JP2006081859A - Method for manufacturing felt shoe sole - Google Patents

Method for manufacturing felt shoe sole Download PDF

Info

Publication number
JP2006081859A
JP2006081859A JP2004272632A JP2004272632A JP2006081859A JP 2006081859 A JP2006081859 A JP 2006081859A JP 2004272632 A JP2004272632 A JP 2004272632A JP 2004272632 A JP2004272632 A JP 2004272632A JP 2006081859 A JP2006081859 A JP 2006081859A
Authority
JP
Japan
Prior art keywords
shoe sole
felt
felt shoe
surface portion
synthetic resin
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP2004272632A
Other languages
Japanese (ja)
Inventor
Hiroyuki Yagi
啓之 八木
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Globeride Inc
Original Assignee
Daiwa Seiko Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Daiwa Seiko Co Ltd filed Critical Daiwa Seiko Co Ltd
Priority to JP2004272632A priority Critical patent/JP2006081859A/en
Publication of JP2006081859A publication Critical patent/JP2006081859A/en
Pending legal-status Critical Current

Links

Landscapes

  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To provide an effective method for manufacturing a felt shoe sole by which abrasion of the shoe sole is reduced and durability is improved. <P>SOLUTION: A felt shoe sole material F is placed on a platform 5 of a molding device 4 in a way that its side surface 3c is in contact with a roller 6b of a heating device 6 and a roller 7b of a presser 7. The felt shoe sole material F is moved and the side surface 3c is heated by the heating device 6 to form a molten synthetic resin layer on the surface, then a flat melted and hardened section A is formed by pressing the molten synthetic resin layer by the presser 7. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

本発明は、魚釣りや運動等のレジャ−に用いるフエルト製靴底の製造方法に関する。   The present invention relates to a method for manufacturing a felt shoe sole for use in leisure activities such as fishing and exercise.

川や海などの水辺や水中を歩行するときに苔などに足を取られやすいため、フエルト製の靴底を有する靴が用いられている。
例えば、釣りにおいては、フエルト製の靴底を有する短靴、長靴、足袋、サンダル、ウエ−ダ−など様々な種類の靴が用いられている。
これらの靴は、その靴底の形状に合致した形状に形成された板状のフエルト製の靴底を有し、靴本体に接着されていたり、着脱して交換できるようになっており、交換用靴底も販売されている。
この様なフエルト製の靴底の靴を使用すると、歩行中の滑りはなくなるが、フエルトの減りが早いという問題があり以下の提案がされている。
Shoes that have felt soles are used because they can easily get their feet on moss and the like when walking in waterside or underwater such as a river or the sea.
For example, in fishing, various types of shoes such as boots, boots, socks, sandals, and waders having felt soles are used.
These shoes have a plate-like felt shoe sole formed in a shape that matches the shape of the shoe sole, and can be attached to the shoe body or attached and removed for replacement. Shoe soles are also sold.
When such a felt shoe sole is used, there is no problem of slipping while walking, but there is a problem that the felt decreases quickly, and the following proposal has been made.

特許文献1の公報にはフエルト製の靴底の底面に加熱した金属棒を当ててその内面が溶融硬化した穴部を凹設しフエルト製の靴底の耐久性を向上させたことが記載されている。
このような方法で溶融硬化した部分を形成すると金属棒を引き抜く時に穴部の開口周辺に溶融した合成樹脂の屑が凹凸を形成してしまい、商品価値を下げるため、これを切除する必要があった。
実開平5−93204号公報
In the publication of Patent Document 1, it is described that a heated metal rod is applied to the bottom surface of a felt shoe sole and a hole portion whose inner surface is melt-cured is recessed to improve the durability of the felt shoe sole. ing.
When a melt-cured part is formed by such a method, when the metal bar is pulled out, the synthetic resin scrap melted around the opening of the hole part forms irregularities, which lowers the commercial value. It was.
Japanese Utility Model Publication No. 5-93204

解決しようとする課題は、フエルト製の靴底に溶融硬化部を設けると溶融した合成樹脂が凹凸状に形成され外観が好ましくなく、場合によってはこれを形成し取り除く作業を要すること。   The problem to be solved is that when a melt-cured portion is provided on the sole made of felt, the melted synthetic resin is formed in an uneven shape and the appearance is not preferable, and in some cases, it is necessary to form and remove it.

