JP2014227346A - Packaging method and hydrogen-containing cosmetic preparation - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method of packaging a hydrogen-containing cosmetic preparation, while suppressing loss of hydrogen, and to provide a hydrogen-containing cosmetic preparation packed by the method.SOLUTION: The invention relates to a packaging method of a hydrogen-containing cosmetic preparation which has a hydrogen water supply step of supplying hydrogen water to a packaging container, and a cosmetic preparation supply step of supplying the cosmetic preparation to the packaging container. It can also have a seal step of sealing the packaging container in which the hydrogen water and the cosmetic preparation are supplied, and a mixing step of mixing the hydrogen water and the cosmetic preparation in the sealed packaging container, and thereby the hydrogen-containing cosmetic preparation can be packed, while suppressing loss of hydrogen.

Description

  The present invention relates to a method for packaging a hydrogen-containing cosmetic and a hydrogen-containing cosmetic packaged using the packaging method.

  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, in order to utilize the above-described functionality of hydrogen, Patent Documents 1 to 3 describe technologies that utilize hydrogen water as a skin care product, water for daily use, and an external composition for skin.

  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.

  Patent Document 3 contains an antioxidant and active hydrogen water for the purpose of effectively exerting the action of an antioxidant that protects the skin from oxidative damage and maintaining or recovering youthful healthy skin. An external skin composition is disclosed.

Japanese Unexamined Patent Publication No. 2000-119161 Japanese Patent No. 4384227 Japanese Patent Laid-Open No. 2003-095915

  As described above, by incorporating hydrogen into cosmetics such as lotion and bathing agents, many effects such as an effect of preventing skin aging due to the antioxidant action of hydrogen can be obtained. However, since hydrogen is a gas, it is easily diffused into the air during the addition and mixing of hydrogen to the cosmetic and between the mixing and sealing in the packaging container. In a conventional cosmetic manufacturing process, it is usual to mix each component before packaging, but in such a conventional method, hydrogen is lost before sealing in a packaging container. In particular, some cosmetics have high viscosity, and when such cosmetics contain hydrogen, it takes time to mix the cosmetics and hydrogen, and a lot of hydrogen is lost. Therefore, it is difficult to sufficiently provide the effect of hydrogen.

  Although Patent Documents 1 to 3 describe a method for imparting an effect of hydrogen to cosmetics, external compositions for skin, etc., they are packaged while suppressing loss of hydrogen from cosmetics containing hydrogen. The method is not described.

  An object of the present invention is to provide a method for packaging a hydrogen-containing cosmetic material while suppressing loss of hydrogen, and a hydrogen-containing cosmetic material packaged by the method.

  In order to solve the above-mentioned problems, the present inventors have paid attention to the fact that a large amount of hydrogen diffuses into the air and is lost during the process of packaging with hydrogen included in the cosmetic. And it discovered that the loss of hydrogen could be suppressed by mixing hydrogen water and cosmetics beforehand, without mixing beforehand, supplying to a packaging container from a different supply line, sealing, and mixing.

  That is, the present invention includes a hydrogen water supply step for supplying hydrogen water to a packaging container, a cosmetic supply step for supplying cosmetics to the packaging container, and a sealing for sealing the packaging container supplied with hydrogen water and cosmetics. And a method for packaging a hydrogen-containing cosmetic material.

  Moreover, this invention provides the packaging method which further has the mixing process which mixes the hydrogen water and cosmetics in the said packaging container sealed in the said packaging method.

  Moreover, this invention provides the packaging method which further has the sheet | seat accommodation process which accommodates a cosmetic sheet in a packaging container before the said sealing process in the said packaging method.

  Moreover, this invention provides the packaging method in which the said packaging container contains the compound which reacts with water and generate | occur | produces hydrogen in the said packaging method.

  Moreover, this invention provides the hydrogen containing cosmetics packaged using the said packaging method.

  Since the packaging method according to the present invention supplies hydrogen water and cosmetics to the packaging container, respectively, loss of hydrogen can be suppressed as compared with the case of mixing in advance. Accordingly, since the hydrogen-containing cosmetic according to the present invention is packaged using this packaging method, it has a sufficient hydrogen content and can provide high effects such as prevention of skin aging due to the antioxidant action of hydrogen. .

The figure which represented typically an example of the equipment for enforcing the packaging method of this invention.

