JP2015016441A - Electrolytic water for cosmetics - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide electrolytic water for cosmetics which can favorably infiltrate skins and can yield moist softness.SOLUTION: An intermediate liquid is prepared by dissolving 30 g of potassium sulfate into 500 mL of a body of purified water for cosmetics (manufactured by Organo Corporation) provided as raw water, and after a body of acidic electrolytic water exhibiting a pH of 2.63 at 25°C on the oxidation side (anode chamber) has been obtained by electrolyzing this liquid within a triple chamber-style electrolytic apparatus, a body of electrolytic water for cosmetics targeting cosmetic applications is constituted by including the same.

Description

  The present invention relates to an electrolyzed water for cosmetics that uses electrolyzed water obtained from electrolysis of water for cosmetics, and relates to an electrolyzed water for cosmetics that has a good penetration into the skin and has a moist feeling.

  Conventionally, electrolyzed water obtained by electrolysis of water is said to have high permeability to skin because of small water molecules (clusters). In view of this feature, there are reports on the use of electrolyzed water as skin care, cosmetics, and the like, for example, in Patent Documents 1 and 2 below.

  On the other hand, in cosmetics, it is generally said that the addition of a thickening agent gives the skin a feeling of glutinousness (the skin is soft and stretchy). As the thickener, for example, carboxymethylcellulose, sodium alginate, methylcellulose, hydroxyethylcellulose, polyvinylpyrrolidone, polyvinyl alcohol, sodium polyacrylate, xanthan gum, tragacanth gum, guar gum, seaweed and the like are used. Examples of cosmetics comprising a thickener are proposed in the following Patent Documents 3 and 4 and the like.

JP 2005-281177 A JP 2007-7591 A JP 2013-53090 A JP 2013-112679 A

  Recently, it has been pointed out that hydroxy groups (also referred to as hydroxyl groups, hydroxyl groups, etc.), which are functional groups, create viscosity and give the skin a feeling of stickiness. In view of the structure of the compound described above as a thickener, it can be seen that it has a hydroxy group. Therefore, in addition to the feature that the permeability to the skin is high as electrolyzed water, if electrolyzed water in which a substance containing a hydroxyl group that contributes to the feeling of moistness is dissolved can be obtained, the penetration into the skin is good. There is a possibility that it can be applied as water for cosmetics that gives a feeling of stickiness. Furthermore, since various kinds of cosmetics can be constituted by using electrolyzed water instead of conventional purified water, the application expansion of electrolyzed water is highly expected.

  The present invention has been proposed in view of the above circumstances, and an object of the present invention is to provide electrolyzed water for cosmetics that creates new electrolyzed water, has good penetration into the skin, and has a feeling of stickiness.

  In order to achieve the above object, the present invention provides an electrolyzed water for cosmetics for cosmetic use, which comprises acid electrolyzed water obtained by electrolysis using purified water or pure water as raw water and an inorganic substance as a supporting electrolyte. The acidic electrolyzed water has a pH of 2.0 to 7.0, and a substance containing a hydroxy group as a functional group is dissolved.

  Furthermore, the inorganic substance is a salt of any one of potassium sulfate, potassium hydrogen carbonate, potassium dihydrogen phosphate, sodium sulfate, sodium hydrogen carbonate or sodium dihydrogen phosphate.

  The electrolyzed water for cosmetics according to the present invention is used for cosmetics, has a pH of 2.0 to 7.0, and includes acidic electrolyzed water in which a substance containing a hydroxy group as a functional group is dissolved. Yes. Therefore, since it is electrolyzed water, water with high permeability to the skin can be obtained. Moreover, since the substance which contains a hydroxyl group as a functional group is melt | dissolving, it can also give a skin feeling. And since a sticky feeling can be brought to the deep part of the skin which made it infiltrate, a sticky feeling can be provided continuously and effectively.

  In particular, when the inorganic substance is a salt of any one of potassium sulfate, potassium hydrogen carbonate, potassium dihydrogen phosphate, sodium sulfate, sodium hydrogen carbonate, or sodium dihydrogen phosphate, hydroxy having a pH of 2.0 to 7.0. Acidic electrolyzed water in which a substance containing a group as a functional group is dissolved can be easily controlled at a current value during electrolysis and can be obtained at a stable flow rate. Therefore, the electrolyzed water for cosmetics having the above-described effects can be obtained easily and cost-effectively.

  Hereinafter, an embodiment for generating electrolyzed water for cosmetics according to the present invention will be described. This embodiment is merely an example embodying the configuration of the present invention, and various design changes can be made without departing from the matters described in the claims.

