JP2014205635A - Hydrogen generating composition and bath composition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hydrogen generating composition that can be mixed with water to generate a large amount of molecular hydrogen in a short time, and continues to generate hydrogen for a long time.SOLUTION: A hydrogen generating composition comprises hydrogen generating silica particles and magnesium hydride.

Description

The present invention relates to a hydrogen generating composition and a bath composition.

In recent years, studies have been conducted on the health effects of molecular hydrogen. In the composition containing molecular hydrogen, the oxidation-reduction potential (ORP) is shifted to the reduction side, and functional water (hydrogen water) to which antioxidant ability is imparted is supposed.

Attempts have also been made to use hydrogen water having such functionality as a powder bath cosmetic. Patent Document 1 describes a powder bath cosmetic containing magnesium hydride and a hygroscopic component. However, when magnesium hydride is used, there is an advantage that stable hydrogen generation occurs for a long time, but the time until the hydrogen concentration becomes sufficiently high after being poured into water is slow.

Further, for example, hydrogen-producing powders of hydrogen compounds such as alkaline earth metal hydrides, hydrogen-producing silica particles mainly containing silicon dioxide called microclusters and containing other components are also known. Such materials have not been studied for use as bath compositions. However, according to the study by the present inventors, high concentration hydrogen can be obtained in a short time in the initial stage after mixing with water, but it is difficult to continue generating hydrogen for a long time.

Thus, the state of hydrogen generation after mixing with water varies depending on the characteristics of each material. Therefore, it is difficult to reach a predetermined hydrogen gas concentration in a short time with only a single hydrogen-generating material and continue to generate a high concentration of hydrogen gas for a long time thereafter.

JP 2012-171875 A

An object of the present invention is to solve the above-described problems. More specifically, a large amount of molecular hydrogen can be generated in a short time by mixing with water. An object of the present invention is to provide a hydrogen-generating composition that continues to be generated.

The present invention is a hydrogen generating composition comprising hydrogen generating silica particles and magnesium hydride.
The present invention is also a bath composition characterized by containing the hydrogen generating composition described above.

According to the present invention, it is possible to provide a hydrogen generating composition that generates a large amount of hydrogen in a short time when mixed with water and continues to generate hydrogen for a long time.

It is a figure which shows the relationship between the time at the time of mixing the composition in an Example and a comparative example with water, and the density | concentration of molecular hydrogen. It is a figure which shows the relationship between the time at the time of mixing the composition in an Example and a comparative example with water, and the density | concentration of molecular hydrogen. It is a figure which shows the relationship between the time at the time of mixing the composition in an Example and a comparative example with water, and the density | concentration of molecular hydrogen.

The hydrogen generating composition of the present invention contains hydrogen generating silica particles and magnesium hydride. Since the hydrogen-generating silica has a high hydrogen generation concentration in the initial stage, it can be made into water having a high hydrogen concentration immediately after the addition. However, the hydrogen concentration tends to decrease with time. In contrast, magnesium hydride does not generate much hydrogen at the beginning of addition, but continues to generate hydrogen at a constant rate for a long time.

In the case where the hydrogen generating silica particles and magnesium hydride described above are each used alone as a bath composition, such properties are not preferable. That is, if it takes time until sufficient hydrogen is generated, the time from when the bathing is first performed and the hydrogen generating composition is added until the effect of hydrogen is actually realized becomes long. Furthermore, even if the initial hydrogen generation rate is high, if the generation stops immediately thereafter, the bath can be performed so that the effect of hydrogen can be obtained only for a short time, and the object can be sufficiently achieved. I can't.

In the present invention, by using a composition containing hydrogen-generating silica and magnesium hydride, these properties complement each other, ensuring a sufficient amount of hydrogen in a short time, and sufficient for a long time. The present invention provides a hydrogen generating composition capable of ensuring a hydrogen concentration.

The hydrogen-generating silica is provided with a property of generating hydrogen when it comes into contact with water by mixing other components as necessary with a component mainly composed of silicon oxide. As what has such a property, the thing etc. which are sold from Unilife Japan Co., Ltd. as a micro cluster can be mentioned.

The microcluster is a mixture of silicon dioxide, potassium carbonate, potassium citrate, magnesium sulfate and the like, and is a component known to generate hydrogen when contacted with water.

The magnesium hydride is a solid compound represented by the general formula of MgH ₂ and is known to generate molecular hydrogen when added to water. As the MgH _2, it is preferable that the number average particle diameter of 1～60Myuemu. If it exceeds 60 μm, it may be rough when placed in a bathtub, which is not preferable. If it is less than 1 μm, inhalation may occur when the bathtub is introduced, or the stability over time may deteriorate due to increased reactivity.

In the present invention, the hydrogen generating silica and magnesium hydride are preferably mixed at a ratio of 1: 1 to 20: 1 (weight ratio) and used as a hydrogen generating composition. By setting the mixing ratio within this range, it is possible to obtain a hydrogen generating composition that generates hydrogen that is balanced in both the initial hydrogen generating ability and the amount of hydrogen generated after the passage of time. The ratio is more preferably 1: 1 to 10: 1.

