JP2002068932A - Cosmetic containing extract extracted by making substance to be extracted into supercritical fluid and method for producing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a cosmetic composition, obtained by extracting a raw material with a high extraction efficiency by carrying out the extraction in an extremely short time and has high qualities and a moderate price by eliminating the wasteful use of the raw material. SOLUTION: This cosmetic comprises an extract obtained by immersing seeds in first marine deep water which is desalted or whose salt is reduced, promoting growth of the seeds by tourmaline, germinating and rooting the seeds, taking out the seeds, immersing the seeds in second marine deep water which desalted or whose salt-reduced and extracting the seeds by changing the mixture of the seeds and the second marine deep water into a supercritical fluid.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention provides cosmetics containing an extract extracted by immersing seeds in deep ocean water and converting them into supercritical fluids or subcritical fluids, and a method for producing the cosmetics. Regarding the offer.

[0002]

BACKGROUND OF THE INVENTION Generally, when extracting a mixture of solids,
A method has been adopted in which finely crushed solids are extracted by an extractor. As another method, a method of shaking well with a solvent in a container of a predetermined size, followed by filtration is adopted. Further, there is a method of simply immersing a solid in a container. Extraction from solids is performed by these methods.

On the other hand, seawater contains components useful for the human body, such as sodium, magnesium, calcium, etc.
It contains many nutrients such as phosphoric acid and trace metals such as copper and zinc. In addition, cosmetics are manufactured using deep ocean water collected from a depth of several hundred meters or less at sea level, and these deep ocean waters also contain many components useful for the human body. Deep ocean water is different from surface water because living water does not enter directly. Cosmetics containing this deep ocean water are disclosed in
No. 12154. According to this, deep ocean water is seawater that has not been subjected to any treatment other than the physical filtration step, or is used by being used in combination with seawater that has been subjected to desalination treatment with an ion exchange resin or a reverse osmosis membrane. is there.

[0004]

However, in the above-mentioned extraction method, it was difficult to extract nearly 100% of a solid mixture. In addition, it took a long time to extract. Therefore, when extraction must be performed quickly, extraction cannot be performed sufficiently. Furthermore, extraction of minerals and the like from a large amount of solids has not been satisfactory.

On the other hand, seawater desalination uses an ion exchange resin or a reverse osmosis membrane, but it has not been possible to purify desalinated or reduced salt water in an extremely short time. In addition, when handling a large amount of seawater in the reverse osmosis membrane method, high pressure is applied to the osmosis membrane, so it must be able to withstand that pressure, so the osmosis membrane had to be expensive .

Accordingly, an object of the present invention is to provide a high-quality cosmetic by performing extraction in an extremely short time and improving the extraction efficiency of raw materials, and by eliminating waste of raw materials. .

[0007]

Means for Solving the Problems Claim 1 relates to a cosmetic containing an extract extracted by immersing seeds in deep ocean water and converting it into a supercritical fluid.

[0008] The supercritical fluid is a fluid that cannot be distinguished from gas or liquid. Each substance has its own critical temperature and critical pressure. For example, the critical temperature of water is 37
4 ° C, critical pressure 218 atm, carbon dioxide critical temperature 3
1.1 ° C., critical pressure 72.8 atm. At a temperature exceeding the critical temperature, gas liquefaction and liquid vaporization do not occur regardless of the pressure. The same applies when the temperature is changed at a pressure exceeding the critical pressure. This state is a very active state having a large kinetic energy like a gas and having a high molecular density comparable to a liquid. Supercritical fluids have properties opposite to those of ordinary water, ie, they are soluble in organic substances but hardly soluble in inorganic substances. In addition, supercritical fluids have intense reactivity. As a technique using this fluid, a technique for extracting caffeine from coffee beans using a supercritical fluid of carbon dioxide is known. There is also known a technique for completely decomposing chemically stable fluorocarbon within a few minutes.

