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JP4798707B2 - Wig moisture-permeable material and wig or wig base cap having this moisture-permeable material - Google Patents

Wig moisture-permeable material and wig or wig base cap having this moisture-permeable material Download PDF

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Publication number
JP4798707B2
JP4798707B2 JP2006151916A JP2006151916A JP4798707B2 JP 4798707 B2 JP4798707 B2 JP 4798707B2 JP 2006151916 A JP2006151916 A JP 2006151916A JP 2006151916 A JP2006151916 A JP 2006151916A JP 4798707 B2 JP4798707 B2 JP 4798707B2
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Prior art keywords
wig
moisture
permeable material
hair
wigs
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JP2007321282A (en
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勝男 須貝
早苗 佐久間
貴也 山口
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Aderans Co Ltd
Seiren Co Ltd
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Aderans Co Ltd
Seiren Co Ltd
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Priority to JP2006151916A priority Critical patent/JP4798707B2/en
Application filed by Aderans Co Ltd, Seiren Co Ltd filed Critical Aderans Co Ltd
Priority to US12/302,385 priority patent/US20090235943A1/en
Priority to CA002655653A priority patent/CA2655653A1/en
Priority to KR1020087031258A priority patent/KR20090021183A/en
Priority to AU2006345675A priority patent/AU2006345675B2/en
Priority to RU2008151052/12A priority patent/RU2008151052A/en
Priority to EP06811088.1A priority patent/EP2027785A4/en
Priority to CN2006800552602A priority patent/CN101484031B/en
Priority to PCT/JP2006/319740 priority patent/WO2007138720A1/en
Priority to TW095141700A priority patent/TWI415580B/en
Publication of JP2007321282A publication Critical patent/JP2007321282A/en
Priority to HR20080610A priority patent/HRP20080610A2/en
Priority to NO20084982A priority patent/NO20084982L/en
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Publication of JP4798707B2 publication Critical patent/JP4798707B2/en
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    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41GARTIFICIAL FLOWERS; WIGS; MASKS; FEATHERS
    • A41G3/00Wigs
    • A41G3/0041Bases for wigs
    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41GARTIFICIAL FLOWERS; WIGS; MASKS; FEATHERS
    • A41G3/00Wigs
    • A41G3/0041Bases for wigs
    • A41G3/005Bases for wigs made of a net structure
    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41GARTIFICIAL FLOWERS; WIGS; MASKS; FEATHERS
    • A41G3/00Wigs
    • A41G3/0066Planting hair on bases for wigs
    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41GARTIFICIAL FLOWERS; WIGS; MASKS; FEATHERS
    • A41G3/00Wigs
    • A41G3/0091Sweat absorbing means or deodorants

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Laminated Bodies (AREA)
  • Materials For Medical Uses (AREA)
  • Treatments For Attaching Organic Compounds To Fibrous Goods (AREA)
  • Nonwoven Fabrics (AREA)
  • Knitting Of Fabric (AREA)
  • Woven Fabrics (AREA)
  • Manufacturing Of Multi-Layer Textile Fabrics (AREA)

Description

本発明は、透湿性、耐久性を兼ね備えたかつら用途に適した透湿性素材に関する。更に、該透湿性素材を用いたかつら又はかつら用下地キャップに関する。   The present invention relates to a moisture permeable material suitable for wig use that has both moisture permeability and durability. Furthermore, the present invention relates to a wig or a wig base cap using the moisture-permeable material.

頭部に装着するかつらは、頭部形状に成形された土台となるかつらベースと、該かつらベースに人毛又は人工毛髪を植毛したものであり、かつらベースの素材としては、例えば、人工皮膚と呼ばれるウレタンエラストマーなどの無孔質熱可塑性樹脂膜と、合成繊維などからなるメッシュ状織編物からなるネットが一般的に使用されている。無孔質熱可塑性樹脂膜からなるかつらベースの場合、植毛する毛髪の本数、植毛する各毛髪の間隔を自由に設定することができるので、幅広いスタイルを作り出すことが可能である利点があるが、透湿性が劣るため発汗等でべとつき感、蒸れ感、かゆみなど不快感を生じ易い欠点がある。 The wig to be attached to the head is a wig base that becomes a base molded into a head shape, and human hair or artificial hair is implanted in the wig base. Examples of the material of the wig base include artificial skin and A net made of a mesh-like woven or knitted fabric made of a non-porous thermoplastic resin film such as a urethane elastomer and a synthetic fiber is generally used. In the case of a wig base made of a nonporous thermoplastic resin film, the number of hairs to be planted and the interval between each hair to be planted can be freely set, so there is an advantage that a wide range of styles can be created, Since the moisture permeability is inferior, there is a drawback that unpleasant sensations such as stickiness, stuffiness, and itchiness are easily caused by sweating.

一方、メッシュ状織編物からなるかつらベースの場合、該織編物には多数の隙間があるので、透湿性は無孔質熱可塑性樹脂膜と比べて格段に向上するが、毛髪を植毛する場合に、メッシュ状織編物を構成している合成繊維フィラメントだけにしか植毛できないこと、メッシュ形状によって植毛できる毛髪の本数、植毛する各毛髪の間隔が制限されるので、作製可能なスタイルが限定されてしまう欠点があり、熱可塑性樹脂膜の利点と、メッシュの利点を兼ね備えたかつらベース素材が望まれていた。   On the other hand, in the case of a wig base made of a mesh-like woven or knitted fabric, there are a number of gaps in the woven or knitted fabric, so the moisture permeability is markedly improved compared to a nonporous thermoplastic resin film. The hair can be planted only on the synthetic fiber filaments constituting the mesh woven or knitted fabric, the number of hairs that can be planted by the mesh shape, and the spacing between each hair to be planted is limited, so the styles that can be produced are limited. There is a drawback, and a wig base material that combines the advantages of a thermoplastic resin film with the advantages of a mesh has been desired.

これらを実現するために、例えば特許文献1では、ポリ−α−アミノ酸誘導体と、ナイロンストッキングなどの織編物を補強材としたポリウレタンエラストマーの多層構造を持った透湿度が500〜
2000g / m²・24hrのシートが、さらに特許文献2には、アクリル繊維を主としてなる薄手のニット生地の片面にポリウレタン樹脂層を、他面にポリアミド樹脂層を形成した透湿度が5000〜6000g / m²・24hrのかつら用基布が開示されている。
かつらを頭部に装着した場合、頭部が蒸れずに快適に被着できる透湿度はJIS L−1099A法で8000g / m²・24hr以上が必要とされるが、前記の2つの特許文献1,2では透湿度が何れも満たしていない。一般的に素材の厚さを薄くすれば透湿度が向上する傾向にあるが、強度は低下し両立しにくい。
In order to realize these, for example, in Patent Document 1, a moisture permeability of 500 to 500 having a multilayer structure of a polyurethane elastomer using a poly-α-amino acid derivative and a woven or knitted fabric such as nylon stockings as a reinforcing material is used.
A sheet of 2000 g / m ² · 24 hr is further disclosed in Patent Document 2 in which a moisture permeability of 5000 to 6000 g / A wig base fabric of m ² · 24 hr is disclosed.
When the wig is attached to the head, the moisture permeability that allows the head to be comfortably attached without stuffiness is required to be 8000 g / m <24 hr or more according to the JIS L-1099A method. , 2 does not satisfy any moisture permeability. Generally, if the thickness of the material is reduced, the moisture permeability tends to be improved, but the strength is lowered and it is difficult to achieve both.