  The packaging method according to the present invention is a packaging method for a hydrogen-containing cosmetic, a hydrogen water supply step for supplying hydrogen water to the packaging container, a cosmetic supply step for supplying cosmetic to the packaging container, hydrogen water, and makeup. And a sealing process for sealing the packaging container supplied with the material. That is, in the packaging method according to the present invention, hydrogen water and cosmetics are not mixed in advance, but each is supplied alone to the packaging container.

  The hydrogen water supply step can be performed either before, simultaneously with, or after the cosmetic supply step. That is, one of hydrogen water and cosmetics may be supplied first, and the other may be supplied later, or hydrogen water and cosmetics may be supplied simultaneously from the respective supply lines. When the hydrogen water supply process is performed after or simultaneously with the cosmetic supply process, the time from supplying hydrogen water to sealing the packaging container can be shortened, and the loss of hydrogen should be reduced. Can do.

  The sealing step is preferably performed quickly after the hydrogen water supply step and the cosmetic supply step. Thereby, loss of hydrogen can be prevented. As a method for sealing the packaging container, for example, a heat seal, a cold seal, or an adhesive can be used.

  If it is the said structure, after sealing a packaging container, hydrogen water and cosmetics will mix naturally in a packaging container, or it will be forcedly mixed in the mixing process mentioned later, hydrogen-containing cosmetics Is prepared.

  Moreover, the packaging method according to the present invention may further include a mixing step of mixing the hydrogen water and the cosmetic in the packaging container after the sealing step. For example, it can mix using the method of shaking a packaging container. By the mixing step, a hydrogen-containing cosmetic in which hydrogen water in the packaging container and the cosmetic are uniformly mixed can be reliably prepared. Moreover, the loss of hydrogen can be prevented by performing the mixing step after the sealing step.

  FIG. 1 is a diagram schematically showing an example of equipment for carrying out the packaging method of the present invention. In this example, as shown in FIG. 1, hydrogen water 1 is supplied from a hydrogen water tank 2 storing hydrogen water to a packaging container 8 via a hydrogen water supply line 3. The cosmetic 4 is supplied from the cosmetic tank 5 that stores the cosmetic 4 to the packaging container 8 via the cosmetic supply line 6. The hydrogen water supply line 3 and the cosmetic supply line 6 are each provided with a valve 7 for controlling the start and stop of supply, and the hydrogen water 1 and the cosmetic 4 are opened or closed automatically by opening or closing the valve 7. Can be controlled.

  For example, the valve 7 of the cosmetic supply line 6 is opened to supply a predetermined amount of cosmetic 4 to the packaging container 8 and then the valve 7 is closed, and then the valve 7 of the hydrogen water supply line 3 is opened to supply a predetermined amount of hydrogen water. 1 may be supplied to the packaging container 8. Alternatively, the valve 7 of the cosmetic supply line 6 and the valve 7 of the hydrogen water supply line 3 may be opened simultaneously to supply the cosmetic 4 and the hydrogen water 1 to the packaging container 8 at the same time. Next, the packaging container 8 is sealed, and then the hydrogen water and the cosmetic in the packaging container are mixed. Thereby, the hydrogen-containing cosmetic is prepared in the packaging container.

  Hydrogen water is a liquid containing hydrogen molecules. Hydrogen water can be obtained by, for example, a method of mixing hydrogen gas in a liquid such as water, a method of generating hydrogen in a liquid with a hydrogen generator, a method of electrolysis, and the like. Moreover, commercially available hydrogen water may be used. Moreover, what contains hydrogen by arbitrary quantity can be used for hydrogenous water. For example, hydrogen water containing 50 to 1600 ppm of hydrogen can be used.

  The hydrogen water may contain any other component other than hydrogen and water. Other ingredients are, for example, preservatives, buffers, antibacterial agents, medicinal ingredients, moisturizers, thickeners, dyes, fragrances, UV absorbers, solvents, antioxidants, cooling agents, cosmetic ingredients and medicinal ingredients. May be.

  A cosmetic is a composition containing a component having a cosmetic effect on the skin, a component having a healing effect, a medicinal component, and the like. Components having a cosmetic effect are, for example, a moisturizing component, a whitening component, an ultraviolet ray preventing component, and an antiperspirant component. Moreover, the component which has a healing effect is an anti-inflammatory agent, a disinfectant, and a healing agent, for example. The medicinal component means a component that is effective when applied to the human body. These components are particularly preferably components having an effect on the site where the hydrogen-containing cosmetic is used.

