JP4822086B1 - Multifunctional pseudo hair material - Google Patents

Abstract

The present invention relates to a multifunctional artificial hair material that combines cellulose fiber and a photocatalyst-containing antibacterial rayon so that it can be dyed in harmony with the hair of the head and to which rare element minerals are added.
SOLUTION: A cellulose fiber and a photocatalytic antibacterial rayon fiber are combined, and the dispersibility is improved by a moisture content lowering treatment and pulverization and mixing of 40 to 50% by weight of the rayon fiber. Moreover, it is dyed with the texture and glossiness harmonious with the head hair, and the thin hair part can be concealed naturally, and the structure of the multifunctional pseudo hair material to which rare element minerals are added is used.
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Description

The present invention relates to a multifunctional pseudo-hair material, and more specifically, in the structure, cellulose-based rayon fiber is used as a main axis component, and this is combined with cellulose-based rayon fiber that is a combination of titanium dioxide photocatalyst-containing antibacterial rayon fiber . It is a composition and can improve the dispersibility during the manufacturing process and use, and in coloring, it can be dyed to have a color and luster that matches the human head hair, and the head thin hair Excellent concealment of parts. In addition, in addition to the antibacterial properties of the combined titanium dioxide photocatalyst containing antibacterial rayon fiber , antibacterial and deodorizing effects by negative ion emission and far infrared radiation are added, and if necessary, a photocatalytic functional material is added and mixed. The present invention relates to a hybrid pseudo-hair material having multi-functionality that can increase antibacterial and deodorizing effects and can also promote blood circulation and relax.

As a method of locally concealing the thinned portion of the head hair, a method of attaching a powder or fibrous material of the same color as the head hair to the thin hair portion is known, In visual inspection after finishing, conventional artificial hair is often inferior in harmony with surrounding ground hair in terms of natural luster and texture. In general, the artificial hair colored with an acid dye or an oxidative dye used in cosmetics may be faded. In addition, since there are individual differences in the color of hair and the like, even hair that harmonizes with a person's head hair often does not harmonize with the hair of another person. In addition, when wearing artificial hair to hide the thinned part of the head hair, unsanitary problems are unavoidable due to odors such as dandruff, scalp secretions, and hair styling, and bacteria growth and dirt. there were. In addition, when using rayon staple fibers in conventional cellulose fibers, a decrease in dispersibility between the staple fibers is an obstacle, and improvement or improvement of the mutual dispersibility during the production process and use is intended. A response that can be done is desired.

As pseudo hair or pseudo hair thickening material for concealing the thinned portion of the head hair, various processing of various fiber materials and proposals for imparting functionality to it have been seen. For example, in Japanese Patent Laid-Open No. 5-71003, a separability improving agent is applied to cosmetic fine hair that is fixed to the hair by being sprinkled on the hair or sprayed with a spray. Japanese Laid-Open Patent Publication No. 6-57505 proposes a simple artificial hair material for hair that can be simply fixed to a residue made of a hot-melt short fiber such as polyester and keeps it from falling off.
Furthermore, regarding the cutting or pulverization of the fiber material, Japanese Patent Application Laid-Open No. 9-119063 discloses a short napping for cutting or pulverizing fibers having a change in thickness and a different cross-sectional area in the fiber axis direction. A fiber floc and a napped structure using the floc, Japanese Patent Application Laid-Open No. 2002-285462 includes a fiber fibrillation method, and Japanese Patent Application Laid-Open No. 2004-332147 has a length that is not constant but is irregularly bent. In addition, artificial hair fibers and a method for producing artificial hair fibers are described in which the first short fibers are mixed, the bulkiness is high and a volume feeling can be obtained with a small amount, and antibacterial yarn is used for the second short fibers.
In addition, with the recent spread of antibacterial deodorization for daily necessities, proposals for imparting functionality to artificial hair have been seen. Patent No. 3035279 discloses a resin composition that emits far-infrared rays at the same time as releasing a negative ion containing a high-molecular compound that is not easily charged with static electricity, a mineral containing rare elements, and either tourmaline or far-infrared radiation ceramics. Non-patent literature (" All about photocatalysts", 2003 edition, published by the Industrial Research Council) has a description of photocatalytic functional materials. Japanese Patent Laid-Open No. 9-119063 discloses an antibacterial fine hair produced by a wet spinning method containing chitosan, and Japanese Patent Application Laid-Open No. 2003-119608 pulverizes natural ore containing radioactive rare earth elements. There has been proposed a hair thickening material comprising a combination of a short fiber mixed with a raw material for artificial hair, divided into fine filaments and divided, and an adhesive for spraying.
The proposals as described above include simple hairs for cosmetics to which a separability improver has been added, and simple artificial hair materials that can fix succinctly hot-melt short fiber polyester and the like and retain the hair. Furthermore, regarding the cutting or crushing of fiber materials, there is a description of polyester crimped yarn as a proposal of short fiber flock for napping and its napping structure, but rayon is a heavy product and has low fastness to wet friction dyeing, thermal stability. There is also a description that it is inferior, and it is described that there is a limit in application development. In addition, in the case of artificial hair fibers in which the first short fibers that are not uniform in length and are irregularly bent are mixed with the straight second fibers that are constant in length, they are extremely high even if speculated from the combination form. It can't be said that bulkiness can be obtained with a small amount of bulkiness. Furthermore, the antibacterial properties are limited to preventing the propagation of various germs during storage, but even when using artificial hair on the thin hair part of the hair, the dandruff before washing off is combined with the ease of subsequent shampooing. Occurrence, scalp secretions, and hair styling adhere to odors such as bacterial growth and dirt. In addition, its functionality is not limited to the range where functions such as antibacterial deodorization can be imparted, and as a neat sensation mood in the thin hair part of the head, its functionality including atmospheric and environmental factors such as negative ion emission and far infrared radiation is also included. In addition, areas that can be granted and exhibited are left as a challenge to be addressed.

The object of the present invention is to solve the above-described problems. First, (1) in the present invention, cellulose-based fibers that have been used as pseudo hair materials from the past have water solubility in the fibers. Effective use of excellent properties for moisture absorption and water absorption with a small amount of substance. For example, even with regard to general-purpose hot-melt synthetic fiber polyester, since both the refractive index in the fiber axis direction and the refractive index in the direction orthogonal to each other are high, there is a difficulty that the reflection of light is strong and the glossy surface is insufficient. It is the structure which selected the combination in the category of the cellulose fiber chosen from what can exhibit the attribute of a natural fiber. In the present invention, the cellulose fiber can be dyed so as to have a color and luster that harmonizes with human head hair, and it does not appear as white hair due to the transmission of light, but human head hair (especially Japanese) It is possible to easily and effectively produce a pseudo hair material that is harmonized with a natural luster and is particularly suitable for concealing the thin hair portion of the head. (2) The next problem to be solved is improvement and improvement in dispersibility, which is an impediment to consistently follow the manufacturing process and product use. When handling these fibers, when they are stored in a container or package, tangles or pills of the fibers are generated, and clogging of the container or the like occurs as an obstructive factor when used for each purpose. And as the fiber diameter becomes thinner, the fibers are more likely to be entangled with each other, and it is often the case that the fibers become larger before forming a ball-like lump. Such a phenomenon of forming a ball shape and a phenomenon of sticking together without being judged has a problem in that the nozzle is clogged at the time of ejection from the container and it cannot be used up to the end. Also in the production process, the improvement and improvement in dispersibility has the effect of increasing the stirring ability during dyeing and preventing uneven dyeing. Furthermore, the air dryer used at the time of drying has advantages such as prevention of unevenness in drying because it is difficult to lump and is easily bulky.

