JP2005060352A - Hair dye removing agent - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hair dye-removing agent that can effectively and safely remove oxidation dye and direct dye with excellent usability. <P>SOLUTION: This hair dye-removing agent is constituted of (A) ascorbic acid or its derivative and (B) a powdery thickener. When it is used, the agent is dissolved in an aqueous medium, for example, water or an aqueous liquid composed mainly of water. The content of the component (A) is preferably 1 to 20 mass % and the component (B) is 1 to 5 mass % in the aqueous medium. The component (A) is preferably L-ascorbic acid, while the component (B) is preferably guar gum. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a hair destaining agent, and more particularly to a hair destaining agent for destaining hair dyed with an oxidative dye and a direct dye.

Hair dyes called hair manicures contain direct dyes, but because there are many colors that can be expressed, there are many customers who demand color changes one after another. Therefore, a method has been proposed in which only a dye is directly destained from hair dyed with a hair manicure using a destaining agent that is a combination of dithiodiglycolic acid or cysteine and sulfite. For example, see Patent Document 1).
Japanese Patent Laid-Open No. 10-273432

  However, in the case of the above method, there is a problem that the effect is not sufficient if it is not heated, and if it is heated, the reduction action of sulfite is increased and the hair is damaged.

In addition to the direct dyes mentioned above, oxidation dyes are included in hair dyes called hair dyes. When destaining hair dyed with this hair dye, an alkaline agent, an oxidant, and a persulfate are included. It has been proposed to use a decoloring agent (see, for example, Patent Document 2).
JP 2003-095883 A

  This destaining agent obtains a destaining effect by oxygen generated from the oxidizing agent and persulfate, but at the same time, the melanin pigment of the hair is also oxidatively decomposed, so that the original color of the hair gradually becomes brighter. There was a problem.

  Therefore, a method is generally employed in which a permanent wave agent containing thioglycolic acid is used to swell the hair and extract the coloring component.

  According to this method, since the melanin pigment is not decomposed, there is no change that the color of the hair itself becomes gradually brighter, but the decoloring power is weak, and the hair is easily damaged by excessive swelling of the hair. There was a problem.

In addition, attention has been focused on reductive decolorization of hair using the reductive decolorization action of ascorbic acid. Since ascorbic acid is originally a biological component, its safety is excellent, but its stability is very poor, and there is a problem that its reductive decoloring action is lost when it is left in the air. Further, the reductive decolorization effect of ascorbic acid is not sufficiently fixed, and it cannot be said that re-dyeing after reductive decolorization with ascorbic acid is sufficient. Therefore, a destaining agent has been proposed in which ascorbic acid is combined with α-oxocarboxylic acid or a salt thereof to eliminate the poor stability of ascorbic acid (see, for example, Patent Document 3).
JP-A-11-310521

  However, this decoloring agent has a problem that the form at the time of use is difficult to apply to the hair, and therefore, when the preparation form is made into a cream or gel, there is a problem that the reductive decoloring action is lowered. Furthermore, α-oxocarboxylic acid itself has mutagenicity, which is problematic in safety, and the addition of α-oxocarboxylic acid also has a problem that the reductive decolorization action of ascorbic acid is reduced. .

  As described above, there has been no conventional hair decoloring agent that can effectively and safely decolorize an oxidative dye and a direct dye from hair at the same time, and has excellent usability.

  Therefore, an object of the present invention is to provide a hair decoloring agent that can effectively and safely decolorize an oxidative dye and a direct dye simultaneously from hair and that is excellent in usability.

  As a result of intensive studies to solve the above-mentioned problems, the present inventors prepared a hair destaining agent containing ascorbic acid or a derivative thereof and a powdery thickener and dissolved it in an aqueous medium. In the present invention, it is found that the oxidation dye and the direct dye can be simultaneously decolored without lowering the reductive decolorization action of L-ascorbine or a derivative thereof, and that the safety is high, thereby completing the present invention. I went to. Furthermore, surprisingly, this hair decoloring agent is desirable when the hair destained using it is treated with an aqueous composition containing 1 to 30% by weight of hydrogen peroxide and then dyed again. In other words, it has a feature that the expected color can be expressed.

  The hair decoloring agent of the present invention can effectively and safely deoxidize oxidative dyes and direct dyes, and is excellent in usability.

  The hair decoloring agent of the present invention contains at least one selected from ascorbic acid or a derivative thereof as the component (A). Examples of the ascorbic acid or a derivative thereof include L-ascorbic acid, D- Examples include ascorbic acid, sodium ascorbate, and sodium erythorbate. Among them, L-ascorbic acid is particularly preferable because of its good solubility in an aqueous medium and high safety.

で示され、このＬ−アスコルビン酸はビタミンＣとして知られている。 Here, when the structural formula of L-ascorbic acid is shown, L-ascorbic acid is represented by the following chemical formula:

This L-ascorbic acid is known as vitamin C.

