WO2010137105A1 - Color tone change inhibitor for oxidative hair dye - Google Patents

Abstract

Disclosed is a color tone change inhibitor for oxidative hair dyes, which is characterized by containing 0.01-5% of sulfur or 1-15% of an alkanolamine relative to the total amount of the inhibitor for the purpose of removing or deactivating silver ions remaining in grey hair dyed with a photosensitive hair dye.

Description

Color change inhibitor for oxidative hair dyes

The present invention relates to a color tone change preventing agent for oxidative hair dyes, which prevents the color tone from changing when dyeing white hair dyed with a photosensitive hair dye containing silver with an oxidative hair dye. .

Photosensitive hair dyes containing silver sulfate and citric acid that have recently been put into practical use are dyed gradually in about 3 days when exposed to sunlight, and as with normal hair care products, hair can be applied simply by applying it. Since the hair is dyed and there is no irritation or allergies, the number of customers who use it tends to increase gradually. This photosensitive hair dye is completed by the development of the present inventors, and Japanese Patent No. 3881688 is known as a prior art document.

The principle that the above-mentioned photosensitive hair dyes white hair by sunlight is that the silver ions contained in 0.5% to 1.0% in hair cream etc. are reduced to fine metal silver particles by light, and it adheres evenly to the hair This is because the hair looks dark brown. Photosensitive hair dyes for white hair dyeing using this principle have the effect of protecting the hair from UV rays and chemicals as silver fine particles are coated on the hair surface. However, it has a characteristic that does not easily fall.

By the way, it has been pointed out that if hair dyed with photosensitive hair dye is dyed with an oxidative hair dye to change the color tone for mood change, it may be dyed in a color different from the intended color tone or green. As described above, when silver or other cream containing silver ions is applied to the hair and exposed to light, a part of the silver ions is reduced and converted to metallic silver. Then, although metallic silver remains attached to the hair, since silver ions are water-soluble, it is generally considered that the silver is completely washed away by washing the hair, and the cause of staining with green color has not been known for a long time. .

Japanese Patent No. 3881688

However, as a result of intensive studies by the inventors, a part of silver ions is washed away, but a considerable amount of silver ions remain attached to the hair and are not washed away, and are present in the form of silver ions in the hair. Therefore, the present inventors have found that the color change occurs when the residual silver ions react with the paraphenylenediamine derivative, resorcin, pyrogallol and the like, which are dye components of the oxidative hair dye, to develop color. Thus, it has been found that the color change can be prevented if there is an object that can remove or inactivate the silver ions remaining on the hair before dyeing with an oxidative hair dye.
Therefore, an object of the present invention is for an oxidative hair dye that prevents a change in color tone by removing or inactivating silver ions remaining in hair dyed with a photosensitive hair dye. The object is to provide a color change preventing agent.

The present inventors thought that the water-soluble silver ions were completely washed away by shampooing, but as a result of intensive research, a part of the silver ions were washed away, but a considerable amount of silver ions was It is found that the silver ions are firmly bound around the reduced metallic silver, being present in the form of silver ions in the hair, not being washed away while attached to the hair, If this residual silver ion can be inactivated or removed, it is assumed that there will be no change in color due to oxidative hair dye, and various reducing agents (vitamin C, hydroquinone, sodium thiosulfate, etc.) are made into aqueous solutions. When applied to silver-dyed hair, it was found that a slow reduction reaction occurred and silver ions were reduced to silver. An unsubstantial and determines, as a result of the other reagents were various tried, we found that sulfur and alkanolamines prevent the change in color tone is obtained by achieving the present invention conducted extensive research.

That is, in order to solve the above-mentioned problems, the color tone change preventing agent for oxidative hair dye according to claim 1 is characterized by containing 0.01 to 5% of sulfur with respect to the total amount. Similarly, the color tone change inhibitor for oxidative hair dyes according to claim 2 is characterized by containing 1 to 15% of alkanolamines based on the total amount. The color change inhibitor for oxidative hair dyes according to claim 3 is characterized by containing 0.01 to 5% sulfur and 1 to 15% alkanolamines based on the total amount. The color change inhibitor for oxidative hair dyes according to claim 4 is used for an aqueous solution, a hair lotion, a hair gel, a shampoo, a rinse, a treatment, a hair tonic, a hair liquid, a hair cream, a hair mousse, or a hair spray. To do.

The sulfur of the color tone change inhibitor for oxidative hair dyes of the present invention is intended to change the silver ions remaining on the hair to silver sulfide, so that the hair does not become green even if the hair is dyed with the oxidative hair dye. The color tone is obtained, and the alkanolamines of the color tone change inhibitor for oxidative hair dyes can dissolve and remove silver ions remaining in the hair, so that even if the hair is dyed with an oxidative hair dye, The target color tone was not obtained because the color tone was not different.
The color change inhibitor for oxidative hair dyes of the present invention can be used in aqueous solutions, hair lotions, hair gels, shampoos, rinses, treatments, hair tonics, hair liquids, hair creams, hair mousses, or hair sprays. Is big.