According to the pseudo hair material of the present invention, it is a combination of fibers making use of the attributes of cellulose rayon fibers excellent in moisture absorption and water absorption, and the other fibers are provided with antibacterial properties using a titanium dioxide photocatalyst-containing antibacterial rayon. At the same time, the dispersibility is improved. Further, the fiber can be dyed so as to have a color and luster that harmonizes with human head hair, and is suitable as a pseudo hair material capable of naturally concealing the thin hair portion of the head. Furthermore, in addition to the antibacterial properties, the negative ion emission by spray and the antibacterial and deodorant properties by far-infrared radiation, and the blending of these inorganic mineral powders gives a heavy texture to the hair of damaged thin hairs, making it more glossy. In addition to providing a separate effect that can be finely adjusted, it is possible to effectively and easily exhibit these multi-functions, such as promoting blood circulation and hair restoration in the thin hair portion of the hair, in combination with blood circulation promotion and relaxation effects.

In addition, the next problem is that the human head tends to become unsanitary due to odors such as bacterial growth and dirt due to the occurrence of dandruff, scalp secretions, and hairdressing agents, and to prevent the propagation of various germs during storage. In addition to providing antibacterial and deodorizing functions, spraying or sprinkling on the thinning hair of the head further promotes blood circulation that is advantageous for hair growth or hair restoration promotion on the scalp due to its reducing action, which is desirable for health. For concealing the thin hair part that makes the atmosphere environment in the head good and relaxed by the synergistic effect of the far-infrared radiation action that is said to exhibit further negative ion emission environment and / or photocatalytic antibacterial deodorizing action. It is possible to obtain a hybrid pseudo hair material suitable for the above. The multifunctional simulated hair material according to the present invention has the technical means described below in order to achieve the above object.
In the configuration of the present invention, first, a cellulose-based rayon fiber is used as one short fiber A, and is composed of a pseudo hair material composition obtained by mixing at least the other short fiber B with the same, and in a combination of these fibers, The other short fiber B to be combined with one short fiber A is provided with a photocatalyst-containing antibacterial / deodorizing function, and B has a structure selected in a limited manner that belongs to the category of similar cellulose fibers. By the way, cellulose rayon fiber has been used as a mainstream from the viewpoint of flocking members, and even if the product is dyed with relatively high transparency, the artificial hair material can easily be seen as gray hair due to the transmission of light. There are qualitative differences, and the product is heavy, has a low fastness to wet friction dyeing, and has poor heat stability. However, in the present invention, it can be dyed so as to have a color and luster that harmonizes with head hair, harmonizes with human head hair with a natural luster, and is particularly suitable for concealing the thin hair portion of the head. The pseudo hair material can be easily and effectively manufactured. Next, in the configuration of the present invention, as described above, all of these fibers are limited to the category of cellulose-based rayon fibers, and one short fiber A is a rayon fiber selected from cellulose-based fibers, and artificial hair. The other short fiber B that exhibits excellent properties as a material, is a similar rayon fiber for imparting a function, and has an antibacterial rayon fiber containing a titanium dioxide photocatalyst for imparting an antibacterial / deodorant function. In order to provide antibacterial and deodorizing functions to the titanium oxide-based rayon fiber of one short fiber A , both of them are equally in the category of cellulose fiber, and both of them are contained in the component. combining the photocatalyst containing antibacterial rayon fibers also contain titanium dioxide based photocatalyst component, i.e. to one of the regular rayon short fiber a of the former, the other short A Wei B also rayon equally antibacterial and deodorant functions applied commonly in titanium-based functional materials in fiber material, in both the expected affinity cognate lineage in inclusions, i.e., both cellulosic a fiber material Among the fibers and components, the former is a titanium oxide-based component and the latter is a titanium dioxide-based photocatalyst-containing component in common, and these fiber materials and components are selected in common.
As described above, in the present invention, for the purpose of imparting functionality, (1) one of the cut and pulverized rayon fibers is combined with a photocatalyst-containing antibacterial rayon fiber . In addition, (2) Minerals containing rare elements and mixtures containing either tourmaline or far-infrared ceramics are added and mixed, antibacterial and deodorizing properties by negative ion emission and far-infrared radiation, blood circulation promotion and relaxation effect, and hair It works favorably for hair growth or hair nourishment at the thin hair part. In the present invention, the following further effects are expected. (3) Human hair is desired to have a texture and luster that are in harmony with the hair at the thinned hair, although there are individual differences. First, the present invention is advantageous in dyeing processing of artificial hair that seeks a harmonious texture and glossiness, in which both the main fiber and the main fiber are concentrated on cellulose fiber. Furthermore, the addition and mixing of minerals (inorganic minerals) and far-infrared radiation materials (ceramics) containing the rare elements described above is not a lepel that has the desired effect and impairs the texture and physical properties, and also has a harmonious texture and gloss. Even in the dyeing process that requires the same, it does not become an obstacle. On the other hand, in the present invention, the mineral containing the rare elements and the far-infrared emitting material, that is, the former inorganic mineral powder and the latter ceramic are both inorganic fine particles, and a pseudo hair thickener composition in which this is dispersed and blended For the object, it is possible to give a heavy texture to the hair at the damaged thin hair portion and to adjust the gloss more finely. In general, rayon and polyamide fibers have relatively high transparency and have a drawback that the hair after spraying and sprinkling tends to appear gray hair even when dyed, and the qualitative discomfort is not much different from the hair. In addition, the desire to make the hair look closer to natural hair even under direct sunlight, and to make the hair look softer and richer always remains the same. Also from this point, in the present invention, the addition and mixing of the mineral (inorganic mineral) containing rare elements and the far-infrared radiation material (ceramic) is not limited to the effect of negative ion emission and far-infrared radiation, and the artificial hair thickener In view of the above problem, it has a feature as a separate effect of two birds with one stone that can finely adjust the heavy texture and glossiness by dispersing and blending inorganic mineral powder. Here, regarding the safety of minerals containing rare elements, a region of 1.0 mu Sv / hr or less, which is said to emit weak radiation and do not adversely affect the human body, is used in the simulation of the present invention. The use of the hair thickener is safe and safe from the viewpoint of the radioactivity generating lepel.