  In general, an electrolyzer for generating electrolyzed water is divided into three chambers, ie, a one-chamber type without a diaphragm, a two-chamber type divided into two tanks by one diaphragm, and an anode chamber, an intermediate chamber, and a cathode chamber. Roughly classified into room types. The electrolyzed water for cosmetics according to the present invention according to the present invention is generated from a two-chamber type or three-chamber type electrolyzer having a diaphragm other than a diaphragmless electrolyzer without a diaphragm.

  Purified water or pure water is used as raw water. Purified water refers to water that meets the standards for purified water specified by the Japanese Pharmacopoeia. For example, “ordinary water” is used, and it is manufactured by a system using ion exchange, distillation, reverse osmosis, or ultrafiltration that can remove microorganisms and substances having a molecular weight of about 6000 or more, alone or in combination through necessary pretreatment. Purified water can be used. Pure water can be used as long as it has a conductivity of 100 μS / cm or less at 25 ° C., for example. In the present invention, it is preferable to employ pure water having an electric conductivity of 10 μS / cm or less at 25 ° C. This is because electrolyzed water of small water molecules (clusters) can be obtained by electrolysis, and the feeling of stickiness due to hydroxy groups is easily exhibited.

The electrolyzed water for cosmetics according to the present invention is used for cosmetics, and contains acidic electrolyzed water produced using an inorganic substance as a supporting electrolyte. The inorganic substance (salt) as the supporting electrolyte may be employed as long as a substance containing a hydroxy group as a functional group is dissolved in acidic electrolyzed water obtained by electrolysis. In particular, an alkali metal salt that allows a substance containing a hydroxy group as a functional group to be dissolved in acidic electrolyzed water is preferably employed as the supporting electrolyte. This is because the acidic electrolyzed water constituting the electrolyzed water for cosmetics according to the present invention can be obtained at a stable flow rate while easily controlling the current value during electrolysis. Specific examples of such alkali metal salts include potassium bicarbonate [KHCO ₃ ], sodium bicarbonate [NaHCO ₃ ], potassium dihydrogen phosphate [KH ₂ PO ₄ ], and sodium dihydrogen phosphate [NaH ₂ PO _4. ], potassium sulfate [K ₂ SO _4], it can be exemplified such as sodium sulfate [K ₂ SO _4]. Moreover, the acidic electrolyzed water obtained by electrolysis is pH 2.0-7.0. When constituting the electrolyzed water for cosmetics according to the present invention, alkaline electrolyzed water obtained by electrolysis, other purified water or pure water may be added to the above acidic electrolyzed water, and the above acidic electrolyzed water may be constructed. You may comprise only electrolyzed water. In this embodiment, the electrolyzed water obtained in the anode chamber of the electrolyzer is referred to as acidic electrolyzed water, and the electrolyzed water obtained in the cathode chamber is referred to as alkaline electrolyzed water.

  Hereinafter, some structural examples (Examples) of electrolyzed water for cosmetics according to the present invention will be described. In this configuration example, a three-chamber electrolyzed water generating apparatus (hereinafter referred to as “the present apparatus”) is used. This device has a cation exchange membrane and a cathode as a partition between the intermediate chamber where purified water and pure water, and an intermediate chamber in which the supporting electrolyte dissolved in the raw water circulates and flows in and out. The anion exchange membrane and the anode are arranged as a partition between the cathode chamber in which the cation of the supporting electrolyte is dissolved, and the anode chamber in which the anion of the supporting electrolyte is dissolved. . This device includes a constant voltage circuit of 150 W or 300 W, and an operable range of current values is 3A to 25A.

  Using this device, the raw water in which the supporting electrolyte is dissolved is circulated in the intermediate chamber, electrolysis is performed, and the raw water is poured into the cathode chamber and the anode chamber, respectively. Water can be produced respectively.

Example 1
Example 1 is an example of cosmetic electrolyzed water for cosmetic use that is obtained by using acid sulfate having a pH of 2.63 using potassium sulfate [K ₂ SO ₄ ] as a supporting electrolyte.

  The electrolyzed water for cosmetics of Example 1 employs cosmetic purified water (manufactured by Organo Co., Ltd.) as raw water, and 30 g of potassium sulfate is dissolved in 500 ml of this cosmetic purified water to prepare an intermediate solution. Was electrolyzed in a three-chamber electrolyzer. The voltage at the time of electrolysis was 14.3 V, and the current value was 7.2 A at the start and 8.5 A after 30 minutes. The reduction side (cathode chamber) has a pH of 11.65, the flow rate is 1.5 L / M (1.5 liters per minute), the oxidation side (anode chamber) has a pH of 2.63, and the flow rate is 1.5 L / M (1. 5 liters). The intermediate solution had a pH of 7 at the start and a pH of 1.3 after 30 minutes. Acid electrolyzed water having a pH of 2.63 could be obtained on the oxidation side (anode chamber) without causing problems such as stopping electrolysis. In addition, the value of pH is a thing of 25 degreeC.

