JP2006283271A - Method for treating wig hair and wig hair treated thereby - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for treating wig hair, containing a silver particle-attaching step for penetration attaching silver particles of nanoscale size to the hair. <P>SOLUTION: The method for treating wig hair comprises a decoloring step wherein, after washing the collected hair, contacting the hair with a decolorant to remove melanin pigment contained in the hair, a dyeing step wherein contacting the hair with a colorant to express color required for the hair, an after-dyeing treatment step wherein removing the remaining decolorant and colorant between the hair after decoloring and coloring treatment, coating the hair with a coating liquid containing moisture-keeping/softener agent and drying the obtained, and a final treatment step wherein spraying a coating liquid containing moisture-keeping/softener agent on the hair dried in the after-dyeing treatment step and ironing the obtained. At least one of the steps further contains a silver particle-attaching step for permeating and attaching silver particles of nanoscale size to the hair. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a hair treatment method for wrinkles and hair for wrinkles treated thereby, and more particularly, hair treatment for wrinkles including a silver particle soaking process in which silver particles having a nanoscale size are soaked into hair. The present invention relates to a method and wrinkle hair treated thereby.

The hair used for the eyelids is human hair composed of cuticle, furtex (cortex) and medulla (medulla). Hereinafter, the hair mentioned in the present specification refers to human hair.
Collected hair, i.e. human hair, must not only be decolorized and dyed due to its non-uniform hue, but also be decolorized and dyed to suit consumer preferences. Thus, the hair that has undergone the decoloring step and the dyeing step must undergo a post-dyeing treatment step and a final treatment step. Further, such hair may be subjected to an acid treatment step and a neutralization treatment step before the decolorization step, if necessary.

  When the hair undergoes a decolorization step, the hair epidermis is opened. In this way, when the hair epidermis of the hair is in an open state, the interstitial substances such as moisture in the furry will escape to the outside, so the moisturizing / softening agent was included in the post-dye treatment step and the final treatment step. The exterior of the hair epidermis is coated with the coating solution.

  If the user wears the heel for a long time, foreign matter such as sweat and sebum secreted from the user's scalp adheres to the hair of the heel, or foreign matter such as dust or bacteria floating in the atmosphere. There is a problem that bacteria adhere to the hair of the cocoon and bacteria grow in the cocoon and a bad odor is generated from the cocoon. Therefore, the user had to wash the tub frequently.

  On the other hand, since the moisturizing / softening agent described above is simply coated on the outside of the hair epidermis in an open state, as described above, the user cleans the wrinkles with shampoo or the like by using the wrinkles. If this is done, the moisturizing / softening agent outside the hair epidermis will fall off the hair epidermis and the hair moisturizing / softening properties will be reduced. Thereby, not only the hair is dried and hardened, but also static electricity is generated in the hair and the hair is curled, resulting in a problem that the glossiness is lowered. Therefore, in the case of a conventional wrinkle, every time the user cleans the wrinkle, it must be coated with a moisturizing / softening agent.

In particular, if a general user who is not an expert in the vaginal field decides to clean the vat, the general user has sufficient knowledge on the type of cleaning agent, cleaning time, cleaning method, moisturizing / softening agent coating process, etc. Since it does not have, the extent which damages the hair for wrinkles becomes large.
International Application Publication No. WO99 / 44564

An object of this invention is to provide the hair treatment method for wrinkles including the silver particle immersing process of immersing the silver particle which has a nanoscale magnitude | size to hair.
Another object of the present invention is to provide wrinkle hair treated by the wrinkle hair treatment method.

In order to achieve one object of the present invention described above, the hair treatment method for wrinkles according to the present invention comprises a bleaching agent for hair to remove the melanin pigment contained in the hair after washing the collected hair with water. A decolorizing step for contacting the hair, a dyeing step for contacting the hair with a dye for imparting a necessary color to the hair, and a washing solution for the decoloring agent and the dye remaining between the hairs after the decoloring and dyeing treatment. After the dyeing process, the hair is coated with a coating solution containing a moisturizing / softening agent and then dried, and the coating solution containing the moisturizing / softening agent is dried on the hair dried in the post-dying processing step. And a final treatment step of ironing the hair, wherein at least one of the steps has a nanoscale size Silver particles immersion deposition process is Hitachaku the particles to the hair is further included.

