself is mixed. As a melt,
A method in which those melts are combined immediately before the spinneret and simultaneously spun, 6) a method in which a polymer substance is made into a fibrous shape without using the spinneret: for example, after stretching a thin film containing an allergen-reducing component It is also possible to use a method in which the material is vertically cut into small pieces, and further stretched and heat-set, a method in which a polymeric substance containing a rod-shaped allergen-reducing component is highly stretched, a method by interfacial polymerization, and the like.

The fiber according to claim 3 may be of any material and form as long as it can chemically bond and / or post-fix the allergen-reducing component to the fiber. For example, polyester, Synthetic fibers such as nylon, acrylic fibers, polyamide fibers and polyolefin fibers, semi-synthetic fibers such as acetate, recycled fibers such as cupra and rayon, natural fibers such as cotton, hemp, wool and silk, or these Composite fibers and blended cotton can be used. Further, as the form of the fiber, any form can be used as long as it can be used for a fiber product, and for example, any of yarn, woven fabric, non-woven fabric and the like may be used.

The method of chemically bonding and / or post-fixing the allergen-reducing component to the fiber in the present invention is not particularly limited, and examples thereof include a method of chemically bonding to the fiber by a grafting reaction and a solvent. And / or a method of using a binder to fix the fiber surface. According to this method, a generally used fiber is post-treated with an allergen-reducing component to easily impart an allergen-reducing function, and a mask and an allergen-reducing sheet for a mask can be obtained using this. It will be possible. The method of chemically binding and / or post-adhering the allergen-reducing component to the fiber described below may be performed in plural instead of one kind.

The above grafting reaction is not particularly limited, and examples thereof include the following methods. 1) Graft polymerization method: a method in which a polymerization initiation point is formed in a fiber trunk polymer to polymerize a monomer forming a branch polymer which is an allergen-reducing component. 2) Coupling method (polymer reaction): A method in which a branch polymer, which is an allergen-reducing component prepared above, is bonded to a trunk polymer by a polymer reaction.

The above graft polymerization method is not particularly limited, and examples thereof include the following methods. (1) A method of producing radicals and polymerizing by utilizing a chain transfer reaction to fibers. (2) A redox system (redox system) is formed by causing a reducing substance such as alcohol, thiol, and amine to act on a second cerium salt, a silver sulfate salt, or the like, and free radicals are generated in fibers to perform polymerization. Method. (3) A method of irradiating fibers and a monomer together using γ-rays or accelerated electron beams, or a method of irradiating only the fibers and then adding the monomer to perform polymerization. (4) A method in which a trunk polymer is oxidized to introduce a peroxy group, or a diazo is introduced from a side difference amino group and polymerization is performed by using this as a polymerization initiation point. (5) A method of utilizing a polymerization initiation reaction of epoxy, lactam, polar vinyl monomer or the like by an active group of a side chain such as hydroxyl group, amino group or carboxyl group.

Specifically, the following method may be mentioned.
a) A method in which free radicals are generated by grinding cellulose in a vinyl monomer to carry out graft polymerization. b) A method of performing graft polymerization using a vinyl monomer and a cellulose derivative having a group that is susceptible to chain transfer as a fiber (for example, mercaptoethyl cellulose). c) A method of performing graft polymerization by a method of oxidizing ozone or peroxide to generate radicals. d) A method of introducing a double bond such as allyl ether, vinyl ether or methacrylic acid ester into the side chain of cellulose to carry out graft polymerization. e) A method in which anthraquinone-2,7-disulfonic acid sodium salt or the like is used as a photosensitizer and irradiation with ultraviolet rays is performed to perform graft polymerization. f) A method in which fibers are wrapped around the cathode, and a monomer is added to dilute sulfuric acid and an external voltage is applied to perform graft polymerization electrochemically. Among them, considering the fact that the fiber is graft-polymerized, a method of graft-polymerizing by heating g) glycidyl methacrylate (GMA) and benzoyl peroxide-coated fiber in a monomer solution is preferable. h) benzoyl peroxide,
A method is used in which a monomer is added to a liquid in which a nonionic-anionic surfactant and monochlorobenzene are dispersed, and a fiber such as polyester fiber is immersed and heated to perform graft polymerization.