本発明の目的は前記欠点に鑑み、靴底の減りを少なくして耐久性を向上したフエルト製靴底の効率的な製造方法を提供することである。   An object of the present invention is to provide an efficient method for producing a felt shoe sole in which durability of the shoe sole is improved by reducing the decrease in the sole.

上記課題を解決するために、
請求項1に係わる本発明は、合成樹脂繊維を含むフエルト製靴底の表面部の少なくとも一部を加熱して溶融させた後、押圧体で押圧することを要旨とするものである。
請求項2に係わる本発明は、押圧体をフエルト製靴底の表面部に沿って移動させながら押圧することを要旨とするものである。
請求項3に係わる本発明は、押圧体は回動しながらフエルト製靴底の表面部を押圧することを要旨とするものである。
請求項4に係わる本発明は、押圧体はフエルト製靴底の表面部を冷却することを要旨とするものである。
To solve the above problem,
The gist of the present invention according to claim 1 is that at least a part of the surface portion of the felt shoe sole including the synthetic resin fiber is heated and melted and then pressed with a pressing body.
The gist of the present invention according to claim 2 is that the pressing body is pressed while being moved along the surface portion of the felt shoe sole.
The gist of the present invention according to claim 3 is that the pressing body presses the surface portion of the felt shoe sole while rotating.
The gist of the present invention according to claim 4 is that the pressing body cools the surface portion of the felt shoe sole.

請求項1から4の本発明により、フエルト製靴底の表面部の加熱して溶融させた部分の凹凸をならして外観が良好なフエルト製靴底を容易に製造できる。   According to the first to fourth aspects of the present invention, it is possible to easily manufacture a felt shoe sole having a good appearance by leveling the unevenness of the heated and melted portion of the surface portion of the felt shoe sole.

以下、本発明の実施形態を図面に基づき説明すると、図1から図6は第1実施例で、図1はフエルト製靴底の靴の断面図、図2はフエルト製靴底の上面側の斜視図、図3はフエルト製靴底の底面側の斜視図、図4はフエルト製靴底の拡大断面図、図5はフエルト製靴底の製造工程の全体図、図6はフエルト製靴底の製造工程の要部拡大図である。   Embodiments of the present invention will be described below with reference to the drawings. FIGS. 1 to 6 are first examples, FIG. 1 is a cross-sectional view of a shoe made of a felt shoe sole, and FIG. 3 is a perspective view of the bottom side of the felt shoe sole, FIG. 4 is an enlarged sectional view of the felt shoe sole, FIG. 5 is an overall view of the manufacturing process of the felt shoe sole, and FIG. 6 is a main part of the manufacturing process of the felt shoe sole. It is an enlarged view.

図1のように、フエルト製靴底の靴は、靴本体1が布やウレタン等の合成樹脂やネオプレン等のゴムなどの柔軟性を有する材料で一体に形成され、底部1aの下側に底部材2が固定され、底部材2の下側にフエルト製靴底3が固定されている。
フエルト製靴底3は、合成樹脂繊維Sがランダムに絡み合って形成された板状のフエルトを靴底形状に合わせて切断した靴底で、接地面になる底面部3aの反対側の上面部3bが靴本体1に取り付けた底部材2の下側に接着等で止着されおり、フエルト製靴底3の周縁に沿って側面部3cが形成されている。
As shown in FIG. 1, a shoe with a felt shoe sole has a shoe body 1 that is integrally formed of a flexible material such as a synthetic resin such as cloth or urethane, or a rubber such as neoprene, and a bottom member located below the bottom 1a. 2 is fixed, and a felt shoe sole 3 is fixed to the lower side of the bottom member 2.
The felt shoe sole 3 is a shoe sole obtained by cutting a plate-like felt formed by randomly intertwining synthetic resin fibers S in accordance with the shape of the shoe sole, and an upper surface portion 3b opposite to the bottom surface portion 3a serving as a ground contact surface. The bottom member 2 attached to the shoe body 1 is fixed to the lower side by adhesion or the like, and a side surface portion 3 c is formed along the periphery of the felt shoe sole 3.