[0009] Deep ocean water is generally defined as 20 meters above sea level.
It refers to seawater collected from a depth of 0 to 300 meters or less. In this area, since light from the sun does not reach, photosynthesis is not performed, and there is almost no breeding of organisms, and the state is almost sterile. Also, there is no direct flow of industrial wastewater and domestic wastewater, and the ocean current is different from the layer near the sea surface.
The seawater collected here is rich in natural mineral components and is clean water that is almost aseptic.

Therefore, the extraction can be performed in a very short time by using a supercritical fluid. Also, extraction of deep ocean water, that is, desalination of seawater and extraction of seeds,
It can be performed simultaneously, and the work conventionally performed separately can now be performed simultaneously. By performing the extraction in a short time, the time during which the raw material is exposed to the air can be made extremely short, thereby improving the quality of the product. At the same time, it is possible to produce seawater having a high salt concentration from deep ocean water, and to produce natural salt.

[0011] Claim 2 relates to a cosmetic containing an extract extracted by immersing seeds in desalinated or reduced salty deep sea water and converting it into a supercritical fluid. By using desalinated or reduced salty deep sea water, a supercritical fluid can be obtained under the critical temperature and critical pressure conditions of water.

[0012] Desalination means that sodium ions, chloride ions, sulfide ions, magnesium ions, calcium ions, potassium ions, etc. contained in deep sea water are completely removed by distillation, reverse osmosis, electrodialysis or the like. Refers to the state after removal. The term "reduced salt" refers to a state in which various salts having the above composition are partially removed, and a state in which the salt is contained in deep ocean water in an amount of about 100 to 200 mg / liter is preferable.

[0013] As described in claim 3, the supercritical fluid is preferably a cosmetic which is produced under a condition of 374 ° C or more and 218 atm or more. Since the supercritical fluid is a fluid that exceeds the intrinsic critical temperature and critical pressure of each substance, such as water and carbon dioxide, supercritical fluids of various substances can be used. In the present invention, a supercritical fluid is obtained by desalinating or reducing salt in deep ocean water to give a critical temperature and a critical pressure similar to those of general water.

[0014] As described in claim 4, it is preferable that the cosmetic is a cosmetic containing an extract extracted by immersing seeds in deep ocean water and converting the seeds into a subcritical fluid. Although it is possible to perform extraction with a supercritical fluid, by performing extraction from a state before it becomes a supercritical fluid,
The power consumption of the apparatus can be reduced and the extraction time can be shortened, whereby the manufacturing cost can be reduced.

[0015] According to a fifth aspect of the present invention, there is provided a cosmetic comprising an extract obtained by immersing seeds in desalinated or reduced salty deep sea water and converting the seeds into a subcritical fluid. Is preferred. Thereby, it becomes possible to perform the extraction under the condition of the critical temperature and the critical pressure of the water.

[0016] According to a sixth aspect of the present invention, the subcritical fluid is a cosmetic characterized in that it is produced under the condition of 300 ° C or more and less than 374 ° C and 150 atmospheres or more and less than 218 atmospheres. Is preferred. This temperature range is a state before it becomes a supercritical fluid, but it is possible to perform extraction from seeds even under this temperature condition, and it is possible to reduce the amount of electric power of the device, and also to reduce the manufacturing cost.

[0017] As described in claim 7, the seed is preferably a cosmetic which is immersed in desalinated or reduced salty deep sea water. Although the seed itself contains a large amount of water, the mineral component contained in the deep sea water can be extracted more effectively by substituting the water with the deep sea water.

[0018] As described in claim 8, the seed is immersed in desalinated or reduced salty deep sea water,
It is preferably in a germinated or rooted state. This is because, when grown to this extent, it is possible to collect both the components contained in the seeds and the mineral components in the deep sea water.