In the present invention, as minerals containing rare elements, ferrugsonite, monazite, xenotime, columbite, betajolite, samarsky stone, eucsenite, tantalum stone, sphalerite, thorium stone, rubber stone, carnotite, gadolin There are stones. Among these ores, monazite can be most preferably used as one that emits extremely weak radiation and does not adversely affect the human body, and as a mineral that excites negative ion emission. As the particle size of the natural ore, those pulverized from 0.1 micron to 1 mm can be used. Most preferably, a powder whose average particle size is pulverized to 10 microns or less is better and better mixed and coated. As the above-mentioned blending part, 50:50 parts by weight with respect to the far-infrared emitting substance is beneficial in that it releases more negative ions.
In the present invention, as tourmaline, shoal tourmaline, lithium tourmaline, drabite tourmaline, rubellite tourmaline, pink tourmaline, indecolite, baraiba tourmaline, watermelon and the like can be used. As the particle size of the tourmaline, those pulverized from 0.1 micron to 1 mm can be used. Most preferably, the average particle size is 10 microns or less. As for the number of blending parts, 50:50 parts by weight with respect to the rare element mineral is useful for emitting far-infrared rays.
In the present invention, a far-infrared ceramic that radiates far-infrared rays having a wavelength of 2 to 50 microns can be used as the far-infrared ceramic. As a far infrared ceramic component, a mixture containing two or more kinds of alumina, silica, zirconia, sodium oxide, magnesium oxide, iron oxide and the like can be used. Examples of the commercially available products include the product name Serajit and OK Trading, which are suitable for amplifying negative ions and emitting far infrared rays. As said compounding part number, 50:50 weight part is useful when radiating a far-infrared ray with respect to a rare element mineral.
In the present invention, as the photocatalytic functional material, any of anatase type titanium dioxide, brookite type titanium dioxide, apatite-coated titanium oxide, titanium dioxide including inorganic ceramic, and the like can be used. The anatase-type titanium dioxide and brookite-type titanium dioxide having a particle size of 5 to 200 nm can be used. Most preferably, 6-30 nm is more beneficial for exciting electrons.
As the apatite-coated titanium dioxide, it is possible to use the titanium dioxide coated with apatite, that is, calcium phosphate. As a commercial item, the brand name apatite covering titanium oxide NSP-100 made by nano wave can be used, for example. Inorganic ceramic-containing titanium dioxide, the component of the inorganic ceramic is one type of synthetic ceramic such as silica, alumina, chromium oxide, zirconium oxide, zirconia, yttrium oxide, or a synthetic ceramic containing two or more types, and natural components containing the above components It is a mineral. As the above particle diameter, those having an average of 30 microns or less can be used. As a commercial product, for example, the product name Lionite Lion can be used. 30 parts by weight or less with respect to the rare earth element mineral and the far-infrared ray main substance is useful in reducing the generation of negative ions as the blending part.
Therefore, in the present invention, because it gives a texture and gloss harmonious with the hair at the thin hair part, gives a heavy texture to the hair at the damaged hair thin hair part, and contributes to finely adjusting the gloss, In addition to minerals (inorganic minerals) and far-infrared emitting materials (ceramics) containing rare elements, pseudo hair thickening material in which the following inorganic fine particles are mixed in an amount of 1 to 20% by weight, preferably 1 to 10% by weight. It can be a composition. Examples of such inorganic fine particles include kaolin, talc, calcium carbonate, zinc white, silicon oxide, zinc sulfide, aluminum oxide, tin oxide, silica, titanium oxide, and magnesium, including those used as matte fine particles in conventional artificial hair. One or a mixture of two or more selected from barium sulfate and the like can be used.
In the present invention, a cellulose rayon fiber typified by viscose rayon is used as the main shaft fiber, but the fiber is mainly handled by flocking manufacturers and has accumulated technical know-how for many years. Even if there is a slight difference in the compounding substances in the combination of fibers, it is suitable for demonstrating the use of that technical know-how in dyeing treatment for the purpose of harmonizing gloss and texture of hair and concealing thin hair. In addition, it is gentle on the skin because it is plant-like, and it is common to similar fibers from the recent ecological point of view. However, it is presumed that it works well in the case of substances of the same strain. That is, in the present invention, as described above, the fiber main axis is a rayon fiber selected from cellulose fibers, and the photocatalyst-containing antibacterial rayon fiber for imparting the functionality combined therewith is also a rayon fiber, and the former contains the oxidation fiber. Of the many photocatalysts in the latter, the titanium-based component and the titanium oxide-based material mixture contained in the regular rayon are combined in common.
In the present invention, the configuration is a fiber having cellulose-based rayon fiber as a main axis component, and the performance of a suitable performance as a pseudo hair material among its attributes, and in combination with the selection of the same kind of fibers, This same type of fiber is configured to exhibit various functions for solving the problems. That is, the present invention is a pseudo hair material composition in which cellulose-based rayon fiber as a main shaft component and the same kind of fibers are combined. 1) One is a cellulose-based rayon fiber and the other is a titanium dioxide-based photocatalyst-containing antibacterial rayon fiber. In contrast to the structure in which the photocatalyst-containing antibacterial rayon short fiber floc cut into substantially equal fiber lengths is combined, 2) the other titanium dioxide-based photocatalyst-containing antibacterial rayon fiber against the cellulose rayon short fiber floc Is a composition containing the photocatalytic short fiber floc that is divided or pulverized into at least about 60% or less.
Here, a comparative study was conducted on the dispersion ratio and bulkiness of the structure in which cut and pulverized short fiber flocks were mixed with conventional cellulose-based rayon short fibers. In the conventional dispersion test, the amount of passage through a 25-mesh network was shown, but when it reached 3 denier × 0.5 mm, it was about 99%, and detailed error comparison was not possible. Therefore, this time, a comparison of 3 denier × 0.5 mm and a pulverized floc added thereto was performed by the step selection method.
The amount of grinding is 60% of the total weight.
In the stage selection method, 80, 60, and 40 mesh sieves are stacked from the bottom, and after passing mechanical vibration for a certain period of time, each mesh passes or the amount of the object is expressed as a percentage. For comparison, 1) 3 denier x 0.5 mm regular product (cut 100%), 70 mesh sorting finish, 2) 3 denier x 0.5 mm, implementation product (60% blended), 70 mesh sorting finish, 3) Same as above Table 1 shows the results of comparing the finished products of No. 4 with respect to 40 mesh selection finishing from the viewpoint of work efficiency.

上記表１の示すとおり、粉砕配合したものが，１レギュラー品（カット１００％）品に比べて分散性が良くなっていることが判る。
次に、嵩高性をみる為の簡易的な比重テストを行った。

As shown in Table 1 above, it can be seen that the pulverized compound has better dispersibility than the one regular product (cut 100%).
Next, a simple specific gravity test was conducted to check the bulkiness.

この結果より、粉砕配合したものは，レギュラー品（カット１００％）品に比べ、嵩高性が低くなっていることが判る。

From this result, it can be seen that the pulverized compound is less bulky than the regular product (cut 100%).

