JP6325300B2 - Hair dye composition, hair dyeing method and hair dye article - Google Patents

Description

The present invention relates to a hair dye composition, a hair dyeing method, and a hair dye article.

Known hair dye compositions include hair dyes, decolorants, decolorizers, and decolorizers / decolorizers. Generally, the hair dye composition is prepared from two or more kinds of agents. Since liquid and cream hair dye compositions are difficult to apply uniformly to hair, it has been proposed to use foam hair dyes (Patent Documents 1 to 4).

Patent Document 1 discloses that a first agent and a second agent are simultaneously discharged from each aerosol container using a container that integrally contains an aerosol container filled with a first agent and an aerosol container filled with a second agent. To obtain a foamy hair dye.

Patent Document 2 describes that a foam hair dye is obtained using a former container such as a pump-type former container or a squeeze-type former container.

Patent Document 3 describes a hair dyeing method using a foamy hair dye using a flexible porous material.

Patent Document 4 describes obtaining a foamy hair dye by shaking a container with a lid containing a plurality of agents.

JP-A-10-287534 JP 2004-339216 A JP 2010-215576 A JP 2011-93819 A

Conventionally, a hair dye composition used by mixing a plurality of agents such as a hair dye, a decoloring agent, a decoloring agent, and a decoloring / decoloring agent at the time of use is in the form of powder, liquid, cream, jelly, etc. It is provided in a dosage form, and it was applied to the hair after discharging a predetermined amount of a plurality of agents to an applicator or tray, etc., but it is difficult to apply these mixed solutions to the hair evenly. In particular, application to the root and back of the hair required considerable skill and time. In order to solve these problems, in recent years, hair dye compositions in which the liquid mixture is in the form of a foam are provided (Patent Documents 1 to 4).

There are many ways to provide a foam dosage form. For example, a two-component foam hair dye using a propellant as in Patent Document 1 can provide a foam having a uniform mixed solution and a very good quality, and can be easily applied. However, the provision of multi-component foam hair dyes of 3 or more agents is that the container becomes large due to the mechanism that uses the propellant, so that the container may be difficult to hold and may be difficult to apply, resulting in loss of convenience. There is. Also, when applying to the hair, the foam must be discharged each time, so the container may slip off from the structure that discharges the foam with the glove soiled with the hair dye composition, and the surrounding area may be soiled .

As a method for providing a foamed dosage form that does not use a propellant, there is a method using a so-called non-aerosol foamer container as in Patent Document 2, which can be used in a multi-drug type and is easily a foamed agent. A mold can be provided. However, since the viscosity of the mixed solution must be set low due to the characteristics of the non-aerosol foamer container, if the foam collapses after application to the hair, the mixed solution may drip from the hair. Also, when applying to the hair, foam must be discharged each time, and since the amount of foam hair dye made at one time is small, it takes some time to apply to the entire hair. , Hair decoloration unevenness and hair dyeing unevenness may occur. In order to shorten the application time, if an attempt is made to apply the foamy hair dye required for one treatment before applying to the hair, the amount of foam to be discharged depends on the structure of the non-aerosol foamer container. It is difficult to prepare before applying the foamy hair dye necessary for one treatment because the foam that has been ejected must be repeated many times. is there. Furthermore, due to the characteristics of the non-aerosol foamer container, when an insoluble or hardly soluble powder is present in the mixed solution, clogging occurs and bubbles cannot be discharged. In addition, the container may slide down from the structure in which the container is held with gloves stained with the hair dye composition and the foam is discharged, and the surrounding area may be stained.

As a method for providing a foamed dosage form that does not use a propellant or a special container, a mixed liquid as in Patent Document 3 is made into a foam with a “flexible porous material”, and the “flexible porous material” A method of applying directly to hair has been proposed. However, in the method of providing a foamy dosage form by “flexible porous material”, it is only possible to make a foamy hair dye little by little with a small amount of hair dye composition, Since it takes a certain amount of time, hair decoloration unevenness and hair dyeing unevenness may occur. Also, holding the container with gloves soiled with the hair dye composition, the “flexible porous material” may be impregnated with the mixed liquid, and the container may slip off from the foam structure and stain the periphery.

As a method of providing a foamy dosage form that does not use a propellant, special container, or instrument, a method of directly applying foamed foam to a hair by shaking a container with a lid of Patent Document 4 has been proposed. . However, it is necessary to shake a very large container up and down several times when performing hair dyeing operations, and there is variation in the degree of shaking for each user, so the agent in the foamy hair dye obtained May become non-uniform and may cause hair decoloration unevenness or hair dyeing unevenness. In addition, when the container is shaken weakly or depending on the dosage form of a plurality of agents, it becomes an emulsion or gel-like hair dye composition, or the total amount of the hair dye composition does not become foamy and the bottom of the container. In many cases, the liquid hair dye composition is accumulated, and even if the container is shaken again, there is a problem that the hair dye composition does not become foamy.

