JP4003951B2 - Silent surface fastener and products with the same surface fastener - Google Patents

Description

【００４０】
更に表１から、織編物や不織布などの繊維布帛であれば、見掛け密度とは別に、その構成糸条又は構成繊維が大きく屈曲しているほうが、音の伝達効率を有効に低減させることができることも理解できる。編糸は、織糸（経緯糸）と較べると、一般に屈曲が大きいため、通常の組織では編物の方が織物よりも音の伝達効率が低くなる。また、織物であっても、既述したとおり、パイルを形成することにより構成糸条が大きく屈曲することになり、見掛け密度を小さくできることと相まって、音の伝達効率を効果的に低減させることができる。このときの屈曲は９０°以上であることが望ましい。
【００４１】
以下に、面ファスナー１０の見掛け密度を０．５ｇ／ｃｍ³ 以下とし、シート材２０の見掛け密度を０．５ｇ／ｃｍ³ より大きい比較例と、面ファスナー１０の見掛け密度を０．５ｇ／ｃｍ³ 以下にするとともに、シート材２０に貫通孔２１を形成した実施例３と、面ファスナー１０及びシート材２０の双方の見掛け密度を０．５ｇ／ｃｍ³ 以下とした実施例４とを挙げて、本発明によるシート材付き面ファスナーの剥離時における実際の静音化について具体的に説明する。音の大きさの測定は上記測定方法に準じている。
【００４２】
（比較例）
ニット構造のナイロン基材（密度０．４５ｇ／ｃｍ³)にナイロンのループを有する雌面ファスナー部材とレース状基材（密度０．５０ｇ／ｃｍ³)にループを有する雄面ファスナー部材のみの剥離音は７５ｄＢであった。これら基材密度の低い面ファスナーの各背面に、シート材として密度０．６０ｇ／ｃｍ³ のタフタ生地を縫製により取り付けた。面ファスナーの背面に前記タフタ生地を縫製した試料の剥離音は８５ｄＢであった。
【００４３】
この比較例から理解できるように、平板状基材の見掛け密度が０．５ｇ／ｃｍ³ 以下の面ファスナーを使っても、その背面に取り付けるシート材の見掛け密度が０．５ｇ／ｃｍ³ を越えると、面ファスナーの静音機能が喪失して、却って面ファスナーの剥離音がより拡大する。
【００４４】
（実施例３）
上記比較例と同種の雌面ファスナー部材と雄面ファスナー部材の各背面に、シート材として密度０．６０ｇ／ｃｍ³ のタフタ生地に縫製により取り付けた。このとき、タフタ生地の面ファスナーの係合素子形成領域の裏面が接触する部分を切り取り貫通孔を形成した試料では剥離音は７８ｄＢであった。
【００４５】
この実施例から理解できるように、同じ種類の面ファスナーを使っても、面ファスナーの背面の面ファスナーの係合素子形成領域と対応する領域にわたって貫通孔を形成したシート材を取り付けると、静音機能を有する面ファスナー同士の剥離音の大きさが７５ｄＢであるのに対して、その剥離音は７８ｄＢと僅かに大きくなるだけであって、耳障りとまでは言えない静かな音であった。
【００４６】
（実施例４）
上記比較例と同種の雌面ファスナー部材及び雄面ファスナー部材の各背面に、シート材として見掛け密度が０．２８ｇ／ｃｍ³ であるニット生地を縫製により取り付けた試料では剥離音は７６ｄＢであった。この実施例にあっては、前記実施例３よりも、更に剥離音が小さくなり、面ファスナー単独のときよりも僅かに１ｄＢだけ音が大きくなったに過ぎない。
【００４７】
以上の結果から、面ファスナーに装着するシート材の見掛け密度を０．５ｇ／ｃｍ³ 以下とするか、或いは面ファスナーの係合素子形成領域又は非縫着領域と対応する領域に貫通孔を形成することが、面ファスナーの静音化機能を阻害しないことが理解できる。
【００４８】
図４及び図５は、本発明のシート材付き面ファスナーを面ファスナー被着物に取り付けるときの取付け構造例を示している。図４はシート材２０に上記貫通孔２１が形成されている場合の面ファスナー被着物３０に対する面ファスナーの取付け構造を示し、図５はシート材２０の見掛け密度が０．５ｇ／ｃｍ³ 以下である場合の面ファスナー被着物３０に対する面ファスナーの取付け構造を示している。これらの図に示すように、面ファスナー１０、シート材２０及び面ファスナー被着物３０の３者を同一の縫糸をもって、同時に縫製するよりは、面ファスナー１０とシート材２０とを予め縫製により一体化したのち、その縫着線の外側で３者を一緒に縫製する方が、より剥離音を低減させることができる。
【００４９】
なお、図示は省略するが、先ず面ファスナー１０とシート材２０とを縫製一体化したのち、シート材と面ファスナー被着物とを別途に縫製一体化する場合もあり、この場合には更に剥離音の低減ができる。
【００５０】
図６は、面ファスナー１０が大型である場合のシート材２０と面ファスナー被着物３０との取付け構造の一例を示している。また、この例では係合素子として雄係合素子１２ａと雌係合素子１２ｂとが同一基材１１の一表面に混在して形成されている面ファスナー１０が使われている。こうした混在型の面ファスナー１０は、例えば平板状基材１１の織編成時に、マルチフィラメントとモノフィラメントとを混在状態でそれぞれループ状に織り込み又は編み込み、モノフィラメントのループの一部を切断することにより、雄雌の係合素子１２ａ，１２ｂが形成される。
【００５１】
更に図示例では、大型の面ファスナー１０の平板状基材１１を係合素子非形成領域Ａをもって複数の係合素子形成領域Ｂに画成し、シート材２０の前記各係合素子形成領域Ｂに対応する領域に係合素子形成領域Ｂと同一形状又はそれより僅かに大きな貫通孔２１をそれぞれ形成している。この実施例では、図面の左右に一対の係合素子形成領域Ｂを形成しており、面ファスナー１０の背面に予め前記シート材２０が縫製により装着される。このときの縫着は、面ファスナー１０の中央の係合素子非形成領域Ａを除く全ての係合素子形成領域Ｂを囲む非形成領域Ａにおいて縫着線Ｌ１に沿って縫製することによりなされる。この縫製がなされたのち、前記縫着線Ｌ１の外側と前記中央の係合素子非形成領域Ａ上の縫着線Ｌ３に沿って、面ファスナー１０、シート材２０及び面ファスナー被着物３０の３者が同時に縫製により一体化される。
【００５２】
なお、この場合は、縫着領域Ｃは、縫着線Ｌ１，Ｌ２及びＬ３が対応し、同縫着領域Ｃの内側に形成される領域が非縫着領域Ｄに対応する。また、この場合は、縫着領域Ｃ（前記非形成領域Ａ）には、係合素子１２が形成されていてもかまわない。
【００５３】
このように、大型の面ファスナー１０をシート材２０を介して面ファスナー被着物３０に取り付ける場合、単に面ファスナー１０の周縁部の係合素子被形成領域Ａだけで縫着すると、面ファスナー１０と面ファスナー被着物３０との間に大きな空間が形成され、面ファスナー１０が面ファスナー被着物３０から浮き上がった状態となることから、特に面ファスナー被着物３０が柔軟な場合には、面ファスナー取付け領域において面ファスナー被着物３０の変形がひどく、その形態を保持することが難しくなる。更には、面ファスナー接合面積を折角大きくして接合強度を大きな面で確保しようとするにも関わらず、その強度は全て縫着線に沿って縫製された縫糸により受けられることになり、大きな剥離力が作用するときには、縫着線に沿って面ファスナー被着物３０が損傷を受けかねない。
【００５４】
そこで、本実施例にあっては、上述のように、面ファスナー１０の平板状基材１１を係合素子非形成領域Ａをもって複数の係合素子形成領域Ｂに画成し、シート材２０の前記各係合素子形成領域Ｂに対応する領域に係合素子形成領域Ｂと同一形状又はそれより僅かに大きな貫通孔２１をそれぞれ形成して、係合素子非形成領域Ａを平板状基材１１の表面に分散させて形成し、その中央部にても面ファスナー１０、シート材２０及び面ファスナー被着物３０とを縫着線Ｌ３に沿って縫製し、３者を一体化できるようにしている。
【００５５】
本発明における面ファスナー１０の雄の係合素子１２ａは、上述のように、その（繊維製）基材１１にモノフィラメントをループ状に織り込み又は編み込み、そのループの一部を切断して形成する場合に限らず、合成樹脂材料を使って、平板状基材を成形すると同時に、同基材表面に雄の係合素子を一体に成形した面ファスナーを使うことも可能である。図７は、そうした合成樹脂製の面ファスナー１０を使う場合の静音構造を示している。同図に示すように、面ファスナー１０の面ファスナー被着物３０に対する取付け構造は、図５に示した取付け構造と実質的に同じであり、このとき前記面ファスナー１０の平板状基材１１自体に凹陥部を形成したり、或いは貫通孔を形成すると、静音化を更に向上させる。
【００５６】
なお、以上の説明において、雄の係合素子１２ａとして平板状基材１１の織編成と同時にループ状に織り込まれ又は編み込まれるモノフィラメントのループの一部を切断してフック片を形成するとしているが、同モノフィラメントのループの頂点部を切断するとともに熱溶融させて、起立するモノフィラメントの先端に球状の係合頭部を形成し、きのこ状の雄係合素子を成形することもある。また、上記合成樹脂製の面ファスナーにあっても、雄の係合素子形態はフック状に限らず、例えばＥＰ０８１１３３１Ａ２公報に開示されているような特殊な形態をもつ係合素子であってもよい。