In order to achieve the other object of the present invention described above, the wrinkle hair of the present invention is treated by the aforementioned wrinkle hair treatment method.
Hereinafter, the hair treatment method for wrinkles according to the present invention and the hair for wrinkles treated thereby will be described in detail.

  As described above, since the collected human hair has a non-uniform hue, it needs to be decolored and dyed in order to meet the consumer's taste as well as need to be decolorized and dyed. Accordingly, the method for treating wrinkle hair using human hair basically includes a decoloring step, a dyeing step, a post-dyeing treatment step, and a final treatment step.

In the decolorization step, a decoloring agent is brought into contact with the hair in order to take out the melanin pigment contained in the hair.
A decoloring agent is comprised by mixing the 1st agent which has an alkaline agent as a main component, and the 2nd agent which has an oxidizing agent as a main component. Ammonia water (NH ₄ OH) is used as the first agent, and hydrogen peroxide water (H ₂ O ₂ ) is used as the second agent. When the depigmenting agent comes into contact with the hair, it softens and swells (swells) the hair epidermis and opens the hair epidermis so that the depigment can soak into the fur. The action of such a decoloring agent is disclosed in detail in page 57 of “Dyeing and Decolorization Theory and Practical Techniques” co-authored by Eunjae Yun Hongsk published in July 2004.

In particular, the decolorizing agent used in the present invention is configured by mixing water, aqueous ammonia (NH ₄ OH), and hydrogen peroxide (H ₂ O ₂ ) at a predetermined ratio. Water, ammonia water, and hydrogen peroxide water are usually mixed at a ratio of 100: 1 to 3: 3-1. Here, the concentration of the aqueous ammonia used in the present invention is 40 to 50%, preferably 46.2%. The concentration of the hydrogen peroxide solution used in the present invention is 30 to 35%, preferably 33%. In the present invention, the “ratio” indicating the compounding ratio of each substance indicates a weight ratio unless otherwise specified. In order to decolorize the hair to a lighter color, the ratio of ammonia water is gradually decreased, and the ratio of hydrogen peroxide water is sequentially increased. When decolorizing hair to a darker color, the ratio of ammonia water is sequentially increased, and the ratio of hydrogen peroxide water is sequentially decreased. When it is desired to obtain light-colored hair, the decolorizer is brought to room temperature, and the hair is immersed in this decolorizer for 5 to 6 hours. When it is desired to obtain dark hair, the decolorizer is heated to 65 to 75 ° C., and the hair is immersed in the decolorizer for 10 to 20 minutes.

In the dyeing step, a dye is brought into contact with the hair in order to impart the necessary color to the hair.
In the post-dyeing treatment step, the bleaching agent and the dyeing agent remaining between the hairs after the decoloring and dyeing treatments are removed, and then the hair is coated with a moisturizing / softening agent, dried, hair-stabilized and threaded Fix it. That is, the post-dyeing treatment step includes a washing process, a moisturizing / softening agent coating process, a drying process, a hair styling process, an elasticity applying process, and a thread fixing process.

In the washing process, the hair that has undergone the dyeing step is washed by immersing it in a washing solution in which the washing agent is mixed in a given ratio for a predetermined time, and then the washing agent is washed from the hair with water.
In the moisturizing / softening agent coating process, the washed hair is dipped in a coating solution in which the moisturizing / softening agent is mixed at a predetermined ratio for a predetermined time to coat the moisturizing / softening agent on the surface of the hair.

In the drying process, the hair that has undergone the moisturizing / softening agent coating process is dried at a predetermined temperature for a predetermined time.
In the hair styling process, the ends of the hair that has undergone the drying process are aligned.

In the elasticity imparting process, a plasticizer is applied to the hair that has undergone the hair conditioning process to impart elasticity to the hair.
In the thread fixing process, the middle part of the hair that has undergone the elasticity applying process is fixed with a thread.

  In the final processing step, the hair is ironed while spraying a coating solution in which a moisturizing / softening agent is mixed in a predetermined ratio onto the hair dried in the post-dyeing processing step.