As shown in Patent Documents 1 to 4, a foamed hair dye composition has been proposed as a technique for pursuing easy hair dyeing. Regardless of the hair dye, general cosmetics use a method in which a large amount of foam is used at once (for example, a method using a foaming net). However, although there are the methods shown in Patent Documents 1 to 4 for foaming with a hair dye, a large amount of foam cannot be made at one time, so when applying the hair dye, there are individual differences in the application time. For this reason, there is a problem that uneven hair coloration and uneven hair coloring occur, and a technique for eliminating this problem has been demanded.

As a result of intensive studies to solve the above-mentioned problems, the present inventors are a hair dye composition using a bottomed open container and a foamed net of a mesh-like fiber material, which is composed of a plurality of agents, One of the agents includes an alkali agent, an oxidizing agent, and a surfactant, and at least one agent is a liquid agent. By providing a hair dye composition that is mixed and made into a foam by passing it through a foaming net from one to several times, it is possible for anyone to obtain a foam hair dye necessary for one treatment. However, the present invention has been completed by providing a foamy hair dye that can be easily produced and can be applied to hair in a short time without staining the periphery. Furthermore, the present invention is to provide a hair dyeing method in which the above-mentioned foam hair dye is applied to the hair and then left to wash for 3 to 60 minutes.

According to the present invention, anyone can easily provide a foam hair dye, which can be applied to hair in a short time without staining the periphery, and cares about dripping and uneven color after application. Hair can be dyed or decolored / decolored without any problems.

Explanatory drawing which shows the standard value of the fineness of the mesh | network of the foaming net | network of a mesh-like fiber material, what is called the number of meshes: M. (FIG. 1 is an example of a meshed fiber material foaming net and is 5 mesh.) Explanatory drawing which shows the standard value of the thickness of the fiber of the foaming net | network of mesh-like fiber material, what is called wire diameter: h.

Hereinafter, the present invention will be described in detail. The present invention is a hair dye composition using a bottomed open container and a foamed net of a mesh-like fiber material, and is composed of a plurality of agents, and any of the plurality of agents includes an alkaline agent, an oxidizing agent, And a plurality of agents containing a surfactant and at least one of which is a liquid agent is manually mixed in a bottomed open container by passing it through a foamed net of a mesh-like fiber material one to several times. By providing a hair dye composition that is applied in the form of foam and applied to hair, anyone can easily create a foam hair dye necessary for one treatment, and the surroundings can be made short without soiling the surroundings. It can be applied to the hair over time.

The present invention impregnates a reticulated fiber material foamed net with a hair dye composition containing a surfactant in a bottomed open container, and is manually gripped, squeezed, pressed, kneaded, beaten, pulled, rubbed The hair dye composition is passed through a foaming net made of a reticulated fiber material once to several times (hereinafter referred to as one foaming operation) by a simple operation such as soaking. The total amount of the object can be made into a fine and uniform foam, and the hair dyeing operation can be easily performed. Passing the hair dye composition may be performed directly by hand or attached to a device. The number of times the hair dye composition is allowed to pass through by one bubbling operation is not limited as long as the total amount of the hair dye composition can be foamed.

Compared with the method using a former container and the method using a flexible porous material, the hair dye product of this form is a foam necessary for one treatment in a mixing container by one foaming operation. Since anyone can easily create a hair dye, there is no need to touch anything other than a foamy hair dye during the hair dyeing operation, so the hair can be quickly dyed without being contaminated with the hair dye composition. Since the operation can be performed, it is possible to prevent uneven decolorization and hair dyeing of hair. Furthermore, in the method using a former container and the method using a flexible porous material, the mixed liquid in which a plurality of agents are mixed has a relatively low viscosity compared to the fact that the mixed liquid is less likely to be foamy unless the viscosity is low. Since it can be set high, it is possible to prevent dripping of the hair dye composition from the hair, uneven hair decoloration, and uneven hair coloring. In addition, the dosage form of each agent is not particularly limited, and even if any of the agents contains a powdered agent or a component of a hardly soluble or insoluble powder, the former container may be clogged or poorly mixed. There is a characteristic that a foamy hair dye can be obtained without waking up.

This form of hair dye product can easily and efficiently produce a uniform foam hair dye without being affected by variations in the user's foaming operation method compared to a method using a soaking container. Therefore, the hair dyeing operation can be performed more easily, and hair decoloration unevenness and hair dyeing unevenness can be prevented. In addition, in the method using a soaking container, even a viscosity or dosage form that cannot be made into a foam can be made into a foam relatively easily, so that it does not sag from the hair and is applied to the hair. It is easy to set the optimal viscosity that allows easy and quick hair dyeing, and the hair dyeing operation can be performed easily, preventing uneven hair decolorization and hair dyeing. There are characteristics that can be.

The liquid agent according to the present invention is a preparation containing water, and the others are not particularly limited.

The hair dye composition according to the present invention contains a surfactant. Although it is not particularly limited, by containing one or more selected from anionic surfactants, cationic surfactants, ionic surfactants such as amphoteric surfactants, nonionic surfactants, A foaming hair dye can be provided by developing high foaming and retaining properties. Thereby, since it can be applied to the hair easily and without color unevenness in a short time, the hair can be dyed or decolored / decolored easily and without color unevenness in a short time.

