201216886 六、發明說明: - 【發明所屬之技術領域】 , 本發明係有關於一種繩線鎖固具(cord lock)的改 良’通常而言該繩線鎖固具係安裝使用於安裝對象物,通 常而言係安裝使用於具備繩狀體之對象物。 【先前技術】 在專利文獻1及2中表不有如下述之一種繩線鎖固 具:具有繩狀體的穿通孔’並且製作孔寬比穿通於該穿通 孔的繩狀體之厚度更窄之部位,及孔寬與被穿通的繩狀體 之厚度大略相等或比該厚度更寬之部位,以使位於穿通孔 内之繩狀體部分從擴大孔寬之部位以壓擠狀進入縮小孔寬 之部位,藉此卡止於該繩狀體之任意位置,例如作成為將 服裝之開口部的絞繩之環繞該開口部之長度設為一定,以 維持拉深該開口部之狀態所使用之繩線鎖固具。 然而’在該等繩線鎖固具中’為了解除繩狀體的卡止 狀態,必須握持繩狀體來使該繩狀體從前述穿通孔之縮小 孔寬的部位向擴大孔寬的部位拔出。 (先前技術文獻) (專利文獻) 專利文獻1 :日本特開2002-312號公報。. 專利文獻2 ··美國專例說明書第6581250號。 【發明内容】 (發明所欲解決的課題) 作為本發明所欲解決的主要問題點,係為即使不移動 s 3 323483 201216886 繩狀體側亦可進行該種的繩線鎖固具中繩狀體之卡止狀態 的解除操作之點。 (解決課題的手段) 為了達成前述課題,在本發明中,使繩線鎖固具備有 繩狀體的穿通孔,該穿通孔係形成長孔狀,並且從孔一端 側隨著朝向孔另一端側而縮小孔寬;該穿通孔係至少在前 述孔另一端側使其孔寬小於前述繩狀體之厚度;並# 、成能夠相對於安裝對象物進行使轉動中心位於前述孔一 端側之轉動操作。 使位於穿通孔内之部分位於該穿通孔的孔另一端側 、織狀體,係形成為被壓擠在穿通孔之狀態,而使繩線鎖 固具卡止在繩狀體。對該繩狀體作用有一定之張力時,因 ^繩狀體有從穿通孔拔出之方向的作用力 二具係維持使位於前述孔另一端之端部定位於於相 動=心偏向該拔出前端側姿勢,而對繩狀體的前述部分 朝别述孔另一端側伸入之方向的作用力。因此,只要對 繩狀,作用有—定之張力,該卡止狀態即穩定地維持。 當從該卡止狀態,使繩線鎖固具朝與前述張力之作用 =相反之方向轉動時,在從穿通孔的長度方向與該張力 用方向大致正交之位置的前端,對繩狀體的前述部分 用有從前述孔另-端侧拔出之方向的力。因此,藉由該 、、線鎖固具的轉動操作,迅速地解除前述卡止狀熊。 一較佳之態樣為’預_具備有前述f通孔的穿通部 4於安裝對象物的安裝部’以鉸鏈部連接成能夠使該穿 323483 4 201216886 通部之前面進行朝接近安裝部之前面之方向的轉動操作。 • 此時一較佳之態樣,該鉸鏈部係介設在穿通部與安裝部之 ’ 間而作為可彈性變形部。再者,一較佳之態樣,使該絞鏈 4構成為在穿通部具備有軸及對於該軸之軸承孔的任一 者、在安裴部具備有軸及軸承孔的另一者。 再者’使帶狀體的穿進部形成在前述穿通孔之孔一端 與該孔一端侧之繩線鎖固具的端部之間,藉此,能夠以該 穿進部成為前述轉動操作的轉動中心之方式,將該帶狀體 作、為安農對象物而安裝繩線鎖固具。 再者’若預先將位於前述穿通孔的孔另一端與在該孔 另一端測之繩線鎖固具的端部之間的繩線鎖固具的背面部 構成為能夠讓手指扣住,則可利用該背面部容易地進行前 述轉動操作。 亦有預先從將由硬質的合成樹脂所構成並且具備有 穿通孔的内構件定位於成形模具内的狀態,將軟質的合成 樹脂予以射出於該成形模具内,藉此使由該軟質的合成樹 脂所構成的外殼部形成在該内構件的外側,並且在該外殼 部形成朝前述穿通孔穿通的連通孔。 如前述之情形,由於穿通孔係形成在由硬質的合成樹 脂所構成的内構件’所以可在穿通孔内穩固地夾住繩狀體 而形成前述固接。而在另一方面,由於外殼部係由軟質的 合成樹脂所構成,所以手的觸感良好,即使使用在服裝等 亦可減少不舒服感’再者,由於安裝部亦由軟質的合成樹 脂所構成’所以能夠藉由縫接而安裝於對象物。 s 5 323483 201216886 亦有預先使内構件的穿通孔之孔緣部的全部或一部 分形成為未藉由外殼部所包覆之部位,來形成該外殼部。 如前述之情形,則在前述成形的模具内可利用該部位在該 成形時穩定地支撐内構件。再者,如上方式擠壓位在穿通 孔内之部分並使其兩侧膨出之繩狀體的該膨出之兩側逸退 至連通孔内,且可使繩狀體容易地固接在固定部位。 亦有藉由大致與繩線鎖固具之轉動的轉動軸線平行 的下孔緣、及大致與該下孔緣正交而交會的側孔緣來構成 前述穿通孔之孔一端側之情形。在如前述之情形中,當繩 狀體為圓繩之情形下,在解除部位中容易於該繩狀體與穿 通孔之間形成間隙,而在解除繩狀體的卡止狀態時,可使 繩狀體儘可能地不與穿通孔的内壁接觸。 (發明的效果) 根據本發明,在不移動繩狀體側之情形下,藉由操作 部的轉動操作即可完成繩線鎖固具之繩狀體之卡止狀態的 解除操作,在進行該解除之際無需目視繩狀體,並且,以 單手即可完成該解除操作。 【實施方式】 以下,根據第1圖至第18圖,針對本發明之典型的 實施形態進行說明。通常而言,該實施形態之繩線鎖固具 C係為安裝於具備繩狀體之對象物A而使用者,具備有該 繩狀體B的穿通孔1,而構成為能夠固定在穿通於該穿通 孔1之繩狀體B的任意位置,且對繩線鎖固具C的全部或 一部分進行旋轉操作而解除該固定狀態。關於做為該繩線 6 323483 201216886 鎖口具c之固疋對象的繩狀體B,只要為能夠穿通、固定 於刖述穿通孔1者,不論其形狀(圓繩、扁繩等)、材質 及/或構造(編織繩、橡膠繩、合成樹脂製繩等)皆可, 准通吊而S該繩線鎖固具c係適合使用於具有彈性變形特 ) 生之繩狀體B的gj定。通常而言,該繩線鎖固具c係使用 於.女裝在具備有藉由該繩狀體B進行拉深、或束緊之部 位的各種對象物A ’且改變對於穿過前述穿通孔1之繩狀 體B的固定位置,來進行拉深、或放開如前述之部位。例 如’繩線鎖g]具C係使用於:安裝在作為前述對象物A的 衣類之開口部岐罐(前述繩狀體B)之拉出部位附近, 來形成對於從該拉出部位所拉出 之絞繩的固定。 月'J述穿通孔1係形成長孔狀。此外,構成為從該孔一 ^ &側伴隨著朝向孔另一端1 b侧將孔寬予以縮小。此外’ 孔1至少在前述孔另一端ib侧中,使其孔寬小於前 =狀體B之厚度。