  Regarding the dispersion rate, a sample is put into a cylinder whose cylindrical side surface is made of a wire mesh, and set in a rotating device. A rotational motion about the circle on the bottom surface of the cylinder is added, and the sample in the cylinder is released to the outside through the mesh with the rotational motion. The percentage of the sample released is expressed as a percentage. In the present invention, the dispersion tester uses Maag Flockmaschinen GmbH, manufactured by West Germany.

まず、分散率試験として、従来品（３デニール×０．５ｍｍ）と、そこへ粉砕物を加えることでの分散率と嵩高性の比較を行ったところ、粉砕物の割合が多くなるにつれて分散率は低くなっている。また、嵩高性についても、粉砕物の割合が多くなるにつれて、嵩高性は高くなっていることが判った。このように、粉砕した短繊維フロックを混合したものでは、分散率は良くなる傾向であるが５０％位迄で、７０％までになると、分散率は同長、同径にカットしたものの組み合わせ１００％のものより悪くなる。そこで、分散率の適正範囲としては、７５％以上と考えられる。よって、粉砕物を混合する有効利用範囲は５０％迄と判断される。そこで、分散率性の向上並びに改善を図るため、例えば３デニール×０，３ｍｍと０．３ｍｍとを１：１の割合で混合したものと、切断粉砕物との比較検討を行った結果、切断粉砕した短繊維フロックを多く混合したものでは。分散率は良くなる傾向であるが、５０％程度迄で、７０％程度迄になると、分散率は切断粉砕短繊維フロックを混合しないものより悪くなり、分散率の望ましい範囲は７０％以上であり、よって切断粉砕短繊維フロックの適当な混合割合は５０％迄とみられる。
なお、汎用レーヨン繊維の切断粉砕５０％と、二酸化チタン系光触媒含有抗菌性レーヨン繊維の切断粉砕短繊維フロック５０％の数値はほぼ同等との予測であるが、後者では該光触媒含有から分散性がやや劣るともみられた。このことはカット長さのぶれ、粉砕物の乱れも関係ないといえず、後者の分散率が劣ると迄はいえない。また、嵩高性については、切断粉砕短繊維フロックの混合品は、混合しないカット１００％に比べ、一様に嵩高性は低く、該粉砕短繊維フロックを混合したことによる嵩高性ガ高まる効果は期待できない。次に、本発明における染色では、セルローズ系繊維を、反応性染料、直接染料、建染染料および硫化染料から選ばれる染料を含む染料組成物で、該セルローズ系繊維１００重量部に対し該染料が０．０１〜４５重量部となるように染色してなる擬似毛髪材により、従来の擬似毛髪が、自然の艶感や質感の点などににおいて、周囲の地毛との調和性に劣るものが多く、また、通常、化粧品で使われる酸性染料や酸化染料で着色した擬似毛髪は、褪色する虞があり、また、衣服等に色移りする場合がある等の難点を改善しようとするものであり、色の堅牢性に優れ、人の黒髪、茶毛、ブロンド毛等に自然の艶感や質感により良好に調和する、頭部の薄毛部分の隠蔽用に適した擬似毛髪を提供するものである。本願発明は、色の堅牢性に優れ、人の頭皮に自然な艶感や質感により良好に調和する、頭部の薄毛部分の隠蔽様に適した擬似毛髪材の目的を達成したものである。
本発明の擬似毛髪材は、主軸セルローズ系レーヨン繊維と、光触媒含有抗菌性レーヨン繊維との組み合わせとからなる擬似毛髪材組成物において、セルローズ系繊維を特定の染料組成物で染色して得られ、セルローズ系繊維としては、特に頭髪に調和する自然な質感を得る観点から、ビスコースレーヨン等のレーヨン繊維が好ましく、また、上記のごとく本願発明では選択的に主軸セルローズ系繊維と、これに光触媒含有抗菌性付与の為のセルローズ系繊維は共に、レーヨン繊維に特定し、かつ混合成分でも後者では、銀や銅、第４級アンモニウム塩のごとき汎用抗菌剤から選ばれたものを選択せず、主軸セルローズ系レーヨン繊維の一部含有成分でもある酸化チタンと同属系統の二酸化チタン光触媒含有抗菌性レーヨンとの組み合わせを選択した構成であり、このことは元来レーヨンは植物系繊維であって、頭髪に調和する質感、艶感を顕現する擬似毛髪の染色でも永年の取扱ノウハウを発揮でき、かつ近年の環境資源、分別回収を標榜するエコの潮流からも、元来植物系であるレーヨンであって、その親和性のある同系素材の組み合わせは、例えばシャンプーでの洗い落としでもなじみ易く、異素材との組み合わせより有利に働くものと推測される。本発明では、前記擬似毛髪材組成物中のセルローズ系繊維を、反応性染料、直接染料、建染染料及び硫化染料から選ばれる染料を含む染料組成物で、該セルローズ系繊維１００重量部に対し、該染料０．０１〜４５重量部となるように染色してなる色相の異なる二種以上のセルローズ系着色繊維フロックを混合してなる擬似毛髪材である。また、前記染料組成物が、黒系染料及び赤系染料を含み、両染料の配合割合が前記セルローズ系繊維１００重量部に対し、該黒系染料５〜４０重量部、該赤系染料１〜２０重量部、さらに染料組成物が黒系染料、赤系染料及び黄系染料を含み、これらの染料の配合割合が、前記セルローズ系繊維１００重量部に対して、該黒系染料５〜４０重量部、該赤系染料１〜２０重量部、該黄系染料１〜２０重量部である擬似毛髪材を提供する。
本発明の擬似毛髪材では、主軸セルローズ系レーヨン繊維と、銅、第４級アンモニウム塩のごとき汎用抗菌剤から選ばれたものを選択せず、該主軸レーヨンの一部含有成分でもある酸化チタンと同属系統の二酸化チタン光触媒含有抗菌性レーヨンとの組み合わせとした構成を、特定の染料組成物で染色して得られる。また、セルローズ系繊維は、頭髪に調和する、優れた質感や艶感を得る観点から、その繊維長が、０．１〜５ｍｍその繊維径が０，５〜３０デニールであることが好ましい。
染料組成物としては、反応性染料、直接染料、建染染料及び硫化染料は、一種を単独で用いてもよいし、複数種を組み合わせて用いてもよい。これらの染料を用いることにより、褪色や色移りの生じ難い擬似毛髪材を得ることができる。ここで、反応性染料とは、繊維と化学的に結合して堅牢な染色を与える染料をいう。
反応性染料としては、従来公知の各種の反応性染料を一種単独又は複数組み合わせて用いることができるが、ビニルスルフォニル系又はトリアジン系の染料が好ましく用いられ、特にビニルスルフォニル系の染料が好ましく、他にもキノキザリン系、ピリミジン系の染料等を用いることができる。ビニルスルフォニル系又はトリアジン系の染料を用いると、特に色彩艶が人の頭髪に似た擬似毛髪材を得ることができ、また、褪色や色移りの特に生じ難い擬似毛髪材が得られる。以下に反応性染料の例を示す。