Among the surfactants, it is preferable to contain at least one of an ionic surfactant and an alkyl glucoside surfactant among nonionic surfactants because of particularly good foamability and foam retention.

The viscosity at 20 ° C. of the mixed liquid obtained by mixing a plurality of agents according to the present invention without foaming is preferably 16 to 1300 mPa · s, particularly preferably 60 to 950 mPa · s. Thereby, a foamy hair dye can be produced | generated more efficiently. In addition, the hair dye composition can be more easily uniformed into a fine foam that does not sag. Here, the viscosity is measured using a B-type viscometer (“TVB-10M” manufactured by Toki Sangyo Co., Ltd.), and a viscosity of 500 mPa · s (millipascal second) or less is measured with an M2 rotor of the B-type viscometer. It is a value measured after rotating for 1 minute at 60 rpm (times per minute). The viscosity of 501 to 1000 mPa · s is a value measured after rotating for 1 minute at 30 rpm with an M2 rotor of a B-type viscometer. The viscosity of the mixed liquid of 1001 to 2500 mPa · s is a value measured after rotating for 1 minute with M2 rotor 12 rpm of a B-type viscometer.
In order to adjust the viscosity to the above range, it is preferable to appropriately adjust the content and type of the thickener and higher alcohol.

The thickener used in the present invention is not particularly limited, but carboxymethylcellulose, carboxyvinyl polymer, hydroxyethylcellulose, hydroxypropylcellulose, methylcellulose, xanthan gum, carrageenan, alginate, pectin, ferrasene, gum arabic, gatch gum, karaya gum, gum tragacanth And thickeners such as agar powder, bentonite, crosslinkable polyalkyl acid salt, cationized polysaccharide, and cationized cellulose. Of these thickeners, cationized polysaccharides are preferred, and among the cationized polysaccharides, O- [2-hydroxy-3- (trimethylammonio) propyl] hydroxyethylcellulose chloride is most preferred. These thickeners may contain at least one or two or more.

The higher alcohol used in the present invention is lauryl alcohol, myristyl alcohol, cetyl alcohol, stearyl alcohol, aralkyl alcohol, behenyl alcohol, 2-hexyldecanol, isostearyl alcohol, 2-octyldodecanol, decyltetradecanol, oleyl alcohol, linoleyl Alcohol, linolenyl alcohol, lanolin alcohol, etc. are mentioned. Of these higher alcohols, straight chain higher alcohols are preferable, and myristyl alcohol, cetyl alcohol, stearyl alcohol, and behenyl alcohol are most preferable. These higher alcohols may contain at least one or two or more.

The alkali agent used in the present invention is not particularly limited, but alkanolamines such as monoethanolamine and diethanolamine, organic amines such as morpholine and guanidine, inorganic alkalis such as ammonia, ammonium carbonate, and ammonium bicarbonate, arginine, lysine, etc. Basic amino acids and salts thereof. Of these alkali agents, alkali agents selected from alkanolamines such as monoethanolamine and diethanolamine, and inorganic alkalis such as ammonia, ammonium carbonate, and ammonium bicarbonate are preferable. Particularly preferred are ammonia and monoethanolamine. These alkaline agents may contain at least one or two or more.

The oxidizing agent used in the present invention is not particularly limited, but hydrogen peroxide, urea peroxide, melamine peroxide, sodium percarbonate, potassium percarbonate, sodium perborate, potassium perborate, ammonium persulfate, sodium peroxide, Potassium peroxide, magnesium peroxide, barium peroxide, calcium peroxide, strontium peroxide, peroxide hydrogen peroxide adduct, phosphate hydrogen peroxide adduct, pyrophosphate hydrogen peroxide adduct, Examples thereof include sodium bromate. Of these oxidizing agents, oxidizing agents selected from hydrogen peroxide, sodium percarbonate, potassium percarbonate, and ammonium persulfate are preferred. These oxidizing agents may contain at least one or two or more kinds.

The anionic surfactant used in the present invention is not particularly limited, but sodium lauryl sulfate, polyoxyethylene (hereinafter referred to as POE) sodium lauryl ether sulfate, sodium stearoylmethyl taurate, dodecylbenzenesulfonic acid triethanolamine, tetradecenesulfonic acid Examples thereof include sodium, POE lauryl ether phosphate, and salts thereof. Of these anionic surfactants, anionic surfactants selected from sodium lauryl sulfate, sodium POE lauryl ether sulfate, and sodium stearoylmethyl taurate are preferred. These anionic surfactants may contain at least one or two or more kinds.

