JP7590848B2 - Gel-type cleansing cosmetics - Google Patents

Description

The present invention relates to a gel-type cleansing cosmetic preparation. More specifically, the present invention relates to a water-based gel-type cleansing cosmetic preparation.

Makeup cosmetics and UV protection cosmetics are indispensable in modern society, as they make the skin look beautiful and protect it from external stimuli. However, these cosmetics contain large amounts of oily ingredients and inorganic pigments, which can clog the skin's pores and hinder metabolism. In addition, the cosmetics themselves gradually oxidize, so prolonged use can cause skin problems. For this reason, it is necessary to remove these cosmetics using a cleansing product once a day.

In recent years, the fresh feel that is characteristic of gels has become popular as a cleansing cosmetic, and cleansing gels account for a large share of the market. Water-based gels (see Patent Document 1), which contain water as the main component, and oil-based gels are known. Water-based gels may contain a small amount of dispersed oil, and although these can be washed off with water and have a refreshing feel without the need for double cleansing, some have poor cleansing effects and leave a sticky feeling after washing the face.

Oil-based gels blend well with makeup cosmetics, and come in emulsion types such as oil gels, W/O emulsion types, or O/W emulsion types. Oil gels and W/O emulsion types have strong cleansing power, but because the oil phase is the continuous phase, they cannot be washed with water, and so after use, the face must be wiped off with cotton or the like, and then washed with a facial cleanser or the like. O/W emulsion types (see Patent Document 2) can be washed off with water, but are not necessarily satisfactory for removing modern makeup cosmetics, and for this reason, there has been a demand for the development of cleansing cosmetics that are compatible with modern makeup cosmetics.

JP 2012-6862 A JP 2000-26238 A Patent No. 5253483 JP 2001-191076 A JP 2015-16441 A

It is said that beautiful skin starts with washing your face. When using cleansing cosmetics to maintain beautiful skin, the most important thing is to avoid rubbing when removing makeup and to minimize damage to the skin.
To provide a gel-type cleansing cosmetic composition which does not produce foam, i.e., does not require rubbing and causes little damage to the skin, yet has an excellent makeup removing effect and does not require double face washing.

As a result of extensive research, the inventors have found that if alkaline reduced water generated in the cathode chamber of a three-chamber electrolysis device is used as the main water ingredient in aqueous gel cleansing products, instead of the purified water that has been widely used in gel cleansing products up until now, the reducing power of the water will float and remove oxidized cosmetics without the need for added oil, and makeup can be removed without creating foam or scrubbing, causing less damage to the skin and providing excellent moisturizing power after cleansing.
In addition, it was discovered that the inclusion of hydrolyzed eggshell membrane components, in combination with the moisturizing effect of electrolytically reduced water, further enhances the moisturizing feeling after washing the face, prevents dryness after washing and moisturizes the skin, and that the electrolytically reduced water penetrates into the pores and treats dark spots on the skin, while the hydrolyzed eggshell membrane components not only moisturize the skin but also impart elasticity, firmness and luster, thereby increasing the skin-beautifying effect, which led to the completion of the present invention.

In addition, by mixing the alkaline reduced water produced in the cathode chamber of a three-chamber electrolysis device with the acidic oxidized water produced in the anode chamber of the three-chamber electrolysis device, the pH can be adjusted toward the acidic side, and the oxidized water also has the added effect of sterilizing, disinfecting, and regenerating the skin.

Based on the total weight of the gel-type cleansing cosmetic, the ratio of the three-chamber electrolyzed water is 40-90% by weight, the ratio of the hydrolyzed eggshell membrane component is 0.0001-2% by weight, the hydrolyzed eggshell membrane component is preferably an enzymatically decomposed eggshell membrane component and/or an alkaline decomposed eggshell membrane component, and further, even a small amount of surfactant content can improve the antibacterial properties of the skin.

The present invention relates to the following gel-type cleansing cosmetic preparations (1) to ( 7 ).
(1) A gel-type cleansing cosmetic preparation containing three-compartment electrolyzed water and a hydrolyzed eggshell membrane component as main ingredients , the three-compartment electrolyzed water being a mixture of alkaline three-compartment electrolyzed reduced water and acidic three-compartment electrolyzed oxidized water.
(2) The gel-type cleansing cosmetic according to (1) above, containing 40 to 90% by weight of the three-compartment electrolyzed water and 0.0001 to 2% by weight of the hydrolyzed eggshell membrane component.
(3) The gel-type cleansing cosmetic preparation according to (1) or (2) above, wherein the three-chamber electrolytic reduced water is reduced water generated in the cathode chamber by using a three-chamber electrolytic water generating device including an anode chamber having an anode electrode, a cathode chamber having a cathode electrode, an intermediate chamber provided between the anode chamber and the cathode chamber, a diaphragm disposed between the anode chamber and the intermediate chamber, and a diaphragm disposed between the cathode chamber and the intermediate chamber, by supplying water to each of the anode chamber and the cathode chamber, and by supplying an aqueous sodium chloride solution to the intermediate chamber and performing electrolysis.