【００５７】
図８は本発明の第５実施例である面ファスナー被着物に対する静音面ファスナーの装着状態を示す要部断面図である。本実施例に使われる面ファスナー１０は、従来の通常一般的な構造を有する面ファスナーであっても、或いは既述したように面ファスナーの基材の見掛け密度を小さくしたり、貫通孔を形成するなどして自体が静音性を備えた面ファスナーであってもよい。
【００５８】
この実施例の特徴点は、面ファスナー１０が取り付けられる面ファスナー被着物自体が、その面ファスナーの少なくとも取付け領域の見掛け密度を０．５ｇ／ｃｍ³ 以下とし、或いは本発明の上述のごとき静音構造を備えた面ファスナーであれば、その係合素子形成領域Ｂ又は非縫着領域Ｄと少なくとも対応する領域に同係合素子形成領域Ｂ又は非縫着領域Ｄと同様の形状をもつ貫通孔を形成して、静音構造としている点にある。更に図示実施例では、雌の係合素子１２ｂを有する面ファスナー１０を面ファスナー被着物３０に装着するにあたって、同面ファスナー被着物３０の裏面に更に裏地４０を同時に装着している。
【００５９】
このように、少なくとも面ファスナー被着物３０の面ファスナー装着領域に、上述のような音の伝達抑制手段を設けることにより、例えば通常の面ファスナーであっても、その剥離時に発生する音の伝達が抑制され、通常よりも低音とすることができる。また、前記音の伝達抑制手段により面ファスナー被着物３０の面ファスナー装着領域の強度が小さくなる場合又は、外観体裁を良くする場合には、上述のごとく、面ファスナー被着物３０の裏面に裏地４０を一緒に装着することが望ましい。
【００６０】
図９〜図１２は、上述のごとき面ファスナー１０の装着製品の代表的な例を示している。
図９は紙おむつ３１の構造例を示しており、同紙おむつ３１の背胴部３１ａの左右に延びる一対の翼片３１ｂの前面と、腹胴部３１ｃの上端部中央領域の前面とのそれぞれに本発明の上記静音面ファスナー１０がシート材２０を介しておむつ３１に取り付けられている。このように、紙おむつ３１に本発明の静音面ファスナー１０を取り付けると、乳幼児などの睡眠を妨げることなく静かにおむつ３１の取り替えができる。
【００６１】
図１０は蓋付きの鞄３２の一例を示しており、本発明の静音面ファスナー１０を既述した取付け構造をもって開閉部に取り付けると、例えば図書館やコンサート会場などのように静寂さを要求される場所においても、周囲に迷惑をかけることなく静かに開閉操作を行うことができる。図１１はゴルフ手袋３３を例示している。ゴルフ手袋３３は、手に一旦嵌めればプレーの終了時まで取り外すないというわけにはいかず、特にパットに入る前には手から取る場合が多い。このとき、従来の手袋では、面ファスナーの剥離音が響き、一緒にプレーをしている相手に動揺を与えかねない。その点、本発明の静音面ファスナー１０を上述の取付け構造をもって取り付ければ、そのような心配がなく安易に手袋３３の脱着が可能となる。図１２は一般の背広などの外衣３４のポケット３４ａの開閉部に本発明の静音面ファスナー１０を取り付けた状態を示している。この例にあっても、ポケット３４ａの開閉操作を静かに行うことができるため、周囲の注目を浴びたり、迷惑をかけたりすることがなくなる。
【００６２】
以上述べたとおり、本発明のシート材付きの静音面ファスナーと同面ファスナーの装着製品は、いずれもその剥離時に発生させる高音で耳障りな音を著しく低くすることができるため、異常な音の発生を嫌う場所においても、気兼ねなく脱着操作が可能となる。なお以上の説明は、本発明の典型的な例を挙げたに過ぎず、本発明の精神の範囲内において多様な変形が可能であることは上述の説明からも明らかであろう。
【図面の簡単な説明】
【図１】本発明の第１実施例を示す静音面ファスナーの取付け分解図である。
【図２】同静音面ファスナーの取付け状態を示す要部斜視図である。
【図３】本発明の第２実施例を示す静音面ファスナーの取付け分解図である。
【図４】同静音面ファスナーの取付け構造例を示す図２のIV-IV 線断面図である。
【図５】上記第２実施例を示す静音面ファスナーの取付け構造例を示す図４と同様の断面図である。
【図６】本発明の静音面ファスナーの他の取付け構造例を示す図４と同様の断面図である。
【図７】静音面ファスナーに合成樹脂製の成形面ファスナーを使ったときの面ファスナーの取付け構造例を示す図４と同様の断面図である。
【図８】本発明に係る第５実施例による雄及び雌の静音面ファスナー部材の各装着製品の取付け構造を示す断面図である。
【図９】本発明の静音面ファスナーが装着された紙おむつの一例を示す全体の斜視図である。
【図１０】本発明の静音面ファスナーが装着された蓋付き鞄の一例を示す全体の斜視図である。
【図１１】本発明の静音面ファスナーが装着されたゴルフ手袋の一例を示す全体の斜視図である。
【図１２】本発明の静音面ファスナーが装着された外衣の一例を示す全体の斜視図である。
【符号の説明】
１０ 面ファスナー
１１ 平板状基材
１２ 係合素子
１２ａ 雄の係合素子
１２ｂ 雌の係合素子
２０ シート材
２１ 貫通孔
３０ 静音面ファスナー被着物
３０ａ 貫通孔
３１ 紙おむつ
３１ａ 背胴部
３１ｂ 左右翼片
３１ｃ 腹胴部
３２ 鞄
３３ ゴルフ手袋
３４ 外衣
３４ａ ポケット
４０ 裏地[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hook-and-loop fastener and a hook-and-loop fastener-attached product to which the hook-and-loop fastener is attached, and more particularly, to a silent hook-and-loop fastener that reduces noise during peeling and a hook-and-loop fastener-attached product that can reduce sound during peeling.
[0002]
[Prior art]
For example, two US patent specifications have been published regarding a method for reducing the sound at the time of peeling of the surface fastener. According to one of them, US Pat. No. 4,776,068 (Quiet Touch Fastener Material (1986)), a tape as a base material of a hook-and-loop fastener is made into a lattice structure, and energy into the air is obtained. Trying to reduce the propagation of. Another one, US Pat. No. 4,884,323 (Quiet Touch Fastner Attachment System (1989)), has a mounting member between the hook-and-loop fastener member and the fabric to be attached. A method for isolating the fabric and the surface fastener via the mounting member is disclosed, or a method for increasing the volume of the base material itself by attaching a sound-absorbing material to the back surface of the surface fastener member and suppressing vibration during peeling is disclosed. Has been.
[0003]