The cationic surfactant used in the present invention is not particularly limited, but lauryltrimethylammonium chloride, cetyltrimethylammonium chloride, stearyltrimethylammonium chloride, alkyltrimethylammonium chloride, distearyldimethylammonium chloride, lauryltrimethylammonium bromide, bromide Cetyltrimethylammonium, stearyltrimethylammonium bromide, dicetyldimethylammonium chloride, dicocoyldimethylammonium chloride, dodecyldimethylethylammonium chloride, polyoxypropylenemethyldiethylammonium chloride, benzalkonium chloride, lanolin fatty acid aminopropylethyldimethylammonium chloride , Cetyltrimethylammonium saccharin, stearyltrimethylammoni Musakkarin and the like. Among these cationic surfactants, a cation selected from cetyltrimethylammonium chloride, stearyltrimethylammonium chloride, alkyltrimethylammonium chloride, dicetyldimethylammonium chloride, distearyldimethylammonium chloride, cetyltrimethylammonium saccharin, stearyltrimethylammonium saccharin A surfactant is preferred. These cationic surfactants may contain at least one or two or more.

The amphoteric surfactant used in the present invention is not particularly limited, but an imidazoline-based amphoteric surfactant such as 2-undecyl-N, N, N- (hydroxyethylcarboxymethyl) -2-imidazoline sodium, 2-heptadecyl-N Examples include betaine-based surfactants such as -carboxymethyl-N-hydroxyethylimidazolinium betaine, and alkylamine oxides. Of these double-sided surfactants, amphoteric surfactants selected from imidazoline-based amphoteric surfactants and betaine-based amphoteric surfactants are preferred. These amphoteric surfactants may contain at least one or more.

The nonionic surfactant used in the present invention is not particularly limited, but POE alkyl ethers, POE alkyl phenyl ethers, POE polyoxypropylene (hereinafter referred to as POP) alkyl ethers, POE fatty acids, POE sorbitan fatty acid esters , POE castor oil, POE hydrogenated castor oil, POE sorbitol tetra fatty acid esters, glycerin fatty acid esters, sorbitan fatty acid esters, polyglycerin fatty acid esters, N-alkyldimethylamine oxides, POE propylene glycol fatty acid esters Polyethylene glycol fatty acid esters, sugar-based nonionic surfactants, and the like. Among these nonionic surfactants, nonionic interfaces selected from POE alkyl ethers, POE alkylphenyl ethers, POE / POP alkyl ethers, POE sorbitan fatty acid esters, and sugar-based nonionic surfactants Activators are good, and nonionic surfactants selected from POE alkyl ethers and sugar-based nonionic surfactants are preferred. These nonionic surfactants may contain at least one or two or more.

Specific examples of POE alkyl ethers include POE lauryl ether, POE cetyl ether, POE stearyl ether, POE behenyl ether and POE oleyl ether.

Specific examples of sugar-based nonionic surfactants include sucrose fatty acid ester, methyl glucoside, ethyl glucoside, octyl glucoside, nonyl glucoside, decyl glucoside, octyl maltoside, octyl thioglucoside, lauryl glucoside, coconut oil alkyl glucoside, alkyl (8-10) glucoside, alkyl (12-16) glucoside, polyoxyalkylene alkyl glucoside and the like are mentioned. Examples of polyoxyalkylene alkyl glucoside include those obtained by adding ethylene oxide and / or propylene oxide to alkyl glucoside. It is done. In addition, although carbon number of the alkyl group of an alkyl glucoside type surfactant is not specifically limited, C8-16 is preferable. Moreover, although the average condensation degree of glucoside is not specifically limited, It is preferable that it is 1-2.

The oxidation dye used in the present invention is not particularly limited, but paraphenylenediamine, toluene 2,5-diamine, orthoaminophenol, paraaminophenol, metaaminophenol, 5-aminoorthocresol, 2,6-diaminopyridine, hydrochloric acid 2 , 4-diaminophenoxyethanol, 1-naphthol and salts thereof. In addition, those listed in "Quasi-drug raw material standards" (issued in June 1991, Yakuji Nippo) can be used as appropriate. These oxidation dyes may contain at least one or two or more.

The direct dye used in the present invention is not particularly limited, but 4-nitro-m-phenylenediamine, 4-nitro-o-phenylenediamine, 2-nitro-p-phenylenediamine and salts thereof, Yellow No. 202 (1), 8-Amino-2-bromo-5-hydroxy-4-imino-6-[(3- (trimethylammonio) phenyl) amino] -1 (4H) -naphthalinone-chloride (CI 56059; Basic Blue No. 99) Etc. In addition, direct dyes and acid dyes and basic dyes determined by “Ministerial Ordinance for Determining Tar Colors that can be Used in Pharmaceuticals” (Ministry of Health and Welfare 1960 notification) can be used as appropriate. These dyes may contain at least one or two or more.

The hair dye composition according to the present invention can contain oil components such as hydrocarbons, fats and oils, waxes, higher fatty acids, esters, silicones, and solvents. These components may contain at least one or more kinds.

The hair dye composition according to the present invention includes collagen, keratin, elastin, fibroin, conchiolin, soy protein, casein, gelatin and other proteins, hydrolysates hydrolyzed with acids, alkalis, enzymes, etc. Such as cation-denatured protein quaternized, moisturizers such as sodium pyrrolidonecarboxylate and hyaluronic acid, preservatives such as paraben, pH adjusters such as sodium phosphate, sodium citrate and sodium lactate, thioglycolic acid Contains one or more selected from antioxidants such as sulfite, sulfite, ascorbic acid and dibutylhydroxytoluene, amino acids, plant extracts, herbal extracts, vitamins, dyes, fragrances, pigments, UV absorbers, etc. May be.