該穿通孔1係構成為:使孔長度比被 k之繩狀體B之厚度更長,並且在圖示的例中,使孔办 略】於在魏-端la财被穿通之繩狀體 另-端Ib侧使孔寬更小於該一:= =線咖具C係安裝成可相對於安震對象物進二 u位於如述孔一端1 a側的轉動操作。 使位於穿通孔1内之部分位於該穿通孔h lb側的繩狀體β,形成被擠壓在穿通孔1之 線鎖固具C卡止;^铘妝舻R 〜、,而將繩 L卞止於繩狀體b。對該繩狀體8施加一〜 力時’因為對繩狀體B有從穿通孔^出之方向的:用力:201216886 VI. Description of the Invention: - [Technical Field of the Invention] The present invention relates to an improvement of a cord lock. Generally, the cord lock is installed for use in mounting objects. Generally, it is mounted on an object having a string body. [Prior Art] In Patent Documents 1 and 2, there is shown a cord locker having a through hole of a string body and having a hole width narrower than a thickness of a string body penetrating the through hole. a portion, and a portion having a hole width substantially equal to or wider than a thickness of the threaded body to be passed through, so that a portion of the string portion located in the through hole is pressed into the reduced hole from a portion where the hole width is enlarged. The wide portion is thereby locked to any position of the string body, and is used, for example, to make the length of the strand around the opening of the garment constant to maintain the state of the opening. The rope locker. However, in the cord locks, in order to release the locked state of the string body, it is necessary to hold the string body so that the string body extends from the portion of the through hole having the reduced hole width to the portion where the hole width is enlarged. Pull out. (Prior Art Document) (Patent Document) Patent Document 1: Japanese Laid-Open Patent Publication No. 2002-312. Patent Document 2 • US Special Case No. 6581250. SUMMARY OF THE INVENTION (Problems to be Solved by the Invention) As a main problem to be solved by the present invention, it is possible to carry out the rope-like locking of the cord locker without moving the s 3 323483 201216886 rope-like side. The point at which the body is locked. (Means for Solving the Problem) In order to achieve the above-described object, in the present invention, the cord is locked and provided with a through hole of a string-like body, and the through-hole is formed in a long hole shape, and from the one end side of the hole toward the other end of the hole The through hole is narrowed at least on the other end side of the hole, and the hole width is smaller than the thickness of the rope body; and the rotation of the center of the hole is at least one side of the hole with respect to the object to be mounted. operating. The portion located in the through hole is located at the other end side of the hole of the