First, as a dispersion rate test, a comparison was made between the conventional product (3 denier x 0.5 mm) and the dispersion rate and bulkiness of the pulverized product added thereto. As the proportion of the pulverized product increased, the dispersion rate was increased. Is low. Moreover, also about the bulkiness, it turned out that the bulkiness becomes high as the ratio of the ground material increases. In this way, the mixture of pulverized short fiber flocs tends to improve the dispersion ratio, but it is up to about 50%, and when it reaches 70%, the dispersion ratio is the same length and the same diameter cut combination 100 % Worse than that. Therefore, it is considered that the appropriate range of the dispersion rate is 75% or more. Therefore, it is determined that the effective use range for mixing the pulverized product is up to 50%. Therefore, in order to improve and improve the dispersibility, for example, a comparison between a mixture of 3 denier x 0,3 mm and 0.3 mm at a ratio of 1: 1 and a cut pulverized product was performed. In a mixture of crushed short fiber flocks. Although the dispersion rate tends to improve, it is up to about 50%, and when it is up to about 70%, the dispersion rate is worse than that without mixing the cut and pulverized short fiber floc, and the desirable range of the dispersion rate is 70% or more. Therefore, an appropriate mixing ratio of the cut and pulverized short fiber floc appears to be up to 50%.
The numerical values of 50% cut and pulverized general-purpose rayon fibers and 50% cut and pulverized short fiber flocs of antibacterial rayon fibers containing titanium dioxide photocatalysts are predicted to be approximately the same. Somewhat inferior. This is not related to fluctuations in the cut length and disturbance of the pulverized product, and it cannot be said that the latter has a poor dispersion rate. In addition, as for bulkiness, a mixed product of cut and pulverized short fiber flocs is uniformly less bulky than cut 100% without mixing, and the effect of increasing the bulkiness due to mixing of the pulverized short fiber flocs is expected. Can not. Next, in the dyeing in the present invention, the cellulose fiber is a dye composition containing a dye selected from a reactive dye, a direct dye, a vat dye and a sulfur dye, and the dye is added to 100 parts by weight of the cellulose fiber. The artificial hair material dyed so as to be 0.01 to 45 parts by weight may cause the conventional artificial hair to be inferior in harmony with the surrounding ground hair in terms of natural luster and texture. In many cases, artificial hair colored with an acid dye or an oxidative dye that is usually used in cosmetics is likely to fade, and is intended to improve difficulties such as color transfer to clothes. The present invention provides pseudo hair suitable for concealing the thin hair portion of the head, which is excellent in color fastness and harmonizes well with human black hair, brown hair, blond hair, etc. by natural luster and texture. . The present invention achieves the purpose of a pseudo hair material that is excellent in color fastness and is well harmonized with natural luster and texture on the human scalp and suitable for concealing the thin hair portion of the head.
The pseudo hair material of the present invention is obtained by dyeing a cellulose fiber with a specific dye composition in a pseudo hair material composition comprising a combination of a principal axis cellulose rayon fiber and a photocatalyst-containing antibacterial rayon fiber, As the cellulose fiber, rayon fiber such as viscose rayon is preferable, particularly from the viewpoint of obtaining a natural texture that harmonizes with the hair, and as described above, in the present invention, a main axis cellulose fiber and a photocatalyst are contained therein. Cellulose fibers for imparting antibacterial properties are both specified as rayon fibers. In the latter case, the main component is not selected from general antibacterial agents such as silver, copper, and quaternary ammonium salts. Select a combination of titanium oxide, which is also a component of cellulose rayon fiber, and antibacterial rayon containing titanium dioxide photocatalysts of the same family This is because rayon is originally a plant fiber, and it can demonstrate its long-standing know-how in dyeing artificial hair that reveals a texture and gloss that harmonizes with hair, as well as environmental resources and sorting in recent years. Even from the ecological trend that advocates for collection, rayon, which is originally a plant system, has a similar combination of similar materials that can be easily blended with, for example, shampoos, and works better than combinations with different materials. Presumed to be. In the present invention, the cellulose fiber in the pseudo hair material composition is a dye composition containing a dye selected from a reactive dye, a direct dye, a vat dye and a sulfur dye, and is used for 100 parts by weight of the cellulose fiber. A pseudo hair material obtained by mixing two or more kinds of cellulose-based colored fiber flocs having different hues, which are dyed so as to be 0.01 to 45 parts by weight of the dye. The dye composition contains a black dye and a red dye, and the blending ratio of both dyes is 5 to 40 parts by weight of the black dye, 1 to 1 of the red dye with respect to 100 parts by weight of the cellulose fiber. 20 parts by weight, and further, the dye composition contains a black dye, a red dye and a yellow dye, and the blending ratio of these dyes is 5 to 40% by weight of the black dye with respect to 100 parts by weight of the cellulose fiber. Part, the red dye 1-20 parts by weight, and the yellow dye 1-20 parts by weight.
In the pseudo hair material of the present invention, the main axis cellulose rayon fiber and titanium oxide which is a part of the main component rayon are not selected from those selected from general-purpose antibacterial agents such as copper and quaternary ammonium salts. It is obtained by dyeing a composition in combination with an antibacterial rayon containing a titanium dioxide photocatalyst belonging to the same family with a specific dye composition. In addition, the cellulose fiber preferably has a fiber length of 0.1 to 5 mm and a fiber diameter of 0.5 to 30 denier from the viewpoint of obtaining an excellent texture and glossy harmony with the hair.
As the dye composition, reactive dyes, direct dyes, vat dyes and sulfur dyes may be used alone or in combination of two or more. By using these dyes, it is possible to obtain a pseudo hair material in which fading or color transfer hardly occurs. Here, the reactive dye refers to a dye that chemically bonds with a fiber to give a fast dyeing.
As the reactive dye, various conventionally known reactive dyes can be used singly or in combination, but a vinylsulfonyl or triazine dye is preferably used, and a vinylsulfonyl dye is particularly preferable. In addition, quinoxaline-based and pyrimidine-based dyes can be used. When a vinylsulfonyl-type or triazine-type dye is used, a pseudo hair material having a color luster resembling that of human hair can be obtained, and a pseudo hair material in which fading and color transfer are not particularly likely to occur can be obtained. Examples of reactive dyes are shown below.

・ Sumifix Black B (Sumifix Black B, black dye)
・ Sumifix Red 3BF (Sumifix Red 3BF, red dye)
・ Sumifix Yellow 3RF (Sumif Yellow 3RF, yellow dye)
・ Sumifix Blue BRF (Sumifix Blue BRF, blue dye)
・ Sumifix Brown RNF (Sumifix Brown RNF, brown dye)
As the direct dye, conventionally known various direct dyes can be used singly or in combination, and for example, the following direct dyes can be used.

・ Everdirect Black B (Everdirect Black B, black dye)
・ Kayarus Red F5B (Kayarus Red F5B, red dye)
・ Kayatheron Yellow C-2RL (Kayacelon Yellow C-2RL, yellow dye)
・ Kayaru Supra Blue 4BL (Kayarus Supra Blue 4BL, blue dye)
・ Kayarus Supra Brown GTL (Kayarus Supra Brown GTL, brown dye)
As vat dyes (including indanthrene dyes), various conventionally known vat dyes can be used singly or in combination. For example, the following vat dyes can be used.