かつらの場合には、土台となるかつらベースに、先端が鋭角な鈎針の鈎部に人工毛髪や天然毛髪を引っ掛けて、挿通させて、結着させる方法が一般的に行なわれており、この人工毛髪や天然毛髪植毛作業時にかつらベースの素材が破損しない程度の強度が要求される。しかし、前記特許文献などには素材の強度について具体的な開示はされてはいない。
また、薄毛隠しが目的のかつらの場合には問題はないが、ファションウィッグの場合にはかつら装着者の自毛がある状態で装着するから、特に自毛が長い場合は自毛をまとめてウィッグの中に収納させる必要があるので、装着後に頭部が部分的に盛り上がったり、逆にへこんだりすることが起っていた。このような弊害を防止するために、特許文献3には、かつらを装着する前に下地として頭部に被せる下地ネットが開示されている。下地ネットは、軽量感や被着時に蒸れが起きない十分な透湿性が要求されるが、下地ネットの透湿度や被着時の頭部の蒸れに対して具体的な開示はされていない。
In the case of wigs, artificial hair or natural hair is hooked on the heel of the heel needle with a sharp tip on the base wig base, inserted, and bound. The hair is required to have such strength that the wig base material is not damaged when the hair or natural hair is implanted. However, there is no specific disclosure about the strength of the material in the patent documents.
In addition, there is no problem in the case of a wig intended to hide thin hair, but in the case of a fashion wig, the wig wearer wears his / her own hair. Since it was necessary to store the inside of the head, the head was partially raised after wearing, and conversely, it was dented. In order to prevent such an adverse effect, Patent Document 3 discloses a ground net that covers the head as a ground before wearing a wig. The base net is required to have a light weight feeling and sufficient moisture permeability that does not cause stuffiness during deposition, but no specific disclosure has been made regarding the moisture permeability of the base net or stuffiness of the head during deposition.

特開昭58−201644号公報第1頁First page of JP-A-58-201644 特開昭61−289105号公報第1頁First page of JP-A-61-289105 実用新案登録第3112042号公報第1頁Utility Model Registration No. 3112042, first page

本発明は前記特許文献などに記載されているかつらの課題を改善し、取り付けが簡単である優れた透湿性を備えたかつらを提供することである。 This invention improves the subject of the wig described in the said patent document etc., and is providing the wig provided with the outstanding moisture permeability which is easy to attach.

前記課題を達成するために、本発明のかつら用透湿性素材は、(1)多孔質ポリウレタンを芯材として、一方の面に合成繊維または天然繊維からなる網目層を備えるとともに、この芯材の他面側に合成繊維または天然繊維からなる繊維層をラミネートしてなる三層構造体であり、該三層構造体の透湿度がJIS L−1099 A法で8000g/m2・24hr以上、引張強度90N/インチ以上、引裂強度が15N以上であることを特徴とするかつら用透湿性素材である。 In order to achieve the above object, the moisture-permeable material for wigs of the present invention comprises (1) a porous polyurethane as a core material and a mesh layer made of synthetic fibers or natural fibers on one side, It is a three-layer structure formed by laminating a fiber layer made of synthetic fiber or natural fiber on the other side, and the moisture permeability of the three-layer structure is 8000 g / m 2 · 24 hr or more by JIS L-1099 A method. A moisture-permeable material for wigs having a strength of 90 N / inch or more and a tear strength of 15 N or more.

また、(2)前記網目層がポリエステル繊維から形成され、前記繊維層がナイロン繊維からなる網目に形成されていることを特徴とする(1)に記載のかつら用透湿性素材である。 (2) The moisture-permeable material for wigs according to (1), wherein the mesh layer is formed of polyester fibers, and the fiber layer is formed of a mesh composed of nylon fibers.

また、(3)頭部形状に成形されたかつらベースの一部として使用することを特徴とする(1)乃至(2)に記載のかつら用透湿性素材である。 (3) The moisture-permeable material for wigs according to (1) or (2), which is used as a part of a wig base formed into a head shape.

また、(4)かつらの下に被着される下地キャップが、(1)記載のかつら用透湿性素材からなることを特徴とする下地キャップである。 (4) The base cap is characterized in that the base cap deposited under the wig is made of the moisture-permeable material for wigs described in (1).

また、(5)前記かつらのかつらベースにおいて、かつらベースを形成する主部材と、(1)記載のかつら用透湿性素材とが縫着若しくは接着により一体に形成されてなることを特徴とするかつらである。 (5) In the wig base of the wig, the main member forming the wig base and the moisture-permeable material for wigs described in (1) are integrally formed by sewing or bonding. It is.

また、(6)(1)記載のかつら用透湿性素材を、1枚または複数枚を頭部形状に成形するか、または継ぎ合わせて頭部形状に成形することを特徴とするかつら用下地キャップである。 (6) A base cap for wigs characterized in that one or more of the moisture permeable materials for wigs according to (1) are formed into a head shape or joined together to form a head shape. It is.

本発明のかつら用透湿性素材によれば、多孔質ポリウレタンの一方の面にポリエステル等のメッシュを被覆してあるため非常に透湿性に優れている。他方の面の植毛する網目部材はナイロン繊維を使用してあるため、耐久性に優れ、平滑性にも優れている。このように三層構造でありながら透湿性に優れたかつら用透湿性素材を提供できる。 According to the moisture permeable material for wigs of the present invention, since one side of the porous polyurethane is coated with a mesh such as polyester, the moisture permeability is very excellent. Since the mesh member to which the other surface is implanted uses nylon fibers, it has excellent durability and smoothness. Thus, it is possible to provide a moisture-permeable material for wigs that has a three-layer structure and is excellent in moisture permeability.

本発明のかつら用透湿性素材に用いる多孔質ポリウレタンは、乾式法、湿式法によって製造することが一般的であり、湿式法としてはポリウレタン樹脂の水混和性有機溶媒溶液を離型材上に塗布した後、水中に浸漬してポリウレタン樹脂を凝固せしめて製造する。他方、乾式法としては、発泡剤や充填剤を用いる方法と、ポリウレタン樹脂の水型エマルジョンを調整して水と溶剤の沸点の差を利用して製造する方法とがある。中空樹脂粒子を混合させて製造する方法や、特開2004−315817号公報に記載されるような方法によって製造するものでもよく、限定されるものではない。その厚さとしては0.005〜0.01mmが好ましい。また、その透湿度はJIS L−1099A法で10000g / m&sup2;・24hr以上あることが好ましい。 The porous polyurethane used for the moisture-permeable material for wigs of the present invention is generally produced by a dry method or a wet method. As the wet method, a water-miscible organic solvent solution of a polyurethane resin is applied onto a release material. Thereafter, the polyurethane resin is solidified by dipping in water. On the other hand, as a dry method, there are a method using a foaming agent and a filler, and a method of preparing a water-based emulsion of a polyurethane resin by using a difference between boiling points of water and a solvent. It may be manufactured by mixing hollow resin particles or by a method as described in JP-A-2004-315817, and is not limited. The thickness is preferably 0.005 to 0.01 mm. Further, the moisture permeability is preferably 10000 g / m <2> .24 hr or more according to the JIS L-1099A method.