フエルト製靴底3の側面部3cに沿ってその表面部にフエルトを形成する繊維Sを1度溶融させて硬化することで形成した溶融硬化部Aが形成されている。
溶融硬化部Aは、合成樹脂繊維で形成したフエルトの層より密度の高い合成樹脂層となっている。
A melt-cured portion A is formed along the side surface portion 3c of the felt shoe sole 3 by melting and curing the fibers S forming the felt on the surface portion once.
The melt-cured portion A is a synthetic resin layer having a higher density than the felt layer formed of synthetic resin fibers.

溶融硬化部Aは、フエルト製靴底3の側面部3cに沿ってその表面に形成されているが、表面から内側に厚味を持って形成されるため図2、図3、図4のようにフエルト製靴底3の上面部3b、底面部3aにも及んでそれぞれの周縁に沿って形成されている。   The melt-hardened portion A is formed on the surface along the side surface portion 3c of the felt shoe sole 3, but is formed with a thickness from the surface to the inside, as shown in FIG. 2, FIG. 3, and FIG. The felt shoe sole 3 is formed along the periphery of the upper surface portion 3b and the bottom surface portion 3a.

フエルト製靴底3は、ポリプロピレン、ポリエチレン等の合成樹脂繊維Sの集合体にニ−ドルパンチを施し、さらに加圧して上記繊維がランダムに絡み合って形成された板状のフエルトを靴底形状に合わせて切断して形成されており、接地面になる底面部3aとその反対側の靴本体1に止着する上面部3bとフエルト製靴底3の周縁に沿って側面部3cが形成されている   The felt shoe sole 3 is obtained by applying a needle punch to an assembly of synthetic resin fibers S such as polypropylene and polyethylene, and pressurizing the plate-like felt formed by randomly intertwining the fibers into a shoe sole shape. A side surface portion 3c is formed along the periphery of the bottom surface portion 3a to be grounded, the upper surface portion 3b to be fixed to the shoe main body 1 on the opposite side, and the felt shoe sole 3.

フエルト製靴底3を形成する繊維Sは、繊度が2〜40デニ−ルで、繊維長は、10〜100mmを用いる。 そして、圧力200〜1000N/m
で3〜10分押圧し、密度0.1〜0.3g/cm とし、厚さ5〜30mmとしたフエルト材を用いている。
The fiber S forming the felt shoe sole 3 has a fineness of 2 to 40 denier and a fiber length of 10 to 100 mm. And pressure 200-1000N / m < 2 >
Is used for a felt material having a density of 0.1 to 0.3 g / cm 3 and a thickness of 5 to 30 mm.

図5、図6は、第1実施例のフエルト製靴底3の製造方法を示した図で、フエルト製靴底3に溶融硬化部Aを形成するため基台5とこの上面に加熱装置6と押圧体7を併設した成形装置4を用いている。
加熱装置6は基台5から突出する軸6aとこの軸6aに回動可能に保持された金属製のローラ6bからなり、このローラ6bが繊維Sを構成する合成樹脂の融点より高い温度に加熱されている。
押圧体7は基台5から突出する軸7aとこの軸7aに回動可能に保持された金属製のローラ7bからなり、このローラ7bがフエルト製靴底3を押圧するようになっている。
FIGS. 5 and 6 are views showing a method of manufacturing the felt shoe sole 3 according to the first embodiment. In order to form the melt-cured portion A on the felt shoe sole 3, the base 5 and the heating device 6 are pressed against the upper surface. A molding apparatus 4 provided with a body 7 is used.
The heating device 6 includes a shaft 6a protruding from the base 5 and a metal roller 6b rotatably supported by the shaft 6a. The roller 6b is heated to a temperature higher than the melting point of the synthetic resin constituting the fiber S. Has been.
The pressing body 7 includes a shaft 7a protruding from the base 5 and a metal roller 7b rotatably held on the shaft 7a. The roller 7b presses the felt shoe sole 3.