・ Mikethren Red FBB (Mikethren Red FBB, red dye)
・ Mikethren Blue BC (Mikethren Blue BC, blue dye)
・ Mikethren Yellow GCN (Mikethren Yellow GCN)
As the sulfur dye, various known sulfur dyes can be used singly or in combination. For example, the following sulfur dyes can be used.

・ Kayak Sulfur Blue RC (Kayaku Sulfur Blue RC, blue dye)
・ Kayak Sulfur Black 3B (Kayaku Sulfur Black 3B, black dye)
・ Assashio Red Brown 3B (Asathio Red Brown 3B, brown dye)
The dyeing of the principal cellulose fiber and the photocatalytic antibacterial rayon in the present invention is carried out so that the dye is 0.01 to 45 parts by weight, preferably 1 to 40 parts by weight, based on 100 parts by weight of these fibers. That is, by adjusting the dye composition and dye concentration in the dyeing bath, the amount of fibers immersed in the dyeing bath, etc., the ratio of cellulose fiber and dye during dyeing is within the above range. Dye under various conditions. If the blending ratio of the dye is less than 0.01 parts by weight with respect to 100 parts by weight of the cellulose fiber, the degree of dyeing tends to be insufficient, and it becomes difficult to obtain a color close to the hair, exceeding 45 parts by weight. If there is a dyeing composition containing black and red dyes, the dyeing is sufficiently carried out, but surplus dye remains in the reaction bath and the production cost is increased, especially when obtaining a pseudo hair material for black hair. It is preferable to dye, and the blending ratio of both dyes is preferably 5 to 40 parts by weight of the black dye and 1 to 20 parts by weight of the red dye with respect to 100 parts by weight of the cellulose fiber. By using black and red dyes in the above proportions, it is possible to obtain a pseudo hair material that is particularly harmonious with black hair in terms of color. Further, from the same viewpoint, the mixing ratio of the black dye and the red dye is 1 / 0.8 to 1 / 0.1, particularly 1 / 0.7 to 1/0 in weight ratio [black / red]. .2 is preferred. In addition to the black dye and the red dye, it is preferable to use a dye composition containing a yellow dye. In this case, it is preferable that the compounding ratio of the yellow dye is 1 to 20 parts by weight with respect to 100 parts by weight of the cellulose fiber. By using a fiber composition containing black, red, and yellow dyes, artificial hair that can harmonize with black hair of Japanese people and the like and can more naturally hide thin hair portions can be obtained. In this case, the weight ratio of the black reactive dye to the yellow reactive dye in the dye composition is 1 / 0.5 to 1 / 0.01, particularly 1 / 0.3 to 1 / 0.0. 1 is preferred. The dye composition can be obtained by dissolving a solvent for each dye and other additives blended as required, by a generally known method. As the solvent, water is usually used, and dissolution in the solvent can be carried out using various commonly known devices and means such as a stirring device with a heating device. When a vinyl sulfenyl dye is used, the dye composition preferably contains a reaction accelerator such as Na ₂ CO ₃ in an amount of 100 to 1000 parts by weight with respect to 100 parts by weight of the cellulose fiber.
The simulated hair material of the present invention can be obtained by dyeing cellulose fibers using the above-described dye composition, and as a dyeing method, various methods known as fiber dyeing methods are used without particular limitation. However, it is preferably stained by the following method. That is, in the simulated hair material of the present invention, cellulose fiber is dyed by immersing it in the above-described dye composition for 10 to 100 minutes under the condition of a temperature of 40 to 100 ° C. The treatment temperature is 40 to 100 ° C. in order to sufficiently permeate the dye. From this viewpoint, the more preferred treatment temperature is 50 to 70 ° C. In addition, the treatment time of 10 to 100 minutes is to sufficiently infiltrate the dye and to sufficiently react with the cellulose fiber, and a more preferred treatment time is 20 to 80 minutes.
In the simulated hair material of the present invention, the cellulose fiber may be dyed after being cut to the final length of the simulated hair material, or may be cut into an appropriate length after dyeing to obtain simulated hair. However, from the viewpoint of simplification of the dyeing process and the like, it is preferable to dye after cutting into a predetermined length. Moreover, the dyeing | staining of a fiber may be performed continuously or batchwise. If necessary, processing such as soaping and dispersion processing is performed after dyeing.
The pseudo hair material of the present invention can be used by being applied to a desired part of the head by various conventionally known methods. As a method of attaching, the artificial hair may be sprinkled on the head, but it is preferable to spray the hair on a desired site such as a thin hair site by spraying it with a propellant by an injector. The pseudo hair material of the present invention is excellent in that it can be jetted well when jetted by a jet.
Next, in the present invention, for functionalization, first, the pseudo hair material composition is powder-mixed with a resin composition containing at least one of a mineral containing rare elements, tourmaline, or far-infrared ceramic. The pseudo hair material is substantially spread and supported by spraying, coating, or impregnation.
Furthermore, in the present invention, the natural mineral containing the rare elements, far infrared radiation substance tourmaline powder, natural mineral containing rare elements, far infrared radiation substance Serajit AL-F9, and photocatalytic functional material titanium dioxide. The pseudo hair material which mixed and added was obtained. In the present invention, any of anatase type titanium dioxide, brookite type titanium dioxide, apatite-coated titanium dioxide, inorganic ceramic-containing titanium dioxide, etc. can be used as the photocatalytic functional material. The anatase type titanium dioxide and brookite type titanium dioxide having a particle size of 5 to 200 nm can be used. Most preferably, 6-30 nm is more beneficial for exciting electrons.
As the apatite-coated titanium dioxide, it is possible to use the titanium dioxide coated with apatite, that is, calcium phosphate. As a commercial item, the brand name Apatite covering titanium dioxide NSP-001 made by Nanowave can be used, for example. As inorganic ceramic inclusion titanium dioxide, the component of the inorganic ceramic is one type of synthetic ceramic such as silica, alumina, chromium oxide, zirconium oxide, zirconia, yttrium oxide, or a synthetic ceramic containing two or more types. Contains natural minerals. As said particle size, an average particle size of 30 microns or less can be used. As a commercial product, for example, trade name Lionite. Lion products can be used.

Hereinafter, an embodiment of the present invention will be described.

First, in the first step , cellulose-based rayon fiber A (viscose rayon, manufactured by Omikenshi Co., Ltd.), one cellulose-based rayon short fiber A cut and crushed into a fiber diameter of 3 denier and a fiber length of 0.5 mm, and the fiber the other of the photocatalyst-containing antibacterial rayon staple fibers B having the same fiber diameter 3 denier × fiber length 0.5 mm (Daiwabo rayon Co., Ltd., trademark "Panakeia"), said cellulosic rayon staple fibers a as well as cutting and crushing photocatalyst It mix | blended so that it might become 50% weight part with respect to 100 weight part of containing rayon short fiber B , and obtained the pseudo hair material composition.