  At least one of the decolorization step, the dyeing step, the post-dye processing step, and the final processing step further includes a silver particle immersing process in which silver particles having nanoscale sizes are sunk on the hair. It is.

  In the process of immersing the silver particles in the hair in at least one of the steps, the hair is immersed in a separate colloidal solution containing nanoscale silver particles at a predetermined concentration for a predetermined time. Can be made. A colloidal solution containing nanoscale silver particles at a predetermined concentration may be mixed with at least one of a decoloring agent, a dyeing agent, a cleaning solution, and a coating solution at a predetermined ratio.

Here, the size of the silver particles is preferably 1 to 300 nm.
As described above, in the decoloring process, the hair epidermis is softened by the decoloring agent and swells and becomes open, so that the nanoscale silver particles penetrate the fur texture best. Therefore, it is most preferable that a colloidal solution containing nanoscale silver particles at a predetermined concentration is mixed with a decoloring agent in a predetermined ratio so that the nanoscale silver particles are immersed in the hair in the decolorization step.

  In particular, according to the present invention, a colloidal solution containing nanoscale silver particles in a predetermined concentration is mixed in a decoloring agent at a predetermined ratio so that the nanoscale silver particles enter the hair during the decolorization process. To do. In the decolorization process, as described above, the hair epidermis is softened by the decolorizing agent and is swollen and opened, so that the silver particles soak into the fur material well.

  In the present invention, the decolorizer in which water, ammonia water and hydrogen peroxide water are mixed at a ratio of 100: 3: 1 has a silver particle size of 1 to 300 nm and a concentration of 1,000 to 10,000 ppm. The nanosilver colloidal solution is mixed at a ratio of 100: 3 to 7 and the hair is dipped in the nanosilver colloid mixed solution. Here, when the concentration of silver in the nanosilver colloidal solution is 1,000 ppm or less, the amount of silver that is infiltrated into the hair is too small and the silver antibacterial effect is not sufficiently exhibited. Further, when the concentration of silver in the nanosilver colloid solution is 10,000 ppm or more, only the material cost of silver is increased, and the antimicrobial effect of silver is not further increased. Similarly, when the ratio between the decolorizing agent and the nanosilver colloidal solution is 100: 3 or less, the amount of silver that soaks into the hair is too small, and the antifungal effect of silver is not sufficiently exhibited. Moreover, when the ratio of a decoloring agent and a nano silver colloid solution will be 100: 7 or more, only the material cost of silver will become high, and the antimicrobial effect of silver will not increase any more.

  In order to increase the quality scale of hair for wrinkles, the washing process, the moisturizing / softening agent coating process, the drying process, and the hair shaping process can be performed again on the hair that has undergone the thread fixing process.

  In addition to basically including a decolorization step, a dyeing step, a post-dye treatment step, and a final treatment step, such a method for treating wrinkle hair includes an acid treatment step to smooth the surface of the hair. A neutralization step.

In the acid treatment step, the collected hair is washed with water, and then the hair is dipped in an oxidizing agent, and the hair epidermis of the hair is shaved with a predetermined accuracy.
In the neutralization treatment step, a neutralizing agent is brought into contact with the acid-treated hair to neutralize the acid attached to the hair surface.

  Among the acid treatment step and the neutralization treatment step, at least one of the acid treatment step and the neutralization treatment step may further include a silver particle deposition process in which silver particles having a nanoscale size are deposited on the hair. .

  In at least one of the steps, in the process of immersing the silver particles in the hair, the hair is immersed in a separate colloidal solution containing nanoscale silver particles at a predetermined concentration for a predetermined time. You can also. A colloidal solution containing nanoscale silver particles at a predetermined concentration can be mixed with at least one of an oxidizing agent and a neutralizing agent at a predetermined ratio.

The moisturizing / softening agent may include chito acid and / or a chito acid derivative.
Chitosan is obtained by chemically treating (deacetylating) chitin, a protective tissue component of the crustacean cell wall. Chito acid is a kind of polysaccharide having a chemical structure similar to fibrin, which is a plant protection tissue, and in addition to the hydroxyl group (—OH) possessed by fibrin, a free amino group (—NH ₂ ) is further added. It is a harmless and non-toxic natural polymer substance with rich combined functionality.