(Example 2)
Example 2 is an example of cosmetic electrolyzed water for cosmetic use, obtained by using acidic hydrogenated water having a pH of 6.26 using sodium bicarbonate [NaHCO ₃ ] as a supporting electrolyte.

  The electrolyzed water for cosmetics of Example 2 employs purified cosmetic water (manufactured by Organo Co., Ltd.) as raw water, and about 65 g of sodium bicarbonate is dissolved in 500 ml of this purified cosmetic water to produce an intermediate solution. This was electrolyzed with a three-chamber electrolyzer. The voltage at the time of electrolysis was 16.2 V, the current value was 6.5 A at the start, and 8.1 A after 15 minutes. The reduction side (cathode chamber) had a pH of 11.28 (26.5 ° C.), the flow rate was 1.0 L / M, the oxidation side (anode chamber) had a pH of 6.26, and the flow rate was 0.4 L / M. The intermediate solution had a pH of 8.20 at the start and a pH of 8.62 after 15 minutes. It was possible to obtain acidic electrolyzed water having a pH of 6.26 on the oxidation side (anode chamber) without causing problems such as stopping the electrolysis. In addition, it is a thing of 25 degreeC except the pH (26.5 degreeC) of an anode chamber.

Example 3
Example 3 is an example of electrolyzed water for cosmetics for cosmetic use, obtained by obtaining acidic electrolyzed water having pH 3.06 using sodium dihydrogen phosphate [NaH ₂ PO ₄ ] as a supporting electrolyte. .

  The electrolyzed water for cosmetics of Example 3 uses cosmetic purified water (manufactured by Organo Corp.) as raw water, and 150 g of sodium dihydrogen phosphate is dissolved in 500 ml of this cosmetic purified water to produce an intermediate solution. This was electrolyzed with a three-chamber electrolyzer. The voltage at the time of electrolysis was 16.5 V, and the current value was 4.1 A at the start and 6.2 A after 30 minutes. The reduction side (cathode chamber) had a pH of 11.2 (26.5 ° C.), the flow rate was 1.0 L / M, the oxidation side (anode chamber) had a pH of 3.06, and the flow rate was 0.4 L / M. The intermediate solution had a pH of 3.95 at the start and a pH of 3.65 after 15 minutes. Acid electrolyzed water having a pH of 3.06 could be obtained on the oxidation side (anode chamber) without causing any troubles such as stopping electrolysis. In addition, it is a thing of 25 degreeC except the pH (26.5 degreeC) of an anode chamber.

  The sensory test was implemented with the electrolytic water for cosmetics of Examples 1-3 mentioned above. Firstly, 30 male and female adults use it, and the cosmetic electrolyzed water containing the purified water for makeup (manufactured by Organo Corporation) and the acidic electrolyzed water obtained using potassium sulfate of Example 1 as the supporting electrolyte; Then, we compared the superiority and inferiority of the feeling of feeling on the skin (the skin is soft and stretchy). The results are shown in [Table 1] below. In addition, as Comparative Example 1, in order to remove the so-called placebo effect, electrolyzed purified water for cosmetics (manufactured by Organo Co., Ltd.) using sodium chloride as a supporting electrolyte, and electrolyzed water containing the resulting acidic electrolyzed water (Hereinafter referred to as “comparative electrolyzed water”), the comparative electrolyzed water and the purified water for cosmetics were compared in terms of the superiority and inferiority of the mochi feeling on the resulting skin.

  From [Table 1], it can be seen that a large number of people felt that the electrolyzed water for cosmetics of Example 1 was superior to the purified water for cosmetics and had a feeling of sticking to the skin. On the other hand, it was not recognized that the comparative example electrolyzed water was superior to the cosmetic purified water. In other words, in order to obtain a feeling of sticking to the skin, a substance containing a hydroxyl group as a functional group dissolves in the electrolyzed water without using a placebo of finely electrolyzed water in the cluster (it is not sufficient that it is simply electrolyzed water). It is understood that it is necessary.