( 4 ) The gel-type cleansing cosmetic according to any one of (1) to ( 3 ) above, wherein the hydrolyzed eggshell membrane component is an enzymatically decomposed eggshell membrane component and/or an alkali decomposed eggshell membrane component.
( 5 ) The gel-type cleansing cosmetic composition according to any one of (1) to ( 4 ) above, further comprising 2 to 10% by weight of a surfactant.
( 6 ) A gel-type cleansing cosmetic composition according to any one of (1) to ( 5 ) above, which does not contain mineral oil and monohydric alcohol.
( 7 ) The gel-type cleansing cosmetic preparation according to any one of (1) to ( 6 ) above, which has a pH of 5 to 7.

The gel-type cleansing cosmetic of the present invention uses alkaline reduced water, which is a three-chamber electrolytic water produced in the cathode chamber of a three-chamber electrolysis device, as its main raw material, and due to its reducing power, it can float and remove cosmetics even without containing oil, and the reduced water can penetrate into the pores to treat dark spots.
Cleansing cosmetics foam when rubbed, but the gel cosmetic of the present invention is a non-oil type that does not foam and can remove makeup without rubbing, which has never existed before, and causes less damage to the skin. Moreover, it has excellent cleansing power and can remove all types of cosmetics such as oil-based, water-based, and waterproof, and can even remove grease makeup used by celebrities.

As it is a water-based gel, there is no need for double cleansing, and the moisturizing power of electrolytic reduced water, which is gentle on sensitive skin, means that after wiping off the gel cleanser, your skin will be moisturized even without washing your face. Also, if you wash your face, it will leave you feeling refreshed without leaving any residue behind. Furthermore, by combining electrolytic water with hydrolyzed eggshell membrane ingredients, not only is the moisturizing power increased synergistically, but it also gives the skin firmness and shine, leaving it looking elastic and moisturized.

Furthermore, by mixing alkaline electrolytic reduced water with acidic oxidized water generated in the anode chamber of a three-chamber electrolysis device as the main raw water, it is possible to impart the sterilizing and disinfecting effects and skin regeneration effects of the oxidized water, and it is possible to improve the sterilizing properties of the skin even with a small amount of surfactant content. In addition, since the pH can be lowered by mixing acidic oxidized water, the storage stability is improved and irritation to the skin is reduced.
As described above, the gel-type cleansing cosmetic composition of the present invention is revolutionary in terms of its cleansing power and cosmetic effects, and since it does not contain mineral oil or monohydric alcohol, it does not adversely affect sensitive skin.

The gel-type cleansing cosmetic of the present invention is characterized in that it uses alkaline three-compartment electrolyzed reduced water, which is three-compartment electrolyzed water, as the main raw water of the aqueous gel, and contains a hydrolyzed eggshell membrane component.
The alkaline three-compartment electrolytic reduced water in the present invention means alkaline reduced water generated in the cathode chamber (negative electrode chamber) of a three-compartment electrolytic water generating device.

Three-chamber electrolytic water generators have been known for some time (see, for example, Patent Documents 3 to 5), and their basic structure consists of an intermediate chamber where purified water or pure water and supporting electrolytes such as sodium chloride dissolved in the raw water circulate and flow in and out, a cathode chamber where an ion exchange membrane and a cathode are arranged as partitions between the intermediate chamber and the cathode chamber, where positive ions are dissolved in the supplied raw water by electrolysis in the intermediate chamber to produce reduced water, and an anode chamber where an ion exchange membrane and an anode are arranged as partitions between the intermediate chamber and the anode chamber, where a supporting electrolyte is supplied to the intermediate chamber and electrolysis is performed in which negative ions are dissolved in the supplied raw water to produce oxidized water.