through hole, and the woven body is formed to be pressed against the through hole, and the string lock is locked to the string. When a certain tension is applied to the string body, the force of the cord-like body in the direction of being pulled out from the through-hole is maintained such that the end located at the other end of the hole is positioned in the phase shift = the heart is biased toward the The front end side posture is pulled out, and the force of the aforementioned portion of the string body toward the other end side of the other hole is inserted. Therefore, as long as the tension is applied to the rope shape, the locked state is stably maintained. When the cord lock is rotated in the opposite direction from the action of the tension from the locked state, the string is at the tip end from the longitudinal direction of the through hole and the direction perpendicular to the tension direction. The aforementioned portion uses a force in a direction in which the other end side of the hole is pulled out. Therefore, the locking bear is quickly released by the rotation operation of the wire lock. In a preferred aspect, the pre-fitting portion 4 having the f-through hole is attached to the mounting portion of the mounting object, and the hinge portion is connected so that the front surface of the through-hole 323483 4 201216886 can be faced toward the front side of the mounting portion. The direction of rotation. • In a preferred embodiment, the hinge portion is interposed between the through portion and the mounting portion as an elastically deformable portion. Further, in a preferred embodiment, the hinge 4 is configured such that a shaft and a bearing hole for the shaft are provided in the through portion, and the shaft and the bearing hole are provided in the ampoule portion. Further, the insertion portion of the strip body is formed between the end of the hole of the through hole and the end of the wire lock of the one end side of the hole, whereby the insertion portion can be rotated as described above. In the manner of rotating the center, the belt-shaped body is used as an object for Amnon to install a cord lock. Furthermore, if the back portion of the cord locker between the other end of the hole penetrating the through hole and the end of the cord lock fixture measured at the other end of the hole is configured to be able to hold the finger, The above-described turning operation can be easily performed by the back surface portion. In the state in which the inner member including the hard synthetic resin and having the through hole is positioned in the