According to these methods, the hook-and-loop fastener is attached only at the edge by sewing or the like, and since there is no element for fixing the cloth and the hook-and-loop fastener at the center, it is not suitable for attaching a wide hook-and-loop fastener. When another sound-absorbing material is attached to the back surface of the sheet, the volume of the base material at the portion to which the hook-and-loop fastener is attached is increased, the appearance and the touch are lowered, and a feeling of strangeness is felt. There is also a problem that the sewing method becomes complicated and the number of processes increases.
[0004]
Japanese Patent Laid-Open No. 6-103 discloses a hook-and-loop fastener having a vibration absorbing material on the back surface of a base material. In order to obtain a sufficient effect by this method, the vibration absorber must have a sufficient weight, and there is a drawback that the surface fastener becomes thick. In addition, these technologies focus on keeping the level of peeling sound low. However, there are unpleasant sounds and unpleasant sounds for human hearing. It is not sufficient to simply reduce the sound, and it is important not to make the user feel uncomfortable.
[0005]
[Patent Document 1]
U.S. Pat. No. 4,776,068
[Patent Document 2]
U.S. Pat. No. 4,884,323
[Patent Document 3]
JP-A-6-103
[0006]
[Problems to be solved by the invention]
A relatively large noise is generated when the surface fastener is peeled off. This abnormal noise is generated when the substrate vibrates. When an individual engaging element is peeled off, a sound is always generated, and it is difficult to completely eliminate the sound.
[0007]
In the aforementioned Patent Documents 1 to 3, the generated sound is reduced by a method of reducing the rate at which the vibration of the base material is transmitted to the air. However, when these hook-and-loop fasteners are attached to the adherend, vibration of the hook-and-loop fastener base material is transmitted to the adherend, and sound emission from the adherend is accompanied, so that a sufficient silent effect cannot be obtained. Further, when a mounting member or a vibration absorbing material is provided on the back surface, the whole becomes thick and bulky when used for clothing or the like, which impairs the texture of the clothing product.
[0008]
Furthermore, after sewing the hook-and-loop fastener, the vibration at the time of peeling is transmitted to the adherend to which the hook-and-loop fastener is attached, and sound is also generated from the sticking. Often not appear.
[0009]
The present invention has been made to solve these problems, and has developed a structure that reduces the noise generated at the time of peeling on the hook-and-loop fastener itself, and also occurs at the time of peeling of the product with the hook-and-loop fastener attached thereto. The object is to develop a hook and loop fastener mounting product that can reduce the noise at the same time, or even if it is a normal hook and loop fastener, the product itself with the hook and loop fastener can be reduced.
[0010]
[Means for solving the problems and effects]
The present invention reduces the noise generated when the surface fastener is peeled off by specifying the mounting structure of the hook-and-loop fastener, or by selecting the structure of the hook-and-loop fastener adherend, It is related to products with a hook-and-loop fastener that makes the sound generated at the time of peeling quiet without using an absorbent material.
[0011]
In the above-mentioned Patent Document 1, the surface fastener base material is a lattice structure, the efficiency with which vibration is transmitted to the air is reduced, and further, a material with mass is attached to the back surface to achieve noise reduction. Moreover, according to the said patent document 2, it has a mounting system in the back surface of a hook_and_loop | surface fastener base material, a hook_and_loop | surface fastener adherend and a hook_and_loop fastener base material are isolate | separated via a mounting system, The vibration is prevented from being transmitted.