In a three-chamber electrolytic water generator, an electrolyte containing ion species appropriate for the purpose is added to the intermediate chamber, and only the ions electrolyzed in the intermediate chamber are drawn into the cathode chamber on the negative side for positive ions and the anode chamber on the positive side for negative ions. Only pure water is supplied to the cathode chamber and the anode chamber, and the ions generated by electrolysis of the electrolyte added to the intermediate chamber dissolve in the cathode chamber and the anode chamber, producing reduced water and oxidized water, which are functional electrolytic water, respectively.
In a three-chamber electrolyzed water generator, the increased electrolysis efficiency breaks the bonds in the water, lowers the surface tension, and increases permeability. Therefore, when sodium chloride is added as an electrolyte, the reduced water on the cathode side provides a high cleaning effect, while the oxidized water on the anode side provides a sterilizing effect at a low concentration. This effect varies depending on conditions such as pH, ion species, and water temperature.

In the gel-type cleansing cosmetic of the present invention, it is preferable to use alkaline three-chamber electrolytic reduced water mixed with acidic oxidized water generated in the anode chamber of a three-chamber electrolytic device as the main water raw material of the aqueous gel. Not only does the oxidized water impart bactericidal, disinfecting and skin regenerating effects, but the storage stability of the gel-type cleansing cosmetic is improved and irritation to the skin is reduced by lowering the overall pH. The weight ratio of oxidized water to be mixed with reduced water is 0 to 30 parts by weight per 100 parts by weight of reduced water, preferably 5 to 30 parts by weight, more preferably 10 to 30 parts by weight, and even more preferably 20 to 30 parts by weight.

Any of the conventionally known three-chamber electrolyzed water generating devices can be used to produce the three-chamber electrolyzed water used in the gel-type cleansing cosmetic of the present invention. Although not limited thereto, examples of three-chamber electrolyzed water generating devices that can be particularly used in the present invention include a three-chamber electrolyzed water generating system manufactured by Redox Co., Ltd., a three-chamber double-in electrolysis system manufactured by Redox Co., Ltd. [such as "kreski AQUA" (Type-α4000A, C, D)], the "Redox R25-15" manufactured by Redox Technology Co., Ltd., a three-chamber electrolyzed water generating system and a three-chamber double-in electrolysis system manufactured by Racine Co., Ltd., and a Multiple Pole system manufactured by Almado Co., Ltd. In particular, a three-chamber electrolyzed water using a Multiple Pole system manufactured by Almado Co., Ltd. is preferred.

It is preferable to adopt the concentration of sodium chloride, which is the supporting electrolyte to be supplied to the intermediate chamber of a three-chamber electrolytic water generator, that recommended for each three-chamber electrolytic water generator, depending on the size, electrolytic water generation capacity, structure, model type, etc. of the three-chamber electrolytic water generator.
It is preferable to adopt the amounts of water supplied to the anode chamber and the cathode chamber and the amount of aqueous sodium chloride solution supplied to the intermediate chamber that are recommended for each three-chamber electrolytic water generator, depending on the size, electrolytic water generation capacity, structure, and type of model of the three-chamber electrolytic water generator.

By performing electrolysis using the sodium chloride concentration recommended for each model, the amount of pure water supplied to the anode and cathode chambers, and the amount of aqueous sodium chloride solution supplied to the intermediate chamber, oxidized water with an acidic oxidizing effect and a pH of 3 to 7, especially 4 to 6.5, is generated in the anode chamber, and reduced water with an alkaline reducing effect and a pH of 10 to 12, especially 11 to 12, is generated in the cathode chamber.

Furthermore, as the electrolytic reduced water used in the gel-type cleansing cosmetic of the present invention, reduced water having an oxidation-reduction potential of −500 mV or less, preferably −600 mV or less, and particularly −750 mV or less when generated by a three-chamber electrolytic water generator is preferably used, since it has a large reducing power and can produce a gel-type cosmetic with excellent cleansing effect.
For example, if ultrapure water with an electrical conductivity of 0.3 μS/cm (20°C) is supplied to the anode chamber and cathode chamber of a three-chamber electrolytic water generator, and an aqueous sodium chloride solution is supplied to the intermediate to perform electrolysis, reduced water with a pH of 11.0 or higher and an oxidation-reduction potential of -600 mV or lower during generation can be produced in the cathode chamber.

This reduced water with a pH of 10 to 12 may be used as is without adjusting the pH to produce a gel-type cleansing cosmetic; however, in the present invention, in order to obtain a gel-type cleansing cosmetic with excellent storage stability and low irritation to the skin, it is preferable to mix acidic oxidized water with the reduced water and/or add a pH adjuster to adjust the pH of the gel-type cleansing cosmetic to 5 to 8, more preferably 5 to 7, and even more preferably 5.5 to 6.5.