The bottomed open container according to the present invention is capable of lathering all the necessary hair dye composition in one hair dyeing operation, and is a size that allows the foamy hair dye to be obtained sufficiently, size and shape, There are no particular restrictions on the material

The material of the foamed net of the mesh-like fiber material according to the present invention is not particularly limited, and examples thereof include synthetic fibers (PE, PP, nylon, polyester, etc.) and natural fibers (cotton, hemp, silk, etc.). Of these reticulated fiber materials, synthetic fibers are preferred from the viewpoint of ease of handling and cost.

Even in the foamed net of a mesh-like fiber material, the fineness of the mesh, that is, the so-called number of meshes M, is preferably 2 to 200 mesh, and most preferably 2 to 100 mesh, particularly from the foamability and ease of foaming. Thereby, a hair dye composition can be made into foam more efficiently. In addition, the hair dye composition can be more easily uniformed into a fine foam that does not sag. When the mesh number M is larger than 200 mesh, it is difficult to pass the hair dye composition, and the foaming is worsened.

Here, the number of eyes: M is shown in units of meshes,
Number of stitches existing between 1 inch in the vertical direction: M1
Number of stitches existing between 1 inch in the horizontal direction: M2
In this case, it is represented by the following mathematical formula, and is a unit representing the fineness of the mesh of the foamed net of the mesh fiber material.

The fiber thickness of the meshed fiber material, the so-called wire diameter: h, is preferably 0.05 to 0.5 mm, and most preferably 0.05 to 0.3 mm for ease of handling. When the wire diameter h is less than 0.05 mm, the fibers are too thin, making it difficult to handle the foamed net of the mesh-like fiber material, making it difficult to pass the hair dye composition, resulting in poor foaming. When the wire diameter h is 0.5 mm or more, since the fiber is too thick, the foamed net of the mesh fiber material becomes too hard, and it is difficult to pass the hair dye composition.

The size of the mesh of the foamed net of the mesh fiber material, so-called opening OP, is preferably 0.07 to 12.5 mm, and most preferably 0.18 to 12.5 mm. Thereby, a hair dye composition can be made into foam more efficiently. In addition, the hair dye composition can be more easily uniformed into a fine foam that does not sag.

Here, since the mesh shape of the foamed net of the mesh fiber material can take various shapes from a polygon to a round shape, the mesh opening: OP is expressed by the following mathematical formula that approximates this shape to a square.

The opening ratio E of the meshed fiber material foamed net is preferably 30% or more, and most preferably 50% or more. Thereby, a hair dye composition can be made into foam more efficiently. In addition, the hair dye composition can be more easily uniformed into a fine foam that does not sag. When the opening ratio E is less than 30%, it is difficult to pass the hair dye composition, and foaming is worsened.

Here, the aperture ratio E of the foamed net of the mesh fiber material is represented by the following mathematical formula.

The number M, the wire diameter h, the opening OP, and the opening ratio E of the foamed net of the mesh fiber material are closely related to each other, and are mutually limited values.

The mesh shape of the foamed net of the mesh fiber material is not particularly limited, and may be any shape from polygonal to round. Moreover, the material which combined the foaming net | network of the mesh-like fiber material of a different stitch shape is also possible.

The size of the mesh-like fiber material foaming net is not particularly limited as long as it is a size capable of foaming all the necessary hair dye composition by one hair dyeing operation, but considering the ease of use, 400-4900 cm < ² > is preferable.

As described above, a hair dye composition using a bottomed open container and a foamed net made of a mesh fiber material, which is composed of a plurality of agents, and any of the plurality of agents includes an alkaline agent, an oxidizing agent, and an interface. A plurality of agents containing an active agent, wherein at least one agent is a liquid agent, are mixed and foamed by manually passing through a foamed net of a mesh-like fiber material one to several times in a bottomed open container. By providing a hair dye composition that is applied to the hair in the form of a foam, anyone can easily create a foam hair dye necessary for one treatment. After applying this foaming hair dye to the hair using rubber gloves, hands, combs, brushes, etc., leave it for 3 to 60 minutes, and then wash away to clean the surroundings easily and without unevenness. Processing can be performed.

EXAMPLES Hereinafter, the present invention will be described in more detail with reference to examples, but the present invention is not limited only to these examples.

In the evaluation test shown in the present specification, the components contained in the hair dye composition and the content thereof were variously changed. The unit indicating the blending amount of each component of the hair dye composition is all wt%. The mixing ratio in the evaluation test shown in this specification indicates a ratio of mixing a plurality of agents.

