JP2005273123A - Hat having new hair growth function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a material capable of activating scalp cells and therefore supposed to inherently have an effect of promoting hair restoration and new hair growth. <P>SOLUTION: A hat is structured so that the whole surface, or a part of the surface, of a rear face of a woven fabric or a nonwoven fabric, a backing material, or a core material for the hat is printed or coated with a mixture composition or a resin composition which forms cations, simultaneously forms anions in an amount larger than that of the cations, and amplifies and irradiates far infrared light at the same time. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention mainly uses a hat having a hair growth function, and from the entire surface or a part of the hat material, more negative ions than positive ions are simultaneously generated, and at the same time, far infrared rays are amplified and emitted. The present invention relates to a hat capable of obtaining a hair growth effect due to the cell activity effect of the scalp.

  In the past, hats generally used to protect the scalp, hair and eyes, and cover mainly sun protection, winter protection, and fashion coatings. Hats made of materials that use or have a thermal effect using far infrared rays are on the market.

Conventionally, a hair growth promoting hat using far infrared rays has already been filed. However, there is a hat used for carbonizing shellfish and seaweed powder to generate far infrared rays and printing the hat.
JP-A-9-206389

  Next, as a fiber product for hair growth, an application has been filed that provides a product for hair growth such as a hat with a negative ion generating fiber, but in the negative ion generating material, ceramic and natural ore are raised. However, in ceramics such as alumina, it is usually considered to be an alumina-based mixture and used as a far-red ceramic, and the possibility of generation of negative ions is low. In addition, eight kinds of natural ores have been raised as a generation material, but as a result of recent research, the effects of negative ion generation are often questioned in the eight kinds of ores. With regard to tourmaline, it is considered that negative ions are likely to be generated, and it is used in many products. However, in recent research, the generation of negative ions is weak and the effect of far-infrared natural ore is more effective. Is said to be expensive.

  As described above, there are fiber products and hair growth products that use the negative ion effect, but when the negative ion generating substance and the generation principle are taken into consideration, the effect cannot be expected so much.

  On the other hand, the hair growth / hair growth industry is divided into a wig industry for coating purposes and a hair growth / hair growth agent and hair growth / hair growth equipment industry. When hair growth or hair growth is the main purpose, hair growth and hair growth agents and hair growth devices can be mentioned. is there. As the mechanism, there are generally a nutrient, that is, a hair-restoring agent as a nutrient for cell tissues, and a hair-growth device that activates cells by stimulation, for example, a brush-type tapping device.

  However, even though the hair growth / hair growth agent or the hair growth / hair growth device is intended or targeted for hair growth or hair growth, the hair growth agent and hair growth device that grows hair that has become aging and cannot grow. Rather, it is the reality that hair restorers and hair restorers were only for preventing hair loss and aging. It was people's desire to realize that new hair grows fluffy from the peeled scalp.

  The problem to be solved is that when hair growth or hair growth is the main purpose, the hair root tissue of the scalp cells is activated and reactivated as shown in the principle of hair growth / hair growth agents and hair growth / hair growth devices. It is in the way of rejuvenation. As an activation method, there are a nutrient and a stimulation method as the activation of scalp cells. Instead of the starting point, a material for activating scalp cells that is considered to have an effect of promoting hair growth and hair growth is provided.

  Furthermore, in recent health booms, negative ions and far-infrared rays are beginning to be said to be said to have a healing effect by activating human tissue cells, but rather than those intended for conventional hair growth. It is to provide products with higher negative ion effects.

  In view of the above problems, it is necessary to first find a material that activates scalp cells and regenerates the hair root tissue. Focusing on negative ions and the far-infrared effect, the amplification effect is also examined individually. As a result of the overlapping, a mixture composition and resin composition in which far-infrared rays are amplified and radiated at the same time while producing more negative ions than positive ions, that is, as a mixture composition, sedimentary conglomerate natural ore and It is a mixture composition containing rare earth elements, and as a resin composition, it is a resin composition in which sedimentary conglomerate natural ore, natural ore containing rare earth elements and a resin that is not electrostatically charged are mixed. It is set as the structure which wears the produced hat by printing or apply | coating the composition to the raw material of a hat on the whole surface or a part.

