JPH055Y2 - - Google Patents

Description

【考案の詳細な説明】 〔産業上の利用分野〕 本考案は吸汗性及び吸湿性に優れ、濡れ現象や
蒸れ現象が少なくしかも軽量で耐摩耗性において
も優れている履き心地の良い履き口が足首以上の
高さの長靴に関するものである。[Detailed description of the invention] [Industrial application field] The invention provides a comfortable shoe opening that has excellent sweat and moisture absorption properties, reduces wetting and stuffiness phenomena, is lightweight, and has excellent abrasion resistance. This relates to boots that are higher than the ankle.

〔従来の技術〕[Conventional technology]

履き口が足首以上の高さのゴム長靴にはその履
き心地や防寒性や吸汗性等を付与するために内面
に裏布材が貼着されることが多いが、その用途に
応じて種々多様な裏布材が適用されている。それ
らの内、吸汗性付与のためには単一層の吸湿性布
地や、透水性を有する布地とその裏面側すなわち
長靴表層側に多孔性の発泡材などを貼着した裏布
材を用いた長靴等が知られている。又、一般的な
履物における吸汗性付与手段として、第３図に示
す実公昭59−13849号公報に示されているような
ポリウレタンの如き多孔性の発泡材３とその足に
当接する側に非吸湿性の糸と吸湿性の糸とから成
る二層編みもしくは二層織りの編物又は織物２′
を貼着し且つその二層編みもしくは二層織りの編
物又は織物２′の内、多孔性の発泡材３側には吸
湿性を有する太い糸４を用い、反対側の層すなわ
ち足に当接する側の層の糸には非吸湿性の糸で前
者の糸４よりも細い糸５を用いて吸汗性を付与し
た履物等が知られている。 Rubber boots with collars that are higher than the ankle often have a lining material affixed to the inner surface to provide comfort, cold protection, sweat absorption, etc., but there are various types depending on the purpose. A soft lining material is applied. Among them, boots that use a single layer of moisture-absorbing fabric or water-permeable fabric and a lining material such as a porous foam material attached to the back side of the fabric, that is, the outer layer of the boots, are suitable for imparting sweat-absorbing properties. etc. are known. In addition, as a means for imparting sweat absorption properties to general footwear, a porous foam material 3 such as polyurethane and a non-woven material on the side that comes into contact with the foot are used as shown in FIG. Double-layer knitted or double-layer woven fabric 2' consisting of hygroscopic yarn and hygroscopic yarn
and of the two-layered or two-layered knitted fabric or woven fabric 2', a thick hygroscopic thread 4 is used on the porous foam material 3 side, and is in contact with the layer on the opposite side, that is, the foot. Footwear and the like are known in which a non-hygroscopic yarn 5, which is thinner than the former yarn 4, is used as the yarn in the side layer to impart sweat absorption properties.

〔考案が解決しようとする問題点〕[Problem that the invention attempts to solve]

以上の如く吸汗性を付与する方法として種々存
在するが、作業用長靴のように表層が非吸水性の
ゴム層又は合成樹脂層から成り履き口が足首以上
の高さの長靴であつて、特に発汗し易い夏期等に
も履用する保温性をあまり要求されない長靴にお
いては、上記のような従来の吸汗性付与方法では
種々の問題点があつた。 As mentioned above, there are various methods for imparting sweat absorption properties, but especially boots with a non-water-absorbing rubber layer or synthetic resin layer and a collar that is higher than the ankle, such as work boots. For boots that do not require much heat retention and are worn during the summer months when sweating is likely, the conventional methods of imparting sweat absorption properties as described above have had various problems.