本発明のかつら用透湿度性素材に使用する多孔質ポリウレタンとしてポリウレタン樹脂主体の樹脂組成物に無機系ウイスカーを加えてシート状にしたものを用いることができる。このポリウレタン樹脂主体の樹脂組成物は、ポリウレタン樹脂50〜100重量%を含みこのポリウレタン樹脂に他の樹脂を混合してもよい。このポリウレタン樹脂に極性の有機溶剤を使用して15〜40重量%のポリウレタン樹脂の濃度にしてシート状に形成して製造することができる。
前記多孔質ポリウレタン層と前記繊維構造体とを接着する粘着性樹脂は、50%以上の湿度状況下において長期間接着強度を維持できることが必要であり、エチレンビニレンアセテート系、合成ゴム系や湿気硬化型ポリウレタンなどのホットメルトと称される樹脂が使用できる。この粘着性樹脂は多孔質ポリウレタンシート全面に塗布するのではなくドット状またはバイヤス状に塗布することが好ましい。粘着性樹脂を全面に塗布してしまうと、多孔質ポリウレタンの透湿性能を低下させてしまうため好ましくない。更に、植毛の際に繊維構造体と多孔質ポリウレタンの両方に穴を空けてしまうため好ましくない。この塗布量は、10〜100g/m2 が好ましい。塗布量が10g/m2 未満では長期間の使用に耐えられず剥がれてしまう虞があり、100g/m2 以上では柔軟性が損なわれ、重量が重くなるのでかつらなどには使用しにくくなる。
As the porous polyurethane used for the moisture-permeable material for wigs of the present invention, a polyurethane resin-based resin composition added with inorganic whiskers to form a sheet can be used. This polyurethane resin-based resin composition contains 50 to 100% by weight of polyurethane resin, and other resins may be mixed with this polyurethane resin. The polyurethane resin can be produced by using a polar organic solvent to form a sheet having a polyurethane resin concentration of 15 to 40% by weight.
The adhesive resin that bonds the porous polyurethane layer and the fiber structure must be able to maintain the adhesive strength for a long period of time under a humidity condition of 50% or more, such as ethylene vinylene acetate, synthetic rubber, or moisture curing Resins called hot melts such as type polyurethane can be used. This adhesive resin is preferably applied in the form of dots or biases instead of being applied to the entire surface of the porous polyurethane sheet. If the adhesive resin is applied to the entire surface, the moisture permeability of the porous polyurethane is deteriorated. Furthermore, it is not preferable because holes are made in both the fiber structure and the porous polyurethane during flocking. The coating amount, 10 to 100 g / m 2 is preferred. If the coating amount is less than 10 g / m 2 , it may not be able to withstand long-term use and may be peeled off, and if it is 100 g / m 2 or more, the flexibility is impaired and the weight increases, making it difficult to use for wigs.

本発明のかつら用透湿性素材に使用する多孔質ポリウレタンに積層されたメッシュ状の網目層は、頭部に接触する側に用いられ、頭皮のべとつきやムレ感を抑えることができるものであればよく、見た目で清涼感を与えるものが好ましい。例えば、ポリエステルやナイロンなどの合成繊維、綿や絹などの天然繊維、レーヨンやキュプラなどの再生繊維、トリアセテートやジアセテートなどの半合成繊維などが使用できる。軽量であり耐久性や洗濯などに耐えるものとして、ポリエステルやナイロンの繊維で形成された網目層は好ましい。 The mesh-like mesh layer laminated on the porous polyurethane used for the moisture-permeable material for wigs of the present invention is used on the side that comes into contact with the head and can suppress the stickiness and stuffiness of the scalp. It is preferable that it gives a refreshing feeling in appearance. For example, synthetic fibers such as polyester and nylon, natural fibers such as cotton and silk, regenerated fibers such as rayon and cupra, and semisynthetic fibers such as triacetate and diacetate can be used. A mesh layer formed of polyester or nylon fibers is preferred as it is lightweight and can withstand durability and washing.

本発明に使用するポリエステルメッシュとしては、ポリエチレンテレフタレート繊維によって形成されたもので、メッシュの粗さは180〜500メッシュで、遠目でかつらと認識し難いものが良い。例えば、ポリエステルメッシュ編物で目付けは60〜70g/m&sup2;、厚みは0.20〜0.30mmが好ましい。また、このポリエステルメッシュを構成する糸は、ポリエステル糸と他の合成繊維糸との撚糸であってもよい。目付けを60〜70g/m&sup2;の範囲としたのは、目付けが60g/m&sup2;未満であると植毛した後に、毛材の重みによりかつらベースが丸まり成形した頭部形状が崩れてしまい、微妙な頭部湾曲の形状も失われてしまうおそれがあり、目付けが70g/m&sup2;より大きいと、ポリエステルメッシュの重量が重くなり、かつらベース周縁部にめくれが生じるおそれがある。更に、かつらベース自体の重量が重くなってかつら装着時に負担になる。一方、厚みが0.20mmより薄くなると、かつらを装着した時にかつらと頭部の隙間がなくなり頭部が多孔質ポリウレタンに接触してしまい、透湿性が低下する。厚みが0.30mmより厚くなると、かつら全体が厚くなりかつらを装着した時にかつら周縁部と頭部に段差ができてかつらが浮いたように見えて見栄え悪くなるおそれがある。 The polyester mesh used in the present invention is preferably made of polyethylene terephthalate fiber, and has a mesh roughness of 180 to 500 mesh, which is difficult to recognize as a wig at a distance. For example, a polyester mesh knitted fabric with a basis weight of 60 to 70 g / m &sup;; and a thickness of 0.20 to 0.30 mm is preferable. The yarn constituting the polyester mesh may be a twisted yarn of a polyester yarn and another synthetic fiber yarn. The reason why the basis weight is in the range of 60 to 70 g / m <2> is that the head shape formed by rounding the wig base due to the weight of the hair material collapses after planting the hair if the basis weight is less than 60 g / m <2>. The shape of the head curve may be lost, and if the basis weight is larger than 70 g / m <2>, the weight of the polyester mesh may be increased and the wig base periphery may be turned up. Furthermore, the weight of the wig base itself becomes heavy and becomes a burden when the wig is mounted. On the other hand, if the thickness is less than 0.20 mm, the gap between the wig and the head disappears when the wig is worn, and the head comes into contact with the porous polyurethane, so that the moisture permeability decreases. If the thickness is greater than 0.30 mm, the entire wig becomes thick, and when the wig is worn, there is a risk that the wig will appear as if the wig floats due to a step between the peripheral edge of the wig and the head.