[0012]
According to the experiments of the present inventors, the occurrence of abnormal noise from the hook-and-loop fastener is based on the fact that the base material of the hooked hook-and-loop fastener is pulled strongly by the hook and loop and then pulled away when the hook is released. It was found that this occurs when the material is instantly restored to its original state. At this time, it is considered that vibration is transmitted into the air like a speaker cone and transmitted as sound. The lattice-like structure disclosed in Patent Document 1 corresponds to making a hole in the speaker cone, and suppresses the transmission efficiency of vibration into the air to a low level.
[0013]
The silent surface fastener of the present invention is a hook-and-loop fastener in which an engagement element formation region having a large number of engagement elements and a non-engagement element formation region having no engagement elements are formed on the surface of a flat substrate. A sheet material is mounted on the back surface of the flat substrate, and the sheet material has sound transmission suppressing means at least in a region corresponding to the engagement element forming region.
[0014]
Further, considering from another viewpoint, a sheet material is sewn on the back surface of the flat base material, the hook-and-loop fastener is formed with a sewn region and an inner non-sewn region, and the sheet material is A sound transmission suppressing means is provided at least in a region corresponding to the non-sewn region.
[0015]
Here, the silent surface fastener of the present invention includes a case where the flat substrate is made of a synthetic resin material in addition to a fiber structure material such as a woven or knitted fabric, a nonwoven fabric, or a lace. When the flat base material is a woven or knitted fabric, the hook pieces, which are a large number of male engaging elements that stand up from the flat base material, are woven or knitted into a loop simultaneously with the monofilament, and the loop When a large number of piles are female engaging elements, a part of the hook is formed and a multifilament is woven or knitted into a pile at the same time as knitting of a flat substrate. In addition, a pile made of single fibers oriented in multiple directions is formed by buffing or the like.
[0016]
When the flat substrate is a nonwoven fabric, after monofilaments are implanted in the nonwoven fabric in a loop shape, a part thereof is cut to form a hook piece, or a large number of piles formed on the surface of the nonwoven fabric are left as they are. While maintaining this form, back coating or resin treatment is performed, and heat setting is performed to form a pile piece as a female engaging element. If it is a synthetic resin flat base material, simultaneously with the molding of the base material, a large number of hook pieces are integrally molded on one surface to produce a male surface fastener member.
[0017]
The most characteristic feature of the present invention is that the sheet material to be mounted on the back surface of the flat base material of the hook-and-loop fastener is the sound provided in correspondence with the engaging element forming region or the non-sewn region of the base material. The hook-and-loop fastener itself including the sheet material has a transmission suppressing means and suppresses the transmission of the sound of the base material generated when the engaging elements of the hook-and-loop fastener are separated by the sound transmission suppressing means of the sheet material. Reduces the noise that occurs. As the sheet material, for example, a sheet material made of a synthetic resin such as polyester, polyethylene, or nylon can be adopted as a fiber sheet material such as woven or knitted fabric, nonwoven fabric, or lace.
[0018]
As the sound transmission suppressing means, the apparent density of the region corresponding to at least the engagement element formation region or the non-sewing region of the sheet material is 0.5 g / cm. ^Three Be as follows It is important . In the woven / knitted structure, the apparent density is controlled by adjusting the density of the warp and the stitch gauge or designing various lace patterns. The apparent density can also be controlled by using crimped yarns or bulky yarns as constituent fibers or yarns of the fiber structure material. Thus, by reducing the density of the sheet material and suppressing vibration transmission, the area of the sheet material that vibrates is reduced, and the efficiency with which the vibration is transmitted to the air is reduced. That is, by reducing the size of the speaker cone, the efficiency with which vibrations are transmitted to the air is kept low.
[0019]
Furthermore, it is also effective to adopt a structure in which the constituent yarns of the woven or knitted fabric are not bent linearly but greatly bent as the sound transmission suppressing means. Further, the sound transmission suppressing means may be one or more through holes penetrating front and back formed in an area at least corresponding to the engaging element forming area or the non-sewn area of the sheet material. In this case, the through-hole is a through-hole formed by a woven or knitted structure, a through-hole formed by dissolving and removing a desired constituent yarn with a solvent like a chemical lace, or a through-hole formed positively by punching It may be.
[0020]
The surface fastener-attached product in which the surface fastener adherend is mounted on the back surface of the sheet material having the sound transmission suppressing means of the silent surface fastener thus obtained is generated when the surface fastener is peeled off by the sound transmission control means of the sheet material. Since the efficiency with which the vibration to be transmitted is transmitted to the hook-and-loop fastener adherend can be kept low, the peeling noise can be greatly reduced. Since the sheet material and the hook-and-loop fastener adherence are sewn and integrated into the non-engaging element forming region or the sewing region of the flat base material, vibrations are transmitted through the sewing thread, respectively. Further, the sound is further attenuated and transmitted to the adherend, so that further noise reduction is realized.
[0021]
However, in these methods, the generated sound of the hook-and-loop fastener itself can be reduced, but for example, vibration is transmitted to the adherend of the hook-and-loop fastener when it is sewn to the fabric, and the sound is also generated from the adherend. A sufficient effect cannot be obtained. In the present invention, a gap is provided in a portion of the adherend to which the hook-and-loop fastener is attached corresponding to a non-sewing region inside the engagement element forming region or the sewing region to suppress vibration transmitted to the fabric. Reduces the generated sound. Here, the hook-and-loop fastener adherend includes, for example, natural or artificial leather products, synthetic resin sheets, and the like in addition to ordinary woven and knitted fabrics, nonwoven fabrics, and fiber fabrics such as various laces.
[0022]
In the present invention, the base material of the hook-and-loop fastener in which the engaging element forming region having a number of engaging elements and the non-engaging element forming region not having the engaging element are formed on the surface of the flat base material. It is desirable to provide a hook-and-loop fastener mounting product in which a hook-and-loop fastener adherend having sound transmission suppressing means is directly mounted on the back surface at least in an area corresponding to the engagement element forming area.
[0023]
Further, considering from another viewpoint, the surface fastener adherend is directly sewn to the back surface of the base material of the surface fastener having a large number of engaging elements on the surface of the flat base material. An inner non-sewn area is formed, and the sheet material is preferably a hook-and-loop fastener-attached product having sound transmission suppressing means at least in the area with respect to the non-sewn area.
[0024]
More preferably, a lining is further attached to the back surface of the hook-and-loop fastener adherend. That is, in the present invention, a sound transmission means is provided at the surface fastener attachment portion of the surface fastener adherend, and an engagement element forming region of the male or female surface fastener member is provided there, and the surface fastener member is provided. It is attached directly to the surface fastener attachment. Therefore, it is not always necessary to provide a silent function to the hook-and-loop fastener itself. Of course, the surface fastener itself can also be provided with a silent function as described above.