Examples of pH adjusters include organic acids and their salts, such as citric acid and sodium citrate, sodium bicarbonate, potassium hydroxide, sodium dihydrogen phosphate, and sodium monohydrogen phosphate. In the gel-type cleansing cosmetic composition of the present invention, one or more of these can be used as necessary. In particular, citric acid and sodium citrate are preferably used.

The hydrolyzed eggshell membrane component used in the gel-type cleansing cosmetic of the present invention is obtained by hydrolyzing eggshell membrane or an eggshell membrane-containing powder in a liquid having a protein decomposing action, such as an acid aqueous solution, an alkaline aqueous solution, an alkaline organic solvent solution, or a liquid containing a protease. The eggshell membrane-containing powder used in the production of the hydrolyzed eggshell membrane component is not particularly limited as long as it is a powder containing at least eggshell membrane, and the term "powder" refers to any powder regardless of particle size. A raw material in the form of peeled eggshell membrane or eggshell with eggshell membrane attached thereto may be powdered by any known method. A commercially available eggshell membrane-containing powder may also be used.

The hydrolyzed eggshell membrane component used in the present invention may be a hydrolyzed eggshell membrane component produced by any method, but an enzymatically decomposed eggshell membrane component with a pH close to neutral or an alkali-decomposed eggshell membrane component with a pH close to alkaline is preferred, and a mixture of an enzymatically decomposed eggshell membrane component and an alkali-decomposed eggshell membrane component is also preferred.

The gel-type cleansing cosmetic of the present invention preferably contains 40 to 90% by weight of three-chamber electrolyzed water and 0.0001 to 2% by weight of hydrolyzed eggshell membrane components based on the total weight of the gel-type cleansing cosmetic, more preferably 60 to 75% by weight of three-chamber electrolyzed water and 0.001 to 1% by weight of hydrolyzed eggshell membrane components, and even more preferably contains around 70% by weight of three-chamber electrolyzed water, based on the total weight of the gel-type cleansing cosmetic, in order to enhance the cleansing and moisturizing power that can lift and remove cosmetics and penetrate into pores to treat dark spots, as well as the effect of giving firmness and luster to the skin.

The gel-type cleansing cosmetic of the present invention may contain, in addition to the above-mentioned components, other components that have been conventionally used in gel-type cleansing cosmetic compositions and beauty serums, as necessary. Examples of other components that may be contained as necessary include moisturizers, binders, surfactants, medicinal and cosmetic ingredients, essential oils, fruit extracts, fruit juices, etc.
The gel-type cleansing cosmetic composition of the present invention preferably does not contain mineral oil or monohydric alcohol so as not to affect sensitive skin, and the content of a surfactant having bactericidal properties is preferably kept to a minimum of 2 to 10% by weight.

Moisturizing agents and binders include amino acids and derivatives thereof such as alanine, serine, leucine, isoleucine, threonine, glycine, proline, hydroxyproline, glucosamine, and theanine; peptides such as collagen, collagen peptides, and gelatin; polyhydric alcohols such as glycerin, 1,3-butylene glycol, dipropylene glycol, dipropylene glycol-14 polyglycerin-2 ether, pentylene glycol, and polyethylene glycol; sugar alcohols such as sorbitol and glyceryl glucoside; mucopolysaccharides such as propylene glycol hyaluronate, heparin, and chondroitin; and ingredients such as lactic acid, sodium pyrrolidone carboxylate, and polyquaternium-51.

The surfactant is not particularly limited as long as it is one that is commonly used in cosmetics, but preferred are PEG-7 glyceryl coconut oil fatty acid, PPG-14 diglyceryl, betaine, lecithin, hydrogenated lecithin, etc., and other medicinal beauty ingredients include, for example, various plant extracts such as vitamin C, collagen, squalane, hyaluronic acid, hyaluronic acid derivatives, niacin, placenta extract, chitin, chitosan, licorice root extract, and aloe vera juice.

Examples of essential oils include fruit oils, peel oils, flower oils, and leaf oils, such as rosehip fruit oil, lemon peel oil, grapefruit peel oil, yuzu peel oil, rose flower oil, salvia oil, chamomile flower oil, juniper oil, and marjoram leaf oil, which have moisturizing and skin-texturizing effects.
Fruit extracts and juices include those made from orange, lemon, grapefruit, lime, apple, jujube, hawthorn, etc., and are effective in exfoliating skin.

