JP6046936B2 - Hydrogen generating cloth, hydrogen generating paper, and production method thereof - Google Patents

Description

  The present invention relates to a hydrogen generating cloth and a hydrogen generating paper for supplying hydrogen by directly contacting an object such as skin, and a method for producing the same.

  Hydrogen is known to have antioxidant capacity. Therefore, hydrogen is expected to be applied in a wide range of fields such as prevention of skin aging, reduction of oxidative stress, prevention of adult diseases and maintenance of health by anti-aging. Products for utilizing hydrogen are provided in various forms, for example, provided as drinking water such as hydrogen water in which hydrogen is dissolved, or hydrogen is generated by dissolving in water such as a bath preparation. Or offered as a product.

  In addition, Patent Documents 1 and 2 describe techniques for using hydrogen water as a skin care product in order to use the above-described functionality of hydrogen.

  Patent Document 1 states that skin care products or water for daily use that are in direct contact with the skin have a redox potential (ORP) of ORP = 0.80-0.047pH or less, equivalent to or lower than that of skin ORP. Discloses a method for imparting skin aging (aging) suppression or prevention effect to skin care products or daily use water.

  In Patent Document 2, at least one hydrogen compound selected from the group consisting of an alkali metal hydride, an alkaline earth metal hydride and a metal borohydride is encapsulated in a solid water-soluble compound or a mixture thereof. An embedded hydrogen generating agent is disclosed, and it is described that it is used for a lotion and a bath agent.

  In addition, Patent Document 3 provides one spherical large protrusion at the concentrated cylinder of the sole of the foot tip and the vicinity of the buttocks, and a curved protrusion inclined at the arch position. A health insole made of a porous material provided with irregular spherical small protrusions is described. The health insole has a metal plate or foil having a corresponding area adhered to the back surface of the large spherical protrusion on the toe portion, and at least one small-diameter metal plate or foil having a small diameter on the toe portion. Is pasted, and the entire back of the material is covered with double-sided tape. Patent Document 3 describes that this structure has an action of deodorizing a sweat component and sterilizing with generated active hydrogen or oxygen by an electrochemical action at the time of sweating of different metals having different ionization tendencies. Yes.

Japanese Unexamined Patent Publication No. 2000-119161 Japanese Patent No. 4384227 Registered Utility Model No. 3064950

As described above, ingesting hydrogen is known to have many effects, but there are few opportunities for ingesting hydrogen in daily life. If hydrogen can be easily generated and ingested, it can be used easily and the effect of hydrogen can be obtained.
Moreover, if hydrogen can be easily generated over a long period of time, the effect of functional hydrogen can be sustained over a longer period of time.

  The present inventors pay attention to the fact that if hydrogen can be generated from materials that are frequently used in daily life, hydrogen can be easily generated, and hydrogen can be ingested. Developed. In particular, if materials that have many opportunities to come into direct contact with human skin have a hydrogen supply action, the effects of skin aging prevention and anti-aging can be naturally received by using these materials on a regular basis.

  On the other hand, since hydrogen is a gas, it easily diffuses after generation. Therefore, a product that generates hydrogen over a long period of time is desired.

  However, Patent Documents 1 and 2 describe methods for imparting these effects to cosmetics such as soaps, shampoos, cosmetics, and bathing agents, but methods for imparting hydrogen supply to cloth and paper are described. It has not been.

  Also, Patent Document 3 does not describe a method for imparting a hydrogen supply action to cloth or paper. Furthermore, the technique described in Patent Document 3 is not suitable for application to cloth or paper because of its complicated structure such as the use of a plurality of metal plates.

  An object of the present invention is to provide a hydrogen generating cloth and a hydrogen generating paper capable of supplying hydrogen, and a method for producing the same.

  The present inventors have conceived that hydrogen can be easily ingested in daily life if hydrogen can be generated from cloth and paper as a product that generates hydrogen. Accordingly, the present invention provides a hydrogen generating cloth and a hydrogen generating paper containing a substance that generates hydrogen by reacting with water.

  The present invention also provides the hydrogen generating cloth and the hydrogen generating paper, wherein in the hydrogen generating cloth and the hydrogen generating paper, the substance that generates hydrogen by reacting with the water is hydrogenated metal particles or silica occluded hydrogen. To do.