The surface layer of the hair is (−) charged, especially when wet with water. Therefore, chitoic acid is strongly bound to hair wet with water by its own (+) charged amino group (—NH ₂ ), and forms a coating film on the hair. Not only is it increased, but the surface of the hair is smoothed and frictional resistance is reduced. In addition, because of high moisture retention, the conductivity of the hair surface is increased, static electricity is less likely to accumulate, and the generation of static electricity in the hair is prevented.

  In addition, after silver particles are deposited on the hair by the silver particle soaking process described above, when the chitoic acid-containing moisturizing / softening agent is coated on the hair, the silver particles are charged with (+) ions. Hydroxy group (—OH) having a (−) ion of chito acid binds to the (+) ion silver particles that have been put on, thereby further increasing the moisture retention of the hair.

  Thus, the action of the moisturizing / softening agent containing chitoic acid is considered to be due to ionic bonds. Therefore, it seems that the adsorption is good when the ionic states of hair and chito acid have opposite polarities as in the magnet principle. This is more effective for repairing hair damaged by oxidation or de-dying.

As described above, according to the wrinkle hair treated by the wrinkle hair treatment method of the present invention, silver particles having a nanoscale size are immersed in the hair. Therefore, sterilization and antibacterial action of silver particles having a nanoscale size eliminates bad odor from the cocoon because bacteria cannot grow on the cocoon even if the user wears the cocoon for a long time. In addition, the nano-sized silver particles soaked in the hair firmly capture the moisturizing / softening agent, so that the moisture retention and flexibility of the hair is maintained, the generation of static electricity is suppressed, Hair does not sag and gloss does not decrease. Further, according to the present invention, even if the user cleans the wrinkles, the moisturizing / softening agent hardly falls from the hair, so that it is not necessary to separately coat the moisturizing / softening agent after the cleaning.

Hereinafter, the present invention will be described in more detail through preferred embodiments of the present invention.
Embodiment 1: Hair decoloring step and silver particle immersing process produced by immersing in 1,000 ppm nano silver colloid solution, omitting acid treatment and neutralization treatment steps First, collected human hair, i.e. wrinkles A sample of 10 g of hair for use is prepared and washed with water. The washed sample is decolorized and nano silver particles are immersed in the sample.

  Next, after preparing a decoloring agent in which 30 cc of ammonia water and 10 cc of hydrogen peroxide water were mixed with 1 liter of water, the particle size of the decoloring agent was 1 to 300 nm. 5 cc of nanosilver colloid solution having a concentration of 1,000 ppm is mixed, the decoloring agent and nanosilver colloid mixed solution are heated to 70 ° C., and the sample is immersed in the mixed solution for 15 minutes. The concentration of the ammonia water is 40 to 50%, preferably 46.2%. The concentration of the hydrogen peroxide solution is 30 to 35%, preferably 33%.

  When the hair of the sample is immersed in the mixed solution, the hair is swollen (swelled) while the hair epidermis is softened by the decoloring agent, and the hair is infiltrated into the fur due to the open state. As the decolorization takes place, the nano silver particles soak into the fur and the nano silver particles infiltrate into the fur.

Staining Step Next, the sample which has been decolorized and soaked with nano silver particles is stained.
As the staining agent, an acid dye and water are mixed and used at a predetermined ratio. When it is desired to dye a brighter color, the ratio of the acid dye in the dyeing agent is sequentially increased, and when it is desired to dye a darker color, the ratio of the acid dye in the dyeing agent is sequentially decreased.

  In this embodiment, in order to dye | stain with black which is a dark color, the hair is immersed for 40 to 80 minutes at 90-110 degreeC in the dyeing agent which mixed acidic dye and water in the ratio of 1: 2-4. If the ratio between the acid dye and water, the temperature range, and the immersion time are out of the above ranges, the hair cannot be satisfactorily dyed black. Most preferably, the hair is immersed for 60 minutes at 100 ° C. in a dyeing agent in which an acidic dye and water are mixed at a ratio of 1: 3.