[0025]
The sound transmission suppressing means is an area corresponding to at least the engagement element forming area or the non-sewing area of the surface fastener adherend, similar to the sound transmission suppressing means of the sheet material attached to the back surface of the surface fastener. The apparent density of 0.5 g / cm ^Three Less than It is important that When the hook-and-loop fastener adherend is composed of a woven or knitted structure, the constituent yarns of the woven or knitted structure are not straight but bent by 90 ° or more. Weaving is good .
[0026]
Vibration can be divided into transverse and longitudinal waves. The transverse wave is a vibration in a direction perpendicular to the longitudinal direction of the yarn. This vibration is easily damped by friction with the surrounding yarn and the back coating material. Further, when a damping material or the like is provided, the damping is performed more efficiently. On the other hand, the longitudinal wave is a wave that vibrates in the longitudinal direction of the yarn. The propagation speed of this wave is determined by the storage elasticity of the yarn, and the damping is determined by the loss elastic modulus of the yarn. The ratio between the storage elastic modulus and the loss elastic modulus is usually about 10: 1 at room temperature, and the attenuation is not large at room temperature. A method of bending the yarn is effective for damping the longitudinal wave. A part of the energy of the longitudinal wave is converted into a transverse wave by the bending, and the longitudinal wave is rapidly attenuated at each bending. In order to enhance the damping effect, it is desirable that the bending angle is 90 ° or more.
[0027]
In the case of a structure such as a plain weave where the bending of the yarn is small, the vibration is not attenuated but diffuses over a wide range. On the other hand, in a structure in which a lot of yarn is bent like knitting, the vibration is attenuated by the bending of the yarn and remains in a narrow range. The effect is particularly great when the yarn is bulky. The apparent density of the woven or knitted structure is 0.5 g / cm ^Three The effect is great in the following cases. Furthermore, a crimped yarn can be used as a method for adjusting the bulkiness and reducing the density. In the crimped yarn, the yarn itself is bulky, the knitted fabric becomes bulky, and the density decreases.
[0028]
The ratio of storage modulus and loss modulus as yarn can be improved by blending. In particular, when a yarn made of a material having a tan delta peak around room temperature such as urethane fiber is blended, the loss elastic modulus as the yarn is remarkably increased. A material having a low glass transition point and a low crystallinity, such as LDPE (low density polyethylene), is also effective. As described above, when the loss elastic modulus is increased, the range in which vibration is transmitted is narrowed, and there is an effect of reducing the speaker cone. In addition, when the surface fastener base material is a lace-like structure, the yarn that transmits vibration is bent multiple times, and the number of yarns that transmit vibration itself is reduced, and the apparent density is reduced. Realized and more effective.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be specifically described with reference to the accompanying drawings. 1 and 2 show a typical embodiment 1 of the present invention.
According to the first embodiment, a female hook-and-loop fastener member in which the engaging elements 12 rising from one surface of the flat substrate 11 are a large number of piles is illustrated as the hook-and-loop fastener 10. However, the present invention is not limited to a female hook-and-loop fastener member, and the engaging element may be a male hook-and-loop fastener member made of a hook piece or a mushroom-like male engaging element, or a hook-and-loop male and female hook-and-loop fastener member. It may be. Moreover, although it does not show concretely about the structure of the flat base material of a hook_and_loop | surface fastener in drawing, it is fiber structure materials, such as a woven / knitted fabric or a nonwoven fabric which has arbitrary structures, for example.
[0030]
The hook-and-loop fastener 10 in the embodiment includes a non-formation area A of the engagement element 12 in which the engagement element 12 is not formed on the periphery, and an engagement element 12 in which the engagement element 12 is formed inside the non-formation area A. It consists of a rectangular single piece consisting of the formation region B of the composite element 12. In the present invention, the sheet material 20 is mounted on the back surface of the hook-and-loop fastener 10 where the engaging element 12 is not formed. The sheet material 20 has a rectangular frame shape in which a rectangular through hole 21 is formed in the center having a size larger than the size of the hook-and-loop fastener 10. It is formed in a rectangular shape having a size corresponding to the engaging element forming region B. The through hole 21 serves as a sound transmission suppressing means in the present invention.
[0031]
The sheet material 20 is usually attached to the hook-and-loop fastener 10 by sewing with a sewing thread as shown in FIG. The sewing line L <b> 1 is a peripheral portion of the through hole 21 of the sheet material 20 and a portion of the flat substrate 11 corresponding to the non-formation region A of the engaging element 12 of the hook-and-loop fastener 10. That is, the hook-and-loop fastener 10 and the sheet material 20 are integrated by sewing in a state where the sheet material 20 does not exist on the back side of the engaging element forming region B of the hook-and-loop fastener 10.
In the present invention, the sewing line L1 corresponds to the sewing area C, and the area formed inside the sewing area C corresponds to the non-sewing area D. In this case, the engaging element 12 may be formed in the non-forming region A.
[0032]
Thus, the surface fastener 10 having the sheet material 20 mounted on the back surface is attached to the surface fastener adherend 30 via the sheet material 20. In the present embodiment, the description of the specific structure is omitted, but the surface fastener adherend 30 is also composed of a fiber structure material such as a woven or knitted fabric or a nonwoven fabric. Therefore, attachment of the sheet material 20 to the hook-and-loop fastener adherend 30 is also performed by sewing with the sewing thread. The sewing line L2 is outside the sewing line L1 between the hook-and-loop fastener 10 and the sheet material 20.
In this case, the sewing area C corresponds to the sewing lines L1 and L2. In this case as well, the engagement element 12 may be formed on the sewing lines L1 and L2.
[0033]
As described above, when the hook-and-loop fastener 10, the sheet material 20, and the hook-and-loop fastener adherend 30 are attached by using the sewing thread, the sewing thread is greatly bent and sewn. The high-pitched sound is further reduced due to the annoyance that occurs when the joints of the hook-and-loop fasteners 10 in which the combined elements 12 are engaged with each other are peeled off. Further, the hook-and-loop fastener 10 and the hook-and-loop fastener adherend 30 are not directly integrated, but are integrated through the seam 20 in which the through-hole 21 is formed, and the engaging element forming region B of the hook-and-loop fastener 10 or non-sewing is performed. Since the sheet material 20 does not exist in the region corresponding to the wearing region D, the engagement element 12 itself of the hook-and-loop fastener 10 is generated when the bonding of the hook-and-loop fastener 10 in which the engagement elements 12 are engaged with each other is peeled off. The transmission sound is not transmitted directly to the hook-and-loop fastener adherend 30, but the peeling sound transmitted to the sheet material 20 is also transmitted through the engagement element non-forming area A or the non-sewing area D of the hook-and-loop fastener 10. As a result, the transmission efficiency is remarkably reduced, the volume transmitted to the air is attenuated, and at the same time, the sound becomes low and the sound is reduced.