  The present invention also provides a hydrogen generating cloth and a hydrogen generating paper, wherein the hydrogen generating cloth and the hydrogen generating paper are provided with a substance that generates hydrogen by reacting with water together with a non-aqueous base.

  The present invention also provides a method for producing the hydrogen generating cloth or the hydrogen generating paper, the method including a step of attaching the substance that generates hydrogen by reacting with the water to the cloth or paper.

  The present invention also provides a manufacturing method in which the attaching step includes a step of applying a liquid containing a substance that generates hydrogen by reacting with the water to the cloth or paper.

  The present invention also provides a manufacturing method, wherein the attaching step is a step of attaching a powder containing a substance that reacts with water to generate hydrogen to the cloth or paper.

  Moreover, this invention provides the manufacturing method whose said adhesion process is a process of injecting the spray agent containing the substance which reacts with the said water and generate | occur | produces hydrogen on the said cloth or paper.

  The present invention also provides a liquid, powder, and spray agent for producing the hydrogen generating cloth or hydrogen generating paper, which contains a substance that reacts with water to generate hydrogen.

  ADVANTAGE OF THE INVENTION According to this invention, the cloth for hydrogen generation which can supply hydrogen with respect to a target object by moisture etc., and a hydrogen generation paper can be provided. In particular, it is possible to provide a hydrogen generating cloth and a hydrogen generating paper capable of generating and supplying hydrogen by moisture such as sweat by directly contacting an object such as skin. Therefore, when applied to the skin, effects such as prevention of skin aging, reduction of oxidative stress, prevention of adult diseases, and anti-aging can be provided.

  The hydrogen generating cloth according to the present invention is a cloth containing a substance that generates hydrogen by reacting with water (hereinafter also referred to as “hydrogen generating substance”). The hydrogen generating paper according to the present invention is a paper containing a hydrogen generating material.

  “For hydrogen generation” means having a function of generating hydrogen (hydrogen generation ability) when it comes into contact with an object containing moisture. The object containing moisture may be any of gas, liquid, and solid, and examples include human skin if solid.

  The fabric includes woven fabric, knitted fabric, lace, felt, non-woven fabric, and the like, and the paper includes Japanese paper and western paper. The paper includes various types of paper such as paperboard, newspaper, printing paper, information paper, packaging paper, and sanitary paper.

  When the hydrogen generating cloth and the hydrogen generating paper come into contact with water, the hydrogen generating material contained in the hydrogen generating cloth and the hydrogen generating paper reacts with water to generate hydrogen. For example, when the hydrogen generating cloth and the hydrogen generating paper come into contact with the skin, the water in the skin reacts with the hydrogen generating substance to supply hydrogen to the skin. Therefore, effects such as prevention of skin aging by hydrogen and anti-aging can be given to the skin.

  The hydrogen generating cloth and the hydrogen generating paper may further include a medicinal component and other components. Details of these will be described later.

  The hydrogen generating cloth and the hydrogen generating paper are in a form in which the hydrogen generating substance does not react with moisture at all or is not very reactive until it reaches the user's hand except during use. It is desirable to be. Thereby, deterioration of a hydrogen generating substance can be prevented and hydrogen generating ability can be maintained. In order to achieve this object, the hydrogen generating cloth and the hydrogen generating paper may be in a form containing no water. The hydrogen generation cloth and the hydrogen generation paper may contain moisture, but the reactivity between the moisture and the hydrogen generation substance may be very low.

  The hydrogen generation cloth and the hydrogen generation paper may be in a state in which contact with moisture in the outside air is hindered except during use in order to ensure hydrogen generation capability during use. For example, it is preferable that the hydrogen generating cloth and the hydrogen generating paper are prepared so as to be provided to the user in a packaged state so as to block moisture by sealing with an inert gas. The packaging may be, for example, aluminum packaging, vinyl packaging, and paper packaging. For example, the hydrogen generating cloth and the hydrogen generating paper may be sealed in a sealed container that does not transmit moisture, and the sealed container may be in a vacuum state.