  As mentioned above, ascorbic acid or a derivative thereof has a function of reducing and decoloring dyed hair, and since it is originally a biological component, although it is highly safe, it has very poor stability and is in the air. If left untreated, there was a problem that the reductive decolorization action was lost. Therefore, in the present invention, ascorbic acid or its derivative as component (A) is stored in combination with a powdery thickener as component (B) in combination with ascorbic acid or its derivative as component (A). The ascorbic acid or its derivative (A) as a component during storage is improved during storage, and in use, the hair decoloring agent of the present invention is dissolved in an aqueous medium. ) The ascorbic acid or its derivative as a component is appropriately exerted by the reduction and decoloring action, and the hair decontamination agent is suitable for use with the powdery thickener as the component (B), that is, the hair of the present invention. In other words, a solution in which the destaining agent is dissolved in an aqueous medium can be made to have a viscosity suitable for use. In addition, as described above, ascorbic acid or its derivative alone as component (A) does not have sufficient fixation of the reductive decoloration effect, and re-dyeability after reductive decoloration is not sufficient, but ascorbic acid as component (A) Alternatively, by using the derivative in combination with the powdery thickener of component (B), it is possible to improve the reduction and decoloring effect after the reduction and decoloration effect.

  In the hair decoloring agent of the present invention, as the powdery thickener used as the component (B), for example, hydroxypropyl distarch phosphate, (dimethyl taurate ammonium acrylate / vinyl pyrrolidone) copolymer, glucomannan, Examples include guar gum, sclerotium gum, xanthan gum, hydroxyethyl cellulose, and carboxymethyl cellulose. Among these, guar gum is particularly excellent in solubility in an aqueous medium and can create a viscosity excellent in usability. Is preferable.

  In the present invention, ascorbic acid or a derivative thereof as component (A) is preferably contained at a concentration of 1 to 20% by mass, particularly 2 to 10% by mass when dissolved in an aqueous medium. It is preferable to be contained. That is, when the content of the aqueous medium of the component (A) ascorbic acid or a derivative thereof is less than 1% by mass, the reductive decolorization action is reduced, and when it is more than 20% by mass, the component (A) ascorbic acid or The derivative is difficult to dissolve in an aqueous medium.

  In the present invention, the powdery thickener as the component (B) is preferably contained at a concentration of 1 to 5% by mass, particularly 1 to 2% by mass when dissolved in an aqueous medium. It is preferable to be contained at a concentration of%. That is, the viscosity when the hair decoloring agent of the present invention is dissolved in an aqueous medium is as follows: TV-20 type viscometer (manufactured by Tokimec Co., Ltd.), 25 ° C., 12 rpm, No. 4 rotor used. The viscosity when measured is preferably 500 to 50,000 mPa · s, particularly preferably 1,000 to 40,000 mPa · s. However, the content of the powdery thickener (B) in the aqueous medium is 1 When the amount is less than 5% by mass, it is difficult to obtain a viscosity excellent in usability. When the amount is more than 5% by mass, the viscosity becomes too high, which may cause problems in usability or reduce the reductive decolorization action. .

  The aqueous medium for dissolving the ascorbic acid or its derivative (A) component and the powdery thickener (B) component of the hair decoloring agent of the present invention is not particularly limited. Alternatively, an aqueous liquid mainly containing water is suitable.

  In the hair decoloring agent of the present invention, other components can be contained in addition to the ascorbic acid or its derivative (A) and the powdery thickener (B). Examples of such ingredients include gum arabic, cayara gum, gum tragacanth, carob gum, quince seed (quince), casein, gelatin, sodium pectate, methyl cellulose, ethyl cellulose, hydroxypropyl cellulose, polyvinyl alcohol, polyvinyl pyrrolidone, sodium polyacrylate , Tamarind gum, cellulose dialkyldimethylammonium sulfate, dextrin, roast bean gum, carrageenan, magnesium aluminum silicate, pentonite, carboxyvinyl polymer, polyacrylic amide and the like.

  According to the hair decoloring agent of the present invention, the oxidative dye and the direct dye can be effectively and safely decolored, and the hair after decoloring using the dye contains 1 to 30% by mass of hydrogen peroxide. When it is treated with the aqueous composition and dyed again, the desired color, that is, the expected color can be developed.

  Next, the present invention will be described more specifically with reference to examples. However, this invention is not limited only to those Examples. In the following examples and the like, the content of each component is shown in% so that the total composition after being dissolved in an aqueous medium is 100%. In the table, the% is omitted, and only the numerical value indicating the content is displayed.

Examples 1-22 and Comparative Examples 1-6
28 types of hair decoloring agents were prepared with the compositions shown in Tables 1 to 5. In preparing them, L-ascorbic acid is used as the component (A) ascorbic acid or a derivative thereof, and Gua gum [Ina Food Industry Co., Ltd. is marketed as a powdery thickener as the component (B). Inager GR-10 (trade name)] was used.