すなわち、非透水性のゴム層又は合成樹脂層か
ら成る表層の裏面に単一層の吸湿性布地を貼着し
た構造ではすぐベトツクようになり、更には裏面
に多孔性の発泡材とその足に当接する側に透水性
を有する布地を貼着した裏布材を用いた長靴や、
実公昭59−13849号公報に示されているような吸
汗性付与手段を用いた長靴においては、ある程度
の吸汗、保水機能を有していても多孔性の発泡材
が保温性を有するためにその特性をむしろ除去し
たい用途である夏期でも履用する作業用長靴のよ
うな長靴においては根本的に問題点があり、更に
多孔性の発泡材は発汗するその局部近傍のみの吸
汗、保水機能を有しているのみで吸汗した水分を
周囲に拡散する性能に乏しく、或る程度の吸汗の
後にはその部分にベトツキ現象が生ずるようにな
るという問題点があつた。 In other words, a structure in which a single layer of moisture-absorbing fabric is attached to the back side of a surface layer consisting of an impermeable rubber layer or synthetic resin layer quickly becomes sticky, and furthermore, if the back side is made of porous foam material and its feet touch Boots that use lining material with water-permeable fabric attached to the contact side,
Boots using a sweat-absorbing means as shown in Utility Model Publication No. 13849/1984 have a certain degree of sweat-absorbing and water-retaining function, but the porous foam material has heat-retaining properties. There is a fundamental problem with boots such as work boots, which are worn even in the summer, for which this characteristic should be eliminated, and porous foam materials only have sweat absorption and water retention functions in the vicinity of the local area where sweat occurs. There was a problem in that the ability to diffuse sweat-absorbed moisture to the surrounding area was poor, and after a certain amount of sweat absorption, the area became sticky.

〔問題点を解決するための手段〕[Means for solving problems]

本考案者はかかる従来の長靴の吸汗性の問題点
を解決するために鋭意検討した結果、それぞれ所
定範囲にある細いフイラメントより構成され糸条
のデニール数の比率が所定範囲にある合成繊維の
集束度が異なる２糸条又はそれ以上の糸条で集束
性の高い糸条が片面に密にまた集束性の低い糸条
が他面に位置するように製編した編布地を用い、
集束性の高い糸条から成る面を長靴の表層側に貼
着し集束性の低い糸条から成る面を長靴の内側と
すれば、編布地を非透水性のゴム層又は合成樹脂
層から成る表層の裏面に直接貼着しても濡れ現象
がなく優れた吸汗性を有すると共に耐摩耗性にも
優れた長靴が得られることを見出し本考案を完成
したのである。 As a result of intensive studies to solve the sweat-absorbing problems of conventional rain boots, the inventor of the present invention found a bundle of synthetic fibers each composed of thin filaments within a predetermined range and having a denier ratio of threads within a predetermined range. Using a knitted fabric made of two or more yarns with different degrees of cohesiveness, the yarns with high cohesiveness are densely arranged on one side and the yarns with low cohesiveness are located on the other side,
If the surface made of threads with high cohesion is attached to the outer side of the boots and the surface made of threads with low cohesion is attached to the inside of the boots, the knitted fabric can be made of a non-water permeable rubber layer or synthetic resin layer. They discovered that boots with excellent sweat absorbency and abrasion resistance can be obtained without any wetting phenomenon even when directly attached to the back side of the outer layer, and have completed the present invention.

すなわち、本考案はゴム層又は合成樹脂層から
成る表層の裏面に裏布材が貼着されている履き口
が足首以上の高さの長靴において、前記裏布材が
それぞれ1.0〜4.5デニールのフイラメントより構
成され糸条のデニール数の比率が0.7〜1.4の範囲
にある集束度が異なる合成繊維糸条で集束性の高
い糸条が片面に密にまた集束性の低い糸条が他面
に位置するように製編されており、集束性の高い
糸条から成る面が前記表層の裏面に貼着されてい
ることを特徴とする長靴に関するものである。 That is, the present invention provides boots with a collar that is above the ankle height, in which a lining material is attached to the back side of an outer layer made of a rubber layer or a synthetic resin layer, and each of the lining material is a filament of 1.0 to 4.5 deniers. Synthetic fiber yarns with different degrees of cohesiveness, with a denier ratio in the range of 0.7 to 1.4, with highly cohesive yarns densely located on one side and less cohesive yarns on the other side. It is related to the boots that are made to do so, and the surface consisting of a high -ranging thread is attached to the back of the surface layer.

以下、図面により本考案に係る長靴の実施例に
ついて詳細を説明する。 Hereinafter, embodiments of the boots according to the present invention will be described in detail with reference to the drawings.

第１図は本考案に係る長靴の１実施例の側面
図、第２図は本考案に係る長靴の表層と裏布材と
の位置関係を示す拡大断面説明図である。 FIG. 1 is a side view of one embodiment of the boots according to the present invention, and FIG. 2 is an enlarged cross-sectional explanatory view showing the positional relationship between the outer layer and the lining material of the boots according to the present invention.