(Hydrogen generating material)
The hydrogen generating substance may be a substance that decomposes and releases hydrogen by chemically reacting with water. Such materials include, for example, metal hydride particles, hydrogen-generating ceramics (pottery), simple substances such as glass, magnesium, aluminum, carbon and derivatives thereof, silica derivatives, silicone derivatives, germanium, silicic acid / aluminum silicate, etc. In addition, there may be mentioned those in which hydrogen is buried by applying pressure to calcined calcium, zeolite, silicic anhydride, carbon tubes, or the like. Among these, it is preferable to use metal hydride particles or silica occluded hydrogen in which hydrogen is embedded in silicon oxide from the viewpoint that it is inexpensive and easy to produce and can efficiently complete the present invention.

  The metal hydride particles are not particularly limited, and magnesium hydride, calcium hydride, barium hydride, beryllium hydride, strontium hydride, lithium hydride, sodium hydride, sodium borohydride, lithium sodium hydride, hydrogen A well-known thing such as silicon halide can be used. The reactivity of the metal hydride particles with water can be controlled by adjusting the particle size and aggregation state. Therefore, the particle diameter and the like can be adjusted according to the purpose. Moreover, you may granulate in order to suppress the reactivity.

  As the silica-occluded hydrogen, silica-occluded hydrogen in which hydrogen is embedded in an arbitrary silicon oxide can be used. For example, commercially available silica occlusion hydrogen may be used. Moreover, you may manufacture silica occlusion hydrogen according to a well-known manufacturing method.

  The hydrogen generating cloth and the hydrogen generating paper may contain only one type of hydrogen generating substance, or may contain two or more types.

When the hydrogen generating material is magnesium hydride, magnesium hydride is a compound that holds hydrogen in the gaps between the metal atoms of magnesium and reacts with water according to the reaction formula of the following formula (1). Release hydrogen.
MgH ₂ + 2H ₂ O → Mg (OH) ₂ + 2H ₂ (1)

  When magnesium hydride is reacted with water, gaseous hydrogen is dissolved in the water, and the oxidation-reduction potential (ORP) is shifted to the reduction side to become functional water (hydrogen water) to which antioxidant ability is imparted.

Magnesium hydride is harmless, and Mg (OH) ₂ after hydrogen generation is safe as it is used for pharmaceuticals. From these points, if the hydrogen generating material is magnesium hydride, the hydrogen generating material can be manufactured, transported, used, etc. more safely.

  The hydrogen generating material may be obtained by any method, for example, it may be produced by a known method. For example, magnesium hydride can be produced by the method disclosed in Japanese Patent No. 4083786 or Japanese Patent No. 4425990.

  In the case of producing magnesium hydride by the method disclosed in Japanese Patent No. 4083786, specifically, first, a raw material powder mainly composed of magnesium is contained in a hydrogen gas atmosphere sealed in a sealed container. To keep. Next, while maintaining the pressure of the hydrogen gas atmosphere in the enclosure at a predetermined pressure, the temperature of the hydrogen gas atmosphere in the enclosure is changed to a reaction in which magnesium and hydrogen molecules combine to produce magnesium hydride. The temperature is higher than the temperature corresponding to the predetermined pressure on the equilibrium curve with the reverse reaction, and the temperature difference from the temperature is within a predetermined value (for example, 100 ° C.) for a predetermined first period. Thereby, the coating film on the surface of the raw material powder is removed. Next, without returning the temperature of the hydrogen gas atmosphere in the enclosure to room temperature, the temperature is lower than the temperature corresponding to the predetermined pressure on the equilibrium curve, and the temperature difference from the temperature is a predetermined value (for example, 100 ° C. ) Maintain the temperature within a predetermined second period. Thus, magnesium hydride is produced from the raw material powder. According to this method, magnesium hydride having a high hydrogenation rate can be efficiently produced.

  In addition, when producing magnesium hydride by the method disclosed in Japanese Patent No. 4425990, specifically, a compressed product is produced by compressing a plurality of flakes mainly composed of magnesium. Is reacted with hydrogen gas in a hydrogen gas atmosphere to produce magnesium hydride. According to this method, since it manufactures from the flake which has magnesium as a main component, possibility of causing a dust explosion is low, and a magnesium hydride with a high hydrogenation rate can be manufactured efficiently more safely.

The hydrogenation rate is a percentage of the amount of hydrogen that can be ideally occluded according to MgH ₂ molecular weight 26 and Mg molecular weight 24, and the mass before and after hydrogen occlusion was measured during the production of magnesium hydride. It is calculated as (2).