In the present invention, sedimentary conglomerate natural ore, as its ore component, silica oxide, aluminum oxide, iron oxide, titanium oxide, calcium oxide, magnesium oxide, sodium oxide, potassium oxide, manganese oxide, boron oxide, chromium oxide, oxidation It is a natural ore containing zirconium as its component mass. Since it is a natural ore, more preferably, the mass% is silica oxide 47-55, aluminum oxide 10-14, iron oxide 6-8, titanium oxide 0.7-1.0, magnesium oxide 6-8, sodium oxide. 2-4, potassium oxide 0.08-0.3, manganese oxide 0.1-0.2, boron oxide 0.1-0.2, chromium oxide 0.07-0.2, zirconium oxide 0.01- Natural ores with a component mass of 0.02, ie sedimentary conglomerates, can be used.
As the particle size of the above-mentioned sedimentary conglomerate, those crushed to 1 mm or less can be used. More preferably, a powder whose particle size is pulverized to 30 microns or less is useful for the amplification effect by mixing.

In the present invention, as natural ores containing rare earth elements, ferrugsonite, monazite, bustness stone, xenotime stone, columbite, betajolite, samarsky stone, tantalum stone, uranium stone, thorium stone, rubber stone, gadolinite Etc. Of these ores, very weak radiation is emitted, radiation of 1.0 mSv / year or less, which is said to have no adverse effects on the human body, and radiation concentration is not required under the Nuclear Regulation Act. The most preferable natural ore with a radiation concentration of becquerel / g or less is monazite.
As the particle size of the above natural ore, those pulverized to 1 mm or less can be used. More preferably, a powder whose particle size is pulverized to 30 microns or less is useful for the amplification effect by mixing and the like.

In the present invention, as the resin to be mixed, a resin that does not affect the negative ion amplification effect and the far-infrared amplification effect, that is, a resin that is not charged with static electricity can be specified.
Non-statically charged resins such as silicon emulsion, silicone / acrylic copolymer emulsion, acrylic emulsion, vinyl acetate emulsion, fluorine emulsion, polyurethane emulsion, natural rubber latex, styrene butadiene rubber latex, isoprene rubber latex, acrylonitrile latex, chloroprene latex, etc. An aqueous resin can be used, and a polyurethane solvent-containing resin, an acrylic solvent-containing resin, and an ultraviolet curable resin can be used as the solvent-containing resin.

In the present invention, the mixing ratio of sedimentary conglomerate powder and rare earth ore powder is 10 to 100 parts by weight of rare earth ore powder with respect to 100 parts by weight of sedimentary conglomerate powder. More preferably, the rare earth ore powder is 10 to 40 parts by weight with respect to 100 parts by weight of the sedimentary conglomerate powder.
The mixing ratio of the resin not charged with static electricity, sedimentary conglomerate powder, and rare earth ore powder is 5 to 30 parts by weight of sedimentary conglomerate powder and 5 parts of rare earth ore powder with respect to 100 parts by weight of resin solid content. -30 parts by weight.

In the present invention, as woven fabric and non-woven fabric, there are cotton, hemp, wool, rayon, nylon, polyester, acrylic, carbon fiber, and the like. Cloth and non-woven fabric can be used.
There are dipping processing, coating processing, textile printing processing, stripe processing, mesh processing, spray processing, and dot processing as methods for applying and processing the mixed composition and the resin composition to woven fabric and non-woven fabric. I can do it. As a processed part of a woven fabric and a nonwoven fabric, it can apply and process to parts, such as the back surface of a surface base material, a back cloth, a core cloth, and a tape cloth.

  In the present invention, a hat in which a mixture composition and a resin composition in which far-infrared rays are amplified and radiated at the same time while producing more negative ions than positive ions at the same time on the portion of the cap cloth material has a large negative ion generation effect. In addition, due to the high radiation effect of far-infrared rays, hair growth and hair growth promoting effects by scalp cell activation effects and regeneration hair growth effects from aging of hair root cells were found.

堆積礫岩粉体とモナズ石粉体は、１５ミクロン以下に粉砕したものを用いた。基材試料の作成は、ナイロン製不織布（製品名スパンボンド 旭化成製）を使用し、この不織布に、実施例１及び比較例１及び比較例２の水分散体を、攪拌しながら各々についてディッピング加工して、乾燥炉で１２０℃、１０分間で乾燥した。そのときの塗布量は、各々 固形分塗布量５０ｇ／ｍ２ であった。Hereinafter, the present invention will be described in detail with reference to examples and comparative examples.

Sedimentary conglomerate powder and monazite powder were pulverized to 15 microns or less. Nylon nonwoven fabric (product name: Spunbond, manufactured by Asahi Kasei) was used for the preparation of the base material sample, and the aqueous dispersions of Example 1, Comparative Example 1 and Comparative Example 2 were dipped into the nonwoven fabric while stirring. Then, it was dried in a drying furnace at 120 ° C. for 10 minutes. The coating amount at that time was a solid content coating amount of 50 g / m 2, respectively.