図面中、１はゴム層又は軟質ポリ塩化ビニルの
ような合成樹脂層から成る履き口が足首以上の高
さの長靴の表層である。２はそれぞれ1.0〜4.5デ
ニールのフイラメントより構成され糸条のデニー
ル数の比率が0.7〜1.4の範囲にある集束度が異な
るナイロン繊維やポリエステル繊維の如き合成繊
維糸条で集束性の高い糸条が片面に密にまた集束
性の低い糸条が他面に位置するように製編されて
おり表層１の裏面に直接貼着されている編布地か
ら成つている裏布材であつて、その構成は第２図
に示す如く集束性の高い糸条から成る面２ａが表
層１に直接貼着されており、集束性の低い糸条か
ら成る面２ｂは足に当接する側に位置している。 In the drawings, reference numeral 1 denotes the outer layer of a boot whose opening is made of a rubber layer or a synthetic resin layer such as soft polyvinyl chloride and is higher than the ankle. 2 is composed of filaments each having a denier of 1.0 to 4.5, and has a yarn denier ratio of 0.7 to 1.4. Synthetic fiber yarns such as nylon fibers and polyester fibers have different degrees of convergence, and the yarns have high convergence. A backing fabric material made of a knitted fabric that is knitted so that yarns with a high density and low cohesiveness are located on one side and are directly attached to the back side of the surface layer 1, and its structure As shown in FIG. 2, a surface 2a made of threads with high cohesiveness is directly attached to the surface layer 1, and a surface 2b made of threads with low cohesiveness is located on the side that comes into contact with the foot.

本考案においては、裏布材２が上記の如く集束
性の高い合成繊維糸条から成る面２ａが表層１に
貼着されており、集束性の低い合成繊維糸条から
成る面２ｂが足に当接する側に位置していること
が必要であり、このような構成となつていること
によつて優れた吸汗性が発揮されると共に透水性
の表層１に裏布材２が直接貼着されていてもその
吸汗性が損なわれないのである。 In the present invention, it is necessary that the surface 2a of the lining material 2 made of the synthetic fiber yarns with high bundling property as described above is attached to the surface layer 1, and the surface 2b made of the synthetic fiber yarns with low bundling property is located on the side that comes into contact with the foot. By adopting such a configuration, excellent sweat absorption properties are exhibited and the sweat absorption properties are not impaired even if the lining material 2 is directly attached to the water-permeable surface layer 1.

本考案において集束度の差異は、以下に列挙す
るような方法により付与することができる。 In the present invention, differences in convergence can be imparted by the methods listed below.

各糸条に形成された交絡集束部分の単位長さ
当りの数の差で付与する方法で、この場合集束
性の高い糸条の交絡数を集束性の低い糸条の交
絡数の1.3倍以上とすることが好ましい。 A method in which the number of entangled convergence parts formed on each yarn is determined by the difference in the number per unit length, and in this case, the number of entanglements in yarns with high convergence is 1.3 times or more the number of interlaces in yarns with low convergence. It is preferable that

各糸条に付与された単位長さ当りの撚り数の
差で付与する方法で、この場合集束性の高い糸
条の撚り数を集束性の低い糸条の撚り数の1.3
倍以上とすることが好ましい。 A method in which the number of twists per unit length is applied to each yarn. In this case, the number of twists for yarns with high cohesiveness is 1.3 of the number of twists for yarns with low cohesiveness.
It is preferable to double or more.

集束性の高い糸条を捲縮加工糸とし、集束性
の低い糸条を長繊維生糸とする方法。 A method of using yarn with high cohesiveness as crimped yarn and using yarn with low cohesiveness as long-fiber raw silk.

集束性の高い糸条を紡績糸とし、集束性の低
い糸条を長繊維生糸とする方法。 A method in which the yarn with high cohesion is spun into yarn, and the yarn with low cohesion is made into continuous raw silk.

集束性の高い糸条をノンバルキー紡績糸と
し、集束性の低い糸条をバルキー紡績糸とする
方法。 A method in which a yarn with high cohesiveness is made into a non-bulky spun yarn, and a yarn with low cohesiveness is made into a bulky spun yarn.