また、多孔質ポリウレタンの他面に積層された繊維層は表面に人工毛髪や天然毛髪を植えつけるもので、繊維層は、植毛を容易にできる網目が好ましく、用いられる繊維は特定に限定されないが、ナイロン繊維が好ましく、特にナイロン6.6繊維が好ましい。一般的にナイロン繊維は、コシがなく柔らかく折り癖が付き難く、また折り癖が付いた場合でも修正し易いので、頭部形状に成形したかつらベースの形が崩れても修正が可能なため、かつらベースの素材として好ましく用いられる。使用する網目形状は蜂巣状が好ましく、その大きさは装着する人の自毛の量によって相違する。例えば、比較的薄い人は、一辺の長さが1〜2mmであり、全く自毛が存在しないところでは1mm未満である。編物として目付けは20〜30g/m&sup2;で、厚さ0.20〜0.35mmである。
この目付けを20g/m&sup2;未満すると、植毛時に毛材が繊維層に十分結着できずに結着強度が低下する。更に植毛作業時に鈎針を繊維層だけでなく、その下の多孔質ポリウレタン樹脂を貫通して多孔質ポリウレタンに穴を空けてしまう。目付けを30g/m&sup2;より大きくすると、かつら全体の重量が重くなること、特に高湿度の環境下では繊維層が湿気を含み易くなり更に重くなる。
一方、厚さが0.20〜0.35mmの範囲であるのは、かつらを装着した時に、かつらの周縁部と頭部の境目が段差にならず、浮いたように見えないかつらの厚さが0.45〜0.70mmであり、本発明の三層構造の透湿性素材では多孔質ポリウレタン層の厚さが0.005〜0.01mmで、網目層のポリエステル繊維層の厚さが0.20〜0.30mmで、繊維層に毛材を植毛した時に、毛材の固定個所が自然に見える繊維層の厚さは0.20mmより厚ければよいが、かつら全体の厚さを考慮すると、繊維層のナイロン繊維の厚さは0.20〜0.35mmであるのが好ましい。
Further, the fiber layer laminated on the other surface of the porous polyurethane is for implanting artificial hair or natural hair on the surface, and the fiber layer is preferably a mesh that can be easily implanted, and the fibers used are not particularly limited. Nylon fiber is preferable, and nylon 6.6 fiber is particularly preferable. In general, nylon fibers are soft and difficult to fold, and even if they have folds, it is easy to correct, so it is possible to correct even if the shape of the wig base molded into the head shape collapses, It is preferably used as a wig-based material. The mesh shape to be used is preferably a honeycomb shape, and the size thereof varies depending on the amount of the own hair of the wearer. For example, a relatively thin person has a side length of 1 to 2 mm, and is less than 1 mm where no hair exists. The basis weight of the knitted fabric is 20 to 30 g / m <2>, and the thickness is 0.20 to 0.35 mm.
If the basis weight is less than 20 g / m 2, the hair material cannot be sufficiently bound to the fiber layer at the time of flocking, and the binding strength is lowered. Further, during the flocking operation, not only the fiber layer but also the porous polyurethane resin underneath is penetrated, and a hole is made in the porous polyurethane. When the basis weight is larger than 30 g / m <2>, the weight of the entire wig becomes heavy, and the fiber layer tends to contain moisture and becomes heavier particularly in a high humidity environment.
On the other hand, the thickness is in the range of 0.20 to 0.35 mm when the wig is worn, the boundary between the peripheral edge of the wig and the head does not become a step, and the thickness of the wig does not appear to float. 0.45 to 0.70 mm, and in the three-layer moisture-permeable material of the present invention, the thickness of the porous polyurethane layer is 0.005 to 0.01 mm, and the thickness of the polyester fiber layer of the network layer is 0. When the hair material is planted in the fiber layer at 20 to 0.30 mm, the thickness of the fiber layer where the fixed part of the hair material can be seen naturally should be thicker than 0.20 mm, but the total thickness of the wig is considered Then, it is preferable that the thickness of the nylon fiber of the fiber layer is 0.20 to 0.35 mm.

ナイロン網目部材としてはナイロンフィラメントを縦方向に複数本配置した縦糸群からなる第1の平面と、縦糸群と直交する方向にナイロンフィラメントを複数本配置した横糸群からなる第2の平面を重ね合わせて、各フィラメントの交接点を溶着して形成されているものを使用しても良い。
人工毛髪や天然毛髪の毛材をかつらベースに植毛する方法は、かつらベースに先端が鋭角な鈎針を貫通させて、その鈎針に毛材を引っ掛けて挿通させて結着させる。この鈎針をかつらベースに貫通させて毛材を引っ掛ける時に鈎針を強い力で引くので、毛材を植毛する繊維層がある程度の弾力性がないと、かつらベースが破損したり植毛後にかつらベースが波を打ったようになり成形した頭部形状が崩れてしまうので、弾力性があるナイロン6,6が好ましい。
As a nylon mesh member, a first plane composed of a warp group in which a plurality of nylon filaments are arranged in the longitudinal direction and a second plane composed of a weft group in which a plurality of nylon filaments are arranged in a direction orthogonal to the warp group are overlapped. In addition, it is possible to use one formed by welding the intersections of the filaments.
In the method of planting hair material of artificial hair or natural hair in a wig base, an acupuncture needle having a sharp tip is passed through the wig base, and the hair material is hooked and inserted through the wig needle for binding. When this hair needle is penetrated through the wig base and the hair material is hooked, the hair needle is pulled with a strong force, so if the fiber layer to which the hair material is implanted does not have a certain degree of elasticity, the wig base will be damaged or the wig base will wave Nylon 6 and 6 having elasticity are preferable.

このように構成されるかつら用透湿性素材を、1枚または複数枚を石膏などの雄型に固定して樹脂を塗布し成形するか、または縫着若しくは接着などの方法により継ぎ合わせて頭部形状に成形してかつらベースやかつら用下地キャップとすることができる。
このかつら用透湿性素材はかつらベースやかつら用下地キャップの少なくとも一部として使用することができる。
One or a plurality of moisture-permeable materials for wigs configured in this way are fixed to a male mold such as gypsum, and resin is applied and molded, or the head is joined by a method such as sewing or bonding It can be formed into a shape to form a wig base or a wig base cap.
The moisture permeable material for wigs can be used as at least a part of a wig base or a wig base cap.

従来のかつら用透湿性素材は、JIS
L−1099A法での透湿度が8000g/&#8575;&sup2;・24hr以下であるため長期間の頭部への着用に際して蒸れる虞があり、好ましいものではなかった。
また、かつら用としての透湿性素材は、引張強度は90N/インチ以上、引裂強度が15N以上あることが好ましい。引張強度は90N/インチ未満、引裂強度が15N未満であると、製造工程において、損傷をするおそれがあった。更に、数回の頭部への着脱作業に耐えられず、亀裂を生じるおそれがあった。
かつらを装着する時は、かつらを頭部の前後左右の位置に合わせて、接着剤、ピンで頭髪を挟持するなどの手段でかつらを頭部に固定するが、この時にかつらを引張りながら所定の位置に固定することで頭部にフィットした装着が可能になる。かつらベースとなる素材の引張強度が90N/インチ未満の場合、かつら装着時に破損したり、耐久性が低下して繰り返しの使用ができなくなる。また、引裂強度が15N未満であると、かつらベースに毛材を植毛するための鈎針を貫通させた時に穴が空いて毛材をベースに結着することができなく、たとえ結着できたとしても、結着力が弱くスタイルセットのブラッシングなどで毛材が脱落して通常の使用に耐えられない。
(実施例)
The conventional moisture-permeable material for wigs is JIS
Since the water vapor transmission rate by the L-1099A method is 8000 g / &#8575;&sup2; · 24 hr or less, there is a risk of stuffiness when worn on the head for a long period of time, which is not preferable.
The moisture-permeable material for wigs preferably has a tensile strength of 90 N / inch or more and a tear strength of 15 N or more. If the tensile strength is less than 90 N / inch and the tear strength is less than 15 N, there is a risk of damage in the manufacturing process. Furthermore, there was a risk of cracking due to inability to withstand several times of attaching and detaching operations to the head.
When wearing a wig, align the wig to the front, back, left, and right of the head, and fix the wig to the head by means such as pinching the hair with an adhesive or a pin. Fixing to the position makes it possible to fit the head. When the tensile strength of the material used as the wig base is less than 90 N / inch, it is damaged when the wig is attached, or the durability is lowered, so that it cannot be used repeatedly. Also, if the tear strength is less than 15N, a hole is formed when the hair needle for planting the hair material into the wig base is penetrated, and the hair material cannot be bound to the base. However, the binding force is weak, and the hair material will fall off due to the brushing of the style set, etc., so it cannot withstand normal use.
(Example)