The coupling method is not particularly limited, and a general method can be used. For example, (1) C
-H chain transfer reaction, oxidation reaction, substitution reaction (2)
Double bond addition reaction, oxidation reaction (3) Hydroxy group esterification, etherification, acetalization, substitution reaction for ester group or amide group, addition reaction, hydrolysis reaction, substitution reaction for halogen group, elimination reaction (4 ) A substitution reaction for an aromatic ring (halogenation, nitration, sulfonation, chloromethylation) and the like can be mentioned.

The allergen-reducing component used in the grafting reaction is not particularly limited as long as it is a monomer obtained by adding reactivity or polymerizability to the allergen-reducing component. Among them, the above general formula (1) to
Polymerizing a compound having at least one represented by (6), a monomer containing at least one represented by the general formulas (1) to (6) and / or a monomer having a monovalent phenol group, or A monomer or oligomer capable of forming a compound formed by copolymerization is preferably used.

The allergen-reduced fiber of the present invention is
It can also be obtained by a method of chemically binding the allergen-reducing component dissolved or dispersed in a solvent and / or a binder to the fiber and / or post-fixing to the fiber. As the solvent, those capable of dissolving or dispersing the allergen-reducing component,
Alternatively, it is not particularly limited as long as it can dissolve the binder, and examples thereof include water, alcohols (methyl alcohol, ethyl alcohol, propyl alcohol, etc.), hydrocarbons (toluene, xylene, methylnaphthalene, kerosene, cyclohexane, etc.), Ethers (diethyl ether, tetrahydrofuran, dioxane, etc.), ketones (acetone, methyl ethyl ketone, etc.), amides (N, N
-Dimethylformamide, etc.) and the like.

The above-mentioned binder is not particularly limited as long as it can fix the allergen-reducing component on the fiber surface. For example, the binder made of synthetic resin is a one-pack type urethane resin, a two-pack type urethane resin, Examples thereof include acrylic resin, urethane acrylate resin, polyester resin, unsaturated polyester resin, alkyd resin, vinyl acetate resin, vinyl chloride resin, epoxy resin, epoxy acrylate resin and the like. When the binder is in a liquid state, it may be used as it is, or the above solvent may be added. In the case of a solid state, it may be used in a state of being dissolved or dispersed in the above solvent. Moreover, the said solvent and binder may be used individually and may use 2 or more types together.

A solution in which the above allergen-reducing component is dissolved or dispersed in a solvent and / or a binder (hereinafter sometimes referred to as a reducing component-containing solution) is chemically bound to the fiber and / or to the fiber. The method of post-fixing is not particularly limited, and the reducing component-containing solution is sprayed onto the fiber even if the fiber is dipped in the reducing component-containing solution or the reducing component-containing solution is applied / coated on the fiber. You may apply by.

The mask and the allergen-reducing sheet for a mask of the present invention may be made of a non-woven fabric. It is effective that the allergen-reducing component is added at the time of paper making of the non-woven fabric, and as a paper making method, a wet method, a dry method, a thermal bond method, a spun bond method, a melt blown method and the like are representative.