Washing step Next, the stained sample is washed with a washing solution, and the washing solution is further washed off with water.

  The cleaning solution is configured by mixing a known cleaning agent and water at a predetermined ratio. In the present embodiment, the cleaning agent and water are mixed at a ratio of 1: 200 to 400. If the ratio of the cleaning agent to water is out of the above range, the hair may not be sufficiently washed, or the washing solution may be difficult to be removed when it is later washed off with water. Most preferably, the cleaning agent and water are mixed in a ratio of 1: 300.

As the cleaning agent, a general cleaning agent commercially available in the market is used. Such detergents mainly contain surfactants and solubilizers, and also contain small amounts of skin protectants, thickeners that increase viscosity, preservatives, fragrances, dyes, and the like.

  When washing, the hair is dipped in the washing solution and boiled until the decoloring agent and the dyeing agent remaining between the hairs after the decoloring and dyeing treatments are completely removed. Boil for minutes.

  When washing with water, the hair is dipped in water and boiled until the washing solution is completely removed from the hair, but usually the hair is boiled for 10-20 minutes.

Moisturizing / softening agent coating step Next, the washed sample is coated with a coating solution to coat the hair with the moisturizing / softening agent.

  The coating solution is composed of a moisturizing / softening agent and water mixed in a predetermined ratio. In this embodiment, the moisturizing / softening agent and water are mixed in a ratio of 1:50 to 150. When the ratio of the moisturizing / softening agent and water is 1:50 or less, the moisturizing / softening effect is inferior, and when the ratio of the moisturizing / softening agent and water is 1: 150 or more, the hair becomes sticky. . Most preferably, the moisturizing / softening agent and water are mixed in a ratio of 1: 100.

  The moisturizing / softening agent comprises a hair brightener, a hair separating agent, a hair coating agent, a hair wetting agent and the like. In this embodiment, as a hair brightener, oil that can be purchased under the product name “KF-96” from SHIN-ETSU SILICONE KOREA CO., LTD., Located in 5th Namdaemun-ro, Jung-gu, Seoul Type silicone mold release agent and hair release agent, available in Korea under the product name KM-722 from Korea Shin-Etsu Co., Ltd., and as a hair coating agent, Korea, located in Samseong-dong, Gangnam-gu, Seoul Silicon softening agent that can be purchased from DOW CORNING KOREA LTD. Under the product name “36 EMULSION” and glycerin as a hair wetting agent are 1-3: 0.5-1.5: 1-3: It mixes in the ratio of 0.5-1.5. If the mixing ratio of the hair brightener, hair separating agent, hair coating agent, and hair wetting agent is outside the above range, any one component will interfere with the function of the other component. Will not be able to perform their functions. Most preferably, the hair brightener, hair separating agent, hair coating agent and hair wetting agent are mixed in a ratio of 2: 1: 2: 1.

  When coating, the hair is dipped in the coating solution and boiled until the hair is sufficiently moisturized / softener component, but usually boiled for 10-20 minutes.

Final processing step The hair of the sample after all the steps as described above is ironed and trimmed.

Embodiment 2: Hair produced by immersing in a 10,000 ppm nano silver colloid solution, omitting the acid treatment and neutralization treatment steps. In this Embodiment 2, the hair is mixed with a decoloring agent in the decolorization step and the silver particle immersion process. All steps and conditions were the same as those in the first embodiment except that the nanosilver colloid solution to be used was 10,000 ppm.

Embodiment 3: Hair produced by performing acid treatment and neutralization treatment steps and immersing in 1,000 ppm nanosilver colloidal solution
Acid treatment step First, a sample of collected human hair, that is, 10 g of hair for wrinkles, is prepared and washed with water.