  Examples of medicinal ingredients include pharmaceuticals, quasi drugs, vitamins, amino acids, and crude drugs. Herbal medicines include various plant extracts or powders. Medicinal ingredients are, for example, chimpi (citrus peel), pepper, ginseng, ginger, toki, mugwort, lemon peel, seaweed, spirulina, chlorophyll, donariella, hinoki, hiba, rice bran, shobu, ginger, licorice, Spruce, mint, Keihi, Ubai, Dokudami, Momonoha, Chamomile, Aloe, Jasmine, Rosehip, Lavender, Guava, Ougon, Cuco, Ganoderma, Elderberry, Ashitaba, Ukogi, Burdock, Licorice, Kowaka, Genkosho, and Pepper As well as these oil-soluble or water-soluble extracts.

  The cosmetic may be liquid, gaseous, solid, cream, gel, and the like. The cosmetic can be in the form of, for example, lotion, milky lotion, serum, beauty cream, facial cleanser, shampoo, rinse, conditioner, rinse-in shampoo and treatment.

  The cosmetic can further contain a preservative. As the preservative, a preservative usually used for cosmetics, pharmaceuticals and quasi drugs can be used. Thereby, even when it is difficult to sterilize completely, it is possible to prevent decay in long-term storage.

  Further, the cosmetic may further contain a buffer, an antibacterial agent, a medicinal component, a moisturizer, a thickener, a pigment, a fragrance, an ultraviolet absorber, a solvent, an antioxidant, a refreshing agent, and the like. Any component that can be used in cosmetics, pharmaceuticals, and quasi drugs can be included. For example, it may contain humectants such as glycerin, propylene glycol, sorbitol, polyethylene glycol, 1,3-butylene glycol, vitamin C and its derivatives, hydrolyzed silk, collagen, chondroitin and its protein complex, glycyrrhizin and its derivatives it can.

  The hydrogen-containing cosmetic is a cosmetic containing hydrogen molecules. The hydrogen-containing cosmetic can be a composition having a cosmetic effect on the skin, a composition having a healing effect, and a composition having a medicinal effect. Hydrogen-containing cosmetics are, for example, cosmetics such as lotion, milky lotion, beauty essence, beauty cream, facial cleanser, shampoo, rinse, conditioner, rinse-in shampoo and treatment, as well as pharmaceuticals and quasi-drugs having a curative effect or medicinal effect. Can be. In addition, when the hydrogen-containing cosmetic includes a cosmetic sheet as described later, it is in the form of, for example, a face mask, point mask, pack sheet, cosmetic cotton, skin protection sheet, poultice, patch sheet, and adhesive bandage. May be.

  Hydrogen-containing cosmetics can be applied to any part of the human body, such as the face, neck, abdomen, back, arms, hands, feet, and scalp. By applying the hydrogen-containing cosmetic of the present invention to the skin, effects such as prevention of skin aging and anti-aging by hydrogen water can be brought about.

  Hydrogen has excellent absorption into the human body due to its low molecular weight. Therefore, if it is the hydrogen-containing cosmetics of this invention, the component contained in cosmetics with hydrogen can also be efficiently absorbed into a human body.

  The packaging method of the present invention may further include a sheet accommodation step of accommodating the cosmetic sheet in the packaging container. The cosmetic sheet is a sheet that is brought into direct contact with the skin, and hydrogen and the cosmetic can be more efficiently supplied to the skin by impregnating the skin with hydrogen-containing cosmetic. The decorative sheet can be, for example, a nonwoven fabric, a gauze, a fabric such as a woven fabric, absorbent cotton, a resin sheet, or the like. The cosmetic sheet may be in the form of, for example, a face mask, point mask, pack sheet, cosmetic cotton, skin protection sheet, poultice, patch sheet, and adhesive bandage.

  The sheet accommodation step is performed at least before the sealing step, and may be before or after the hydrogen water supply step and the cosmetic supply step, or between the hydrogen water supply step and the cosmetic supply step. There may be. In particular, when the sheet accommodation step is performed before the hydrogen water supply step, the time from supplying hydrogen water to sealing the packaging container can be shortened, and loss of hydrogen can be further reduced.