Specifically, the following method is used. In the above-mentioned wet method, raw materials such as pulp and allergen-reducing components are crushed with a crushing beater, and a large amount of water and fibers are stirred with a binder resin and a dispersant in a mixing beater. A method of pouring it into a paper machine to remove water, placing it on a felt, transferring the fiber with a dryer, and drying it can be mentioned. In the dry method described above, the raw material and allergen-reducing components are picked up little by little by rotating the copper plate with the needle of the music box by the card machine, and the web is wiped.
Create (cotton-like sheet). Examples thereof include a method in which a binder, and in some cases, an allergen-reducing component is applied by spraying, dipping, etc., followed by pressing and drying. In the thermal bond method, the raw material in the dry method, a low melting point material such as a binder together with the allergen-reducing component is hooked little by little by rotating a copper plate with a music box needle to form a web (cotton-like sheet). There is a method of preparing and melting the low melting point material in the hot pressing step to fix the fibers. In the spunbond method, raw materials such as polypropylene, polyester, nylon and the allergen-reducing component of the polymer material are melted and directly ejected as fibers from the spinneret, embossed with a hot roll to form a sheet. There is a method. In the melt-blown method, raw materials such as polypropylene, polyester, nylon and the allergen-reducing component are melted, a high-temperature and high-pressure air stream is blown to the outlet of the spinning nozzle to stretch and open the fiber, and a collecting net. Examples thereof include a method of accumulating on a conveyor (drum) to form a sheet.

The mask of the present invention is composed of fibers containing the above-mentioned allergen-reducing component, and is preferably laminated with sheets composed of fibers containing the allergen-reducing component. Further, the fiber containing the allergen-reducing component may be a detachable separate body (allergen-reducing sheet for mask according to claim 11). When it is a separate body,
There is an advantage that the allergen-forming function described later can be easily restored. In addition, the mask allergen-reducing sheet according to the invention of claim 11 can obtain the same effect as that of the mask of the present invention by being applied to an ordinary mask that is not composed of fibers containing an allergen-reducing component. it can.

The mask and the allergen-reducing sheet for a mask of the present invention can restore the allergen-reducing function by various methods. Restoration of the allergen-reducing function means that when the allergen-reducing component contained in the fiber loses its reducing function due to repeated contact with the allergen, the allergen-reducing function can be exerted again. . Inactivation of allergen depends on the type of reducing component used, when the reducing component is consumed by the reaction between the allergen and the reducing component, and when the reducing component acts catalytically to inactivate the allergen. It is thought that there are cases. Therefore, in order to recover the function of the reducing component (to bring the reducing component to the fiber surface), the reducing component existing inside the fiber is bleed out to the surface, or
Examples include a method of removing the inactivated allergen accumulated on the surface of the reduced fiber.

Examples of such a method include a method of washing the mask and the mask allergen-reducing sheet with a liquid, a method of heating, and the like. The liquid that can be used for the above cleaning is not particularly limited as long as it does not damage the mask and the mask allergen-reducing sheet, and examples thereof include water, alcohols (methyl alcohol, ethyl alcohol, propyl alcohol, etc.), carbonization. Hydrogens (toluene, xylene, methylnaphthalene, kerosene,
Cyclohexane, etc., ethers (diethyl ether,
Tetrahydrofuran, dioxane, etc.), ketones (acetone, methyl ethyl ketone, etc.), amides (N, N-dimethylformamide, etc.), and the like. Above all, simply
Water and alcohol are preferably used because they can be easily treated at home.

The heating temperature is not particularly limited as long as it does not damage the mask and the mask allergen-reducing sheet itself, and any heating method can be used. And a method of heating the mask allergen-reducing sheet itself, a method of heating and washing the above solvent, a method of heating with sunlight, and the like.

Further, in the present invention, the reducing component acts smoothly on the allergen to enhance the reducing effect,
It is preferable that the fiber contains a hydrophilic component. Examples of the above method include compounds having at least one of the general formulas (1) to (6) in the side chain of a linear polymer as a reducing component, and the compounds represented by the general formulas (1) to (6). When using a polymerizable component such as a monomer or oligomer capable of forming a compound obtained by polymerizing or copolymerizing a monomer containing at least one and / or a monomer having a monovalent phenol group, for example, A method of using a method of copolymerizing a hydrophilic monomer at the time of polymerization is used. Such hydrophilic monomer is not particularly limited, and examples thereof include vinyl acetate and 2-hydroxyethyl methacrylate (HEM).
A) etc. are mentioned. In the case of spinning the allergen-reducing component and the fiber raw material, a method in which a hydrophilic substance is added during spinning can be used. Examples of such a hydrophilic substance include cellulose, polyvinyl alcohol, and polyacrylate. Moreover, the method etc. which use the fiber with high hygroscopicity and water absorption are also mentioned.