[0034]
In the present embodiment, the material and structure of the sheet material 20 have a great influence on the transmission of sound generated when the surface fastener itself is peeled off. For example, as in the second embodiment shown in FIG. 3, sound transmission is achieved by reducing the apparent density of the sheet material 20 without forming the through holes 21 as the sound transmission suppressing means as described above. It is suppressed. This apparent density is 0.5 g / cm. ^Three It is necessary that: 0.5g / cm ^Three If it exceeds, sound transmission efficiency will not be reduced and it will not be quiet.
[0035]
In the woven / knitted structure, the apparent density is controlled by adjusting the density of warp and weft yarns, stitch gauges, or designing various lace patterns. The apparent density can also be controlled by using crimped yarns or bulky yarns as constituent fibers or yarns of the fiber structure material. Furthermore, in the case of a fabric such as a woven or knitted fabric or a non-woven fabric, the apparent density can be controlled by forming a pile on the fabric surface by a conventional method and simultaneously controlling the pile density and height.
[0036]
Table 1 shows the volume of sound when hook-and-loop fasteners 10 having the same material and the same structure and having a knitted fabric having a width of 25 mm are attached to hook-and-loop fastener adherends 30 having various apparent densities by sewing. The measurement result is shown. Here, as the fabric as the hook-and-loop fastener adhering material 30, five kinds of fabrics of general plain weave structure, synthetic leather, knitted product, pile fabric and fleece having the apparent density shown in the table are used.
[0037]
The loudness (dB) shown in Table 1 is a comparison of generated sound when the microphone is measured at the time of peeling with a distance of 65 mm from each sample. As is clear from the table, the sound at the time of peeling strongly depends on the density of the hook-and-loop fastener adherend 30 and the apparent density is 0.5 g / cm. ^Three The generated sound is reduced in the following cases.
[0038]
The same can be said for the hook-and-loop fastener 10 itself. That is, the apparent density of the flat substrate 11 of the hook-and-loop fastener 10 is also 0.5 g / cm. ^Three The apparent density of each of the flat substrate 11 of the surface fastener 10 and the sheet material 20 is preferably 0.5 g / cm. ^Three If it is set as follows, the functions of both are combined to further reduce the sound transmission efficiency, and the generated peeling sound is greatly reduced.
[0039]
[Table 1]

[0040]
Furthermore, from Table 1, in the case of fiber fabrics such as knitted and knitted fabrics and non-woven fabrics, the transmission efficiency of sound can be effectively reduced when the constituent yarns or constituent fibers are bent largely apart from the apparent density. Can also understand. Since the knitting yarn is generally more bent than the woven yarn (warp and weft), the knitted fabric has a lower sound transmission efficiency than the woven fabric in a normal structure. Moreover, even if it is a woven fabric, as described above, the constituent yarns are greatly bent by forming the pile, and coupled with the fact that the apparent density can be reduced, it is possible to effectively reduce the sound transmission efficiency. it can. In this case, the bending is desirably 90 ° or more.
[0041]
Below, the apparent density of the hook-and-loop fastener 10 is 0.5 g / cm. ^Three The apparent density of the sheet material 20 is 0.5 g / cm. ^Three The apparent density of the larger comparative example and the hook-and-loop fastener 10 is 0.5 g / cm. ^Three In addition to the following, the apparent density of Example 3 in which the through-hole 21 was formed in the sheet material 20 and both the hook-and-loop fastener 10 and the sheet material 20 was 0.5 g / cm. ^Three With reference to Example 4 described below, the actual silencing at the time of peeling of the surface fastener with sheet material according to the present invention will be specifically described. The loudness is measured according to the above measurement method.
[0042]
(Comparative example)
Knitted nylon base material (density 0.45 g / cm ^Three ) Female surface fastener member having a nylon loop and a lace-like substrate (density 0.50 g / cm) ^Three ), The peeling sound of only the male surface fastener member having a loop was 75 dB. A density of 0.60 g / cm as a sheet material on each back surface of these surface fasteners having a low substrate density ^Three The taffeta fabric was attached by sewing. The peeling sound of the sample obtained by sewing the taffeta fabric on the back surface of the hook-and-loop fastener was 85 dB.
[0043]
As can be understood from this comparative example, the apparent density of the flat substrate is 0.5 g / cm. ^Three Even if the following hook-and-loop fasteners are used, the apparent density of the sheet material attached to the back surface is 0.5 g / cm. ^Three If it exceeds 1, the silent function of the hook-and-loop fastener is lost, and on the contrary, the peeling sound of the hook-and-loop fastener further increases.
[0044]
(Example 3)
A density of 0.60 g / cm as a sheet material is provided on each back surface of the female surface fastener member and the male surface fastener member of the same type as the comparative example. ^Three The taffeta fabric was attached by sewing. At this time, the peeling sound was 78 dB in the sample in which the back surface of the engagement element forming region of the surface fastener of the taffeta fabric was cut out to form a through hole.
[0045]
As can be understood from this embodiment, even if the same type of hook-and-loop fastener is used, if a sheet material in which a through hole is formed over the area corresponding to the engaging element forming area of the hook-and-loop fastener on the back of the hook-and-loop fastener, The peeling sound between the surface fasteners having a diameter of 75 dB was 75 dB, whereas the peeling sound was only slightly increased to 78 dB, and it was a quiet sound that could not be said to be annoying.
[0046]
(Example 4)
An apparent density of 0.28 g / cm as a sheet material is formed on each back surface of the female surface fastener member and the male surface fastener member of the same type as the comparative example. ^Three The peeling sound was 76 dB in the sample in which the knit fabric was attached by sewing. In this example, the peeling sound was further reduced as compared with Example 3, and the sound was only increased by 1 dB compared to the case of the hook-and-loop fastener alone.
[0047]
From the above results, the apparent density of the sheet material to be attached to the hook-and-loop fastener is 0.5 g / cm. ^Three It can be understood that forming the through hole in the region corresponding to the engaging element forming region or the non-sewn region of the hook-and-loop fastener does not hinder the noise-reducing function of the hook-and-loop fastener.