  And the viscosity was measured about the obtained hair dye of Examples 1-22 and Comparative Examples 1-6. This viscosity was measured using a TV-20 viscometer [manufactured by Tokimec Co., Ltd.] under the conditions of 25 ° C., rotation speed: 12 rpm, and No. 4 rotor. The measured viscosities are shown in Tables 1 to 5 depending on the hair destaining agent.

Next, the hair decoloring agents of Examples 1 to 22 and Comparative Examples 1 to 6 are applied to the hair bundles (1) and (2), which will be described in detail later. The ΔE ^* ab value after dyeing was measured to evaluate the destaining state.

Destaining hair bundle preparation process:
[I] Preparation of hair bundle for decolorization (1) Promatis Flave (trade name) 9-25 as the first agent of oxidation type hair dye [Olive color, orthochlorparasulfate as oxidation dye, manufactured by Milbon Co., Ltd. As a direct dye, containing 0.3% phenylenediamine, 0.1% resorcin, 0.02% metaaminophenol, 0.04% 2,6-diaminopyridine and 0.01% 2,4-diaminophenoxyethanol hydrochloride Containing 0.2% paranitrometaphenylenediamine sulfate], and Promatis Flave Oxidan 6.0% as the second agent [made by Milbon Co., Ltd. containing 6.0% hydrogen peroxide as the oxidizing agent] 5g each of the first and second agents, and after mixing them well, apply to 100% gray hair bundle and leave at 30 ° C for 30 minutes to dye. After the hair was washed, washed with water, further washed twice with a commercially available shampoo, further applied with a commercially available treatment, rinsed and dried.

[II] Preparation of Destaining Hair Bundle (2) Instead of Promatis Flave (trade name) 9-25, Promatis Flave (trade name) 8-5 [Milbon Co., Ltd., red, as an oxidation dye Containing 0.1% paraaminophenol, 0.2% paraphenyldiamine and 0.4% 5-aminoorthocresol and 0.07% nitroparaphenylenediamine as a direct dye). In the same manner as in the case of the hair bundle for dyeing (1), a hair bundle for destaining was prepared.

Hair destaining treatment:
5 g of each of the hair decoloring agents of Examples 1 to 22 and Comparative Examples 1 to 6 was applied to the above-mentioned hair bundle for decolorization (1) and hair bundle for decolorization (2) by brush, and then at 45 ° C for 20 minutes After leaving to decolorize, it was washed with water, further washed twice with a commercially available shampoo, further applied with a commercially available hair treatment, rinsed and dried.

ΔE ^* ab value measurement method:
The ΔE ^* ab value of the hair bundle after the decoloring treatment was measured with a spectrocolorimeter CM-3500d (manufactured by MINOLTA). The results are shown in Tables 6 and 7. This ΔE ^* ab value is the difference in the color value after decolorization with respect to the color of the original hair bundle for decolorization, and the greater this difference, the greater the degree of decoloration of the dyed color. ing.

As shown in Table 6, the hair decoloring agents of Examples 1 to 22 were used for both the olive-colored decolorization hair bundle (1) and the red-colored decolorization hair bundle (2). , ΔE ^* ab value is large, and both the oxidation dye and the direct dye are efficiently decolorized, and as shown in Tables 1 to 4, the viscosity is 1000 to 50000 mPa.s. The viscosity was within the range of s and was suitable for use.

On the other hand, as shown in Table 7, the hair destaining agents of Comparative Examples 1 to 3, which contain only L-ascorbic acid and no guar gum, are suitable for use. There wasn't. Further, among the hair decoloring agents of Comparative Examples 1 to 3, the ΔE ^* ab value is increased as the blending amount of L-ascorbic acid is increased. When stored, the reductive decolorization action of L-ascorbic acid decreases, and when they are used, the ΔE ^* ab value decreases.

  And the destaining agent for hair of Comparative Examples 4-6 which did not contain L-ascorbic acid but contained only guar gum has no destaining effect as shown in Table 7, and is merely a viscous liquid. There wasn't.

Claims (4)

A hair decoloring agent capable of reducing and decoloring hair dyed with an oxidative dye and a direct dye when dissolved in an aqueous medium, wherein (A) component is at least one selected from ascorbic acid or a derivative thereof; ) A hair decoloring agent comprising a powdery thickener as a component. When dissolved in an aqueous medium, the content of the component (A) is 1 to 20% by mass, and the content of the component (B) is 1 to 5% by mass. Destaining agent. (B) Component is a guar gum, The hair decoloring agent of Claim 1 or 2 characterized by the above-mentioned. The hair decoloring agent according to any one of claims 1 to 3, which is filled in a container capable of blocking air.