フエルト製靴底3を形成するためのフエルト製靴底材Fを上面部3bが上になるように成形装置4の基台5の上に置いて、その側面部3cを加熱装置6のローラ6b及び押圧体7のローラ7bに共に接触するようにする。
この状態でフエルト製靴底材Fを矢印Xの方向に回しながらその側面部3cの加熱装置6及び押圧体7への接触位置を徐々に移動させると加熱装置6のローラ6bと押圧体7のローラ7bがその動きに応じてそれぞれ矢印Z、矢印Y方向に回転する。
A felt shoe sole material F for forming the felt shoe sole 3 is placed on the base 5 of the molding device 4 so that the upper surface portion 3b faces upward, and the side surface portion 3c is pressed by the roller 6b of the heating device 6 and the pressing portion 6b. It is made to contact with the roller 7b of the body 7 together.
In this state, when the felt shoe sole material F is rotated in the direction of the arrow X and the contact position of the side surface portion 3c with the heating device 6 and the pressing body 7 is gradually moved, the roller 6b of the heating device 6 and the roller of the pressing body 7 are moved. 7b rotates in the directions of arrow Z and arrow Y according to the movement.

このようにして、フエルト製靴底材Fを回転させていくと、フエルト製靴底材Fの側面部3cの表面は図6のように繊維が突出した状態となっているが、側面部3cに沿って加熱装置6のローラ6bが触れて加熱されると表面の合成樹脂繊維Sが融解し、側面部3cの表面に溶融して軟化した状態の合成樹脂層(図6のA1部分)が形成される。
この状態で側面部3cの溶融して軟化した状態の合成樹脂層の表面は凹凸状に形成されている。
When the felt shoe sole material F is rotated in this manner, the surface of the side surface portion 3c of the felt shoe sole material F is in a state in which the fibers protrude as shown in FIG. 6, but along the side surface portion 3c. When the roller 6b of the heating device 6 is touched and heated, the synthetic resin fiber S on the surface melts, and a synthetic resin layer (A1 portion in FIG. 6) in a melted and softened state is formed on the surface of the side surface portion 3c. The
In this state, the surface of the synthetic resin layer in a state where the side surface portion 3c is melted and softened is formed in an uneven shape.

次に、加熱装置6に併設された押圧体7が側面部3cの表面の溶融して軟化した状態の合成樹脂層を押圧しながらその表面をならすため前記溶融した合成樹脂層A1はフエルト製靴底材Fのさらに内側に充填されるように押圧されながらその表面の凹凸が潰され押圧前に比し表面が平滑化される。
また、押圧体7は、常温に置かれ加熱されていないため溶融した状態の合成樹脂層に触れてこれを冷却し硬化を促進する。
なお、押圧体7は、冷却しても良い。
Next, in order to smooth the surface of the side surface 3c while the pressing body 7 attached to the heating device 6 presses the molten and softened synthetic resin layer, the molten synthetic resin layer A1 is made of a felt shoe sole. While being pressed so as to be filled further inside the material F, the unevenness of the surface is crushed and the surface is smoothed as compared to before pressing.
Further, since the pressing body 7 is placed at room temperature and is not heated, it touches the synthetic resin layer in a molten state to cool it and promote curing.
The pressing body 7 may be cooled.

押圧体7は、加熱装置6に遅れて側面部3cを押圧するため、加熱直後より合成樹脂層の硬化が進行しており、また、押圧体7はローラ7bが回転して接触部分が移動するため溶融した合成樹脂の押圧体7への付着を少なくすることが出来る。
押圧体7で押圧されて形成した溶融硬化部Aの表面は押圧前に比し平滑化され、外観がきれいで商品価値が高い。
Since the pressing body 7 presses the side surface portion 3c behind the heating device 6, the synthetic resin layer is hardened immediately after heating, and the pressing body 7 is moved by the roller 7b rotating and the contact portion is moved. Therefore, adhesion of the molten synthetic resin to the pressing body 7 can be reduced.
The surface of the melt-cured portion A formed by being pressed by the pressing body 7 is smoothed as compared with that before pressing, and the appearance is beautiful and the commercial value is high.