[0019] Thereby, since a seed rich in deep sea water can be obtained, a natural mineral component ionized by extraction can be extracted, and a large amount of a mineral component of the seed can be extracted. The state of germination or rooting may be recognized as a state of germination or rooting of about several millimeters to several centimeters, from the fact that a crack is generated in the seeds visually. Under the conditions of germination and rooting, seeds of the above-mentioned cereals, beans and vegetables are immersed in deep ocean water. At the same time, germination and rooting are caused by giving a temperature of 10 ° C. or more and 30 ° C. or less and direct sunlight or indirect sunlight for about 1 to 10 days. Since the germination and rooting conditions vary depending on the seed, they are collected in a desired state.

Some seeds germinate after germination, and others germinate after germination. Those that germinate after germination terminate growth when there are two young leaves. ,
Those that germinate after rooting preferably terminate growth before germination. It is preferable that the germinated and rooted seeds collected in this state are pulverized and extracted.

[0021] As described in claim 9, the seed is preferably one or more of brown rice, broccoli, soybean, radish, and crete,
It is not limited to these. This is because these seeds contain a large amount of components particularly necessary for humans, such as vitamin C and iron ions. The seeds include cereals, beans, and vegetables, including these. As cereal seeds,
There are rice, barley, wheat, rye, brown rice, millet, fly, cane, buckwheat, soybean, corn, sorghum, etc.
It is not limited to these. As seeds of legumes, Azuki,
Examples include, but are not limited to, kidney beans, peas, sky beans, soy beans, and the like. Vegetable seeds include asparagus,
Examples include, but are not limited to, pumpkin, broccoli, cauliflower, cabbage, burdock, radish, ginger, ginger, crete, carrot, pepper, spinach, celery, onion, cucumber, eggplant, green onion.

These seeds are preferably ground. This is because the pulverization increases the extraction efficiency, and the active ingredient of the seed can be easily extracted. The pulverization includes rough pulverization, coarse pulverization, and fine pulverization. However, since it is necessary to perform extraction and remove a solid content by filtration or the like, it is preferable that the degree of coarse pulverization or coarse pulverization is approximately equal.

According to a tenth aspect of the present invention, the desalted or reduced-salinity deep sea water is a cosmetic characterized by having rocks or minerals immersed therein. Is preferred. Rocks or minerals are rich in natural mineral components such as aluminum, potassium, magnesium, and zinc required by the human body, and the mineral components elute in water in the form of ions. For this reason,
In order to contain these natural mineral components in the solvent,
Preferably immersed in rocks or minerals.

Further, these rocks or minerals are extremely effective because they enhance or promote the germination and rooting efficiency of seeds of plants, cereals, beans and vegetables.

Further, rocks have an effect of activating water, and have an effect of eliminating the smell of water and making them tasty. Therefore, these effects can be utilized.

As described in claim 11, the rock or mineral is tourmaline,
It is preferable that the cosmetic contains at least one of andesite, diorite, fluorite, muscovite and sericite.

Tourmaline is a gaseous mineral made of boron-containing gas, and is contained in pegmatite, as well as in granite and gneiss, and is found in the host rock on four sides of these rocks. Sometimes. Tourmaline ores contain a number of atoms, including sodium, magnesium, iron, manganese, lithium, aluminum, boron, silicon, oxygen, hydrogen, and fluorine. Tourmaline has a function of electrolyzing, and thus reduces water, gives a reducing power to water, and exerts a power to prevent oxidation. Thereby, water is activated and has a decay prevention effect. Tourmaline is a kind of igneous rock that generates weak electricity, generates negative ions, and generates far-infrared rays. In addition, it is a mineral containing boron, which has an effect of assisting a plant to absorb moisture, and thereby has an effect of promoting germination and growth of a plant. Furthermore, since it has an adsorption action and a repulsion action, it exhibits a deodorizing effect and an antibacterial effect, and tourmaline can be used for removing chlorine-based components such as trihalomethane contained in tap water. Therefore, even if a chlorine-based component is mixed for disinfection, it has a role of enabling its removal.