The method for producing the gel-type cleansing cosmetic of the present invention is not particularly limited. Any method may be used as long as it is capable of producing a gel-type cosmetic in which the hydrolyzed eggshell membrane component and one or more of the above-mentioned components further blended therewith as necessary are uniformly mixed in a gelled product based on alkaline reduced water generated in the cathode chamber of a three-chamber electrolyzed water generator. In general, the gel-type cosmetic can be produced by blending electrolyzed water, the hydrolyzed eggshell membrane component, a moisturizing agent, a binder, and other components as necessary simultaneously or in any order to prepare an aqueous composition, and thoroughly stirring and mixing the components in the aqueous composition until they are uniformly mixed and gelled.

The present invention will be described in detail below with reference to examples, but the present invention is not limited to the following examples in any way.
Example 1
Reduced water (pH 11 at 25° C.) produced in the cathode chamber of a three-chamber electrolysis device Multiple Pole System manufactured by Almado Co., Ltd. was mixed with oxidized water (pH 5 at 25° C.) produced in the anode chamber in a ratio of 8:2 to obtain 73.5% by weight of electrolyzed water. 0.012% by weight of an enzymatically hydrolyzed eggshell membrane component (manufactured by Almado Co., Ltd.) and the components shown in Table 1 below were blended in the amounts shown in Table 1 and mixed until uniform at 25° C. to produce a gel-type cleansing cosmetic product with a pH of 6 based on reduced water.

[Table 1] Composition of gel-type cleansing cosmetic composition Component Amount (wt%)
Electrolyzed water 73.5
Hydrolyzed eggshell membrane component 0.012
Coconut oil fatty acid PEG-7 glyceryl 9.5
Dipropylene glycol (DPG) 6.5
DPG-14 Polyglycerin-2 Ether 5.5
Pentylene glycol 4.5
Various trace components total 0.488
Total 100

(Note: Trace ingredients include various amino acids, fruit extracts, fruit oils, plant extracts, pH adjusters, etc., and all trace ingredients are contained at less than 0.1% by weight.)

Comparative Example 1
In Example 1, 73.5 wt% purified water was used instead of 73.5 wt% electrolyzed water, and the other formulation was the same as in Example 1 to produce a gel-type cleansing cosmetic containing hydrolyzed eggshell membrane components and based on purified water.

[Evaluation Method 1]
Fifteen women wearing makeup were used as panelists, and the panelists were asked to apply the gel-type cleansing cosmetic compositions of Example 1 and Comparative Example 1 separately to the left and right sides of their faces, without being informed of which gel-type cleansing cosmetic composition they were using. Each gel-type cleansing cosmetic composition was evaluated according to the following evaluation criteria.
The total score of the 15 people who evaluated the product based on the following criteria was calculated, and the results are shown in Table 2.

[Evaluation Criteria]
(1) Blending with makeup 2 points: Blends with makeup quickly 1 point: Takes some time to blend with makeup 0 point: Blends with makeup significantly slower (2) Makeup removal 2 points: Removes makeup well 1 point: Removes makeup a little 0 point: Does not feel like makeup is removed (3) Cleansing effect After 30 seconds of use, the product was lightly wiped off with cotton and the makeup removal was evaluated.
2 points: Makeup was removed sufficiently 1 point: Makeup was mostly removed 0 point: I felt that the makeup was not removed well

(4) Stickiness upon rinsing The product was rinsed off 30 seconds after use, and the stickiness felt at that time was evaluated.
2 points: no stickiness felt 1 point: some stickiness felt 0 point: very sticky felt (5) Moisturizing sensation immediately after use The moisturizing sensation was evaluated after rinsing 30 seconds after use and drying with a towel.
2 points: Moisturizing feeling is felt 1 point: Slightly moisturizing feeling is felt 0 point: No moisturizing feeling is felt (6) Darkening of pores The degree of darkening of pores was compared after rinsing 30 seconds after application.
2 points: The cleansing product in Example 1 caused less dark spots. 1 point: No difference between the two.
0 points: The cleansing product of Comparative Example 1 caused less dark spots. (7) Skin condition the next morning (firmness and texture)
Thirty seconds after application, the skin was washed off and towel-dried. The skin condition the following morning was compared without any skin care using lotion or milky lotion.
2 points: The cleansing agent of Example 1 is in a better condition for the skin. 1 point: No difference between the two. 0 point: The cleansing agent of Comparative Example 1 is in a better condition for the skin.