以下、本発明に係るかつら用透湿性素材の実施例に基づいて説明する。但し本発明は実施例に限定されるものではない。また、測定評価は下記試験方法に従った。 Hereinafter, it demonstrates based on the Example of the moisture-permeable material for wigs which concerns on this invention. However, the present invention is not limited to the examples. Moreover, measurement evaluation followed the following test method.

〔ラミネート強度〕
JIS L−1089に準じて測定した。単位はN/インチ。
〔引張強度〕
JIS L−1018A法に準じて測定した。単位はN/インチ。
〔引裂強度〕
JIS L−1096(シングルタング法)に準じて測定した。単位はN。
〔透湿度〕
JIS L−1099A法に準じて測定した。単位はg/m・24hr。
〔毛材植毛後のかつらの状態〕
毛材植毛後のかつらの状態を目視にて評価した。
◎ 破損や穴が無く、植毛後の毛材の結着力も良好である。
○ 若干の破損や穴が見られる。
△ かなり破損や穴があり、植毛後の結着力が弱い。
× 全体に破損があり、必要量の毛材が植毛できない。
〔かつら装着時の状態〕
かつらの装着時の状態を評価した。
◎ 蒸れが無く、頭部に汗をかくことなく快適である。
○ 頭部に汗をかくことはないが、蒸れが発生する。
△ 蒸れて頭部に汗をかき、頭部がかゆくなる。
× 頭部に大量の汗をかき、かつらベース裏面に汗が留まった状態で、頭部全体が痒くなる。
[Lamination strength]
It measured according to JIS L-1089. The unit is N / inch.
[Tensile strength]
It measured according to JIS L-1018A method. The unit is N / inch.
(Tear strength)
It measured according to JIS L-1096 (single tongue method). The unit is N.
[Moisture permeability]
It measured according to JIS L-1099A method. The unit is g / m 2 · 24 hr.
[The state of the wig after flocking the hair material]
The state of the wig after flocking the hair material was visually evaluated.
◎ There is no breakage or holes, and the binding power of the hair material after flocking is good.
○ Some damage and holes are seen.
△ There are considerable damage and holes, and the binding force after flocking is weak.
× There is damage to the whole and the necessary amount of hair cannot be planted.
[State when wearing a wig]
The state of wearing the wig was evaluated.
◎ No stuffiness and comfortable without sweating the head.
○ The head does not sweat, but stuffiness occurs.
△ It gets muddy and sweats the head, and the head becomes itchy.
× With a lot of sweat on the head and sweat remaining on the back of the wig base, the entire head becomes itchy.

(実施例1)
図1に示すように、乾式法で作製した多孔質ポリウレタン層1の表面にホットメルトタイプウレタン樹脂(三井武田ケミカル株式会社製 品番:タケメルトMA3229K)をドット状に15g/m2塗布し、其の上にポリエステルメッシュ2(組織:トリコット、混率:ポリエステル100%、糸使い:84T/36f、コース:44本/inch、ウェール:28本/inch)をラミネートする。他方、多孔質ポリウレタン層1の裏面側に毛材を植毛し易いように網目の繊維層3(組織:トリコット、混率:ナイロン100%、糸使い:66ナイロン 22T/7f、コース:42本/inch、ウェール:28本/inch)をホットメルトタイプウレタン樹脂(三井武田ケミカル株式会社製 品番:タケメルトMA3229K)を用いて接着して、図1に示すようなかつら用透湿性素材を作成した。更に毛材を植毛し、かつらを作製した。かつらの物性および性能を表1に示す。
(Example 1)
As shown in FIG. 1, hot melt type urethane resin (product number: Takemelt MA3229K, manufactured by Mitsui Takeda Chemical Co., Ltd.) is applied in a dot shape at 15 g / m 2 on the surface of the porous polyurethane layer 1 produced by the dry method. Polyester mesh 2 (structure: tricot, mixing ratio: 100% polyester, thread use: 84T / 36f, course: 44 / inch, wale: 28 / inch) is laminated thereon. On the other hand, a mesh fiber layer 3 (structure: tricot, mixing ratio: nylon 100%, thread use: 66 nylon 22T / 7f, course: 42 / inch so that the hair material can be easily implanted on the back side of the porous polyurethane layer 1 , Wales: 28 / inch) were bonded using a hot melt type urethane resin (product number: Takemelt MA3229K manufactured by Mitsui Takeda Chemical Co., Ltd.) to prepare a moisture-permeable material for wigs as shown in FIG. Furthermore, a hair material was planted to prepare a wig. The physical properties and performance of the wig are shown in Table 1.

Figure 0004798707
Figure 0004798707

(実施例2)
石膏からなる頭部形状の雄型に、熱可塑性樹脂のウレタンエラストマー(日本ポリウレタン工業株式会社製、品名コードE-985)を有機溶剤(ジメチルホルムアミドとメチルエチルケトンの8:2混合液)に溶解した樹脂溶液を塗布し、乾燥して頭部形状に成形した厚さ0.2mmの人工皮膚タイプのかつらベースを作製する。
(Example 2)
A resin in which a thermoplastic elastomer urethane elastomer (product name code E-985, manufactured by Nippon Polyurethane Industry Co., Ltd.) is dissolved in an organic solvent (8: 2 mixture of dimethylformamide and methyl ethyl ketone) in a head-shaped male mold made of gypsum. An artificial skin-type wig base having a thickness of 0.2 mm formed by applying the solution and drying to form a head is prepared.

次に、実施例1のかつら用透湿性素材の網目層が下になるようにガンタッカーを用いてステープルで石膏の雄型に固定して、ポリビニルアルコール(株式会社クラレ製、品名クラノール)30%濃度の水溶性樹脂溶液を塗布した後、100℃で6時間乾燥して頭部形状に成形する。 Next, it fixed to the male type | mold of the gypsum with a staple using a gun tacker so that the mesh layer of the moisture-permeable material for wigs of Example 1 may become the bottom, and polyvinyl alcohol (the Kuraray Co., Ltd. product name kuranoru) 30% After applying a water-soluble resin solution having a concentration, it is dried at 100 ° C. for 6 hours to form a head shape.