Andesite (Andesite) is a kind of volcanic rock, and is a typical neutral rock in volcanic rock corresponding to plutonic diorite. Even when a colored mineral appearing in phenocryst as a main component mineral alone is used. Yes, there are two or more types combined, so they are divided into many types accordingly. However, as andesite, it has a common macroscopic feature. It is gray to dark grey, with some exceptions, and has patchy tissue. Depending on the quality of the rock, it can be used as a building material, but most of it is for civil works such as stone walls, garden stones, bridges and dikes. There are many types such as quartz andesite, amphibolite andesite, and pyroxene andesite.

Diorite is a type of plutonic rock, and is used as a building stone because it has a beautifully polished surface and is hard and durable like granite. Most of the amphibole exhibits an automorphic shape, and some are semi-automorphic and trabecular.
The amount of amphibolite is large, and the overall color is darker than granite.

Agalmatolite is an ore mainly composed of pyrophyllite. Some ores have a uniform tone, but it is not uncommon for the ores to be patchy with a mixture of pigments. Ore is accompanied by quartz, kaolinite and jaspor, in addition to phyllite.

Muscovite is found as a component mineral of acidic plutonic rocks such as granite and pegmatite, and is generated by the action of mineralizing gas at the end of igneous rock consolidation.

Sericite is a fine scale or clay-like, greasy substance. Many are produced by the decomposition of feldspar and are produced as constituent minerals of schist and massive deposits in granite. When applied to the fine sericite powder, heat as much as human skin converts electromagnetic waves, and has "electromagnetic wave conversion capability" that activates blood and cells themselves by resonantly oscillating water molecules in the human body. By utilizing this, germination and rooting can be promoted. Further, since water is activated, long-term storage can be made possible.

The above-mentioned rocks particularly promote germination and rooting efficiency. By improving the germination and rooting efficiency, the extraction time can be shortened, and the time for contact with the outside air can be shortened, so that a safer extract can be obtained.
In particular, tourmaline is the only boron source except for coal, has a role as a fertilizer, and has the effect of greatly promoting plant growth.

Claim 12 contains the extract obtained from the first step of immersing the seeds in the deep ocean water and the second step of extracting the deep ocean water by converting it into a supercritical fluid. The present invention relates to a method for producing a cosmetic. The extract thus obtained contains many mineral components and can be used as basic cosmetics. Since a supercritical fluid is used, there is a feature that extraction can be performed in a short time.

[0035] As described in claim 13, a first step of immersing seeds in desalted or reduced salty deep sea water, and a second step of extracting the seeds by converting the deep sea water into a supercritical fluid. It is preferable to use a method for producing a cosmetic containing the extract obtained from the two steps. This process also has a feature that extraction can be performed in a short time. Another feature is that a supercritical fluid can be formed under the conditions of critical temperature and critical pressure of water.

[0036] As described in claim 14, a first step of soaking seeds in deep sea water and a second step of extracting the deep sea water by converting it into a subcritical fluid. It is preferable to use a method for producing a cosmetic containing the obtained extract. By using a subcritical fluid,
Extraction can be performed under temperature and pressure conditions until the fluid becomes a supercritical fluid, and the efficiency of the extraction operation can be improved.

According to a fifteenth aspect, a first step of immersing the seeds in the desalted or reduced salty deep sea water, and a step of extracting the seeds by converting the deep sea water into a subcritical fluid. It is preferable to use a method for producing a cosmetic containing the extract obtained from the two steps.

[0038] As described in claim 16, a first step of immersing the seeds in the desalted or reduced salty first deep sea water, and after removing the seeds obtained from the first step A second step of immersing in the second deep sea water or the desalinated or reduced salt deep sea water, and converting the seeds and the second deep sea water obtained in the second step into supercritical fluids Preferably, the method is a method for producing a cosmetic containing the extract obtained from the third step of extracting by the method.

[0039] As described in claim 17, a first step of immersing the seeds in the desalted or salt-reduced first deep sea water, and after removing the seeds obtained from the first step A second step of immersing in the second deep sea water or the desalinated or reduced salt deep sea water, and converting the seeds and the second deep sea water obtained in the second step into subcritical fluids Preferably, the method is a method for producing a cosmetic containing the extract obtained from the third step of extracting by the method.