  When the cosmetic sheet is contained in the packaging container, the cosmetic sheet can be uniformly impregnated with the hydrogen-containing cosmetic in the mixing step.

  The packaging container is not particularly limited, but can be a bag, a box, a bottle, a can, and the like that are generally used for packaging cosmetics, pharmaceuticals, and quasi drugs. The packaging container is preferably made of a material having low gas and liquid permeability. For the packaging container, for example, a plastic film, an aluminum sheet, an aluminum foil, a laminate film, a resin, glass, and various metals can be used.

  The packaging container may contain a hydrogen generating agent. The hydrogen generating agent is an agent that generates hydrogen by reacting with water. For example, the hydrogen generating agent may be a compound that decomposes and releases hydrogen by chemically reacting with water. By including a hydrogen generating agent in the packaging container, hydrogen can be further generated in the packaging container after the packaging container is sealed, and the hydrogen content in the packaging container can be maintained or increased.

  Compounds that generate hydrogen by reacting with water include, for example, metal hydride particles, hydrogen-generating ceramics (ceramics), simple substances such as glass, magnesium, aluminum and carbon, and derivatives thereof, silica derivatives, silicone derivatives, germanium, silica. Examples include acids and aluminum silicates, calcined calcium, zeolite and anhydrous silicic acid, and carbon tubes and the like in which hydrogen is embedded by applying pressure. Among these, it is particularly preferable to use metal hydride particles because they are 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, sodium lithium hydride and hydrogen. A well-known thing, such as silicon hydride, 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.

  Moreover, the compounding quantity of the hydrogen generating agent in a packaging container is not specifically limited. For example, the blending amount of the hydrogen generator is preferably 0.001 to 10% by weight, more preferably 0.5 to 5% by weight, based on the total amount of the packaging container. 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. Moreover, if it is 10 weight% or less, it is preferable from an economical viewpoint.

  Further, the packaging container may contain two or more kinds of the hydrogen generating agents described above.

When the hydrogen generator is magnesium hydride, the magnesium hydride decomposes while releasing hydrogen by reacting with water according to the reaction formula of the following formula (1).
MgH ₂ + 2H ₂ O → Mg (OH) ₂ + 2H ₂ (1)

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 agent is magnesium hydride, the packaging container can be manufactured, transported, used, etc. more safely.

  The hydrogen generator 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.

  Hydrogen water and cosmetics can contain the substance which has a buffering effect. Thereby, pH change due to hydrogen generated by the hydrogen generating agent in the packaging container can be suppressed.

  The present invention also provides a hydrogen-containing cosmetic packaged using the packaging method described above. That is, the hydrogen-containing cosmetic of the present invention is sealed after hydrogen water and the cosmetic are separately supplied to the packaging container. The hydrogen-containing cosmetic of the present invention may further include a cosmetic sheet, that is, a cosmetic sheet impregnated with a hydrogen-containing cosmetic.

  The above-described embodiments are intended to clarify the technical contents of the present invention, and should not be construed in a narrow sense as being limited to these specific examples. Various modifications are possible within the scope of the claims. is there.

  The packaging method and the hydrogen-containing cosmetic according to the present invention can be suitably used for products using hydrogen water, particularly in the fields of cosmetics, pharmaceuticals and quasi drugs.

1 ... Hydrogen water
2 ... Hydrogen water tank
3 ... Hydrogen water supply line
4 ... lotion
5 ... lotion tank
6 ... lotion supply line
7 ... Valve
8 ... Packing container

Claims (5)

A hydrogen water supply step of supplying hydrogen water to the packaging container;
A cosmetic supply process for supplying the cosmetic to the packaging container;
A sealing step of sealing the packaging container supplied with hydrogen water and cosmetics;
A method for packaging a hydrogen-containing cosmetic material.   The packaging method according to claim 1, further comprising a mixing step of mixing the hydrogen water and the cosmetic in the sealed packaging container.   3. The packaging method according to claim 1, further comprising a sheet accommodating step of accommodating the cosmetic sheet in a packaging container before the sealing step.   The packaging method according to any one of claims 1 to 3, wherein the packaging container contains a compound that reacts with water to generate hydrogen.   A hydrogen-containing cosmetic packaged using the packaging method according to any one of claims 1 to 4.

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