そしてこのような集束度が異なる合成繊維糸条
で集束性の高い糸条が片面に密にまた集束性の低
い糸条が他面に位置するように製編されている裏
布材２において、集束度が異なる合成繊維糸条は
それぞれ1.0〜4.5デニールの細いフイラメントよ
り構成されていることが必要である。すなわち足
に当接する側の集束性の低い糸条は、強度及び耐
摩耗性の点から1.0デニール以上のフイラメント
より構成されていることが必要であり、また柔軟
性及び肌触りの良さを維持するために4.5デニー
ル以下のフイラメントより構成されていて且つそ
の編製は密に成されていることが必要である。ま
た表層１側の糸条すなわち集束性の高い糸条は、
強度の点から1.0デニール以上のフイラメントよ
り構成されていることが必要であり、また吸汗性
を維持するために4.5デニール以下のフイラメン
トより構成されていることが必要である。そして
この集束度が異なる合成繊維糸条は、製編が容易
なようにほぼ同じ太さの糸条であることが好まし
いので、それぞれデニール数の比率が0.7〜1.4の
範囲にあることが必要であり、集束性の高い糸条
のフイラメント数は吸汗した汗をその糸条に沿つ
て毛細管現象によつて拡散できるように15本以上
であることが好ましい。 In the lining material 2, which is knitted with such synthetic fiber yarns having different degrees of convergence, such that the yarns with high convergence are densely arranged on one side and the yarns with low convergence are located on the other side, It is necessary that the synthetic fiber yarns with different degrees of convergence are each composed of thin filaments of 1.0 to 4.5 deniers. In other words, the yarn with low cohesion on the side that comes into contact with the foot needs to be composed of filament of 1.0 denier or more in terms of strength and abrasion resistance, and in order to maintain flexibility and good texture. It is necessary that the filament is composed of a filament of 4.5 denier or less and that the knitting is dense. In addition, the threads on the surface layer 1 side, that is, the threads with high cohesiveness,
In terms of strength, it is necessary to be made of filament of 1.0 denier or more, and in order to maintain sweat absorption, it is necessary to be made of filament of 4.5 denier or less. It is preferable that these synthetic fiber yarns with different degrees of convergence have approximately the same thickness to facilitate knitting, so it is necessary that the ratio of their respective denier numbers be in the range of 0.7 to 1.4. It is preferable that the number of filaments of the yarn with high convergence is 15 or more so that absorbed sweat can be diffused along the yarn by capillary action.

編布地の編組織は特に限定されず、シングル編
布地やダブル編布地のいずれでも適用可能である
が、シングル編布地の方が組織がシンプルである
から耐摩耗性の点で好ましいが、ダブル編布地は
厚さが厚くなるので吸汗性の点では好ましいが保
温性が高いので夏期の使用には好ましくない。 The knitting structure of the knitted fabric is not particularly limited, and either single-knitted fabric or double-knitted fabric can be applied, but single-knitted fabric has a simpler structure and is preferable in terms of abrasion resistance. Since the fabric is thick, it is preferable in terms of sweat absorption, but it is not preferable for use in summer because it has high heat retention.

〔作用〕[Effect]