続いて、頭部形状に成形したかつら人工皮膚の上に同様に頭部形状に成形したかつら用透湿性素材の頭部が接触する網目層が下になるように位置を合わせて重ね合わせる。そして、かつらベース中で透湿性素材にする部分の周囲を2cmの幅で縫製により接着を行い、一体化させる。最後に、一体化させたかつらベースで不要なかつら用透湿性素材部分を切り落として完成する。かつらベースへの植毛は、鈎針をかつらベースに貫通させて、人工毛髪や天然毛髪を鈎針に引っ掛けて挿通して結着する。透湿性素材部分の植毛においては、ナイロン繊維の繊維層のみを鈎針ですくい取って行った。実施例2のかつらの物性及び性能を表1に示す。   Subsequently, the wig artificial skin formed into a head shape is overlapped with its position aligned so that the mesh layer in contact with the head of the moisture-permeable material for wigs similarly formed into a head shape is located below. And the circumference | surroundings of the part made into a moisture-permeable raw material in a wig base are adhere | attached by sewing with a width of 2 cm, and are integrated. Finally, the unnecessary moisture-permeable material portion for the wig is cut off and completed with the integrated wig base. For flocking to the wig base, the heel needle is passed through the wig base, and artificial hair or natural hair is hooked on the heel needle to be inserted and bound. In the flocking of the moisture permeable material part, only the fiber layer of nylon fiber was scooped up with an acupuncture needle. The physical properties and performance of the wig of Example 2 are shown in Table 1.

(実施例3)
太さ0.10mmのポリエステルのモノフィラメントを60メッシュ/インチで平織りした所謂ネットを、石膏からなる頭部形状の雄型に雛やたるみがないように張り、ガンタッカーを用いてステープルで固定し、2液混合型のウレタン熱硬化性樹脂(日新レジン株式会社製、ADAPT
E−No.2)を有機溶剤(ジメチルホルムアミドとメチルエチルケトンの8:2混合液)で希釈した溶液をネットの上から塗布した後、100℃で10時間の加熱処理をして、頭部形状に成形されたネットを作製する。
実施例1のかつら用透湿性素材を実施例2の人工皮膚の場合と同様に成形する。その後、頭部形状に成形したかつら用透湿性素材の上に頭部形状に成形したネットを前後左右の位置を合わせて重ね合わせる。あとは人工皮膚と同様に行い、余分なかつら用透湿性素材部分を切り落として完成する。かつらベースへの植毛は実施例2と同様に行った。実施例3のかつらの物性及び性能を表1に示す。
(Example 3)
A so-called net made of plain woven polyester monofilament with a thickness of 0.10 mm at 60 mesh / inch is stretched so that there is no sag or slack in the head-shaped male mold made of gypsum, and fixed with staples using a gun tucker, Two-component urethane thermosetting resin (manufactured by Nissin Resin Co., Ltd., ADAPT
E-No. After applying a solution obtained by diluting 2) with an organic solvent (8: 2 mixture of dimethylformamide and methyl ethyl ketone) from the top of the net, heat treatment was performed at 100 ° C. for 10 hours to form a head-shaped net. Is made.
The moisture-permeable material for wigs of Example 1 is molded in the same manner as the artificial skin of Example 2. Thereafter, the net formed in the head shape is overlapped on the moisture-permeable material for wigs formed in the head shape with the front, rear, left and right positions aligned. The rest is done in the same way as artificial skin, and the excess permeable material for wigs is cut off to complete. Flocking to the wig base was performed in the same manner as in Example 2. The physical properties and performance of the wig of Example 3 are shown in Table 1.

(実施例4)
図3の(a)に示すように、下端縁部4を紐状にゴム材を機械的に編みこんで帯状に形成し、伸縮自在に形成し、この縁部4に連接して多孔質ポリウレタンの表面にポリエステルメッシュがラミネートされ、他面側にナイロン繊維からなる網目繊維層を接着して形成した三層構造からなる透湿性素材5で略半球状に広がる頂部6が閉塞された袋状に形成し、全体が伸縮自在に編み込んで頭部に装着する下地ネットを得た。この下地ネットの物性および性能を表1に示す
Example 4
As shown in FIG. 3 (a), the lower end edge 4 is formed into a band by mechanically braiding a rubber material into a string shape, is formed to be stretchable, and is connected to the edge portion 4 so as to be porous polyurethane. Polyester mesh is laminated on the surface, and the other side is bonded to a mesh fiber layer made of nylon fiber. The base net that was formed and knitted in a stretchable manner to be attached to the head was obtained. Table 1 shows the physical properties and performance of this base net.

(実施例5)
実施例1で作成したかつら用透湿性素材を石膏からなる頭部形状の雄型にポリエステルメッシュ側を下側になるように張って固定した後、10%濃度の水溶性樹脂溶液を塗布した後、100℃で、6時間の加熱処理をして頭部形状に成形し、下地ネットを作製した。この下地ネットの物性および性能を表1に示す。
(Example 5)
After the moisture-permeable material for wigs prepared in Example 1 is fixed to a head-shaped male mold made of gypsum with the polyester mesh side facing downward, a 10% strength water-soluble resin solution is applied. The base net was produced by heating at 100 ° C. for 6 hours to form a head shape. Table 1 shows the physical properties and performance of the base net.

(実施例6)
図4に示すように部分かつらの一部に本発明の透湿性素材としてポリエステルメッシュの表面に多孔質ポリウレタンをラミネートしてあるポリウレタン層の表面にナイロン繊維からなる網目繊維層を接着したネット状部材21をドーナツ状に形成し、このネット状部材21を実施例2と同様に作製した人工皮膚タイプの頭部形状のかつらベース20の周縁部に配設した、かつらベースを作製した。
この人工皮膚部分および、ネット状部材21のナイロン繊維の網目繊維層表面に人工毛髪を植毛して部分かつらを形成した。実施例6のかつらの物性及び性能を表1に示す。
(Example 6)
As shown in FIG. 4, a net-like member in which a mesh fiber layer made of nylon fibers is bonded to the surface of a polyurethane layer in which a porous polyurethane is laminated on the surface of a polyester mesh as a moisture-permeable material of the present invention on a part of the partial wig. 21 was formed in a donut shape, and a wig base was produced in which the net-like member 21 was disposed on the peripheral edge of the artificial skin type head-shaped wig base 20 produced in the same manner as in Example 2.
Artificial hair was implanted into the artificial skin portion and the mesh fiber layer surface of the nylon fiber of the net-like member 21 to form a partial wig. The physical properties and performance of the wig of Example 6 are shown in Table 1.

(比較例1)
本発明と同様の三層構造で引張強度および引裂強度は実施例1と同程度であるが、透湿度はJIS L−1099A法で7000g/&#8575;&sup2;・24hrの透湿性素材を用い、実施例2と同様の方法にてかつらベースを作製した。この下地ネットに更に毛材を植毛し、かつらを作製した。比較例1のかつらの物性および性能を表1に示す。
(Comparative Example 1)
The tensile strength and tear strength are the same as those of Example 1 with the same three-layer structure as in the present invention, but the moisture permeability is 7000 g / &#8575;&sup2; .24 hr according to JIS L-1099A method. A wig base was produced in the same manner as in Example 2. A hair material was further planted on the base net to produce a wig. Table 1 shows the physical properties and performance of the wig of Comparative Example 1.