molding die, the soft synthetic resin is injected into the molding die, whereby the soft synthetic resin is used. The outer casing portion is formed on the outer side of the inner member, and a communication hole penetrating through the through hole is formed in the outer casing portion. As described above, since the through hole is formed in the inner member ' composed of a hard synthetic resin, the above-described fixing can be formed by firmly holding the string in the through hole. On the other hand, since the outer shell portion is made of a soft synthetic resin, the touch of the hand is good, and the feeling of discomfort can be reduced even when used in a garment or the like. Further, since the mounting portion is also made of a soft synthetic resin. It is configured to be attached to an object by sewing. s 5 323483 201216886 The outer casing portion is formed by forming all or a part of the hole edge portion of the through hole of the inner member in advance so as not to be covered by the outer casing portion. As described above, the portion can be stably supported in the formed mold in the forming of the inner member at the time of the forming. Furthermore, in the above manner, the portion located in the through hole and the both sides of the bulge of the rope bulging on both sides are retracted into the communication hole, and the string body can be easily fixed Fixed part. There is also a case where the one end side of the through hole is formed by a lower hole edge which is substantially parallel to the rotation axis of the rotation of the wire locker, and a side hole edge which substantially intersects the lower hole edge. In the case as described above, when the string body is a round rope, a gap is easily formed between the string body and the through hole in the releasing portion, and when the locking state of the string body is released, The rope body is not in contact with the inner wall of the through hole as much as possible. (Effect of the Invention) According to the present invention, the unlocking operation of the rope-like state of the string locker can be completed by the rotation operation of the operation portion without moving the rope-like body side. It is not necessary to visually check the rope when it is released, and the lifting operation can be completed with one hand. [Embodiment] Hereinafter, a typical embodiment of the present invention will be described with reference to Figs. 1 to 18 . In general, the cord lock C of the embodiment is attached to the object A having the string body, and the user includes the through hole 1 of the