[0048]
FIG.4 and FIG.5 has shown the example of an attachment structure when attaching the surface fastener with a sheet | seat material of this invention to a surface fastener adherend. FIG. 4 shows a mounting structure of a hook-and-loop fastener to the hook-and-loop fastener adherend 30 when the through hole 21 is formed in the sheet material 20, and FIG. 5 shows an apparent density of the sheet material 20 of 0.5 g / cm. ^Three The attachment structure of the hook_and_loop | surface fastener with respect to the hook_and_loop | surface fastener adherend 30 in the following is shown. As shown in these drawings, the hook-and-loop fastener 10, the sheet material 20 and the hook-and-loop fastener adherend 30 are integrally sewn in advance, instead of sewing the three members with the same sewing thread at the same time. After that, it is possible to further reduce the peeling sound by sewing the three members together outside the sewing line.
[0049]
Although illustration is omitted, first, the surface fastener 10 and the sheet material 20 may be sewn and integrated, and then the sheet material and the surface fastener adherend may be separately sewn and integrated. Can be reduced.
[0050]
FIG. 6 shows an example of an attachment structure between the sheet material 20 and the hook-and-loop fastener adherend 30 when the hook-and-loop fastener 10 is large. Further, in this example, a hook-and-loop fastener 10 in which a male engagement element 12a and a female engagement element 12b are mixedly formed on one surface of the same base material 11 is used as an engagement element. Such a mixed type surface fastener 10 is formed by weaving or weaving multifilaments and monofilaments in a mixed state, for example, when weaving and knitting a flat substrate 11, and cutting a part of the monofilament loops. Female engagement elements 12a, 12b are formed.
[0051]
Further, in the illustrated example, the flat base material 11 of the large hook-and-loop fastener 10 is defined into a plurality of engaging element forming regions B with engaging element non-forming regions A, and each engaging element forming region B of the sheet material 20 is defined. The through-holes 21 having the same shape as or slightly larger than the engaging element forming region B are formed in the regions corresponding to. In this embodiment, a pair of engaging element forming regions B are formed on the left and right sides of the drawing, and the sheet material 20 is previously attached to the back surface of the hook-and-loop fastener 10 by sewing. The sewing at this time is performed by sewing along the sewing line L1 in the non-forming area A surrounding all the engaging element forming areas B except the engaging element non-forming area A in the center of the hook-and-loop fastener 10. . After this sewing is performed, 3 of the hook-and-loop fastener 10, the sheet material 20, and the hook-and-loop fastener deposit 30 along the sewing line L3 on the outer side of the sewing line L1 and the central engagement element non-forming area A. One person is integrated by sewing at the same time.
[0052]
In this case, the sewing area C corresponds to the sewing lines L1, L2, and L3, and the area formed inside the sewing area C corresponds to the non-sewing area D. In this case, the engagement element 12 may be formed in the sewing region C (the non-formation region A).
[0053]
Thus, when attaching the large hook-and-loop fastener 10 to the hook-and-loop fastener adherend 30 via the sheet material 20, when the hook-and-loop fastener 10 is simply sewn only in the engaging element formation region A at the peripheral edge of the hook-and-loop fastener 10, Since a large space is formed between the hook-and-loop fastener deposits 30 and the hook-and-loop fastener 10 is lifted from the hook-and-loop fastener deposits 30, the hook-and-loop fastener attachment region is particularly flexible when the hook-and-loop fastener deposits 30 are flexible. However, the deformation of the hook-and-loop fastener adherend 30 is so severe that it is difficult to maintain its form. Furthermore, despite the fact that the joint area of the hook-and-loop fastener is increased to secure the joint strength on a large surface, all the strength is received by the sewing thread sewn along the sewing line, resulting in large peeling. When the force is applied, the hook-and-loop fastener article 30 may be damaged along the sewing line.
[0054]
Therefore, in the present embodiment, as described above, the plate-like base material 11 of the hook-and-loop fastener 10 is defined into a plurality of engaging element forming regions B having the engaging element non-forming regions A, and the sheet material 20 A through hole 21 having the same shape as or slightly larger than the engagement element formation region B is formed in a region corresponding to each engagement element formation region B, and the engagement element non-formation region A is formed into the flat substrate 11. The surface fastener 10, the sheet material 20, and the surface fastener adherend 30 are sewn along the sewing line L3 so that the three members can be integrated. .
[0055]
The male engaging element 12a of the hook-and-loop fastener 10 according to the present invention is formed by weaving or weaving monofilaments in a loop shape on the (fiber) base material 11 and cutting a part of the loop as described above. However, it is possible to use a hook-and-loop fastener in which a male engaging element is integrally formed on the surface of the base material at the same time as the flat base material is formed using a synthetic resin material. FIG. 7 shows a silent structure when such a synthetic resin surface fastener 10 is used. As shown in the figure, the attachment structure of the hook-and-loop fastener 10 to the hook-and-loop fastener adherend 30 is substantially the same as the attachment structure shown in FIG. If a recessed part is formed or a through hole is formed, noise reduction is further improved.
[0056]
In the above description, a hook piece is formed by cutting a part of a monofilament loop woven or knitted into a loop at the same time as the woven knitting of the flat substrate 11 as the male engagement element 12a. The top of the monofilament loop may be cut and melted to form a spherical engagement head at the end of the standing monofilament, thereby forming a mushroom-shaped male engagement element. Further, even in the above-described synthetic resin hook-and-loop fastener, the male engagement element form is not limited to the hook shape, and may be an engagement element having a special form as disclosed in, for example, EP0811331A2. .
[0057]
FIG. 8: is principal part sectional drawing which shows the mounting state of the silent surface fastener with respect to the surface fastener adherend which is 5th Example of this invention. The hook-and-loop fastener 10 used in the present embodiment is a hook-and-loop fastener having a conventional general structure, or as described above, the apparent density of the base material of the hook-and-loop fastener is reduced or a through hole is formed. For example, a hook-and-loop fastener that itself is quiet may be used.
[0058]
The feature of this embodiment is that the surface fastener adherend itself to which the hook-and-loop fastener 10 is attached has an apparent density of at least 0.5 g / cm in the attachment area of the hook-and-loop fastener. ^Three In the case of a hook-and-loop fastener having the silent structure as described above according to the present invention, the engaging element forming region B or the non-sewing region is at least corresponding to the engaging element forming region B or the non-sewing region D. A through hole having the same shape as that of the wearing region D is formed to form a silent structure. Further, in the illustrated embodiment, when the hook-and-loop fastener 10 having the female engagement element 12 b is mounted on the hook-and-loop fastener adherend 30, a backing 40 is simultaneously mounted on the back surface of the hook-and-loop fastener adherend 30.