The hydrogen generating composition of the present invention can be particularly suitably used as a bath composition. That is, when it is added to hot water in a bath at the time of bathing to obtain a blood flow enhancement effect by hydrogen, it can be particularly preferably used for the purpose of generating an effective amount of hydrogen over a long period of time. Is.

When the hydrogen generating composition is used as a bath composition, the amount added to the hot water in the bath is preferably such that the hydrogen concentration is 5 to 500 ppm. Thereby, the activity of molecular hydrogen can be used.

The bath composition containing the hydrogen generating composition of the present invention may be composed of only the above hydrogen generating silica and magnesium hydride, or may be used in combination with other components. When the bath composition of the present invention contains components other than the hydrogen generating composition, the above-described hydrogen generating composition is 0.1% by weight or more, more preferably 40%, based on the total bath composition. It is preferable to contain in the ratio of the weight% or more.

It does not specifically limit as said other component, Well-known arbitrary components used as a component of the composition for baths can be used. More specifically, for example, essential oils, fragrances, moisturizers, plant pulverized products, herbal medicines, inorganic salts, inorganic acids, vitamins, coenzymes, colorants and the like can be mentioned.

The essential oils and fragrances include lavender oil, jasmine oil, rose oil, lemon oil, orange oil, mint oil, thyme oil, ginger oil, fennel oil, cedar oil, hiba oil, raspberry oil, cypress oil, rose oil, Examples include natural and synthetic fragrances such as eucalyptus oil, camphor, peppermint oil, spearmint oil, geraniol, mandarin oil, spruce oil, citronellol, terpenes, coffee oil, tea oil, coconut oil, and raspberry ketone.

As the above plant pulverized products and herbal medicines, lemon peel, seaweed, cypress, hiba, fukkas, rice bran, shobu, ginger, licorice, chimpi, yuzu, touki, carrot, mint, keihi, ubai, mugwort, dokudami, Momonoha, Chamomile, Aloe, Jasmine, Rosehip, Lavender, Guava, Ougon, Cuco, Ganoderma, Elderberry, Ashitaba, Uguigi, Burdock, Black Sesame, Black Rice, Fuji Sanchi Ginseng, Ginseng, Tanachi Ginseng, Ginseng Grass, Gypsophila And the like, and the dried product thereof and the extract thereof.

Examples of the vitamins include vitamin A, vitamin B1, vitamin B2, vitamin B6, vitamin P, and the like. Examples of the coenzyme include CoQ10, CoQ9, CoQ8, and thioctic acid.
Examples of the colorant include cosmetic tar dyes.

Examples of the inorganic salts and inorganic acids include sodium chloride, sodium hydrogen carbonate, sodium carbonate, boric acid, borax, sodium sulfate, sodium sulfide, potassium sulfide, sodium nitrate, calcium nitrate, ammonium sulfate, sodium thiosulfate, calcium hydrogen phosphate , Potassium chloride, ammonium chloride, sodium phosphate, sodium hyposulfite, calcium thiosulfate, sulfur, sodium sesquicarbonate, magnesium sulfate, magnesium chloride, anhydrous silicic acid, metasilicic acid, boric acid, magnesium carbonate, magnesium hydroxide, seawater dried Thing etc. are mentioned.

In the bath composition of the present invention, these blending components may be mixed and put in a container having gas shielding performance such as an aluminum pouch. Moreover, it can be used as what has arbitrary forms, such as a tablet, a powder, a granule.

EXAMPLES The present invention will be further described below with reference to examples, but the present invention is not limited to these examples. In addition, all compounding quantities represent the mass%.

Compositions as shown in Table 1 below were prepared. The preparation was performed by mixing each component in the solid state.

About these compositions, the test by the evaluation criteria shown below was done. The results are shown in FIGS.
(Evaluation method)
(1) Prepare a bath with a hot water volume of 200 L and a hot water temperature of 42 ° C. ± 2 ° C.
(2) Set a propeller stirrer and a dissolved hydrogen generator, and wait for the dissolved hydrogen generator to reach a constant value (0 μg / L) while stirring hot water.
(3) When the numerical value becomes constant, take 15 g of the specimen prepared by the above method.
(4) Directly inject the sample while constantly stirring (400 to 450 rotations).
(5) The number of dissolved hydrogen was read every minute and measured for 30 minutes.
(6) The above operation was performed three times for each sample, and the average value was graphed.

From the results of FIGS. 1 to 3, the hydrogen generating composition of the present invention shows a high value both in the initial stage hydrogen concentration and in the hydrogen concentration after 30 minutes, whereas the hydrogen generating composition of the comparative example. The composition does not generate enough hydrogen in a short time region or a long time region. In addition, there are some cases where it is difficult to increase the hydrogen concentration. Therefore, the hydrogen generating composition of the present invention has a remarkably excellent effect.

The hydrogen generating composition of the present invention can be particularly preferably used in a bath composition.

Claims (2)

A hydrogen-generating composition comprising hydrogen-generating silica particles and magnesium hydride. A bath composition comprising the hydrogen generating composition according to claim 1.