[0040] According to an eighteenth aspect of the present invention, there is provided a method for producing a cosmetic, characterized in that the first deep sea water has rocks or minerals immersed therein. Is preferred.

[0041] As described in claim 19, the rock or mineral is tourmaline,
It is preferable that the method is a method for producing a cosmetic, characterized by containing at least one of andesite, diorite, roseite, muscovite, sericite.

[0042] As described in claim 20, it is preferable that the supercritical fluid is produced under a condition of not less than 374 ° C and not less than 218 atm.

According to a twenty-first aspect of the present invention, there is provided a method for producing a cosmetic, wherein the subcritical fluid is produced under a condition of 300 ° C. or more and less than 374 ° C. and 150 atm or more and less than 218 atm. It is preferred that

The extraction water extracted from the present invention can be used as a lotion without adding any other additives. Further, it is possible to take various forms of cosmetics by adding various medicinal components to the extracted water as a base. For example, basic cosmetics, lotions, emulsions, creams, packs, gel-like cosmetics, powder cosmetics, soaps, liquid detergents, makeup products such as skin care products, hair care products or scalp care products It can take any form applicable to cosmetics in the field of application.

The cosmetics of the present invention include, among quasi-drugs defined by the Pharmaceutical Affairs Law, hair restorers, bath agents, medicinal cosmetics, medicated cosmetics, ie, medicated soaps, medicated shampoos, medicated rinses, medicated lotions, Medicinal creams / milky lotions, medicinal packs, hair dyes, hair cosmetics, general creams / milky lotions, shaving creams or lotions, suntans / sunscreen lotions, cosmetic oils, ointments, tanning / sunscreen oils, white powder, powders, foundations, perfumes , Packs, nail creams, enamels, enamel removers, eyebrows, blushers, eye creams, eye shadows, mascaras, eyeliners, lipsticks, lip balms, brushes, bath cosmetics, etc.

On the other hand, the extracted water obtained in the intermediate stage of the present invention can be used as drinking water. It is possible to desalinate deep ocean water and provide drinking water rich in mineral components extracted from various seeds.

[0047]

Embodiments of the present invention will be described below. The present invention is not limited to this embodiment.

<Example 1> (1) Tourmaline is finely pulverized. The tourmaline used was Minas Gerais, BRAZIL and one produced from Shiozawa, Ishikawa-cho, Ishikawa-gun, Fukushima Prefecture. This was ground to about 0.5 to 2 mm cubic centimeters.

(2) Desalted deep sea water is used. As a method of desalination, salts are removed from deep ocean water by a reverse osmosis membrane method. As the deep ocean water, water collected from a depth of 300 to 400 meters off Ishikawa Prefecture was used. This was treated with a reverse osmosis membrane device, and purified desalted deep sea water was used. This desalted deep sea water 1500
In a milliliter, add 15 grams of the previously crushed tourmaline to 1
I was immersed day and night.

(3) 5 deep ocean waters containing the tourmaline
Separate into three containers of 00 ml each, brown rice, broccoli, and three kinds of radish seeds, 100 grams each in each container at a temperature of 20 to 30 ° C. under direct or indirect sunlight, for about 7 days Immersed.

(4) The seeds soaked for 7 days were taken out of the container and roughly pulverized. Although the extraction time can be shortened by crushing, rough crushing is more preferable in consideration of separating the crushed seed and deep sea water thereafter. About 0.5 millimeter cubic centimeters for brown rice, which is roughly crushed, and broccoli and radish are 0.1 mm.
It was ground to about 5 to 2 mm cubic centimeter.

(5) A mixture of three crushed seeds and 1.5 liters of desalted deep sea water was subjected to an ultra-high pressure and high temperature
Extraction was performed at 400 ° C., 300 atm, and a reaction time of 5 minutes.
As a result, extraction could be performed in a state close to almost 100%. This extract has components as shown in Table 1.