フエルト材から切断したフエルト製靴底材Fの側面部3cがその繊維Sを構成する合成樹脂の融点より高い温度で加熱されるが、例えば、繊維がポリプロピレン、ポリエチレンであれば160〜180度で加熱し、フエルト製靴底3の側面部3cの表面を溶融させ、押圧体7で押圧した後、冷却又は、常温で放置することで溶融硬化部Aが形成され、繊維同士が溶着した状態で硬化し、加熱前の状態より側面部3cの表面から繊維がほつれないようになり、溶融硬化部Aを有するフエルト製靴底3が形成される。   The side part 3c of the felt shoe sole material F cut from the felt material is heated at a temperature higher than the melting point of the synthetic resin constituting the fiber S. For example, if the fiber is polypropylene or polyethylene, it is heated at 160 to 180 degrees. Then, after the surface of the side surface portion 3c of the felt shoe sole 3 is melted and pressed by the pressing body 7, it is cooled or allowed to stand at room temperature to form a melt-cured portion A, which is cured in a state where the fibers are welded to each other. The fibers are not frayed from the surface of the side surface portion 3c from the state before heating, and the felt shoe sole 3 having the melt-cured portion A is formed.

なお、フエルト製靴底材Fは治具で支持して回動させても良いし、手で回動させても良い。
また、フエルト製靴底材Fを固定しておいて、押圧体7と加熱装置6を移動させても良い。
加熱装置6はフエルト製靴底材Fに接触させたが、これに接触させず近づけて加熱しても良い。
押圧体7によるフエルト製靴底材Fの押圧力は、少なくとも溶融した合成樹脂層の表面がならされる程度あればよい。
The felt shoe sole material F may be supported and rotated by a jig, or may be rotated by hand.
Further, the pressing body 7 and the heating device 6 may be moved while the felt shoe sole material F is fixed.
Although the heating device 6 is in contact with the felt shoe sole material F, the heating device 6 may be brought close to and heated without being in contact therewith.
The pressing force of the felt shoe sole material F by the pressing body 7 only needs to be such that at least the surface of the molten synthetic resin layer is smoothed.

溶融硬化部Aは、フエルト製靴底3の側面部3cに沿ってこれを1周して設けたが、側面部3cの1部に設けても良い。
例えば側面部3cの踵部に設けたり、また、つま先部に設けたりしても良い。
さらに、溶融硬化部Aをすべて溶融するのではなく溶融硬化部Aの合成樹脂層の中に繊維が残るように溶融してもよい。
また、さらに、溶融硬化部Aはフエルト製靴底3の側面部3cの他に底面部3aに設けても良い。
Although the melt-hardened part A is provided around the side part 3c of the felt shoe sole 3, it may be provided in one part of the side part 3c.
For example, you may provide in the collar part of the side part 3c, or you may provide in a toe part.
Further, the melt-cured portion A may be melted so that the fibers remain in the synthetic resin layer of the melt-cured portion A instead of melting all of the melt-cured portion A.
Further, the melt-cured portion A may be provided on the bottom surface portion 3 a in addition to the side surface portion 3 c of the felt shoe sole 3.

図7、図8は第2実施例で、図7はフエルト製靴底の製造工程の全体図、図8はフエルト製靴底の製造工程の要部拡大図である。   FIGS. 7 and 8 show the second embodiment, FIG. 7 is an overall view of the manufacturing process of the felt shoe sole, and FIG. 8 is an enlarged view of the main part of the manufacturing process of the felt shoe sole.

この実施例では第1実施例のローラ6bを有する加熱装置6に代えて熱風による加熱装置8を用いている。
この加熱装置8により熱風をフエルト製靴底3の側面部3cに当てて側面部3cに溶融して軟化した状態の合成樹脂層A1を形成するため加熱装置8は直接側面部3cに接触しない。
したがって、この加熱装置8には溶融した合成樹脂の付着が防止できる。
その他は第1実施例と同じである。
In this embodiment, a heating device 8 using hot air is used instead of the heating device 6 having the roller 6b of the first embodiment.
Since the heating device 8 applies hot air to the side surface portion 3c of the felt shoe sole 3 to form a synthetic resin layer A1 that is melted and softened on the side surface portion 3c, the heating device 8 does not directly contact the side surface portion 3c.
Therefore, adhesion of molten synthetic resin to the heating device 8 can be prevented.
Others are the same as the first embodiment.