Next, in the second step, the official moisture content of the rayon fiber is 11% by spraying hot air with a hot air drier on the simulated hair material composition that has been dyed through cutting and crushing in the first step. By reducing this by 3% to a moisture content of around 8%, a pseudo hair material with a dispersion rate of 95% was obtained. When hot air is blown by the above hot air dryer, surface damage to the rayon fiber due to high heat is inevitable, so the so-called pile for improving the scattering property by electrostatic flocking in the pile flocking before the hot air treatment. The fiber surface is pretreated by conventional means for electrodeposition treatment. In the pile electrodeposition treatment, inorganic salts, surfactants, organic silicon and the like were usually used.
However, in the case of the present invention, improvement or improvement in dispersibility is the main problem to be solved. For example, slimming is likely to occur at normal use amounts of surfactants, which becomes an obstacle to dispersibility. For this reason, apart from inorganic salts and the like, the surface-treating treatment was carried out with the use amount of the surfactant, especially about 20% less than 20% in the usual electrodeposition treatment .
Next, the moisture regression phenomenon is unavoidable when the moisture content is set to around 8%, but the residual treatment agent for the fiber surface processing in the so-called bile electrodeposition treatment in the fiber surface pretreatment of the hot air treatment. In addition to the existence of labor, in order to suppress moisture absorption until the shipment of goods, for example, it is possible to carry product packaging with, for example, a hygroscopic silica gel enclosed. In the present invention, it is preferable that after the hot air treatment, another surface coating post-treatment is performed by a conventional means using a so-called electrodeposition treatment agent of a pile similar to the pretreatment. However, it is preferable that the amount of the electrodeposition treatment agent used in the surface coating post-treatment after the hot air treatment is lower than that used in the pretreatment of the hot air treatment. The surface treatment of the fiber after the hot-air treatment is performed in order to avoid the occurrence of slime that is an obstacle to improvement or improvement in dispersibility, which is a problem to be solved in the present invention. The surface coating treatment was performed again, and the post-treatment was applied to act to suppress moisture absorption due to the moisture regression phenomenon during product storage or transportation.

In Example 1, one cellulose-based rayon fiber A and the other photocatalyst-containing antibacterial rayon fiber B having the same length and the same fiber diameter to be combined therewith are similarly 0.5 mm × 3 denier circles. Common to the columnar form, the shorter the fiber diameter and the shorter the cut length, the easier it is for the fibers to become entangled with each other due to the stress or friction of the cutting blade, or the deformation of the cut section, etc. It was a factor. Therefore, although it is possible to adopt a method for preventing fusion such as a lubricant adhesion treatment or a coolant treatment for imparting a sliding effect between the fibers against this hindering factor, the present invention is limited only to cellulose-based rayon fibers A as a combination. From the configuration, paying attention to the moisture content in both cellulose rayon fibers A and B , as a means that does not interfere with simple low cost and quality control, by blowing hot air with a hot air dryer after dyeing after cutting and crushing, The official moisture content of both rayon short fibers is 11%, and the dispersion rate will remain at around 80% if it is left as it is, but the moisture content can be lowered to around 8% by applying the above hot air spraying treatment. The dispersibility was improved by increasing the dispersion rate of the simulated hair material composition to 95%.

Cellulose-based rayon fiber A (viscose rayon, manufactured by Daiwabo Rayon Co., Ltd.) has a fiber diameter of 3 denier x fiber length of 0.5 mm, and one photocatalyst-containing antibacterial rayon fiber B (produced by Daiwabo Rayon Co., Ltd., trademark “Panakei”) 50% by weight of fibers having the same fiber diameter of 3 denier, a fiber length of 0.3 mm or less, cut and pulverized into fine filaments were mixed to obtain a pseudo hair material composition. The dispersion ratio was 98%.
Next, in the same manner as in Example 1, in order to improve the dispersibility, the hot air treatment by the hot air dryer, i.e., the circulation, is a hindrance factor such as cross-entanglement between both fibers and nozzle clogging when using the product. When the official moisture content of the cellulose rayon fiber A and the photocatalyst-containing antibacterial rayon fiber B is 11% by hot air blowing treatment, the dispersion rate is reduced to 98% by reducing the moisture content to around 8%. It was possible to improve.

In a fiber dye bath containing a dye composition containing a black reactive dye and a red reactive dye, a black dye is used for 100 parts by weight of the pseudo-hair material composition of the cellulose fiber and the photocatalyst-containing antibacterial rayon. The reactive dye was mixed so that the blending ratio of the reactive dye was 10 parts by weight and the blending ratio of the red reactive dye was 4 parts by weight, and dyeing was performed at a temperature of 60 ° C. for 20 minutes. Then, a post-treatment such as drying similar to a normal dyeing method was performed to obtain a pseudo hair material.

  The same as in Example 3 except that the dye composition further contains a yellow reactive dye and the yellow reactive dye is 2 parts by weight per 100 parts by weight of the simulated hair material composition. Thus, a pseudo hair material was obtained.

A pseudo hair material was obtained in the same manner as in Example 3 except that the dye composition containing only the black reactive dye in the same proportion as in Example 3 was dyed.

Comparative Example 1

In a fiber dye bath containing a dye composition containing a non-reactive dye. A pseudo hair material was obtained in the same manner as in Example 3 except that the rayon fiber was dyed by being immersed in a blending amount of 5 parts black, 5 parts purple, and 1 part orange with respect to 100 parts by weight of the rayon fiber.
(Evaluation of Glossy Feel) Each of the obtained pseudo hair materials was evaluated with respect to glossiness and harmony with the hair. The glossiness was evaluated by the following method and criteria, and the results are shown in Table 1. -Evaluation method of glossiness: Each artificial hair material was sprayed on the nail part of one black-haired subject, and a third party (expert) visually observed it under simulated sunlight (xenon lamp).
-Evaluation criteria for glossiness: ◎ when the harmony with the hair is very good in terms of glossiness, ◯ when good, and △ when not very good.
(Evaluation of fastness) For each of the obtained pseudo hair materials, the fastness of color was evaluated by the following method and criteria, and the results are shown in Table 1.
-Fastness evaluation method: A predetermined amount of artificial hair material was sprayed onto a cotton cloth, and then a certain amount of water was dropped, and the degree of color transfer to the cotton cloth was visually observed for 30 minutes.
-Fastness evaluation criteria: ◎ when there is no color migration, ◯ when there is almost no color transfer, △ when there is a little.
(Evaluation of concealment for black hair)
The artificial hair material obtained in the examples was evaluated for natural hiding against black hair by the following method and criteria, and the results are shown in Table 1.
-Evaluation method of concealment property: The pseudo hair material was sprayed on the tine of five black-haired subjects, and each subject was allowed to visually observe the harmony with his / her own black hair. And it was made to answer whether the black hair and the pseudo hair material were harmonized without a sense of incongruity in terms of color and texture.
・ Evaluation criteria for concealment: When all five test subjects answered that the surrounding black hair and pseudo hair material are used in terms of color and texture, ◎ 3 or 4 ○ In the case of 1 or 2 people, Δ, and in the case of 0 people, ×.