In the evaluation test shown in the present specification, the foaming device “A” has a bottomed open container having an internal volume of 1000 mL (milliliter) and a foamed net made of a mesh-like fiber material (manufactured by Yokozuna Kogyo Co., Ltd., foamed net, made of polyethylene, number of meshes) M: 5 mesh, wire diameter h: 0.2 mm, aperture OP: 4.84 mm, aperture ratio E: 92%, size 900 cm ² rounded). The foaming operation of the foaming device “A” in the evaluation test is carried out by introducing a plurality of agents into the bottomed open container at the mixing ratio described, and the obtained hair dye composition in the bottomed open container. The foamed net was impregnated, held by hand, and released for approximately 1 minute to mix and foam.

In the evaluation test shown in this specification, the foaming device “B” is a squeeze-type former container (“FII-100” manufactured by Glassel, volume 149 mL). The foaming operation of the foaming device “B” in the evaluation test is based on a general method of using the squeeze-type former container.

In the evaluation test shown in this specification, the foaming device “C” is a pump-type former container (“SI Oval 150” manufactured by Glassel, volume 220 mL). The foaming operation of the foaming device “C” in the evaluation test is based on a general method of using the pump-type former container.

In the evaluation test shown in this specification, the foaming device “D” is a cup container with a lid (“Shaker 500II” manufactured by Takemoto Container Co., Ltd., volume 705 mL, height 189 mm, width 85 mm, depth 85 mm). The foaming operation of the foaming container “D” in the evaluation test is based on a method in which the obtained hair dye composition is put in a container, covered, and shaken up and down 30 times.

In the hair treatment operation shown in the present specification, the foamed hair dye obtained was directly put on a hand wearing rubber gloves, and a hair test doll (Bulux Co., Ltd. “Cut Mannequin NO. 775S”) was used. The hair was applied by hand to the whole hair and left for 20 minutes and then washed and washed, and the dried hair was visually confirmed and evaluated.

In the foaming operation shown in the present specification, a plurality of agents were charged in the stated ratio (weight ratio), and the foaming operation was performed on 120 g (grams) of the obtained hair dye composition and visually confirmed and evaluated. .

In the evaluation test shown in this specification, under the condition of 25 ° C., five professional panelists performed foaming operation and hair treatment operation, and five professional panelists who did not perform foaming operation and hair treatment operation were visually observed. The evaluation was based on four items: foamability, fineness of foam, ease of handling after foaming, and hair dyeability.

As evaluation criteria, it evaluated as follows and the average (rounded off) was made into the evaluation result.

Evaluation criteria 5 of “foaming property”: very excellent foaming property was exhibited 4: excellent foaming property was exhibited 3: good foaming property was exhibited 2: weak foaming property was exhibited 1: foaming property was exhibited Absent

Evaluation criteria 5 for “fineness of foam”: excellent in fineness of foam 4: excellent in fineness of foam 3: good in fineness of foam 2: fineness of foam Coarse one: No foam

Evaluation Criteria 5 of “Ease of Handling After Foaming”: No Bubbles Flow at the Time of Application and No Drops from the Hand 4: No Bubbles Flow at the Time of Application and No Drops from the Hand 3: Application Bubbles sometimes flow slightly, but do not sag from the hand 2: Bubbles flow during application and easily drop from the hand 1: Cannot generate foam

Evaluation criteria 5 for “hair dyeability” 5: Uniform hair dyeing with no unevenness 4: Uniform hair dyeing without unevenness 3: Uniform hair dyeing with almost no unevenness 2: A hair dyeing property with unevenness was exhibited 1: A foam could not be generated, and a hair could not be dyed with a foam.

First evaluation test:
In the first evaluation test, the inventor performed evaluation by changing the mixing ratio and the foaming device using the same first agent and second agent. The hair dye composition produced in the first evaluation test is a decoloring agent. Table 1 shows the blending amounts of the first agent and the second agent used, the mixing ratio of the plurality of agents, the physical property values (viscosity and pH) of the mixed solution obtained by mixing the plurality of agents, and the results of the first evaluation test. Although the 1st agent and 2nd agent which are shown in Table 1 are emulsions, the dosage form of each agent is not specifically limited.

(Examples 1 and 2)
In Examples 1 and 2, hair dye compositions having different mixing ratios of the first agent and the second agent were foamed using the foaming device “A” and evaluated.

According to the results of Examples 1 and 2 in the first evaluation test, four evaluation items of “foamability”, “fineness of foam”, “ease of handling after foaming”, and “hair dyeability” It turns out that it is very good in all.

(Comparative Examples 1-3)
In Comparative Examples 1 to 3, the hair dye composition used in Example 1 was used by whipping with a whipping device “B”, “C” and “D” different from the whipping device “A”.

According to the results of Comparative Examples 1 to 3 in the first evaluation test, the foaming device “A” can obtain a stable and high-quality foam hair dye, whereas the foaming devices “B” and “C” have a mixed solution. Since the viscosity of the powder does not match that of the pump foamer or squeeze foamer, a high-quality foam hair dye cannot be obtained, and it takes time to discharge the foam. Oops. Moreover, according to the result of Comparative Example 3, most of the hair dye composition obtained in the foaming device “D” becomes a liquid emulsion, and the foam hair dye cannot be obtained. The hair dyeing operation could not be performed.