図9、図10は第3実施例で、図9はフエルト製靴底の製造工程の全体図、図10はフエルト製靴底の製造工程の要部拡大図である。   FIGS. 9 and 10 show a third embodiment, FIG. 9 is an overall view of the manufacturing process of a felt shoe sole, and FIG. 10 is an enlarged view of a main part of the manufacturing process of a felt shoe sole.

この実施例では、第1実施例の成形装置4のローラ6bを有する加熱装置6に代えて、熱風による加熱装置8を用いて熱風をフエルト製靴底3の側面部3cに当てて側面部3cに溶融して軟化した状態の合成樹脂層A1を形成し、さらに、ローラ7bを有する押圧体7に代えて握持部を有する小手が押圧体9となっている。   In this embodiment, instead of the heating device 6 having the roller 6b of the molding device 4 of the first embodiment, the hot air is applied to the side surface portion 3c of the felt shoe sole 3 by using a heating device 8 by hot air to the side surface portion 3c. A synthetic resin layer A1 in a melted and softened state is formed, and a hand having a gripping portion instead of the pressing body 7 having a roller 7b is a pressing body 9.

加熱装置8により熱風をフエルト製靴底3の側面部3cに当てて側面部3cに溶融して軟化した状態の合成樹脂層を形成し、加熱装置8に続いて溶融した状態の合成樹脂層A1を小手(押圧体9)で押さえて溶融した状態の合成樹脂をフエルト製靴底材Fの内側に押圧して充填させ、その表面をならし、また、表面を冷却し硬化させている。
この時、小手(押圧体9)はフエルト製靴底3の側面部3cに当てたまま側面部3cに沿って移動しながらこれを押圧しても良い。
また、 加熱装置8により熱風をフエルト製靴底3の側面部3cに当てて側面部3c全体に溶融して軟化した状態の合成樹脂層を形成した後、小手(押圧体9)に持ち替えて側面部3cに沿って押圧しても良い。
The heating device 8 applies hot air to the side surface portion 3c of the felt shoe sole 3 to form a synthetic resin layer in a melted and softened state on the side surface portion 3c, and subsequently to the heating device 8, the molten synthetic resin layer A1 is formed. The synthetic resin pressed and melted by the hand (pressing body 9) is pressed and filled inside the felt shoe sole material F, the surface is smoothed, and the surface is cooled and hardened.
At this time, the hand (pressing body 9) may be pressed while moving along the side surface portion 3c while being in contact with the side surface portion 3c of the felt shoe sole 3.
Further, after the hot air is applied to the side surface portion 3c of the felt shoe sole 3 by the heating device 8 to form a synthetic resin layer in a melted and softened state on the entire side surface portion 3c, the synthetic resin layer is changed to a hand (pressing body 9). You may press along 3c.

このように、側面部3cに溶融硬化部Aを設けると、底面部3aの中央側に露出するフエルトによって水中を歩行する時の滑りが防止されると共に、側面部3cに溶融硬化部Aによって使用後すぐに減りやすい角部3dとその近傍からの繊維のほつれを防止することができる。
上記のように側面部3c、又は側面部3cから角部3dに溶融硬化部Aを設けたが、これらの構成に加え、必要に応じて底面部3aにも溶融硬化部Aを設けてもよい。
As described above, when the melt-cured portion A is provided on the side surface portion 3c, the felt exposed on the center side of the bottom surface portion 3a prevents slipping when walking in the water, and the side surface portion 3c is used by the melt-cured portion A. It is possible to prevent fraying of the fiber from the corner 3d and the vicinity thereof which tends to decrease immediately afterward.
As described above, the melt-hardened portion A is provided from the side surface portion 3c or from the side surface portion 3c to the corner portion 3d. In addition to these configurations, the melt-hardened portion A may be provided also to the bottom surface portion 3a as necessary. .