The allergen-reduced fiber used in the present invention may contain formulation auxiliary agents such as a wetting agent, an antioxidant, and an ultraviolet absorber as long as the effectiveness of the allergen-reducing effect is not impaired. Well, it may also contain acaricide, bactericide, antifungal agent, deodorant and the like. L-
By adding a small amount of menthol etc., if the refreshing feeling is improved, a slight astringent action is added to the friend, and it is effective in reducing the various symptoms of hay fever.

The allergens targeted by the mask and the mask allergen-reducing sheet of the present invention include plant allergens such as pollen and animal allergens. The allergen-reducing component used in the present invention suppresses the reaction of these allergens with the specific antibody, thereby reducing the allergen contacting the mask and the mask allergen-reducing sheet. As a particularly effective plant allergen, any kind of allergen derived from pollen can be targeted, but it is particularly effective for pollen allergens such as cedar, cypress and rice. Further, as a particularly effective animal allergen, any type of mite allergen can be targeted, but in house dust, especially in bedding, it is particularly effective for dust mites that cause allergic diseases, and leopard mite. There is.

The mask allergen-reducing sheet of the present invention can be used by inserting it into a commercially available general mask. Since there is a component in which the reducing effect is improved by the water contained in the exhaled breath, it is preferably inserted into the inner layer as close to the mouth as possible.

The allergen-reducing sheet for a mask of the present invention preferably has a small fiber fineness, and preferably 100-500 mesh, in order to increase the pollen capture rate. However, if the mesh becomes too fine, the inspiratory resistance will increase and the breathing will be burdened.

[0056]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention is described in more detail below with reference to Examples, but the present invention is not limited to these Examples.

Example 1 As an allergen reducing component
4-vinylphenol (manufactured by Lancaster: 10% purity propylene glycol solution) 100 parts by weight, benzoyl peroxide (purity 75%) 1 part by weight as a polymerization initiator, purified water 100 as a solvent
0 parts by weight, anionic surfactant ("Emar 2 manufactured by Kao Corporation"
F needle "active ingredient or solid content 90%) 1 part by weight, chlorobenzene (purity 99.5%) 10 parts by weight of the fiber treatment solution was prepared, and in this fiber treatment solution 20 parts by weight of PET (polyethylene terephthalate) cloth The part was immersed and heated at 100 ° C. for 60 minutes to carry out graft polymerization. Then, this PET cloth was extracted for 30 minutes in 100 ° C. purified water, further neutralized with a 0.5% aqueous sodium carbonate solution at 50 ° C. for 30 minutes, washed with water and dried to obtain an allergen-reduced fiber. This fiber was cut into a size of 70 × 90 mm to obtain an allergen-reducing sheet for a mask.

Example 2 Polytyrosine as an allergen-reducing component (INC Biochemicals: Mw = 18000 to 36)
000) 2 parts by weight, ethyl acrylate and methyl methacrylate copolymer as a binder (Rohm Pharma's "Eudragit NE30D": solid content 30%) 2 parts by weight, purified water as a solvent
A fiber treatment solution consisting of 100 parts by weight and 0.3 parts by weight of a nonionic surfactant (“Emulgen 911” manufactured by Kao Corporation) was prepared.
The obtained fiber treatment solution was used as a polyester non-woven fabric (weight per unit area 1
00g / m ² ) and evenly spray it to 20 μl / cm ² .
It was left standing at room temperature for 8 hours and dried to obtain an allergen-reduced fiber. This fiber was cut into a size of 70 × 90 mm to obtain an allergen-reducing sheet for a mask.