  Magnesium hydride obtained by the above method usually has a hydrogenation rate of about 70 to 100%, more preferably about 90 to 100%. It is also higher than other hydrogen storage alloys and is stable against chemical deterioration. Therefore, it is a very excellent hydrogen storage material that is easy to handle in terms of workability such as transportation, supply, and storage.

  The content of the hydrogen generating substance in the hydrogen generating cloth and the hydrogen generating paper is not particularly limited. For example, it can be 0.001 to 10% by weight, and preferably 0.5 to 5% by weight. If it is 0.001% by weight or more, the amount of hydrogen generated by reaction with water is sufficient, and a high effect can be expected. From an economical viewpoint, it is preferably 10% by weight or less.

  The hydrogen generating substance may be entirely contained on the surface and inside of the hydrogen generating cloth and the hydrogen generating paper. The surface of cloth and paper refers to the surface that comes into contact with outside air, and includes both front and back surfaces. The hydrogen generating substance may be dispersed at a uniform concentration on the surface and inside of the cloth and paper, or may be dispersed at a random concentration.

  Further, the hydrogen generating substance may be attached only to the surface of the hydrogen generating cloth and the hydrogen generating paper. The hydrogen generating substance may adhere to the entire surface, or may adhere only to the surface that contacts the object (for example, skin). Further, the hydrogen generating substance may partially adhere to only a part of the surface of the hydrogen generating cloth and the hydrogen generating paper.

  Further, the hydrogen generating material may be provided together with a non-aqueous base. For example, the hydrogen generating material may be formed into a sheet shape or a granular shape together with the non-aqueous base material and attached to the surfaces of the hydrogen generating cloth and the hydrogen generating paper.

  The non-aqueous base can be, for example, a non-aqueous resin or a resin composition. Examples of non-aqueous resins include polystyrene resins.

  The hydrogen generating substance may be provided as a gel-like sheet (gel sheet) produced by, for example, the methods disclosed in JP-A-2006-333890 and 2010-207406. Specifically, an addition polymerization type thermoplastic block elastic body is used as a non-aqueous base. A hydrogen generating compound and other components are mixed with a material mainly composed of these materials and paraffinic oil. Subsequently, it can manufacture by shape | molding in plate shape using shaping | molding methods, such as extrusion molding, compression shaping | molding, injection shaping | molding, calendar molding, vacuum casting molding, or transfer molding. You may grind | pulverize this etc. and you may make it granular.

  The gel sheet produced by the above method has adhesiveness. Therefore, it can be satisfactorily applied to cloth and paper. Further, the hydrogen generating material produced by this method can be deformed along the shape of the bending portion and can be in close contact with the surface of the bending portion even when the change in the shape of the bending portion of the cloth and paper is large. Moreover, even when the change in the shape of the uneven portions of the cloth and paper is large, it is possible to adhere to the surface of the uneven portions by compressive deformation in the thickness direction.

  The above addition polymerization type thermoplastic block elastic body includes a block copolymer comprising a polystyrene block and a hydrogenated or non-hydrogenated polyisoprene block, and a block copolymer comprising a polystyrene block and a hydrogenated or non-hydrogenated polybutadiene block. Any of the polymers can be used. The addition polymerization type thermoplastic block elastic body has, for example, a total number average molecular weight in the range of 5,000 to 500,000, a polystyrene block unit content of 10 to 50% by weight, and a polyisoprene block unit or a polybutadiene block. More preferably, 70% or more of unit double bonds are hydrogenated. Examples of the polystyrene block unit weight average molecular weight are 5,000 to 130,000, and the polyisoprene block unit or polybutadiene block unit weight average molecular weight is 10,000 to 300,000.

  More specifically, saturated diblock and triblock type styrene ethylene propylene (SEP) or styrene is used as an addition polymerization type thermoplastic block elastic body comprising a polystyrene block and a hydrogenated or non-hydrogenated polyisoprene block. It is preferable to use ethylene propylene styrene (SEPS). As the addition polymerization thermoplastic block elastic body comprising a polystyrene block and a hydrogenated or non-hydrogenated polybutadiene block, styrene ethylene butadiene (SEB) or styrene ethylene butadiene styrene (SEBS) is preferably used.