  Moreover, compared with the electrolysis water for cosmetics containing the acidic electrolysis water obtained by having 30 male and female adults use the potassium sulfate of Example 1 as a supporting electrolyte, the sodium hydrogencarbonate of Example 2 is used as a supporting electrolyte. The electrolyzed water for cosmetics containing the obtained acidic electrolyzed water and the electrolyzed water for cosmetics containing the acidic electrolyzed water obtained using sodium dihydrogen phosphate of Example 3 as the supporting electrolyte are excellent in the feeling of being moisturized on the skin. We compared whether or not. The results are shown in [Table 2] below.

  From [Table 2], it is understood that in Example 1 and Example 2, it is difficult to say which is superior in the feeling of stickiness on the skin, that is, the electrolyzed water for cosmetics that gives the same feeling of feeling. In addition, it can be seen that the electrolytic water for cosmetics of Example 3 has a large number of people who feel that the electrolytic water for cosmetics of Example 1 is superior to the purified water for cosmetics. . The reason why cosmetic electrolyzed water containing acidic electrolyzed water obtained using sodium dihydrogen phosphate as the supporting electrolyte is most excellent for the skin is because of the degree of ionization or the number of hydroxy groups in the molecule. (In acidic electrolyzed water, dihydrogen phosphate ion contains two hydroxy groups in the molecule, and hydrogen carbonate ion and hydrogen sulfate ion contain one hydroxy group in the molecule). And the acidic electrolyzed water which comprises the electrolyzed water for cosmetics of Examples 1-3 is pH 2.0-7.0, Comprising: It is common by the characteristic that the substance which contains a hydroxyl group as a functional group is melt | dissolving. ing.

  From the above, in view of the fact that the electrolyzed water for cosmetics of Examples 1 to 3 is superior in at least a moist feeling of skin compared to purified water for cosmetics and water molecules (clusters) that are characteristic of electrolyzed water are small. It is expected that it can penetrate into the deep part of the water and can continuously and effectively impart that feeling. Therefore, the electrolyzed water for cosmetics of Examples 1 to 3 can not only be used as a cosmetic, but also, for example, the cosmetic according to the present invention can be used instead of the conventional purified water when constituting the cosmetic. Various cosmetics can also be constituted by using the electrolyzed water for use.

  As various cosmetics, for example, foundation, lipstick, blusher, eye makeup, funny or body powder, makeup agent as makeup remover, body powder, nail enamel, manicure or pedicure agent as remover (remover) , Shampoo, perm, hair styling, hair bleach, hair color, hair care preparation as hair conditioner, hair growth stimulant or hair growth inhibitor, shaving agent, hair remover・ Hair removal agent or hair removal auxiliary agent as a hair removal agent, antiperspirant or body deodorant, formulation to be in direct contact with skin to protect against external effects as sunscreen agent, bathing agent, whitening cosmetic moisturizer , Skin roughening cosmetics, antioxidant cosmetics, wrinkle / sag improvement cosmetics, wound healing The electrolyzed water for cosmetics according to the present invention is used as water to replace purified water for constituting cell-use cosmetics, cosmetics for acne, cosmetics for sensitive skin, skin care agents as anti-aging cosmetics, etc. Applicable.

  As mentioned above, although embodiment of this invention was illustrated and explained in full detail, as above-mentioned, this invention is not limited to the said embodiment. Various design changes can be made without departing from the scope of the claims. That is, the electrolyzed water for cosmetics according to the present invention includes various substances (compounds) in addition to the inorganic substances described above as long as the substance containing a hydroxy group as a functional group is dissolved in the acidic electrolyzed water obtained by electrolysis. ) Can be employed as the supporting electrolyte.

  Furthermore, the electrolyzed water for cosmetics according to the present invention has an alkaline electrolysis obtained by electrolysis in acidic electrolyzed water having a pH of 2.0 to 7.0 and containing a substance containing a hydroxy group as a functional group. Water, other purified water or pure water may be added, or only acidic electrolyzed water as described above may be used. It is included in the range.

Claims (2)

An electrolyzed water for cosmetics for cosmetic use comprising purified electrolyzed water or pure water as raw water and acidic electrolyzed water obtained by electrolysis using an inorganic substance as a supporting electrolyte,
The acidic electrolyzed water has a pH of 2.0 to 7.0, and a substance containing a hydroxy group as a functional group is dissolved therein.   2. The cosmetic according to claim 1, wherein the inorganic substance is a salt of any one of potassium sulfate, potassium hydrogen carbonate, potassium dihydrogen phosphate, sodium sulfate, sodium hydrogen carbonate or sodium dihydrogen phosphate. Electrolyzed water.