(比較例2)
本発明と同様の三層構造で透湿度は実施例1と同程度であるが、引張強度がタテ80N/インチ、ヨコ55N/インチ、および引裂強度がタテ16N、ヨコ14Nの透湿性素材を用い、実施例2と同様の方法にてかつらベースを作製した。このかつらベースに更に毛材を植毛しかつらを作製した。比較例2のかつらの物性および性能を表1に示す。
(Comparative Example 2)
A three-layer structure similar to that of the present invention, having a moisture permeability of the same level as in Example 1, but using a moisture-permeable material having a tensile strength of 80 N / inch and 55 N / inch and a tear strength of 16 N and 14 N. A wig base was produced in the same manner as in Example 2. A hair material was further planted on the wig base to prepare a wig. The physical properties and performance of the wig of Comparative Example 2 are shown in Table 1.

(比較例3)
多孔質ウレタンは本発明と同一の物を用い、この多孔質ウレタンにポリエステルメッシュ層をラミネートした2層構造の透湿性素材で実施例2と同様の方法にてかつらベースを作製した。このかつらベースに更に毛材を植毛し、かつらを作成した。比較例3のかつらの物性および性能を表1に示す。
(Comparative Example 3)
The porous urethane was the same as that of the present invention, and a wig base was produced in the same manner as in Example 2 with a moisture-permeable material having a two-layer structure in which a polyester mesh layer was laminated on the porous urethane. A hair material was further planted on the wig base to prepare a wig. Table 1 shows the physical properties and performance of the wig of Comparative Example 3.

(比較例4)
多孔質ウレタンは本発明と同一の物を用い、この多孔質ウレタンにナイロンの繊維層をラミネートした2層構造の透湿性素材で実施例2と同様の方法にてかつらベースを作製した。このかつらベースに更に毛材を植毛しかつらを作製した。比較例4のかつらの物性および性能を表1に示す。
(Comparative Example 4)
The porous urethane was the same as that of the present invention, and a wig base was produced in the same manner as in Example 2 with a moisture-permeable material having a two-layer structure in which a nylon fiber layer was laminated on the porous urethane. A hair material was further planted on the wig base to prepare a wig. Table 1 shows the physical properties and performance of the wig of Comparative Example 4.

(比較例5)
直径0.12mmのポリエステルフィラメントの55メッシュ/インチのネットを頭部形状の雄型にガンタッカーを用いてステープルで固定し、2液混合型のウレタン熱硬化性樹脂(日新レジン株式会社製、ADAPT E−No.2)を有機溶剤で希釈した溶液をネットの上から塗布した後、100℃で10時間の加熱処理をして、かつら用下地キャップを作製した。比較例5のかつら用下地キャップの物性及び性能を表1に示す。
(Comparative Example 5)
A 55 mesh / inch net of polyester filament with a diameter of 0.12 mm is fixed to a male head-shaped mold with a staple using a gun tucker, and a two-component urethane thermosetting resin (manufactured by Nissin Resin Co., Ltd., After applying a solution obtained by diluting ADAPT E-No. 2) with an organic solvent from the top of the net, heat treatment was performed at 100 ° C. for 10 hours to prepare a base cap for wigs. Table 1 shows the physical properties and performance of the wig base cap of Comparative Example 5.

実施例、比較例1乃至4で作製したかつらベースに毛材を植毛した後のかつらの状態とかつら装着時の状態の評価を表1に示す。 Table 1 shows the evaluation of the state of the wig after the hair material was planted on the wig base produced in Examples and Comparative Examples 1 to 4 and the state when the wig was mounted.

比較例1は植毛の強度には問題ないが、かつらを装着すると短時間で蒸れて頭部が痒くなった。比較例2は植毛した個所の破損が見られかつらの外観が劣っているが、かつら装着時は蒸れもなく透湿性は良好であった。比較例3は毛材を植毛する場所である繊維層が付いてないので、植毛は多孔質ウレタン層とその下のポリエステルメッシュ層に植毛されるので、多孔質ウレタン層は穴が空いて毛材が結着できない。一方、ポリエステルメッシュ層には毛材をポリエステルメッシュに巻回して結着しているので、かつらを装着した時に毛材が頭部に当たり痛みを感じた。比較例4は毛材を植毛する場所である繊維層が付いるので、植毛はできるが、かつらベースそのものの強度が弱いのでベースが破損したり、毛材の結着強度が弱く通常の使用で毛材の脱落が起こる。更にポリエステルメッシュ層が付いていないので、かつらを装着すると多孔質ポリウレタン層に頭部が直接触れて密着するので、蒸れて汗が頭部と多孔質ポリウレタンの間に溜まり不快になった。 In Comparative Example 1, there was no problem with the strength of flocking, but when the wig was put on, the head became muddy in a short time. In Comparative Example 2, damage to the planted part was observed and the appearance of the wig was inferior, but when the wig was worn, the moisture permeability was good without stuffiness. Since Comparative Example 3 does not have a fiber layer which is a place to plant the hair material, since the hair is planted in the porous urethane layer and the polyester mesh layer therebelow, the porous urethane layer has a hole in the hair material. Can't bind. On the other hand, since the hair material was wound around the polyester mesh and bound to the polyester mesh layer, the hair material hit the head and felt pain when the wig was worn. Since Comparative Example 4 has a fiber layer that is a place to plant the hair material, the hair can be planted, but the wig base itself is weak, so the base is damaged, and the binding strength of the hair material is weak, so it can be used in normal use. Hair material falls off. Furthermore, since the polyester mesh layer is not attached, when the wig is attached, the head directly touches and adheres to the porous polyurethane layer, so that the sweat is accumulated between the head and the porous polyurethane, which is uncomfortable.

比較例5の下地キャップは長時間被ると頭部の温度が上昇して蒸れが起こる。またキャップを被った後にかつらを装着すると、下地キャップとかつらがフィットしないため、かつらが不安定で且つ、浮いたようになった。   When the base cap of Comparative Example 5 is worn for a long time, the temperature of the head rises and stuffiness occurs. When the wig was attached after the cap was put on, the wig was unstable and floated because the base cap and the wig did not fit.

また、本発明のかつら用透湿性素材は、前述のように種々の形状に作製することもできる。その他次のように使用することができる。
例えば、合成繊維などからなる帯状体を縦横に張り巡らせて交点を縫着あるいは接着剤による接着で固定して、頭部形状のキャップを作製する。次に人工毛髪あるいは天然毛髪をミシンなど使用して縫着糸で縫ってミノ毛を作製し、そのミノ毛を頭部形状に成形したキャップを構成している帯状体を縫着してキャップに前記毛髪を取り付け、かつら用透湿性素材を所定の位置に縫着または接着剤で接着固定して使用することができる。
Moreover, the moisture-permeable material for wigs of this invention can also be produced in various shapes as described above. In addition, it can be used as follows.
For example, a band-shaped body made of synthetic fiber or the like is stretched vertically and horizontally, and the intersection is fixed by sewing or bonding with an adhesive to produce a head-shaped cap. Next, artificial hair or natural hair is sewn with a sewing thread using a sewing machine or the like to make a mino hair, and a band-shaped body constituting a cap in which the mino hair is formed into a head shape is sewn to the cap. The hair can be attached, and the moisture-permeable material for wigs can be used by being sewn or fixed in place with an adhesive or an adhesive.

本発明のかつら用透湿性素材として、多孔質ポリウレタンやナイロン繊維層に着色剤などを混入して着色することもできる。 As the moisture-permeable material for wigs of the present invention, it is possible to color the porous polyurethane or nylon fiber layer by mixing a colorant or the like.