  For example, Cosmo Supergel may be used as a non-aqueous base, and PHAZOL 35 (white mineral oil) may be used as a plasticizer. Cosmo supergel is an olefinic thermoplastic resin containing liquid paraffin, hydrocarbon resin, and styrene polymer. PHAZOL 35 is a petroleum hydrocarbon composed of highly refined liquid saturated hydrocarbons belonging to the lubricating oil fraction.

The hydrogen generating agent as described above, the gel sheet in association with a non-aqueous base such as polystyrene resin continues to generate hydrogen for a long period of time to react with water. Therefore, the cloth and paper to which they are attached can generate hydrogen over a long period of time by providing moisture.

(Medicinal ingredients)
The hydrogen generating cloth and the hydrogen generating paper may further include a medicinal component. The medicinal component means a component that is effective when applied to the human body. The medicinal component is preferably a component having an effect on the part where the hydrogen generating cloth and the hydrogen generating paper are used. Hydrogen has excellent absorption into the human body due to its low molecular weight. Therefore, by including a medicinal component in the hydrogen generating cloth and the hydrogen generating paper, the medicinal component together with the generated hydrogen can be efficiently absorbed by the human body.

  Examples of medicinal ingredients include pharmaceuticals, quasi drugs, vitamins, amino acids, and crude drugs. Vitamins include ascorbic acid and its derivatives, ascorbic acid sodium salt, ascorbic acid potassium salt, ascorbic acid magnesium salt, dehydroascorbic acid, ascorbic acid glucoside, acetate ester, benzoate ester, higher fatty acid ester, phosphorus Examples include acid ester forms and salts thereof, sulfate ester forms and salts thereof, lecithin derivatives, retinoin derivatives, and tocopherol phosphate diesters. Herbal medicines include various plant extracts or powders. For example, chimpi (citrus peel), capsicum, ginseng, ginger, toki, mugwort, lemon peel, seaweed, spirulina, chlorophyll, donariella, cypress, hiba, rice bran, shobu, ginger, licorice, spruce, mint, Ground oil such as Keihi, Ubai, Dokudami, Momonoha, Chamomile, Aloe, Jasmine, Rosehip, Lavender, Guava, Ogon, Cuttlefish, Reishi, Elderberry, Ashitaba, Ugigi, Burdock, Licorice, Kowaka, Genokosho, Pepper, etc. It may be a soluble or water-soluble extract.

(Other ingredients)
Further, the hydrogen generating cloth and the hydrogen generating paper are, for example, oil agents, fluorine compounds, solvents, resins, thickeners, moisturizers, ultraviolet absorbers, salts, medicinal ingredients, antioxidants, antioxidants, antibacterial agents, It may contain chelating agents, neutralizing agents, pH adjusting agents, preservatives, insect repellents, physiologically active ingredients, hair restorers, pigments, fragrances and refreshing agents, including those mentioned above, cosmetics, medical products, Any component that can be used for clothes, bedding, building materials, furniture, stationery, and household goods can be included. From the viewpoint of generating hydrogen efficiently and from the viewpoint of stability, these components are preferably non-aqueous components. Moreover, it is preferable not to prevent solid particles other than the hydrogen generating material from absorbing moisture.

  Examples of the fragrance used in the hydrogen generating cloth and hydrogen generating paper of the present invention include, for example, lavender oil, jasmine oil, rose oil, lemon oil, orange oil, peppermint oil, thyme oil, ginger oil, fennel oil, Natural and synthetic fragrances such as cedar oil, hiba oil, cypress oil, rose oil, eucalyptus oil, camphor, peppermint oil, spearmint oil, geraniol, mandarin oil, spruce, citronellol and the like can be mentioned.

  When the hydrogen generation cloth and the hydrogen generation paper contain water-based components, the amount of the water-based component in the hydrogen generation cloth and the hydrogen generation paper may be appropriately set so as not to reduce the hydrogen generation efficiency. preferable. It is more preferable that the hydrogen generating cloth and the hydrogen generating paper contain only non-aqueous components, that is, do not contain any water. Thereby, since the decomposition | disassembly of the hydrogen generating substance in the cloth for hydrogen generation and hydrogen generation paper can be prevented, hydrogen can be generated efficiently.