表３に示す結果から、本発明に係る擬似毛髪材は、及び堅牢性に優れており。人の頭部毛髪頭部の薄毛部分の隠蔽用に適していることが判る。これに対して、比較例の擬似毛髪は、色の堅牢性や頭部毛髪への調和性に劣っており、頭部の薄毛部分の隠蔽用には適さないものであることが判る。なお、染色方法３の擬似毛髪材は、青味を帯びており、黒髪に対する調和性にやや劣るものであった。

From the results shown in Table 3, the pseudo hair material according to the present invention is excellent in fastness. It turns out that it is suitable for concealing the thin hair part of a human head hair head. On the other hand, the pseudo hair of the comparative example is inferior in color fastness and harmony with the head hair, indicating that it is not suitable for concealing the thin hair portion of the head. The simulated hair material of dyeing method 3 was bluish and slightly inferior in harmony with black hair.

Next, for further antibacterial and deodorant addition in the present invention, (1) natural mineral (minus ion releasing substance) 10 mu monazite containing rare elements in the simulated hair material composition in Example 1 above 50:50 powder, far-infrared emitting material 10 mu tourmaline powder, and (2) a mixture of 10 mu monazite powder and far-infrared emitting material Serajit AL-F9 50:50 Then, 3% by weight of the pseudo hair material composition comprising the combination of the fiber principal axis cellulose rayon fiber and the photocatalyst-containing antibacterial rayon fiber in Example 1 was mixed with powder to obtain a pseudo hair material. As the far-infrared ceramics, Serajit AL-F9 OK Trading was used. As the photocatalyst, PC-101 Titanium Industry's product was used. In Example 5, each of the above inorganic mineral powders is added to the natural minerals containing rare elements of 10 mu units and the addition of a further antibacterial / deodorant function by adding a far-infrared emitting material. In the composition of the hair material composition, the above inorganic mineral powder is dispersed and blended, and the inorganic mineral powder gives a texture and gloss harmonious to the hair in the thin hair portion as a separate action, and damaged hair. Contributes to giving a heavy texture to the hair at the thin hair part and adjusting the gloss more finely, and has the same effect as, for example, zinc white, silicon oxide, etc. Yes, it gives a heavy texture to the hair on the damaged thin hair part, can adjust the luster more finely, there is less qualitative discomfort with the hair, and the duplication that makes it closer to natural hair even in direct sunlight The effect which it did is produced.

  Furthermore, in the present invention, (1) natural minerals containing rare elements, far-infrared emitting material 10 mu tourmaline powder in Example 6 (50; 50) with 50 photocatalytic titanium dioxide, and then (2 ) A pseudo-hair material in which a photocatalytic functional material was mixed and added to each of the photocatalytic titanium dioxide 50 blends with natural minerals containing rare elements, far infrared radiation substance Serajit AL-F9, 50; 50.

  In the pseudo hair thickener composition in which inorganic fine particles are added and blended in addition to the natural minerals and the far-infrared emitting materials containing rare elements in Example 5 above, inorganic fine particles are included in the composition. As an example, it is also used as matte fine particles in the conventional artificial hair. For example, it exhibits the same effect as zinc white, silicon oxide, etc. In addition, the gloss can be adjusted more finely, there is little qualitative discomfort with the hair, and there is a duplicated effect that makes the gloss feel closer to natural hair even under direct sunlight.

Claims (7)

Cellulose-based rayon fiber is one short fiber A, and the other short fiber B is a pseudo hair material composition obtained as a combination with a titanium dioxide-based photocatalyst-containing antibacterial rayon fiber selected from the same fibers . In the process, the one short fiber A is a cellulose rayon fiber cut and crushed to a desired fiber length and fiber diameter within a fiber length of 0.1 to 5 mm and a fiber diameter of 0.5 to 30 denier, also short fibers B are the same or different in fiber diameter, the fiber length a titanium dioxide-based photocatalyst-containing antibacterial rayon fiber obtained by cutting and crushing a uniform desired fiber length and the short fibers a, the short the fibers B becomes a structure containing at least 50 wt% or more per total weight, where the moisture content of the official moisture regain 11% rayon fibers of the hair material composition similar該擬in the next second step, this 3 Multifunctional pseudo hair material, characterized in that to improve the dispersibility by performing the hot-air treatment to cuts 8% vicinity. Cellulose-based rayon fiber is one short fiber A, and the other short fiber B is a pseudo hair material composition obtained as a combination with a titanium dioxide-based photocatalyst-containing antibacterial rayon fiber selected from the same fibers. In the process, the cellulose-based rayon fiber which is the one short fiber A, the titanium dioxide photocatalyst-containing antibacterial rayon fiber which is the other short fiber B is the same or different in fiber diameter from the cellulose-based rayon fiber , As for the fiber length, at least 40 to 50% by weight of the photocatalyst short fiber floc obtained by cutting and crushing to a desired length within a range not exceeding 60% in the fiber length direction of 0.1 to 5 mm in the fiber axis direction. It becomes a mixed structure as formulations containing, in the next second step pseudo official moisture regain 11% rayon fiber moisture content of the hair material composition Noto Filtered, by performing a hot-air treatment to 3% reductions 8% near this manufacturing process and becomes as aim obtaining configuration improved dispersibility in use multifunctional pseudo hair material.   The pseudo hair material composition is a dye composition containing a dye selected from reactive dyes, direct dyes, vat dyes and sulfur dyes, and 0.01 to 45 weights of the dye with respect to 100 parts by weight of the cellulose fiber. The multifunctional simulated hair material according to any one of claims 1 to 2, wherein two or more kinds of cellulose-based colored fiber flocs having different hues dyed so as to form a part are mixed.   The dye composition contains a black dye and a red dye, and the blending ratio of both dyes is 5 to 40 parts by weight of the black dye and 1 to 20 parts by weight of the red dye with respect to 100 parts by weight of the cellulose fiber. The multifunctional simulated hair material according to claim 3, which is a part.   The dye composition contains a black dye, a red dye, and a yellow dye, and the blending ratio of these dyes is 5 to 40 parts by weight of the black dye and 100 parts by weight of the red for the cellulose fiber. The multifunctional simulated hair material according to claim 3, which is 1 to 20 parts by weight of a dye and 1 to 20 parts by weight of the yellow dye.   At least 3 wt% or more of a mixture containing at least one of a mineral containing rare elements, tourmaline, or far-infrared ceramic is spread and supported on the simulated hair material composition by either powder mixing, spraying, coating, or impregnation. The multifunctional simulated hair material according to any one of claims 1 to 5, wherein the multifunctional pseudo hair material has a structure.   The artificial hair material composition is further mixed with a mixture containing at least one of a rare element-containing mineral, tourmaline or far-infrared ceramic to further increase the antibacterial and deodorizing effects. The multifunctional pseudo hair material according to any one of claims 1 to 6.