本発明のかつら用透湿性素材を説明する断面図である。It is sectional drawing explaining the moisture-permeable material for wigs of this invention. 本発明のかつら用透湿性素材によって型造したかつらベースの一部断面斜視図である。It is a partial cross section perspective view of the wig base molded with the moisture-permeable material for wigs of this invention. 本発明のかつら用透湿性素材より型造した下地ネットの説明図である。It is explanatory drawing of the base net | network shape | molded from the moisture-permeable raw material for wigs of this invention. 本発明のかつら用透湿性素材を使用した部分かつらの実施形態の概略図である。(a)平面図(b)aのA−A線断面図である。It is the schematic of embodiment of the partial wig using the moisture-permeable material for wigs of this invention. (A) Top view (b) It is the sectional view on the AA line of a.

符号の説明Explanation of symbols

1 多孔質ポリウレタン層
2 ポリエステルメッシュ
3 繊維層
4 縁部
5 ネット
6 頂部
7 毛髪
20 かつらベース
21 ネット状部材
211 人工皮膚
DESCRIPTION OF SYMBOLS 1 Porous polyurethane layer 2 Polyester mesh 3 Fiber layer 4 Edge 5 Net 6 Top 7 Hair 20 Wig base 21 Net-like member 211 Artificial skin

Claims (6)

多孔質ポリウレタンを芯材として、一方の面に合成繊維または天然繊維からなる網目層を備えるとともに、この芯材の他面側に合成繊維または天然繊維からなる繊維層をラミネートしてなる三層構造体であることを特徴とするかつら用透湿性素材。 A three-layer structure in which a porous polyurethane is used as a core material and a mesh layer made of synthetic fibers or natural fibers is provided on one side and a fiber layer made of synthetic fibers or natural fibers is laminated on the other side of the core material wigs for moisture-permeable material, wherein the body der Rukoto. 前記網目層がポリエステル繊維から形成され、前記繊維層がナイロン繊維からなる網目に形成されていることを特徴とする請求項1に記載のかつら用透湿性素材。 The moisture-permeable material for wigs according to claim 1, wherein the mesh layer is formed from a polyester fiber and the fiber layer is formed from a nylon fiber. 頭部形状に成形されたかつらベースの一部として使用することを特徴とする請求項1または請求項2に記載のかつら用透湿性素材。 The moisture-permeable material for wigs according to claim 1 or 2, which is used as a part of a wig base formed into a head shape. かつらの下に被着される下地キャップであって、請求項1または2に記載のかつら用透湿性素材からなることを特徴とする下地キャップ。 A base cap , which is applied under a wig, comprising the moisture-permeable material for wigs according to claim 1 or 2 . 人毛または人工毛髪が植毛されたかつらベースを含むかつらであって、前記かつらベースを形成する主部材と、請求項1または2に記載のかつら用透湿性素材とが縫着若しくは接着により一体に形成されてなることを特徴とするかつら。 A wig including a wig base in which human hair or artificial hair is planted , wherein the main member forming the wig base and the moisture-permeable material for wigs according to claim 1 or 2 are integrally formed by sewing or bonding. A wig characterized by being formed. 請求項1または2に記載のかつら用透湿性素材を、1枚または複数枚を頭部形状に成形するか、または継ぎ合わせて頭部形状に成形することを特徴とするかつら用下地キャップ。 A base cap for wigs, wherein one or more of the moisture permeable materials for wigs according to claim 1 or 2 are formed into a head shape or joined together to form a head shape.
JP2006151916A 2006-05-31 2006-05-31 Wig moisture-permeable material and wig or wig base cap having this moisture-permeable material Expired - Fee Related JP4798707B2 (en)

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JP2006151916A JP4798707B2 (en) 2006-05-31 2006-05-31 Wig moisture-permeable material and wig or wig base cap having this moisture-permeable material
PCT/JP2006/319740 WO2007138720A1 (en) 2006-05-31 2006-10-03 Moisture-permeable material for wigs and wig or under cap for wig having the moisture-permeable material
KR1020087031258A KR20090021183A (en) 2006-05-31 2006-10-03 Moisture-permeable material for wigs and wig or under cap for wig having the moisture-permeable material
AU2006345675A AU2006345675B2 (en) 2006-05-31 2006-10-03 Moisture-permeable material for wigs and wig or under cap for wig having the moisture-permeable material
RU2008151052/12A RU2008151052A (en) 2006-05-31 2006-10-03 WATERPROOF MATERIAL FOR MANUFACTURING WIGS AND WIGS OR A WIG NET FOR WIGS, INCLUDING WATERPROOF MATERIAL
EP06811088.1A EP2027785A4 (en) 2006-05-31 2006-10-03 Moisture-permeable material for wigs and wig or under cap for wig having the moisture-permeable material
US12/302,385 US20090235943A1 (en) 2006-05-31 2006-10-03 Moisture-permeable material for wigs and wig or under cap for wig having the moisture-permeable material
CA002655653A CA2655653A1 (en) 2006-05-31 2006-10-03 Moisture-permeable material for wigs and wig or under cap for wig having the moisture-permeable material
CN2006800552602A CN101484031B (en) 2006-05-31 2006-10-03 Moisture-permeable material for wigs and wig or under cap for wig having the moisture-permeable material
TW095141700A TWI415580B (en) 2006-05-31 2006-11-10 Wigs with moisture permeable material and wigs or wigs with this moisture permeable material
HR20080610A HRP20080610A2 (en) 2006-05-31 2008-11-25 Moisture-permeable material for wigs and wig or under cap for wig having the moisture-permeable material
NO20084982A NO20084982L (en) 2006-05-31 2008-11-27 Moisture permeable material for wigs and wigs or underlying wig for wigs having such moisture permeable material

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JP3866831B2 (en) * 1997-05-14 2007-01-10 株式会社アデランス Wig fastening member, method for attaching wig fastening member to wig base material, and method for fastening wig
JPH11323646A (en) * 1998-05-07 1999-11-26 Art Nature:Kk Wig capable of freely forming dividing line
US6527618B1 (en) * 2000-10-02 2003-03-04 Andrew P. Faunda Doll head with an attachable doll wig and method of making the same
JP2004315817A (en) * 2003-04-03 2004-11-11 Seiren Co Ltd Polyurethane film and method for producing the same
JP2004353127A (en) * 2003-05-29 2004-12-16 Feather Kk Whole wig
JP3112042U (en) 2005-04-28 2005-07-28 フォンテーヌ株式会社 Wig base net

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JP2007321282A (en) 2007-12-13
CN101484031B (en) 2011-06-08
AU2006345675A1 (en) 2007-12-06
WO2007138720A1 (en) 2007-12-06
US20090235943A1 (en) 2009-09-24
TW200743448A (en) 2007-12-01
TWI415580B (en) 2013-11-21
HRP20080610A2 (en) 2009-03-31
AU2006345675B2 (en) 2012-07-26
NO20084982L (en) 2009-02-23
CN101484031A (en) 2009-07-15
RU2008151052A (en) 2010-07-10
CA2655653A1 (en) 2007-12-06
EP2027785A1 (en) 2009-02-25
KR20090021183A (en) 2009-02-27
EP2027785A4 (en) 2013-11-20

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