(Use of the present invention)
The hydrogen generating cloth and the hydrogen generating paper are not particularly limited, and should be suitably used in cosmetics, medical products, clothing, bedding, building materials, furniture, stationery, household goods, and other fields where cloth or paper is generally used. Can do. In particular, it can be suitably used in fields where hydrogen supply is required. INDUSTRIAL APPLICABILITY The present invention can provide hydrogen having effects such as preventing skin aging, reducing oxidative stress, preventing adult diseases, and maintaining health by anti-aging, and is therefore suitably used in fields where such effects are required. can do.

  For example, hydrogen generation cloths are masks, face masks, hand care cloths, cosmetics such as sanitary products, bandages, gauze, casts, poultices, adhesive bandages, masks, eye masks, and other medical products, clothes, stockings, bags, shoes and shoes. A wide range of clothing such as insoles, bedding such as mats and sheets, furniture such as carpets and curtains, stationery such as cloth tape, various filters such as air purifier filters, dustproof filters, filtration filters, and packaging materials and sundries Can be used for products.

  For example, hydrogen generation paper is used for cosmetics such as disposable diapers and paper, construction materials such as wallpaper, various paper, notebooks, stationery such as paper tape, household goods such as kitchen paper and toilet paper, air purifier filters, dustproof filters, filtration It can be used for various filters such as filters, packaging materials, and a wide range of products such as sundries. For example, by sticking a hydrogen generation cloth and a hydrogen generation paper in a humid space such as a bathroom, hydrogen can be generated by contact with moisture in the air.

  Further, the hydrogen generating cloth and the hydrogen generating paper can be used in direct contact with the skin. As a result, water contained in the skin reacts with the hydrogen generating substance to provide hydrogen to the skin, thereby providing effects such as prevention of skin aging and anti-aging. In particular, when a hydrogen generating cloth and a hydrogen generating paper are directly applied to the skin, moisture from the skin can be used and the generated hydrogen is easily absorbed by the skin. In addition, when a hydrogen generation cloth and a hydrogen generation paper are used as a mask, moisture in the exhalation can be used and generated hydrogen is easily absorbed from the mouth and nose.

(Method for producing hydrogen generation cloth and hydrogen generation paper)
Although the hydrogen generating cloth and the hydrogen generating paper are not particularly limited, for example, the hydrogen generating cloth and the hydrogen generating paper may be manufactured by attaching a hydrogen generating substance to cloth or paper. That is, the method for producing a hydrogen generating cloth or hydrogen generating paper of the present invention may include an attaching step of attaching a substance that generates hydrogen by reacting with water to the cloth or paper.

  Further, the hydrogen generating cloth and the hydrogen generating paper contain a hydrogen generating substance in materials used for manufacturing the cloth and paper, for example, yarns and fibers, and the cloth or paper is manufactured by a known method using this material. May be manufactured.

  When the hydrogen generating material is produced by adhering to a cloth or paper, the cloth and paper to be used may be produced by a known method or may be a ready-made product. The cloth and paper may be, for example, the ready-made products exemplified above as the hydrogen generating cloth and hydrogen generating paper.

  Although it does not specifically limit as an adhesion process, For example, the process of apply | coating the liquid containing a hydrogen generating substance to the cloth or paper used as a raw material may be sufficient. For example, cloth or paper may be immersed in a liquid containing a hydrogen generating substance, or the liquid may be applied to the cloth or paper. As a coating method, for example, a method similar to that of an ink jet printer may be used.

  The liquid containing the hydrogen generating material preferably contains the hydrogen generating material and one or more non-aqueous solvents. The liquid may further contain a pigment, a dye, a pigment, pearl, lame and the like. The liquid may be in the form of, for example, paint or ink. The non-aqueous solvent may be volatile or non-volatile, and a solvent usually used for ink or the like may be used.

  Further, a powder containing a hydrogen generating substance may be attached to cloth or paper as a raw material. For example, the hydrogen-containing substance-containing powder may be held by entering the gap between the fibers of the cloth or paper, or may be attached to the surface of the cloth or paper with a force such as static electricity. For example, the powder may be attached to cloth or paper in the same manner as a laser printer.

  The powder containing a hydrogen generating material may contain at least a hydrogen generating material, and may further contain a pigment, a dispersant, plastic particles, and the like. The powder may be in the form of a toner, for example, and may contain components that are commonly used in toner. The average particle size of the powder is not particularly limited as long as it can be satisfactorily adhered to cloth or paper, and is, for example, 1 to 100 μm based on an analysis using a powder X-ray diffractometer. be able to.