The oxidizing agent for acid treatment of hair is constituted by mixing water and an acid at a predetermined ratio. Water and acid are usually mixed at a ratio of 1,000: 5 to 10. When the mixing ratio of water and acid is 1,000: 5 or less, the ratio of acid is too low and the hair epidermis is not sufficiently cut. When the mixing ratio of water and acid is 1,000: 10 or more, the ratio of acid is too high, and the hair epidermis is excessively shaved. In this embodiment, sulfuric acid (H ₂ SO ₄ ) is used as the acid, and an oxidizing agent in which water and sulfuric acid are mixed at a ratio of 1,000: 7.5 is used. Usually, hydrochloric acid (HCl), calcium hypochlorite (Ca (ClO) ₂ ) or the like can be used as the acid for the oxidizing agent in addition to sulfuric acid, but in this embodiment, only sulfuric acid is used. This is because, when hydrochloric acid, calcium hypochlorite, or the like is used as an acid for an oxidizing agent, when hair treated with such an oxidizing agent is immersed in a silver (Ag) -containing colloidal solution, Chlorine (Cl) that may remain on the surface reacts with silver (Ag) to produce silver chloride (AgCl), and this silver chloride as a precipitate has a fatal adverse effect on hair color. It is.

The temperature of the water mixed with the oxidizing agent is preferably 10 to 20 ° C. This is because hair outside this temperature range does not respond well to acid.
In the present embodiment, an oxidizing agent in which 7.5 cc of sulfuric acid (concentration: 97%) is mixed with 1 liter of water is heated to 15 ° C., and two samples are immersed in the oxidizing agent for 15 minutes. At that time, the hair of the sample is agitated with a stick to separate the hairs from each other so that the oxidant is evenly distributed to the hair. As a result, the hair is acid-treated. By the acid treatment, the surface of the hair, that is, the hair epidermis is shaved by about 15%.

Neutralization treatment step Next, the hair which has been acid-treated and whose hair epidermis has been shaved is neutralized with a neutralizing agent. The neutralizing agent is configured by mixing water and ammonia water soda ash (NH ₄ OH · Na ₂ CO ₃ ) at a predetermined ratio. Here, ammonia water soda ash is a 1: 1 mixture of ammonia water and sodium carbonate. Water and ammonia water soda ash are usually mixed at a ratio of 1,000: 10 to 20. When the mixing ratio of water and ammonia water soda ash is 1,000: 10 or less, the neutralization treatment is not sufficiently performed. If the mixing ratio of water and ammonia water soda ash is 1,000: 20 or more, the hair epidermis will be rough. In this embodiment, a neutralizing agent in which water and ammonia water soda ash are mixed at a ratio of 1,000: 15 is used.

  The temperature of the water mixed with the ammonia water soda ash is preferably 10 to 20 ° C. This is because the hair does not react well with ammonia water soda ash outside this temperature range.

  In this embodiment, a neutralizing agent obtained by mixing 15 cc of ammonia water soda ash in 1 liter of water is brought to 15 ° C., and two acid-treated samples are immersed in this neutralizing agent for 15 minutes. At that time, the hair of the sample is agitated with a stick to separate the hairs from each other so that the neutralizing agent is evenly distributed over the hair. This neutralizes the hair.

Subsequent processing is performed under the same conditions as in the first embodiment.
Embodiment 4: Hair produced by performing an acid treatment and neutralization treatment step and immersing in a 1,000 ppm nanosilver colloidal solution In this Embodiment 4, the acid treatment and the neutralization treatment are performed in the same manner as in Embodiment 3 above. Thereafter, the subsequent steps are performed in the same manner as in the second embodiment.

  The following experiments are performed on the samples manufactured through the first to fourth embodiments as described above to examine the components and effects of hair.

Experimental Example 1: Chemical component analysis test of hair Chemical component analysis test of hair manufactured according to Embodiment 1
As a result of request to Testing & Research Institute, the following test results were obtained.

以上の化学成分分析試験において、ナノスケールの銀粒子が毛髪に浸着されていることが分かる。

In the above chemical component analysis test, it can be seen that nanoscale silver particles are immersed in the hair.

Experimental example 2: Antibacterial strength test of hair omitting acid treatment and neutralization treatment steps As a result of requesting the Korean anti-weaving fabric test laboratory to test the antibacterial strength of hair according to Embodiment 1 and the sample according to Embodiment 2. The following results were obtained.
(1) Test results: Antibacterial power (SHAKE FLASK METHOD-KS M 0146-2003)

(2) Test method

Experimental Example 3: Antibacterial Strength Test of Hair Performed Acid Treatment and Neutralization Treatment Step As a result of requesting the Korean anti-weaving fabric testing laboratory to test the antibacterial strength of the hair according to Embodiment 3 and the sample according to Embodiment 4. The following results were obtained.