The results in Table 2 show that the gel-type cleansing cosmetic of Example 1, which uses three-chamber electrolytic reduced water as its main ingredient, improves all of the cleansing effects due to the bactericidal, disinfecting, and cleansing power of the electrolytic water. In addition, the combined use of reduced water, which has a moisturizing effect, and hydrolyzed eggshell membrane ingredients synergistically improves moisturizing power and skin condition in particular, with the reduced water penetrating into the pores to treat dark spots, and the hydrolyzed eggshell membrane ingredients acting on the pores to improve skin condition.

Comparative Example 2
In Example 1, the hydrolyzed eggshell membrane component was not added, but the other components were the same as in Example 1, and a gel-type cleansing cosmetic was produced using electrolyzed water as a base that did not contain a hydrolyzed eggshell membrane component.
[Evaluation Method 2]
Three days after carrying out Evaluation Method 1, the same 15 female panelists as in Evaluation Method 1, who were wearing makeup, were asked to apply each of the gel-type cleansing cosmetics of Example 1 and Comparative Example 2 to the left and right sides of their faces, respectively, without informing the panelists which gel-type cleansing cosmetic they were using. Each gel-type cleansing cosmetic was evaluated according to the above-mentioned evaluation criteria (5) as in Evaluation Method 1, and the following evaluation criteria (6) and (7), and the total score of the 15 panelists was calculated. The results are shown in Table 3.

(6) Darkening of pores After rinsing 30 seconds after use, the degree of darkening of pores was compared.
2 points: The cleansing product in Example 1 caused less dark spots. 1 point: No difference between the two.
0 points: The cleansing product of Comparative Example 2 caused less dark spots. (7) Skin condition the next morning (firmness and texture)
Thirty seconds after application, the skin was washed off and towel-dried. The skin condition the following morning was compared without any skin care using lotion or milky lotion.
2 points: The cleansing agent of Example 1 is in a better condition for the skin. 1 point: No difference between the two. 0 point: The cleansing agent of Comparative Example 2 is in a better condition for the skin.

From Table 2, it was confirmed that the gel-type cleansing cosmetic of Example 1 has improved cleaning effects in all respects due to the bactericidal, antibacterial, and cleaning power of electrolytic water. Here, the synergistic effect of electrolytic water and hydrolyzed eggshell membrane component was examined. Since reduced water penetrates into pores to care for dark spots, there was not much change in dark spots between Example 1 and Comparative Example 2. On the other hand, the results of Example 1 and Comparative Examples 1 and 2 confirmed the synergistic effect of electrolytic water and hydrolyzed eggshell membrane component in terms of moisturizing feeling and skin condition. In particular, Example 1 is superior in terms of skin condition, which is explained by the fact that reduced water penetrates into pores and hydrolyzed eggshell membrane component acts on pores to improve skin condition.

Claims (7)

The gel-type cleansing cosmetic contains three-chamber electrolyzed water as main ingredients and a hydrolyzed eggshell membrane component, the three-chamber electrolyzed water being a mixture of alkaline three-chamber electrolyzed reduced water and acidic three-chamber electrolyzed oxidized water. The gel-type cleansing cosmetic according to claim 1 contains 40 to 90% by weight of the three-chamber electrolyzed water and 0.0001 to 2% by weight of the hydrolyzed eggshell membrane component. 3. The gel-type cleansing cosmetic preparation according to claim 1 or 2, wherein the three-chamber electrolyzed reduced water is reduced water generated in the cathode chamber by using a three-chamber electrolyzed water generating device comprising an anode chamber having an anode electrode, a cathode chamber having a cathode electrode, an intermediate chamber provided between the anode chamber and the cathode chamber, a diaphragm disposed between the anode chamber and the intermediate chamber, and a diaphragm disposed between the cathode chamber and the intermediate chamber, supplying water to each of the anode chamber and the cathode chamber, and supplying an aqueous sodium chloride solution to the intermediate chamber to perform electrolysis. 4. The gel-type cleansing cosmetic preparation according to claim 1 , wherein the hydrolyzed eggshell membrane component is an enzymatically decomposed eggshell membrane component and/or an alkali decomposed eggshell membrane component. 5. The gel-type cleansing cosmetic composition according to claim 1, further comprising 2 to 10% by weight of a surfactant. 6. The gel-type cleansing cosmetic preparation according to claim 1, which contains no mineral oil and no monohydric alcohol. 7. The gel-type cleansing cosmetic preparation according to claim 1, which has a pH of 5 to 7.