本願のフエルト製靴底の製造方法によって押圧体7、9が溶融した状態の合成樹脂A1をフエルト製靴底材Fの内側に押圧して充填させ、その表面をならし、また、表面を冷却し硬化させるため、溶融硬化部Aを有するフエルト製靴底3が容易に形成でき、溶融時に生じる合成樹脂の屑の発生を抑えて耐久性が高く、仕上がりが良好なフエルト製靴底が製造できる。
また、押圧体7、9で溶融した状態の合成樹脂A1をフエルト製靴底材Fの内側に押圧して充填させるためフエルト製靴底3の表面に形成した溶融硬化部Aは剥離など容易に破損することが防止される。
The synthetic resin A1 in a state where the pressing bodies 7 and 9 are melted by the felt shoe sole manufacturing method of the present application is pressed and filled inside the felt shoe sole material F, the surface is smoothed, and the surface is cooled and cured. Therefore, a felt shoe sole 3 having a melt-cured portion A can be easily formed, and a felt shoe sole having high durability and good finish can be produced by suppressing the generation of scraps of synthetic resin generated during melting.
Further, since the synthetic resin A1 melted by the pressing bodies 7 and 9 is pressed and filled into the inside of the felt shoe sole material F, the melt-cured portion A formed on the surface of the felt shoe sole 3 is easily damaged such as peeling. It is prevented.

前記説明では靴本体1の底部1aの下側に踵側が高い底部材2が固定され、底部材2の下側にフエルト製靴底3が接着固定される図面で述べたが、底部材2とフエルト製靴底3の双方にベルベット式ファスナ−を設けて着脱自在(交換自在)としてもよい。   In the above description, the bottom member 2 having a high heel side is fixed to the lower side of the bottom portion 1a of the shoe body 1, and the felt shoe sole 3 is bonded and fixed to the lower side of the bottom member 2. Velvet type fasteners may be provided on both shoe soles 3 so as to be detachable (replaceable).

本発明はフエルト製靴底の製造に利用できる。 The present invention can be used for manufacturing felt shoe soles.

第1実施例で、フエルト製靴底の靴の断面図である。In 1st Example, it is sectional drawing of the shoes of a felt shoe sole. 同フエルト製靴底の上面側の斜視図である。It is a perspective view of the upper surface side of the felt shoe sole. 同フエルト製靴底の底面側の斜視図である。It is a perspective view of the bottom face side of the same felt shoe sole. 同フエルト製靴底の拡大断面図である。It is an expanded sectional view of the felt shoe sole. 同フエルト製靴底の製造工程の全体図である。It is a general view of the manufacturing process of the felt shoe sole. 同フエルト製靴底の製造工程の要部拡大図である。It is a principal part enlarged view of the manufacturing process of the felt shoe sole. 第2実施例で、フエルト製靴底の製造工程の全体図である。In 2nd Example, it is a general view of the manufacturing process of a felt shoe sole. 同フエルト製靴底の製造工程の要部拡大図である。It is a principal part enlarged view of the manufacturing process of the felt shoe sole. 第3実施例で、製造工程の全体図である。In 3rd Example, it is a general view of a manufacturing process. 同フエルト製靴底の製造工程の要部拡大図である。It is a principal part enlarged view of the manufacturing process of the felt shoe sole.

符号の説明Explanation of symbols

1 靴本体
3 フエルト製靴底
3a 底面部
3c 側面部
4、4’ 成形装置
6、8 加熱装置
7、9 押圧体
A 溶融硬化部
F フエルト製靴底材
DESCRIPTION OF SYMBOLS 1 Shoe body 3 Felt shoe sole 3a Bottom face part 3c Side face part 4, 4 'Molding device 6, 8 Heating device 7, 9 Press body A Melt hardening part F Felt shoe sole material

Claims (4)