[0053]

[Table 1]

(6) As a result, the target extraction water containing this extract was obtained.

Example 2 (1) Sericite is roughly crushed to about 2 to 5 mm 3 cm 3.

(2) Desalted deep sea water is used as a solvent for immersing the seeds. As a method of desalination, salts are removed from deep ocean water by a reverse osmosis membrane method. Deep ocean water
What was collected from a depth of 300 to 400 meters off Ishikawa Prefecture was used. This was treated with a reverse osmosis membrane device, and purified desalted deep sea water was used. 50 grams of the previously ground sericite was immersed in a vessel containing 1500 ml of the desalted deep sea water.

(3) Broccoli, soybeans, and Cretan seeds were soaked in the container in an amount of 100 grams each. Under conditions of direct sunlight or indirect sunlight at a temperature of 20 to 30 ° C., 200 ml of desalinated deep sea water was added every two days and immersed for about 7 days. Sericite has the ability to convert electromagnetic waves and activates water to promote germination and rooting.

(4) The seeds soaked for 7 days were taken out of the container and roughly pulverized. Each was ground to a size of about 1 mm cubic centimeter.

(5) A mixture of three types of crushed seeds and 1.5 liters of salt-reduced deep sea water was subjected to an ultra-high pressure and high temperature device,
Extraction was performed at 380 to 420 ° C., 300 to 350 atm, and a reaction time of 5 minutes. As a result, extraction could be performed in a state close to almost 100%. This extract has components as shown in Table 2.

[0060]

[Table 2]

(6) As a result, the target extraction water containing this extract was obtained.

<Example 3> Using the extracted water obtained in Example 1, a lotion was produced. The composition is shown below. (1) glycerin 5.0% (2) dipropylene glycol 4.0 (3) oleyl alcohol 0.2 (4) polyoxyethylene isocetyl ether 1.0 (5) ethanol 8.0 (6) preservative, Perfume, pigment, buffer appropriate amount (7) Extracted water extracted in Example 8 81.8 (Production method) Polyoxyethylene isocetyl ether, oleyl alcohol, preservative, and perfume were dissolved in ethanol. An ethanol phase was added and mixed with stirring to an aqueous phase in which glycerin, dipropylene glycol, and a buffer were dissolved in the extraction water, and solubilization was performed. Toning was produced by toning with a pigment and filtration.

Comparative Example 1 (7) Example 3 (7) The extraction water extracted in Example 1 was replaced with purified water, and the total amount was 1
00.

(Test Method) The lotion obtained in Example 3 was subjected to a panel test. Example 3 As a panelist, 20 women aged 27 to 55 years with dry skin were divided into two groups.
And the lotion of Comparative Example 1 were actually used.
An appropriate amount of lotion was applied to the face every day for 20 days, in the morning and at night, using the usual method of use, and a questionnaire was given on changes in skin roughness and dryness. Table 3 shows the results.

[0065]

[Table 3]

[Skin Gloss / Kamitsuki and Kasatsuki] Score Observation Results 1 There is no skin gloss and the skin is strong. Exfoliation of the stratum corneum is often observed. 2 There is no skin gloss, there is dark spots on the whole, and exfoliation of the stratum corneum is seen in some places. 3 The skin is slightly shiny and no dark spots are seen. The stratum corneum does not peel off with the naked eye, but it peels off when rubbed lightly with a cotton swab. 4 The skin is shiny and firm. There is almost no peeling of the stratum corneum even when rubbed with cosmetic cotton. As is clear from the results in Table 3, it was clarified that the lotion according to Example 3 exhibited excellent beautiful skin effect, moisturizing effect, and moisturizing effect when used on the skin.