[0059]
In this way, by providing the above-described sound transmission suppression means at least in the surface fastener attachment region of the surface fastener adherend 30, for example, even a normal surface fastener can transmit sound generated at the time of peeling. It is suppressed and it can be set to a lower sound than usual. Further, when the strength of the surface fastener attachment region of the hook-and-loop fastener attachment 30 is reduced by the sound transmission suppressing means or when the appearance appearance is improved, the lining 40 is provided on the back surface of the hook-and-loop fastener attachment 30 as described above. It is desirable to install together.
[0060]
FIGS. 9-12 has shown the typical example of the mounting | wearing product of the surface fastener 10 as mentioned above.
FIG. 9 shows an example of the structure of the paper diaper 31. A book diaper 31 is attached to the front surface of a pair of wing pieces 31b extending to the left and right of the back body 31a of the paper diaper 31 and the front surface of the central region of the upper end of the abdomen 31c. The silent surface fastener 10 of the invention is attached to a diaper 31 via a sheet material 20. Thus, when the silent surface fastener 10 of the present invention is attached to the paper diaper 31, the diaper 31 can be gently replaced without disturbing sleep of an infant or the like.
[0061]
FIG. 10 shows an example of a lid 32 with a lid. When the silent surface fastener 10 of the present invention is attached to the opening / closing part with the mounting structure described above, silence is required, for example, in a library or a concert venue. Even in a place, the opening / closing operation can be performed quietly without disturbing the surroundings. FIG. 11 illustrates a golf glove 33. The golf glove 33 cannot be removed until the end of play once it is fitted in the hand, and is often taken from the hand before entering the putt. At this time, with the conventional gloves, the peeling sound of the hook-and-loop fastener sounds, and it may shake the opponent playing together. In that respect, if the silent surface fastener 10 of the present invention is attached with the above-described attachment structure, the glove 33 can be easily attached and detached without such a concern. FIG. 12 shows a state in which the silent surface fastener 10 of the present invention is attached to an opening / closing part of a pocket 34a of an outer garment 34 such as a general suit. Even in this example, since the opening / closing operation of the pocket 34a can be performed quietly, it does not attract attention from the surroundings or cause trouble.
[0062]
As described above, both the silent surface fastener with the sheet material of the present invention and the product with the same surface fastener can remarkably reduce the high-pitched and annoying sound generated at the time of peeling, and thus abnormal noise is generated. Even in places where people dislike it, the detachment operation can be performed without hesitation. The above description is merely a typical example of the present invention, and it will be apparent from the above description that various modifications are possible within the spirit of the present invention.
[Brief description of the drawings]
FIG. 1 is an exploded view of a silent surface fastener showing a first embodiment of the present invention.
FIG. 2 is a perspective view of a main part showing a mounting state of the silent surface fastener.
FIG. 3 is an exploded view of a silent surface fastener showing a second embodiment of the present invention.
4 is a cross-sectional view taken along the line IV-IV in FIG. 2, showing an example of a structure for attaching the silent surface fastener.
FIG. 5 is a cross-sectional view similar to FIG. 4 showing an example of a structure for attaching a silent surface fastener showing the second embodiment.
6 is a cross-sectional view similar to FIG. 4 showing another mounting structure example of the silent surface fastener of the present invention. FIG.
7 is a cross-sectional view similar to FIG. 4 showing an example of a structure for attaching a surface fastener when a synthetic resin molded surface fastener is used as the silent surface fastener. FIG.
FIG. 8 is a cross-sectional view showing a mounting structure of each mounted product of male and female silent surface fastener members according to a fifth embodiment of the present invention.
FIG. 9 is an overall perspective view showing an example of a disposable diaper fitted with the silent surface fastener of the present invention.
FIG. 10 is an overall perspective view showing an example of a lid with a lid to which the silent surface fastener of the present invention is attached.
FIG. 11 is an overall perspective view showing an example of a golf glove equipped with the silent surface fastener of the present invention.
FIG. 12 is an overall perspective view showing an example of an outer garment fitted with the silent surface fastener of the present invention.
[Explanation of symbols]
10 hook-and-loop fastener
11 Flat base material
12 Engaging element
12a Male engagement element
12b Female engaging element
20 Sheet material
21 Through hole
30 Silent surface fastener attachment
30a Through hole
31 paper diapers
31a Back trunk
31b Left and right wing pieces
31c Abdominal trunk
32 鞄
33 golf gloves
34 Outerwear
34a pocket
40 Lining

Claims (8)

The surface on which the engaging element forming region (B) having a large number of engaging elements (12) and the engaging element non-forming region (A) not having an engaging element are formed on the surface of the flat substrate (11) A fastener (10),
Sheet material (20) is mounted on the back surface of the flat substrate (11),
The sheet material (20) has an apparent density of a region corresponding to at least the engagement element formation region of 0.5 g / cm ³ or less.
Silent surface fastener characterized by that. A surface fastener (10) having a number of engaging elements (12) on the surface of a flat substrate (11),
The hook-and-loop fastener is formed with a sewing region (C) and an inner non-sewing region (D), and a sheet material (20) is sewn on the back surface of the flat substrate (11). And
The sheet material (20) has an apparent density of at least 0.5 g / cm ³ of the area with respect to at least the non-sewn area (D) .
Silent surface fastener characterized by that. The silent surface fastener according to claim 1 or 2, wherein an apparent density of the flat substrate (11) of the surface fastener (10) is 0.5 g / cm ³ or less. The silent surface fastener according to any one of claims 1 to 3, wherein the sheet material (20) is a fiber sheet material or a synthetic resin sheet material.   The silent surface fastener according to claim 4, wherein the sheet material (20) is made of a woven or knitted structure, and the yarns of the knitted and knitted structure are woven or knitted by bending 90 ° or more. An engaging element forming region (B) having a large number of engaging elements (12) and an engaging element non-forming region (A) having no engaging elements (12) are formed on the surface of the flat substrate (11). A sheet material (20) having an apparent density of at least 0.5 g / cm ^{3 in the} engagement element forming region (B) is attached to the back surface of the base material of the hook-and-loop fastener (10), and the sheet material ( A hook-and-loop fastener mounting product, wherein the hook-and-loop fastener adherend (30) is mounted on the back surface of 20).   The surface according to claim 6, wherein the sheet material (20) and the surface fastener adherend (30) are sewn and integrated with the engagement element non-formation region (A) of the flat substrate (11). Products with fasteners.   Sheet material (20) is sewn to the back surface of the base material of the hook-and-loop fastener (10) having a large number of engaging elements (12) on the surface of the flat base material (11). C) and an inner non-sewn area (D) are formed, and the sheet material (20) has a sound transmission suppressing means at least in the area with respect to the non-sewn area (D). And a hook and loop fastener product (30) attached to the back surface of the sheet material (20).

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