Sulfur, a color change inhibitor for oxidative hair dyes, reacts quickly with residual silver ions and silver to turn into silver sulfide, which is extremely stable and does not react with the dye components of oxidative hair dyes. The alkanolamines such as monoethanolamine and isopropanolamine, which are color tone change inhibitors for oxidative hair dyes, can prevent color tone change by dissolving and removing silver ions. These sulfur and alkanolamines can be included in aqueous solutions, shampoos, rinses, treatments, hair conditioners, and other hair styling products. Change can be prevented. Sulfur and alkanolamines may be used alone, or both may be used together.

The sulfur content is 0.01 to 5% with respect to the total amount of the color change inhibitor for oxidative hair dyes, and the alkanolamine content is equal to the total amount of color change inhibitor for the oxidative hair dye. On the other hand, the change in color tone can be prevented by including 1 to 15%. When sulfur and alkanolamines are blended, the blending ratio of sulfur and alkanolamines is 0.01 to 5% sulfur and alkanolamines with respect to the total amount of the color change inhibitor for oxidative hair dyes. Including 1 to 15% of the color tone can prevent changes in color tone.

The sulfur content was determined to be in the range of 0.01 to 5% of the total amount by the experiment described below. Several kinds of sulfur solutions with different concentrations are prepared, and the hair dyed with the photosensitive hair cream is washed with this, and after washing, a hair dye cream containing paraphenylenediamine is directly applied to the dried hair. When silver ions are present, the color changes immediately from blue to purple, but without silver ions, there is no change in color. This experiment revealed that the minimum sulfur concentration that would not cause discoloration was 0.01%. If the sulfur concentration is 5% or more, the odor becomes stiff and the practicality is lowered, so the sulfur content is suitably in the range of 0.01 to 5% with respect to the total amount. Similarly, the blending ratio of alkanolamines was determined to be in the range of 1 to 15% with respect to the total amount, and was determined by performing the same experiment described above. When the alkanolamine concentration is 15% or more, the skin irritation becomes strong and the practicality becomes low, so the blending ratio of alkanolamines is appropriately in the range of 1 to 15% with respect to the total amount.

Example 1
In a 10 kg stainless steel container, 0.12 kg of precipitated sulfur, 0.12 kg of powdered calcium oxide and 0.9 kg of purified water are taken and heated at 90 ° C. or more for 3 hours to dissolve sulfur. After cooling, the sulfur solution is filtered, and 7.77 kg of glycerin, 1 kg of fatty acid glucose ether and 0.09 kg of fragrance are added thereto, and water is adjusted to 10 kg. A yellow sulfur lotion of PH11 is obtained. Mix 5 ml of this sulfur lotion with a commercial shampoo, wash the hair dyed with photosensitive hair dye, and rinse well with a commercial rinse. Thereafter, even if the hair was dyed with an oxidative hair dye, it did not turn green and the intended color tone was obtained.

(Example 2)
Purified water 72.05 kg, trimethylglycine 0.05 kg, concentrated glycerin 2.0 kg, stearyltrimethylammonium chloride 0.4 kg, ethanol 10.0 kg, monoethanolamine 10.0 kg, rose water 5.0 kg, phenoxyethanol in a 100 kg mixing tank 0.5 kg was added and stirred at 45 ° C. for 30 minutes to obtain 99.5 kg of a transparent treatment lotion. This treatment lotion was sprayed on the hair dyed with gray hair with a photosensitive hair dye, allowed to stand for 3 minutes and then shampooed. After that, even when dyed with an oxidative hair dye, it did not turn green.

(Example 3)
In a 100 kg mixing tank, 70 kg of fatty acid glucose ether, 5 kg of polyethylene glycol / silicon oil derivative, 18.8 kg of purified water and 1.0 kg of 1,2 hexanediol are stirred and stirred at 60 ° C. to uniformly dissolve (phase A). In another container, take 3.0 kg of isopropanolamine and 0.2 kg of precipitated sulfur and stir at 60 ° C. for 30 minutes to dissolve the sulfur (phase B). Add Phase B and 2 kg of fragrance to Phase A to obtain a PH 9.5 sulfur shampoo. Even if the hair dyed with a photosensitive hair dye was washed with this sulfur shampoo and then dyed with an oxidative hair dye, the color tone did not appear abnormal, and the desired color tone was obtained.

Claims (4)

1. A color tone change inhibitor for oxidative hair dyes characterized by containing 0.01 to 5% of sulfur with respect to the total amount.
2. A color tone change inhibitor for oxidative hair dyes characterized by containing 1 to 15% alkanolamines based on the total amount.
3. A color change inhibitor for oxidative hair dyes containing 0.01 to 5% sulfur and 1 to 15% alkanolamines based on the total amount.
4. The oxidative dyeing according to any one of claims 1 to 3, which is used for an aqueous solution, a hair lotion, a hair gel, a shampoo, a rinse, a treatment, a hair tonic, a hair liquid, a hair cream, a hair mousse, or a hair spray. Color tone change inhibitor for hair.