(1) Test results: Antibacterial activity (SHAKE FLASK METHOD-KS M 0146-2003)

以上の坑菌力試験において、前記実施形態１乃至実施形態４により製造された４つの試料において、全て菌株の減少率で９９．９％の値が得られ、それらの試料の毛髪が優れた坑菌力を有していることが分かる。
(2) Test method

In the above antibacterial power test, in the four samples manufactured according to the first to fourth embodiments, a value of 99.9% was obtained as the reduction rate of all the strains, and the hair of these samples was excellent. It turns out that it has microbial power.

Claims (7)

In a method for treating wrinkle hair,
A decoloring step of contacting the hair with a decoloring agent to remove the melanin pigment contained in the hair after washing the collected hair with water;
A dyeing step in which a dye is brought into contact with the hair in order to impart the necessary color to the hair;
A post-dyeing treatment step in which the decoloring agent and the dyeing agent remaining between the hairs after the decoloring and dyeing treatments are removed with a washing solution, and then the hair is coated with a coating solution containing a moisturizing / softening agent and dried; ,
A final treatment step in which the hair dried in the post-dye treatment step is sprayed with a coating solution containing a moisturizing / softening agent to iron the hair;
The hair treatment method for wrinkles, wherein at least one of the steps further includes a silver particle immersing process in which silver particles having a nano-scale size are immersed in the hair. After the collected hair is washed with water, an acid treatment step of contacting the hair with an oxidant and shaving the hair epidermis with a predetermined accuracy;
A neutralization step of bringing the acid-treated hair into contact with a neutralizing agent to neutralize the acid adhering to the surface of the hair,
2. The wrinkle according to claim 1, wherein at least one of the steps further includes a silver particle soaking process in which silver particles having a nanoscale size are soaked into hair. Hair treatment method.   The hair is immersed in a separate colloidal solution containing silver particles having a nanoscale size at a predetermined concentration in at least one of the steps for a predetermined time. 3. A method for treating hair for wrinkles according to 1 or 2.   A colloidal solution containing nanoscale silver particles at a predetermined concentration is mixed with at least one of a decoloring agent, a staining agent, a cleaning solution, a coating solution, an oxidizing agent, and a neutralizing agent at a predetermined ratio. The hair treatment method for wrinkles according to claim 1 or 2. In the acid treatment step, the hair is immersed in an oxidizing agent in which water and sulfuric acid are mixed at a ratio of 1,000: 5 to 10,
In the neutralization treatment step, the hair is immersed in a neutralizing agent in which water and ammonia water soda ash are mixed at a ratio of 1,000: 10 to 20,
In the decolorization step, the hair has a particle size of 1 to 300 nm and a silver particle in a decoloring agent in which water, ammonia water and hydrogen peroxide water are mixed in a ratio of 100: 3 to 1: 1 to 3 A nanosilver colloidal solution having a concentration of 1,000 to 10,000 ppm is immersed in a decoloring agent and a nanosilver colloid mixed solution mixed at a ratio of 10: 3 to 7,
In the dyeing step, the hair is immersed in a dyeing agent in which acid dye and water are mixed in a ratio of 1: 2 to 4,
In the post-dyeing treatment step, the hair is dipped in a cleaning solution in which a known cleaning agent and water are mixed in a ratio of 1: 200 to 400 and boiled, and then an oil type silicone release agent as a hair brightener. And an emulsion type silicone release agent as a hair separating agent, a silicone softening agent as a hair coating agent, and glycerin as a hair wetting agent. 1-3: 0.5-1.5: 1-3: 0.5 The moisturizing / softening agent and water mixed in a ratio of ˜1.5 are dipped in a coating solution mixed in a ratio of 1:50 to 150 and boiled. Hair treatment method for hair. The hair treatment method for wrinkles according to claim 1 or 2, wherein the moisturizing / softening agent contains chito acid and / or a chito acid derivative. Wrinkle hair which has been treated by the hair treatment method for wrinkles according to claims 1 to 6.