  Further, a spray agent containing a hydrogen generating substance may be sprayed on a cloth or paper as a raw material. By spraying the spray onto the cloth or paper, the hydrogen generating material can be sprayed onto the cloth or paper to adhere.

  The spray agent containing a hydrogen generating substance may contain at least a hydrogen generating substance, and may further contain a non-aqueous solvent and a propellant. The non-aqueous solvent may be volatile or non-volatile, but if it is volatile, it can be removed by volatilizing only the solvent leaving the hydrogen generating material after spraying on cloth or paper.

  The present invention also includes liquids, powders, and sprays containing the above-described hydrogen generating material. These liquids, powders, and sprays are for producing the hydrogen generating cloth or hydrogen generating paper of the present invention, and their configurations are as described above. By using these, the user can easily impart hydrogen generation capability to the cloth or paper owned by the user.

  Therefore, by using the above liquid, powder, or spray agent, the user can provide daily hydrogen generation ability to clothes, masks, etc. that he uses, and prevent skin aging due to hydrogen continuously. , Effects such as anti-aging can be obtained.

  The liquid, powder and spray may further contain the above-mentioned medicinal components and other components. In addition, the liquid, powder and spray are maintained in a state where the hydrogen generating substance does not react with moisture at all or until the reactivity is very low until it reaches the user's hand, for example, when not in use. The form is desirable. Thereby, deterioration of a hydrogen generating substance can be prevented, and a good hydrogen generating ability can be imparted to cloth and paper during use.

  Specifically, the liquid, powder, and spray may be in a form that does not contain any water. Further, the liquid, powder and spray are preferably prepared so as to be provided to the user in a packaged state so as to block moisture by sealing with an inert gas.

  Hereinafter, examples will be shown and the embodiment of the present invention will be described in more detail. However, the present invention is not limited to the following examples.

[Example 1] Hydrogen generation paper Magnesium dihydride 5% by mass, polyvinyl acetate binder 40% by mass (solid content 50%: manufactured by Nippon Gosei), fine particle zinc oxide (MZ-300: manufactured by Teika) 15% and Methanol 40% mass was mixed. By applying this mixture to Japanese paper having a basis weight of 50 g / m ² using a gravure coater, a Japanese paper having a basis weight of 70.0 g / m ² coated with the above composition was produced. This was cut out at 10 cm square. Next, the Japanese paper coated with the composition was placed in 200 ml of purified water in a sealed container for 3 hours. When the concentration was measured with a hydrogen concentration meter, it was 103 ppb.

Example 2 Fabric for Hydrogen Generation 20% by mass of magnesium dihydride, 40% by mass of vinyl acetate resin as a binder, and 40 parts by mass of methanol as a solvent were mixed with a polyester base fabric. This mixture was stirred to prepare a coating solution. Using this coating liquid, a coated area with a coating amount of 60 g / m ² was formed on the back surface of the base fabric by gravure printing with a plate making depth of 250 μm. The fabric was cut at 10 cm square. It was then placed in 200 ml of purified water for 3 hours in a sealed container. When the concentration was measured with a hydrogen concentration meter, the concentration was 156 ppb.

  Since the hydrogen generating cloth and the hydrogen generating paper according to the present invention can supply hydrogen by directly contacting an object such as skin, cosmetics, medical products, clothing, bedding, building materials, furniture, stationery, and household goods The present invention can be suitably used in a wide range of fields such as those where hydrogen supply is required.

Claims (3)

Contains a cloth or paper, a substance that reacts with water to generate hydrogen, and a non-aqueous base ,
The substance that generates hydrogen by reacting with water is attached to the cloth or paper together with the non-aqueous base.
Hydrogen generation cloth or hydrogen generation paper for generating hydrogen by reacting with moisture in the skin when it comes into contact with the skin . The hydrogen generating cloth or hydrogen generating paper according to claim 1, wherein the substance that generates hydrogen by reacting with water is hydrogenated metal particles or silica-occluded hydrogen. The method for producing a hydrogen generating cloth or a hydrogen generating paper according to any one of claims 1 to 2, wherein the substance that generates hydrogen by reacting with water, together with the non-aqueous base, A manufacturing method including an attaching step for attaching to paper.