合成樹脂繊維を含むフエルト製靴底の表面部の少なくとも一部を加熱して溶融させた後、押圧体で押圧することを特徴とするフエルト製靴底の製造方法。 A method for producing a felt shoe sole, comprising: heating and melting at least a part of a surface portion of a felt shoe sole including a synthetic resin fiber; 押圧体をフエルト製靴底の表面部に沿って移動させながら押圧することを特徴とする請求項1記載のフエルト製靴底の製造方法。 2. The method for manufacturing a felt shoe sole according to claim 1, wherein the pressing body is pressed while being moved along the surface portion of the felt shoe sole. 押圧体は回動しながらフエルト製靴底の表面部を押圧することを特徴とする請求項1または2のフエルト製靴底の製造方法。 The method for manufacturing a felt shoe sole according to claim 1 or 2, wherein the pressing body presses the surface portion of the felt shoe sole while rotating. 押圧体はフエルト製靴底の表面部を冷却することを特徴とする請求項1乃至3のフエルト製靴底の製造方法。 4. The method for producing a felt shoe sole according to claim 1, wherein the pressing body cools a surface portion of the felt shoe sole.
JP2004272632A 2004-09-17 2004-09-17 Method for manufacturing felt shoe sole Pending JP2006081859A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2004272632A JP2006081859A (en) 2004-09-17 2004-09-17 Method for manufacturing felt shoe sole

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2004272632A JP2006081859A (en) 2004-09-17 2004-09-17 Method for manufacturing felt shoe sole

Publications (1)

Publication Number Publication Date
JP2006081859A true JP2006081859A (en) 2006-03-30

Family

ID=36160810

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2004272632A Pending JP2006081859A (en) 2004-09-17 2004-09-17 Method for manufacturing felt shoe sole

Country Status (1)

Country Link
JP (1) JP2006081859A (en)

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0593204U (en) * 1992-05-29 1993-12-21 株式会社ユニ・スター Synthetic fiber felt soles
JP2001161405A (en) * 1999-12-09 2001-06-19 Ryobi Ltd Shoe sole for fishing
JP2001275713A (en) * 2000-03-30 2001-10-09 Yuuhou:Kk Felt sole for footwear and its manufacturing method
JP2002238614A (en) * 2001-02-13 2002-08-27 Shimano Inc Boots for fishing

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0593204U (en) * 1992-05-29 1993-12-21 株式会社ユニ・スター Synthetic fiber felt soles
JP2001161405A (en) * 1999-12-09 2001-06-19 Ryobi Ltd Shoe sole for fishing
JP2001275713A (en) * 2000-03-30 2001-10-09 Yuuhou:Kk Felt sole for footwear and its manufacturing method
JP2002238614A (en) * 2001-02-13 2002-08-27 Shimano Inc Boots for fishing

Similar Documents

Publication Publication Date Title
CN112203550B (en) Method of manufacturing an article of footwear having a thermoformed grooved sole structure
JP2024028591A (en) Method of providing decorative designs and structural features on article of footwear
JP2016168843A (en) Sole for sports shoes and production thereof
WO2004071224A3 (en) Shoe sole and method
US6811734B2 (en) Process of making decorative footbeds for footwear
JP5002164B2 (en) Skin panel, ball for ball game, and manufacturing method thereof
EP3424684B1 (en) Method for forming pattern
CN108601425B (en) Weather resistant upper for an article of footwear
WO1996030201A1 (en) Resurfaced carpet and process for making the same
JP2006081859A (en) Method for manufacturing felt shoe sole
US10021934B2 (en) Footwear outsole with fabric and a method of manufacturing thereof
US20180352899A1 (en) Process for making a shoe and shoe thus made
JP4878789B2 (en) Felt soles
JP4878798B2 (en) Felt soles
JP4409330B2 (en) Manufacturing method for felt soles
US20080295211A1 (en) Method of producing a sports glove
JP6989939B2 (en) Shoes and their manufacturing method
JP4166603B2 (en) Felt sole and manufacturing method
TW200423889A (en) Felt shoe making bottom for shoe
JP2006175218A (en) Felt-made shoe sole
JP6719969B2 (en) Footwear manufacturing method
JP7501939B2 (en) Manufacturing method of insoles
KR101977180B1 (en) Recycling method for recycling of artificial grass mats in manufacturing process
JP2011041631A (en) Footwear with roughly placed footprint and cup insole
JP2013087383A (en) Method of making leather texture feeling fabric

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20070323

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20091110

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20091208

A02 Decision of refusal

Free format text: JAPANESE INTERMEDIATE CODE: A02

Effective date: 20100406