Example 4 Using the extracted water obtained in Example 2, an essence was produced. The composition is shown below. (1) Glycerin 5.0% (2) Dipropylene glycol 4.0 (3) Polyethylene glycol 8.0 (4) Polyoxyethylene isocetyl ether 0.5 (5) Ethanol 7.0 (6) Quince seed 0 .1 (7) Xanthan gum 0.3 (8) Preservative, flavor, dye, buffer appropriate amount (9) Extracted water extracted in Example 7 75.1 (Production method) Polyoxyethylene isocetyl ether in ethanol, preservative , The fragrance was dissolved. An ethanol phase was added to an aqueous phase in which glycerin, dipropylene glycol, polyethylene glycol, a buffer, quince seed and xanthan gum were dissolved in the extracted water, and the mixture was stirred to solubilize. Essence was produced by toning with a dye and filtering.

The essence according to Example 4, as in Example 3, also exhibits excellent skin effect, moisturizing effect and moisturizing effect when used on the skin.

Example 5 A cream was produced using the extracted water obtained in Example 1. The composition is shown below. (1) Stearic acid 1.0% (2) Cholesteryl isostearate 2.0 (3) Jojoba oil 4.0 (4) Squalane 8.0 (5) Sorbitan sesquioleate 0.8 (6) Poly monostearate Oxyethylene sorbitan 1.2 (7) 1,3-butylene glycol 5.0 (8) L-arginine 0.4 (9) Carboxyvinyl polymer 0.2 (10) Preservative, perfume (11) Example 2 77.4 Extraction water extracted according to 77.4 The cream according to Example 5 showed an excellent moisturizing effect when used on the skin, and supplemented the sebum membrane and intercellular lipid functions.

Example 6 A hair treatment was produced using the extracted water obtained in Example 1. The composition is shown below. (1) Stearyltrimethylammonium chloride 0.5% (2) Distearyldimethylammonium chloride 1.5 (3) Vegetable oil 2.5 (4) Cetanol 4.5 (5) Liquid lanolin 2.0 (6) Polyoxyethylene Stearyl ether 1.5 (7) Glycerin 7.0 (8) Preservative, fragrance, pigment, PH adjuster appropriate amount (9) Extracted water extracted according to Example 1 80.5 Hair treatment according to Example 6 is moisturizing Because of its power, it maintained a moist feeling after the treatment, eliminated entanglement of the hair, and showed an extremely good effect in preventing damage.

<Example 7> A shampoo was produced using the extracted water obtained in Example 2. The composition is shown below. (1) Sodium polyoxyethylene lauryl ether sulfate 14.0% (2) Amidopropyl betaine laurate 4.0 (3) Coconut oil fatty acid diethanolamide 3.0 (4) Cationized cellulose 0.5 (5) Hydrolysis Collagen 0.2 (6) Ethylene glycol distearate 1.0 (7) Preservative, fragrance, coloring matter, PH regulator proper amount (8) Extracted water extracted according to Example 1 77.3 Shampoo according to Example 7 Extremely good moisturizing power, such as preventing creaking and tangling of hair and improving the finish after shampooing.

[0072]

The cosmetic containing the extract of the present invention and the extract extracted by converting the desalted or reduced salty deep sea water into a supercritical fluid is obtained in a very short time with a high quality and almost 100% extracted. As a result, an inexpensive cosmetic material without waste of raw materials was obtained. The cosmetic was rich in skin moisturizing power and exhibited an effect of improving dry skin roughness.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Hiroyuki Yoshida 2-9-1-10 Kasama, Kanazawa-shi, Ishikawa (72) Inventor Shinya Matsukawa 101-24-12 Mukojima, Sumida-ku, Tokyo Limited company Matsukawa Chemical F-term (reference) 4C083 AA111 AA112 AA122 AA161 AA162 AC072 AC102 AC122 AC182 AC242 AC392 AC442 AC582 AC642 AC692 AC712 AC782 AD042 AD092 AD132 AD352 AD432 AD492 AD512 CC01 CC04 CC05 CC33 CC38 DD23 DD31 EE06 EE07 EE10 EE10 EE12 EE10 EE12 EE12 EE12 EE12 EE12 EE12 EE12 EE10 EE12 EE10 EE12 EE12 EE10 EE12 EE10 EE12 EE29