Second evaluation test:
In the second evaluation test, the inventor performed evaluation by changing the mixing ratio and the foaming device using the same first agent, second agent and third agent. The hair dye composition produced in the second evaluation test is a decoloring and decoloring agent. Table 2 shows the blending amounts of the first agent, the second agent, and the third agent, the mixing ratio of the plurality of agents, the physical property values (viscosity and pH) of the mixed solution in which the plurality of agents are mixed, and the second evaluation test. Results are shown. The first agent and the second agent shown in Table 2 are emulsions, and the third agent is in powder form, but the dosage form of each agent is not particularly limited.

(Examples 3 and 4)
In Examples 3 and 4, hair dye compositions having different mixing ratios with the first agent, the second agent, and the third agent were used by foaming with a foaming device “A” and evaluated.

According to the results of Examples 3 and 4 in the second evaluation test, four evaluation items of “foamability”, “fineness of foam”, “ease of handling after foaming”, and “hair dyeability” It turns out that it is very good in all.

(Comparative Examples 4-6)
In Comparative Examples 4 to 6, the hair dye composition used in Example 3 was foamed using foaming devices “B”, “C” and “D” different from the foaming device “A” and evaluated.

According to the results of Comparative Examples 3 and 4, the foaming device “A” can obtain a stable and high-quality foam hair dye, whereas the foaming devices “B” and “C” have partially dissolved powder. The third agent was clogged, and the hair dye composition could not be discharged from each foaming device. Moreover, according to the result of Comparative Example 6, most of the hair dye composition obtained in the foaming device “D” becomes a liquid emulsion, and the foam hair dye cannot be obtained. The hair dyeing operation could not be performed.

Third evaluation test:
In the third evaluation test, the inventor changed the mixing ratio and the second agent in which the type of surfactant was changed to the first agent in which the type and amount of the surfactant to be added to the first agent were variously changed. The mixed hair dye composition was evaluated. Tables 3 and 4 show the blending amounts of the first agent and the second agent used, the mixing ratio of the plurality of agents, the physical property values (viscosity and pH) of the mixed solution in which the plurality of agents are mixed, and the results of the third evaluation test. Show. Although the 1st agent and 2nd agent which are shown in Table 3 are emulsions, the dosage form of each agent is not specifically limited.

In Examples 5 to 13 and Comparative Examples 7 and 8, hair dye compositions having different types of surfactants were used by foaming using a foaming device “A”.

(Examples 5 to 13 and Comparative Examples 7 and 8)
According to the results of Examples 5 to 13 in the third evaluation test, stable and high quality by containing at least one of sugar-based nonionic surfactants among ionic surfactants and nonionic surfactants. It turns out that a foamy hair dye can be obtained. Moreover, according to the results of Comparative Examples 7 and 8, among nonionic surfactants, POE hydrogenated castor oil and polyethylene glycol fatty acid esters, such as polyethylene stearate, can obtain a good foam hair dye. I couldn't. This indicates that it is better to use sugar-based nonionic surfactants among nonionic surfactants, and it is optimal to use alkylglucoside type surfactants among nonionic surfactants. I understand that there is.

Fourth evaluation test:
In the 4th evaluation test, it evaluated about the hair dye composition which mixed the 2nd agent with the 1st agent which changed the compounding quantity of the thickener. Table 5 shows the blending amounts of the first agent and the second agent used, the mixing ratio of the plurality of agents, the physical property values (viscosity and pH) of the mixed solution obtained by mixing the plurality of agents, and the results of the fourth evaluation test. Although the 1st agent and 2nd agent which are shown in Table 5 are emulsions, the dosage form of each agent is not specifically limited.

In Examples 14 to 17 and Comparative Examples 9 and 10, hair dye compositions having different viscosities were used by foaming using a foaming device “A”. In Examples 14 to 17 and Comparative Examples 9 and 10, depending on the amount of “O- [2-hydroxy-3- (trimethylammonio) propyl] hydroxyethylcellulose chloride” contained as a thickener in the first agent The viscosity of each liquid mixture becomes a different value.

(Examples 14 to 17 and Comparative Examples 9 and 10)
According to the results of Examples 14 to 17 and Comparative Examples 9 and 10 in the fourth evaluation test, the viscosity at 20 ° C. of the mixed liquid obtained by mixing a plurality of agents is the relationship between Example 14 and Comparative Example 9, and From the relationship between Example 17 and Comparative Example 10, it is preferably 16 to 1300 mPa · s. From the relationship between Example 14 and Example 15 and from the relationship between Example 16 and Example 17, 60 to 950 mPa · s. It can be seen that s is more preferable.

Fifth evaluation test:
In the fifth evaluation test, the inventor performed the evaluation by changing the foaming device using the first agent and the second agent used in Example 5. Table 6 shows the blending amounts of the first agent and the second agent used, the mixing ratio of the plurality of agents, the physical property values (viscosity and pH) of the mixed solution obtained by mixing the plurality of agents, and the results of the fifth evaluation test.

(Comparative Examples 11-13)
In Comparative Examples 11 to 13, the hair dye composition used in Example 5 was foamed using foaming devices “B”, “C” and “D” different from the foaming device “A” and evaluated.