静電気に帯電しない樹脂として、シリコン・アクリル共重合エマルジョン（製品名 シャリーヌＦＥ−２３０ 日信化学工業製）を用いて、混合して作成した樹脂組成物を使用した。
基材試料の作成は、同じくナイロン製不織布を使用し、上記と同じ方法で、ディッピング加工をして、乾燥炉で１２０℃、１０分間乾燥した。その時の塗布量は、固形分塗布量５０ｇ／ｍ２であった。

A resin composition prepared by mixing using a silicon / acrylic copolymer emulsion (product name: Charine FE-230, manufactured by Nissin Chemical Industry Co., Ltd.) as a resin that is not charged with static electricity.
The base material sample was similarly prepared using a non-woven fabric made of nylon, dipped by the same method as described above, and dried in a drying oven at 120 ° C. for 10 minutes. The coating amount at that time was a solid content coating amount of 50 g / m 2.

  In order to carry out the practical application test, the processed base materials created in Example 1 and Example 2, Comparative Example 1 and Comparative Example 2 and Comparative Example 3 and Comparative Example 4 were each used as the backing material of the hat, Each casual hat was created by sewing the entire backing.

Ion measurement and far-infrared measurement of the processed caps of Examples 1 and 2, Comparative Examples 1 and 2, 3 and 4 were performed.
In the ion measurement method, an average number of negative ions produced for 5 minutes and a number of positive ions produced were measured using an air ion counter ITC-201C (manufactured by Andes Electric).
In the far-infrared measurement, FTIR measurement of far-infrared emissivity was carried out at an environmental ion measurement center of a public institution, and an average emissivity with a human body temperature range of 35 ° C. and a wavelength of 4 to 14 μm was obtained.
The results are shown in Tables 3 and 4.

As is clear from the caps of Examples 1 and 2, there are more negative ions than positive ions by the processing method combining sedimentary conglomerate and monazite and sedimentary conglomerate, monazite and resin that is not electrostatically charged. While generating, far-infrared emissivity is also amplified a lot.
This phenomenon is caused by the interaction between the far-infrared radiation of sedimentary conglomerate and others, the ion generation ability and weak radiation of monazite, and the action of resin that is not charged with static electricity. It is determined that the inhibitory action has occurred.

  On the other hand, in Comparative Examples 1 and 3, the far infrared emissivity is not amplified, and no negative ions are generated. In Comparative Examples 2 and 4, more positive ions are generated than negative ions, and far infrared rays are not amplified.

In order to demonstrate that the present invention is more effective, details are clarified by giving examples and comparative examples as hats having a hair-growth function utilizing a negative ion effect and a far-infrared effect that have been put into practical use. To go.
As a method of trying on the hats prepared in Examples 1 and 2 and Comparative Examples 1 and 2, 3 and 4, the age is 50 years old or more, the head is a person with circular hair loss, about 1/5. A person having the above-mentioned area of hair removal and a person with hair loss are selected, and randomly, 20 hats of each of the six types of hats of Examples 1 and 2, and Comparative Examples 1 and 2, and 3 and 4 are provided. Twenty people tried it on, and each person took a questionnaire. The judgment of the result showed the percentage of the presence or absence of hair growth of 20 people average (hair growth rate%) and the hair growth state.
The results are shown in Tables 5 and 6.

As is apparent from the wearing test results of the examples in Table 5, a phenomenon in which most people were not only haired one month after the hair removal portion, but the area of the hair growth portion reached about 80%. It is.
As this action effect, the action of the mixed composition and the resin composition that simultaneously amplifies and emits far infrared rays while simultaneously producing more negative ions than positive ions, the hair root cell activity effect of the scalp is promoted, It is clear that the recurrent hair phenomenon has appeared.

  On the other hand, as is clear from the wearing test results of the comparative examples in Table 6, all the people had no hair growth effect. It has been clarified that there is no hair growth promoting effect between the single effect of the low-emissivity far-infrared ray and the single effect of the ionic effect with more positive ions.

  If the hair growth effect can be achieved simply by wearing a hat, people who are currently suffering from hair loss can easily obtain the hair growth effect at a low cost.

Claims (2)

The entire surface or part of the mixture composition or resin composition that simultaneously generates more negative ions than positive ions and simultaneously amplifies and emits far-infrared rays on the back or backing or core of the woven or non-woven fabric. A hat having a hair-growth function, characterized by being printed and / or coated on The mixture composition is a mixture composition of a natural ore containing sedimentary conglomerate natural ore and rare earth elements, and the resin composition includes a natural ore containing sedimentary conglomerate natural ore and rare earth elements. And a cap having a hair-growth function according to claim 1, comprising a resin composition in which a resin that is not electrostatically charged is mixed.