Example 3 Potassium aluminum sulfate as an allergen-reducing component (Wako Pure Chemicals Reagent: First-class standard) 1
A fiber treatment liquid consisting of 0 parts by weight, 45 parts by weight of ethyl alcohol as a solvent, and 45 parts by weight of purified water was prepared. The obtained fiber treatment solution was applied to a polyester non-woven fabric (weight per unit area 100 g / m ² ) to give 10
It was uniformly sprayed to give a volume of μl / cm ² and left to dry at room temperature for 8 hours to obtain an allergen-reduced fiber. This fiber was cut into 70 × 90 mm to obtain an allergen-reducing sheet for a mask.

Example 4 400 kg of polypropylene flakes as a raw material for a non-woven fabric and 100 kg of polyvinylphenol as an allergen-reducing component were added to 1,500 acetone.
A dove was prepared by dissolving it in kg. "3600mm PP MELT BLOWN SYST"
A non-woven fabric was prepared by the melt blown method using "EM". This non-woven fabric was cut into a size of 70 × 90 mm to obtain an allergen-reducing sheet for a mask.

Comparative Example 1 An allergen-reducing sheet for a mask was obtained in the same manner as in Example 1 except that the PET cloth used in Example 1 was not treated with the fiber treatment solution.

Comparative Example 2 An allergen-reducing sheet for a mask was obtained in the same manner as in Example 2 except that the polyester nonwoven fabric used in Example 2 was not treated with the fiber treatment solution.

Evaluation of allergen-reducing mask 10 panelists who are aware of a commercially available mask (“Antibacterial Pollen Mask” manufactured by Yagami Healthcare Corporation) with the obtained mask allergen-reducing sheet as hay fever I asked them to use it for 10 days, and judged whether the symptoms of hay fever were alleviated as compared with the mask without the sheet inserted. The results are shown in Table 1.

[0064]

[Table 1]

[0065]

Since the mask and the allergen-reducing sheet for a mask of the present invention are composed of the allergen-reducing fiber,
It is possible to exert a good allergen reduction effect as compared with a mask that is normally used.

   ─────────────────────────────────────────────────── ─── Continued front page    (31) Priority claim number Japanese Patent Application 2001-193106 (P2001-193106) (32) Priority date June 26, 2001 (June 26, 2001) (33) Priority claiming country Japan (JP) F term (reference) 2E185 AA07 BA01 CA03 CB07 CB11                       CC33 CC80                 4C076 AA71 BB25 CC07 EE10A                       EE59A FF02                 4C086 AA01 AA02 HA05 MA02 MA05                       MA34 MA59 NA10 ZB07                 4C206 AA01 AA02 CA17 MA02 MA05                       MA79 NA10 ZB07

Claims (11)

[Claims] 1. A mask comprising fibers obtained by spinning a fiber raw material having an allergen-reducing component. 2. A mask comprising a fiber obtained by spinning an allergen reducing component and a fiber raw material. 3. A mask comprising an allergen-reducing component chemically bound to and / or post-fixed to a fiber. 4. The mask according to claim 1, wherein the allergen reducing component is an aromatic hydroxy compound. 5. The aromatic hydroxy compound is a compound having at least one of the following general formulas (1) to (6) in the side chain of a linear polymer.
The listed mask. [Chemical 1] (R is hydrogen or a hydroxyl group, at least one is a hydroxyl group, and n is 0 to 5) 6. An aromatic hydroxy compound polymerizes or copolymerizes a monomer containing at least one of the above general formulas (1) to (6) and / or a monomer having a monovalent phenol group. The mask according to claim 4, wherein the mask is formed. 7. The aromatic hydroxy compound is an aromatic heterocyclic hydroxy compound, as claimed in claim 4.
The listed mask. 8. The allergen-reducing component is at least one selected from the group consisting of alkali metal carbonate, alum, laurylbenzene sulfonate, lauryl sulfate, and polyoxyethylene lauryl ether sulfate. The mask according to claim 1, wherein the mask is a mask. 9. The allergen-reducing component is a phosphate,
The mask according to any one of claims 1 to 3, which is zinc sulfate and / or lead acetate. 10. The mask according to any one of claims 1 to 9, wherein the allergen is derived from pollen. 11. An allergen-reducing sheet for a mask, comprising a fiber containing an allergen-reducing component.