Claims (21)

[Claims] 1. A cosmetic containing an extract extracted by immersing seeds in deep ocean water and converting it into a supercritical fluid. 2. A cosmetic containing an extract extracted by immersing seeds in desalinated or reduced-salt deep sea water and converting it into a supercritical fluid. 3. The supercritical fluid has a temperature of 374 ° C. or higher and a temperature of 21 ° C.
The cosmetic according to claim 1, wherein the cosmetic is produced under a condition of 8 atm or more. 4. A cosmetic containing an extract obtained by immersing a seed in deep ocean water and converting it into a subcritical fluid. 5. A cosmetic containing an extract extracted by immersing seeds in desalinated or reduced salty deep sea water and converting the seeds into a subcritical fluid. 6. The subcritical fluid has a temperature of 300 ° C. or more and 374
The cosmetic according to claim 4, wherein the cosmetic is produced under a condition of less than 150 ° C. and less than 218 atm. 7. The cosmetic according to claim 1, wherein the seed is immersed in desalinated or reduced salty deep sea water. 8. The makeup according to claim 1, wherein the seeds are immersed in desalinated or reduced salty deep sea water, and are germinated or rooted. Fees. 9. The cosmetic according to claim 1, wherein the seed is one or more of brown rice, broccoli, soybean, radish, and crete. 10. The seawater according to claim 2, wherein said desalinated or reduced salty deep seawater is immersed in rocks or minerals therein. The cosmetic according to item. 11. The rock or mineral as tourmaline (To)
ummaline), andesite, diorite, roseite, muscovite,
The cosmetic according to claim 10, wherein the cosmetic contains at least one of sericite. 12. A cosmetic containing the extract obtained from the first step of soaking seeds in deep ocean water and the second step of extracting the deep ocean water by converting it into a supercritical fluid. Manufacturing method. 13. Extraction obtained from a first step of immersing seeds in desalinated or reduced salty deep sea water, and a second step of extracting the deep sea water by converting it into a supercritical fluid. For producing cosmetics containing a product. 14. A cosmetic containing the extract obtained from the first step of soaking seeds in deep sea water and the second step of extracting the deep sea water by converting it into a subcritical fluid. Manufacturing method. 15. Extraction obtained from a first step of soaking seeds in desalinated or reduced salty deep sea water, and a second step of extracting the deep sea water by converting it into a subcritical fluid For producing cosmetics containing a product. 16. A first step of soaking seeds in desalinated or reduced salty first deep sea water, and after removing seeds obtained in the first step, the second deep sea water or Desalination, a second step of immersion in reduced salty deep sea water, and a third step of extracting the seeds and the second deep sea water obtained by the second step by converting the seeds and the second deep sea water into a supercritical fluid; And a method for producing a cosmetic containing the extract obtained from the above. 17. A first step of immersing seeds in desalted or reduced salty first deep sea water, and after removing the seeds obtained in the first step, the second deep sea water or Desalination, a second step of immersion in reduced salty deep sea water, and a third step of extracting the seeds and the second deep sea water obtained by the second step by converting them into subcritical fluids; And a method for producing a cosmetic containing the extract obtained from the above. 18. The first deep ocean water comprises:
The method for producing a cosmetic according to claim 16 or 17, wherein the cosmetic is impregnated with rock or mineral. 19. The rock or mineral is tourmaline (To)
ummaline), andesite, diorite, roseite, muscovite,
The method for producing a cosmetic according to any one of claims 16 to 18, wherein the cosmetic comprises at least one sericite. 20. The supercritical fluid has a temperature of 374 ° C. or higher,
The method for producing a cosmetic according to any one of claims 12, 13, 16, 18, and 19, wherein the cosmetic is produced under a condition of 18 atm or more. 21. The subcritical fluid has a temperature of 300.degree.
The gas is produced under a condition of less than 4 ° C. and 150 to 218 atm.
20. The method for producing a cosmetic according to any one of 8 and 19.