string B, and is configured to be fixed to the through hole 1 The fixed position of the string B of the through hole 1 is rotated at any position of the string B and all or a part of the string lock C is rotated. Regarding the rope-shaped body B which is a solid object of the lock line, the rope-shaped body B can be punched in and fixed to the thread-through hole 1 regardless of the shape (round rope, flat rope, etc.) and material. And / or structure (woven rope, rubber rope, synthetic resin rope, etc.) can be, quasi-passing and S, the rope lock c is suitable for use in the elastic deformation of the raw rope-like body B gj . In general, the cord lock c is used for a variety of objects A' having a portion that is deepened or tightened by the string B, and is changed for passing through the through hole. The fixed position of the string B of 1 is used to draw or release the portion as described above. For example, the "rope lock g" is used in the vicinity of the drawing portion of the opening portion of the clothing (the aforementioned rope-shaped body B) as the object A, and is formed to be pulled from the drawing portion. The fixing of the twisted rope. The month 'J describes the through hole 1 to form a long hole. Further, the hole width is reduced from the side of the hole toward the other end 1 b side of the hole. Further, the hole 1 is at least in the side of the other end ib of the aforementioned hole such that the hole width is smaller than the thickness of the front body B. The through-hole 1 is configured such that the length of the hole is longer than the thickness of the string B of k, and in the illustrated example, the hole is made to be a string that is pierced at the Wei-end The other end side Ib side makes the hole width smaller than the one: = = the line coffee machine C is mounted so as to be rotatable relative to the earthquake object in the side of the hole 1 a side. The string body β located in the through hole 1 is located on the side of the through hole h lb , and is formed by the wire lock C which is pressed against the through hole 1 to lock; R 〜 R 〜, and the rope L Stop at the rope b. When a force is applied to the string body 8, because the string body B has a direction from the through hole: force:
S 323483 201216886 所以繩線鎖固具c維持下述姿勢:使前述孔另一端lb侧的 端部7定位於相較於該轉動中心更靠近該拔出前端側處; 而對繩狀體B的前述部分作用有向前述孔另一端卟側伸入 的力(第2圖及第3圖)。因此,只要對繩狀體B施加一 定之張力’即穩定地維持該卡止狀態。 當從卡止狀態使繩線鎖固具c向與前述張力之作用方 向F1相反之方向轉動時,在從穿通孔丨的長度方向與該張 力^作用方向F1A致正交之位置(第4圖至第6圖之位置) 的別知#繩狀體β的前述部分施加有從前述孔另一端 侧拔出之方向的力(第7圖至第9圖)。因此,藉由該繩 線鎖固具C的轉動操作,迅速地解除前述卡止狀態。 在此在®式的财,料孔丨的减由於在遍及其長 :向之任何位置皆小於繩狀㈣之厚度,所以當從前述 體止繩線鎖固具c的轉動操作時,在對繩狀 r ^ 疋之張力時,藉由該張力使繩線鎖固具(:復 二轉動操作前的姿勢,並且伴隨著該 :述部分伸入於前述孔另-…,而4=1 K線鎖固具C拉出之拉出尺寸減少的狀態。 另-方面’當從對繩線鎖固具0進行轉動操 具以使繩狀體β之自由端側Ba從繩線鎖固 加之方式拉伸繩狀體〜,因為與 張力之作用方向相反方向之張力F2(第9圖)作用在 μ繩狀體B的自由端側Ba,所以對繩狀體 加有伸入前述孔另-端lb侧之方向的力,使:二广 J 7 1之繩狀體B再次 323483 8 201216886 • p於__具G’且維持使前述拉出尺寸增加的狀 心。之後,當停止前述轉動操作時,藉由作用在繩狀體β .的前述張力(非為前述相反方向之張力的張力)使繩線鎖 固具C復歸至轉動操作前的姿勢。 (第1圖至第12圖所示之第一例) 在第1圖至第12圖所示之第一例中,繩線鎖固具c 係具有:具備有前述穿通孔i的穿通部2、及對於安裝對 象物的安裝部3。接著,以鉸鏈(hinge)部4使該穿通部 2與安裝部3連接成能夠使該穿通部2之前面&進行朝接 近安裝部3之前面3a之方向的轉動操作。此外,該鉸鏈部 4係介設在前述穿通部2與絲部3之_可彈性變形部 4a ° 在圖式的财’前述安” 3係大致呈正方形的板 狀,而穿通部2係呈具備比該安震部3更厚的長與寬的板 狀。安襄部3的-邊部與穿通部2之寬度侧的一邊部係經 介鉸鏈部4而連接成一體。 鉸鏈部4係構成為以將穿通部2及安裝部3的前面3a 側作為彎曲外側之方式彎曲之薄壁部。敍鍵部4係使挟著 前述彎曲中心的-方側一體地連接於安裝部3的一邊部, 並且,使挾持前述彎曲中心的另一方側一體地連接於穿通 部2之寬度側的一邊部。 部裝部3該絞鏈部4來連接成使穿 通部2之前面2a與安裝部3之前面'中了形— 成猶J、於180度的純角。在該第一例中,繩線鎖固具匸的 323483 9 201216886 轉動之轉純線X、亦即穿通部2 _動之轉動軸線χ係 為絞鏈部4的彎曲中心,且形成為沿著安裝部3及穿通部 2之寬度方向者。 穿通孔1係穿過穿通部2之前面2a與背面2b。此外, 牙通孔1係呈在穿通部2的長度方向較長的長孔狀。穿通 孔1係構成為具有大致與前述轉動軸線χ平行的下孔緣 lc、及左右的侧孔緣ld、ld (第u圖)。下孔緣lc係位 於絞鏈部4侧。左右的侧孔緣ld、H係具有第一部分le 與第一部分If’該第一部分le係為大致分別在該絞鏈部4 中與該下緣孔lc正交而交會者,而第二部分lf係為延續 該第°卩为&且隨著從絞鏈部4側離開而逐漸地使其與另 一方的側孔緣1 d之間的間隔變窄而傾斜者。在左右的侧孔 緣Id之第-部分le與下孔緣lc之間形成有大致呈直角的 角部lg。該左右的側孔緣ld之第一部分le間的距離係形 成為稍小於作為固定對象之繩狀體B的厚度。另一方面, 左右的侧孔緣Id之第二部分lf係在於穿通部2之與安裝 部3之連接側相對向的端部、亦即前述孔另—端ib側的端 «I5 7側中,在與另一方的侧孔緣ld之第二部分1 ^之間形 成銳角的角部lh。因此’在圖式之例中,該穿通孔i的下 孔緣lc係成為前述孔一端la,而銳角的角部让係成為前 述孔另一端lb (第11圖)。 此外,在該第一例中,繩線鎖固具c係從將由硬質的 合成樹脂所構成並且具備有穿通孔丨之内構件5定位於未 圖不的成形模具内的狀態,將軟質的合成樹脂射出於該成 323483 10 201216886 形模具内,藉此使由該軟質的合成樹脂所構成的外殼部6 - 形成在該内構件5的外侧’並且在該外殼部6形成朝前述 - 穿通孔1穿通的連通孔6a ° 内構件5係以使外徑及厚度小於穿通孔2之方式構 成,且呈板狀。内構件5的前面5a之除了前述穿通孔1 及該孔緣部的部位係由前述外殼部6所包覆,且經介絞鏈 部4將安裝部3連接在該外殼部6。 前述連通孔6a係比形成在内構件5的穿通孔1更大, 且在該穿通孔1與連通孔6a之間未藉由外殼部6所包覆的 部位5b’係在内構件的前面5a中遍及穿通孔1之全周而 形成。藉此’在該實施形態中’在前述成形模具内利用該 部位在該成形時可穩定地支撐内構件5。再者,設成如上 方式時,擠壓位在穿通孔1内之部分並且其兩側膨出之繩 狀體5的該膨出之兩側係可逸退至連通孔6a内,而可使繩 狀體容易地固接在固定部位l〇a。 5亥實施形態中,安裝部的表面2Q與穿通部2的前面 2a係連接成在絞鏈部4形成有鈍角者,另一方面,安裝部 3的背面3b與穿通部2的背面2b係連接成在絞鏈部4形 成有大於180度的角度者。繩線鎖固具^係以使安裝部3 的背面3b密接於對象物A的表面Aa之方式,安裝在該對 象物A(第3圖),因此,穿通部2係位於與安裝部3的 連接侧相對向的端部,換言之,隨著朝向前述孔另一端n 的端部7而逐漸地從對象物A的表面Aa分離之方式位在該 表面Aa上。 s 11 323483 201216886 由於穿通孔1係形成為由硬質的合成樹脂所構成的内 構件5,所以可於穿通孔1内穩固地夾持繩狀體β而形成 前述固接。而在另一方面’由於外殼部6係由軟質的合成 樹脂所構成,所以手的觸感良好,即使使用在服裝等亦可 減少不舒服感,再者,由於安裝部亦由軟質的合成樹脂所 構成’所以能夠藉由縫接而安裝於對象物Α。 再者’在該實施形態中’在進行前述穿通部2的轉動 操作時’形成蓄勢有賴穿通部2㈣祕作前之位置推 回之方向的彈推力。在圖示的例中,前述絞鏈部4係與由 軟質的合成樹賴構成的錢部3及賴部6形成為一 HI此’⑽部4_由彈性變形而容許前述轉動操作, 當停止該轉_料形成_動操倾㈣向進行彈性 歸。 再者,該實施形態中,位在穿通孔i的孔另一端U =該孔另-端lb側之繩線鎖固具c的 =“背面部8係構成為能夠讓手指扣住》具雜而言 立在前述之間的穿通孔!的背面%,係位於比至孔另一端 二、=部4料接部位為止之間之穿通孔2的背面如 ㊁則:處:而:兩者之間形成有段差9 。於是,當藉此對 ^二2進行前述轉動操作時,即容易地將手指等扣住於 通穿通部2的端部7。 再者,該實施形觫Φ,1‘ 侧 如刚所述穿通孔1的孔一端la C轴線x平行的下孔緣ic、及大致 、'^ C正又而父會的側孔緣Id所構成,所以當繩 323483 12 201216886 狀體B為圓繩之情形下,在穿通孔i之孔一端側中,容 •易在該繩狀體B與穿通孔丨之間形成間隙,而在解除繩狀 .