以上のような構成から成る本考案に係る長靴に
おいては、発汗した汗は集束性の低い糸条から成
る面２ｂを透過して集束性の高い糸条から成る面
２ａに吸収されるのであるが、これは集束性の高
い糸条そのものが吸湿性を有する種類の繊維であ
るからではなく、集束性の低い糸条から成る面２
ｂを構成する糸条のフイラメント間に形成される
間隙に比べて集束性の高い糸条から成る面２ａを
構成する糸条のフイラメント間に形成される間隙
が非常に小さいため、この非常に小さい間隙の大
きな毛細管現象によつて吸汗性が付与されるから
である。このようにして汗は集束性の高い糸条か
ら成る面２ａに吸収されるのであるが、この集束
性の高い糸条から成る面２ａは多数本のフイラメ
ントから成るため吸収され汗はその吸収された部
分にのみ留まつておらずにその大きな毛細管現象
によつてその糸条に沿つて周囲に広く拡散するよ
うになり、その結果裏布材２が直接非透水性の表
層１に貼着されていても蒸れや濡れ現象が無くな
るのである。なお、吸収された汗は長靴を履用し
ない間に集束性の低い糸条から成る面２ｂを透過
して外部へ放出されるので、濡れ現象や蒸れ現象
を履用者に感じさせることはないのである。 In the rain boots according to the present invention having the above-mentioned configuration, the perspiring sweat passes through the surface 2b made of threads with low cohesiveness and is absorbed by the surface 2a made of threads with high cohesiveness. , this is not because the highly cohesive yarn itself is a type of fiber that has hygroscopic properties, but rather because the surface 2 made of yarns with low cohesiveness
This very small gap is due to the fact that the gap formed between the filaments of the yarn constituting the surface 2a consisting of the yarn with high cohesiveness is very small compared to the gap formed between the filaments of the yarn constituting the surface 2a. This is because sweat absorbency is imparted by capillary action with large gaps. In this way, sweat is absorbed by the surface 2a made of highly cohesive threads, but since this surface 2a made of highly cohesive threads is composed of a large number of filaments, the sweat is absorbed. It does not stay only in the part where the water is permeable, but spreads widely along the threads due to the large capillary phenomenon, and as a result, the lining material 2 is directly attached to the non-water permeable surface layer 1. This means that there will be no stuffiness or wetness even when the clothes are wet. Furthermore, while the boots are not being worn, the absorbed sweat passes through the surface 2b made of threads with low cohesion and is released to the outside, so the wearer does not feel wet or stuffy. It is.

〔考案の効果〕[Effect of idea]

以上詳述した如き本考案に係る長靴は、ゴム層
又は合成樹脂層から成る表層の裏面に集束度の異
なる合成繊維糸条で製編された裏布材が貼着され
ており且つ集束性の高い糸条から成る面がその表
層側に位置していると共に集束性の低い糸条から
成る面が足に当接する側に位置しているものであ
るため、足から発汗した汗は集束性の低い糸条か
ら成る面から集束性の高い糸条から成る面へと吸
収されて移動し、しかも吸収された汗は集束性の
高い糸条内で広く拡散するため長靴の表層が非透
水性のゴム層又は合成樹脂層で構成されているに
もかかわらず足に当接する面は蒸れ現象や濡れ現
象が無く、いつもサラサラした状態が維持される
ようになるのである。 The boots according to the present invention as described in detail above have a lining material knitted with synthetic fiber threads having different degrees of convergence attached to the back side of the outer layer consisting of a rubber layer or a synthetic resin layer, and The surface made of high threads is located on the surface layer side, and the surface made of threads with low cohesiveness is located on the side that comes into contact with the foot, so the sweat generated from the feet is concentrated. Sweat is absorbed and transferred from the surface made of low threads to the surface made of threads with high cohesiveness, and the absorbed sweat is widely diffused within the threads with high cohesiveness, so the outer layer of the boots is non-water permeable. Even though it is made of a rubber layer or a synthetic resin layer, the surface that comes into contact with the foot does not get stuffy or wet, and is always kept dry.

又、多孔性の発泡材や他の吸湿性の素材等を付
加しなくとも充分な吸汗性を有しているため、夏
期等の履用に適した薄くて軽い長靴が得られ且つ
コストも安価にでき、その実用的価値は非常に大
きなものがある。 In addition, they have sufficient sweat absorption properties without the addition of porous foam or other hygroscopic materials, making it possible to obtain thin and light boots suitable for wearing in the summer, and at low cost. , and its practical value is enormous.

【図面の簡単な説明】[Brief explanation of drawings]

第１図は本考案に係る長靴の１実施例の側面
図、第２図は本考案に係る長靴の表層と裏布材と
の位置関係を示す拡大断面説明図、第３図は従来
の吸汗性を付与された履物の表層と裏布材との位
置関係を示す拡大断面説明図である。 図面中、１……表層、２′……編物、２……裏
布材、２ａ……集束性の高い糸条から成る面、２
ｂ……集束性の低い糸条から成る面、３……多孔
性の発泡材、４……吸湿性を有する太い糸、５…
…非吸湿性の細い糸。 Fig. 1 is a side view of one embodiment of the boots according to the present invention, Fig. 2 is an enlarged sectional explanatory view showing the positional relationship between the outer layer and the lining material of the boots according to the present invention, and Fig. 3 is a conventional sweat absorbent FIG. 2 is an enlarged cross-sectional explanatory view showing the positional relationship between the surface layer and the lining material of the footwear that has been imparted with the properties. In the drawings, 1... surface layer, 2'... knitted fabric, 2... lining fabric material, 2a... surface made of highly bundled yarn, 2
b... Surface made of threads with low bundling properties, 3... Porous foam material, 4... Thick yarn with hygroscopicity, 5...
...Non-hygroscopic thin thread.