According to the results of Comparative Examples 11 and 12 in the fifth evaluation test, the foaming device “A” can obtain a stable and good quality foamy hair dye, whereas the foaming devices “B” and “C” have a mixed solution. Since the viscosity of the powder does not match that of the pump foamer or squeeze foamer, a high-quality foam hair dye cannot be obtained, and it takes time to discharge the foam. Oops. Moreover, according to the result of Comparative Example 13, most of the hair dye composition obtained in the foaming device “D” becomes a liquid emulsion, and the foam hair dye cannot be obtained. The hair dyeing operation could not be performed.

Sixth evaluation test:
In the sixth evaluation test, the hair dye composition obtained in Example 5 was put into a bottomed open container having an internal volume of 1000 mL (milliliter), and a 900 cm ² size mesh made of polyethylene in the bottomed open container. The fiber foamed net was impregnated, held by hand, and released for about 1 minute to be mixed and foamed. Table 7 shows the results of the sixth evaluation test of the number of meshes of foamed nets of various types of mesh-like fiber materials used: M, wire diameter: h, mesh opening: OP, aperture ratio: E.

(Examples 18 to 26 and Comparative Example 14)
According to the results of Examples 18 to 26 and Comparative Example 14 in the sixth evaluation test, the foamed net of the mesh fiber material is
The number of eyes M is 2 to 200 mesh,
The wire diameter h is 0.05 to 0.5 mm,
Opening OP is 0.07-12.5 mm,
The opening ratio E is preferably 30% or more,
Number of eyes M is 2-100 mesh,
The wire diameter h is 0.05 to 0.3 mm,
Opening OP is 0.18 to 12.5 mm,
It can be seen that an aperture ratio of E50% or more is most preferable.

(1) ... Conceptual diagram of the number of stitches M (2) ... Number of stitches existing between 1 inch in the vertical direction: M1
(3) ... Number of stitches existing between 1 inch in the horizontal direction: M2
(4) ... 1 inch in length (25.4mm)
(5) ... 1 inch in the horizontal direction (25.4mm)
(6) ... Conceptual diagram of the knitted structure of the meshed fiber material foamed net (7) ... Fiber thickness of the meshed fiber material foamed net, so-called wire diameter: h

Claims (6)

A hair dye composition that is applied to the hair in the form of foam using a bottomed open container and a foamed net made of a mesh-like fiber material, and is composed of a plurality of agents, and any of the plurality of agents A plurality of agents containing an alkali agent, an oxidizing agent, and a surfactant, wherein at least one agent is a liquid agent, manually into a foamed net of a mesh-like fiber material once in a bottomed open container It is mixed and foamed by passing multiple times and applied to the hair .
The foamed net of the mesh fiber material is
The number of eyes is 2 to 200 mesh,
The wire diameter is 0.05 to 0.5 mm,
Opening is 0.07-12.5 mm,
It is a foamed net made of mesh fiber material with an open area ratio of 30% or more,
The surfactant is a surfactant that is at least one of an ionic surfactant and a sugar surfactant,
The mixed liquid of the plurality of agents has a viscosity at 20 ° C. of 16 to 1300 mPa · s.
A hair dye composition applied to hair in the form of foam using a bottomed open container and a foamed net of a mesh-like fiber material . The hair dye composition according to claim 1, wherein the sugar surfactant is an alkyl glucoside surfactant . The hair dye composition according to claim 1, wherein at least one of the plurality of agents contains a powder that is hardly soluble or insoluble in water. The hair dye composition according to claim 3 , wherein the water-insoluble or insoluble powder is at least one of silicate and zinc stearate. It is composed of a plurality of agents, and any of the plurality of agents contains an alkali agent, an oxidizing agent, and a surfactant ,
The surfactant is a surfactant that is at least one of an ionic surfactant and a sugar surfactant,
The mixed solution of plural agents is a hair dye composition having a viscosity of 16 to 1300 mPa · s at 20 ° C. in a bottomed open container,
The number of eyes is 2 to 200 mesh,
The wire diameter is 0.05 to 0.5 mm,
Opening is 0.07-12.5 mm,
Impregnation into a foamed net made of a mesh-like fiber material having an open area ratio of 30% or more, and by manually applying an external force, the foamed hair dye composition is made into the hair by allowing it to pass through once to multiple times and foaming. A hair dyeing method comprising a step of applying and a step of washing after application for 3 to 60 minutes. It is composed of a plurality of agents, and any of the plurality of agents contains an alkali agent, an oxidizing agent, and a surfactant ,
The surfactant is a surfactant that is at least one of an ionic surfactant and a sugar surfactant,
A mixed solution of a plurality of agents is a hair dye composition having a viscosity of 16 to 1300 mPa · s at 20 ° C. , a bottomed open container,
The number of eyes is 2 to 200 mesh,
The wire diameter is 0.05 to 0.5 mm,
Opening is 0.07-12.5 mm,
A hair dyeing product having a foamed net of a mesh-like fiber material having an opening ratio of 30% or more.

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