體B的卡止狀癌時’穿通孔1的内壁與繩狀體^在廣範 圍内未接觸。 ’ 再者’在圖式之例中’穿通孔1係將穿通部2之背面 %側的開π徑設為大於穿通部2之前面^侧的開口徑, 從穿通孔1之内璧中之牙通部2之背面2b御j至該穿通孔1 之貫通方向大致中間之位置為止的範圍,係除了前述孔一 端la側之外,朝隨著靠近該中間位置而逐漸縮小穿通孔^ 2孔徑的方向傾斜。從穿通孔丨之内璧中之該中間位置至 牙通部2之前面2a為止的範圍係大致與前述貫通方向平 行。藉此,在穿通孔1的内部形成穿刺進所通過之繩狀體 B的角部1 ί。 該第一例之繩線鎖固具c,雖省略圖式,但藉由在前 述穿通部2設置有兩部位以上的穿通孔i,即可用來固定 兩條以上的繩狀體B。 (第13圖至第15圖所示之第二例) 在第13圖至帛15 ®所示之第二例中,繩線鎖固具c 係具有:具備前述穿通孔1的穿通部2、及對於安裝對象 物的安裝部3。接著,以鉸鏈部4使該穿通部2與安裝部3 連接成旎夠使該穿通部2之前面2a進行朝接近安裝部3 之前面3a之方向的轉動操作。該絞鏈部4係在穿通部2 具備有軸4b及對於該軸4b之軸承孔4c的任一者、在安穿 部3具備有軸4b及軸承孔4c的另一者。在圖式之例中f 13 5 323483 201216886 ^裝!"3形成有轴4b,而在穿通部2形成有軸承孔4c。 二山而S,在該第二例中,在穿通部2中之穿通孔1之孔 备i側的端口P ’在其間隔著間隔而在左右分別形成有軸 4 1G。接著’錢左右的軸承臂部1G、10分別形成 軸承孔4c。另-方面’在安裝部3之一邊部的中央形 成有收納在該左右的軸承臂部1()、Μ間的突出部U,並 且在該大出# 11的左右分別形成有收納並樞接在對應之 軸承孔4c的軸4b。拎筮-八丨> —& °亥第一例之繩線鎖固具C的其他構成, 因為與第-例之繩線鎖固具c的對應之構成相同或實際上 相同者,所以在第13圖至第15圖標示與第—例繩線鎖固 具C的對應之構成之符號相同之符號,且省略其說明。 (弟16圖至第18圖所示之第三例) 在第16圖至第18目所示之第三例中,繩線鎖固具c 係在穿l孔1之孔端la與該孔—端侧之繩線鎖固具 C的端部7之間,形成具備有帶狀體的穿進部12之構成、。 具體而言’使在相當於第一例之穿通部2的板狀主體2, 中之穿通孔1之孔-端la側的端部與該孔一端ia之間, 形成有呈在左右方向較長之狹縫狀的前述穿進部。藉 此,在該第三例中,將穿過該穿進部12之未圖示的帶狀^ 作為安裝對象物,即能以可行轉動操作之方式安裝在該帶 狀體。該轉動的轉動中心係成為穿進部12的形成部位:該 第三例之繩線鎖固具C的其他構成,因為與第一例之繩線 鎖固具C的對應之構成相同或實際上相同,所以在第w 圖至第18圖標示與第一例之繩線鎖固具〇的對應之構成之 323483 14 201216886 符號洲H且省略其說明。 - 【圖式簡單說明】 - 第1圖係為顯不在安裝於安裝對象物的繩線鎖固具固 定繩狀體之狀況的立體圖。 ^第2圖係為顯示從繩線鎖固具之穿通部的前面側觀看 第1圖之狀態的前視圖。 第3圖係為第1圖之狀態的剖面圖。 Α第4圖係為顯不從第1圖之狀態使繩線鎖固具的穿通 部轉動之狀態的立體圖。 第5圖係為顯示從繩線鎖固具之穿通部的前面侧觀看 第4圖之狀態的前視圖。 第6圖係為第4圖之狀態的剖面圖。 第7圖係為顯示從第4圖之狀態使繩線鎖固具的穿通 部更進一步轉動之狀態的立體圖。 μ第8圖係為顯示從繩線鎖固具之穿通部的前面側觀看 第7圖之狀態的前視圖。 第9圖係為第7圖之狀態的剖面圖。 第10圖係為繩線鎖固具的立體圖。 第11圖係為繩線鎖固具的前視圖。 第12圖係為絕線鎖固具的右側視圖。 第13圖係為第二例之繩線鎖固具的立體圖。 第14圖係為第二例之繩線鎖固具的前視圖。 第15圖係為第二例之繩線鎖固具的右側視圖。 第16圖係為第三例之繩線鎖固具的立體圖。 15 323483 201216886 第17圖係為第三例之繩線鎖固具的前視圖。 第18圖係為第三例之繩線鎖固具的右側視圖。 【主要元件符號說明】 1 穿通孔 la 孔一端側 lb 孔另一端侧 lc 下孔緣 Id 側孔緣 le 側孔緣第一部分 If 側孔緣第二部分 lg、 lh、li 角部 2 穿通部 2, 板狀主體 2a、 3a、5a 前面 2b、 3b、5b 背面 3 安裝部 4 欽鍵部 4a、 可彈性變形部 4b 軸 5 内構件 6 外殼部 6a 連通孔 7 端部 8 背面部 9 段差 10 軸承臂部 11 突出部 12 穿進部 A 對象物 Aa 表面 B 繩狀體 Ba 繩狀體之自由端側 C 繩線鎖固具 FI 張力 F2 張力 X 轉動轴線 16 323483S 323483 201216886 Therefore, the cord lock fixture c maintains a position in which the end portion 7 on the other end lb side of the aforementioned hole is positioned closer to the extraction front end side than the rotation center; and to the string body B The aforementioned portion acts as a force that projects toward the side of the other end of the hole (Figs. 2 and 3). Therefore, as long as a certain tension is applied to the string B, the locked state is stably maintained. When the wire locker c is rotated in a direction opposite to the direction of action F1 of the tension from the locked