Claims (1)

【実用新案登録請求の範囲】 １ ゴム層又は合成樹脂層から成る表層１の裏面
に裏布材２が貼着されている履き口が足首以上
の高さの長靴において、前記裏布材２がそれぞ
れ1.0〜4.5デニールのフイラメントより構成さ
れ糸条のデニール数の比率が0.7〜1.4の範囲に
ある集束度が異なる合成繊維糸条で集束性の高
い糸条が片面に密にまた集束性の低い糸条が他
面に位置するように製編されており、集束性の
高い糸条から成る面２ａが前記表層１の裏面に
貼着されていることを特徴とする長靴。 ２ 集束性の高い糸条と集束性の低い糸条との集
束度が、それらの糸条に形成された交絡集束部
分の単位長さ当りの数の差で付与されており、
集束性の高い糸条の交絡数が集束性の低い糸条
の交絡数の1.3倍以上である実用新案登録請求
の範囲第１項に記載の長靴。 ３ 集束性の高い糸条と集束性の低い糸条との集
束度が、それらの糸条に付与された単位長さ当
りの撚り数の差で付与されており、集束性の高
い糸条の撚り数が集束性の低い糸条の撚り数の
1.3倍以上である実用新案登録請求の範囲第１
項に記載の長靴。 ４ 集束性の高い糸条が捲縮加工糸で、集束性の
低い糸条が長繊維生糸である実用新案登録請求
の範囲第１項に記載の長靴。 ５ 集束性の高い糸条が紡績糸で、集束性の低い
糸条が長繊維生糸である実用新案登録請求の範
囲第１項に記載の長靴。 ６ 集束性の高い糸条がノンバルキー紡績糸で、
集束性の低い糸条がバルキー紡績糸である実用
新案登録請求の範囲第１項に記載の長靴。 ７ 裏布材２がシングル編布地である実用新案登
録請求の範囲第１項から第６項までのいずれか
１項に記載の長靴。 ８ 裏布材２がダブル編布地である実用新案登録
請求の範囲第１項から第６項までのいずれか１
項に記載の長靴。[Claims for Utility Model Registration] 1. Boots with a collar that is higher than the ankle, in which a lining fabric material 2 is attached to the back side of a surface layer 1 made of a rubber layer or a synthetic resin layer, in which the lining fabric material 2 is Synthetic fiber yarns are composed of filaments of 1.0 to 4.5 deniers and have different degrees of convergence, with the ratio of yarn deniers in the range of 0.7 to 1.4, with high convergence yarns densely on one side and low convergence yarns. Boots that are knitted so that the yarn is located on the other side, and that a side 2a made of yarn with high cohesiveness is attached to the back side of the outer layer 1. 2. The degree of convergence between a yarn with high convergence and a yarn with low convergence is given by the difference in the number of interlaced convergence parts formed in those yarns per unit length,
1. The boots according to claim 1, wherein the number of entanglements of the yarn with high cohesiveness is 1.3 times or more as the number of entanglements of the yarn with low cohesiveness. 3 The degree of convergence between a yarn with high cohesiveness and a yarn with low convergence is given by the difference in the number of twists per unit length given to those yarns, and the degree of convergence of a yarn with high cohesiveness is The number of twists of yarn with low convergence
The first scope of claims for utility model registration that is 1.3 times or more
Boots as described in section. 4. Boots according to claim 1, wherein the threads with high bundling properties are crimped yarns, and the threads with low bundling properties are long fiber raw silk. 5. The boots according to claim 1, wherein the threads with high bundling properties are spun yarns, and the threads with low bundling properties are long fiber raw silk. 6 Highly bundled yarn is non-bulky spun yarn,
The boots according to claim 1, wherein the yarn with low bundling property is a bulky spun yarn. 7. The boots according to any one of claims 1 to 6, wherein the lining material 2 is a single-knit fabric. 8 Any one of claims 1 to 6 for utility model registration in which the lining material 2 is a double knitted fabric
Boots as described in section.