state, it is orthogonal to the direction of the tension action direction F1A from the longitudinal direction of the through hole ( (Fig. 4) (Knowledge to Fig. 6) # The aforementioned portion of the string body β is applied with a force in a direction in which the other end side of the hole is pulled out (Figs. 7 to 9). Therefore, the above-described locked state is quickly released by the turning operation of the cord lock C. Here, in the type of money, the reduction of the hole is due to the thickness of the rope (4) at any position, so when it is rotated from the body stop wire lock c, When the tension of the rope r ^ 疋, the tension is made by the tension (the posture before the second rotation operation, and accompanied by the portion extending into the hole -..., and 4 = 1 K The wire locker C pulls out the state in which the size is reduced. The other aspect 'When the wire locker 0 is rotated, the free end side Ba of the string body β is locked from the wire. Stretching the string body ~, since the tension F2 (Fig. 9) acting in the opposite direction to the direction of the action of the tension acts on the free end side Ba of the μ rope-shaped body B, so that the string-like body is extended to the other end of the hole The force in the direction of the lb side is such that: the rope B of the second wide J 7 1 is again 323483 8 201216886 • p has a G' and has a centroid that increases the aforementioned pull-out size. Thereafter, when the aforementioned rotation operation is stopped At the time, the wire lock C is reset to the aforementioned tension acting on the string β (not the tension of the tension in the opposite direction) Position before the operation. (First example shown in Figs. 1 to 12) In the first example shown in Figs. 1 to 12, the cord lock c is provided with the aforementioned punch-through The insertion portion 2 of the hole i and the attachment portion 3 to the attachment object. Next, the through portion 2 and the attachment portion 3 are connected by a hinge portion 4 so that the front surface of the feedthrough portion 2 can be approached Rotation operation in the direction of the front surface 3a of the mounting portion 3. The hinge portion 4 is interposed between the through-portion portion 2 and the wire portion 3, and the elastically deformable portion 4a is approximately the same as the above-mentioned The penetrating portion 2 has a plate shape having a length and a width larger than that of the ampoule portion 3. The side portion of the ampoule portion 3 and the side portion of the width portion of the penetrating portion 2 are The hinge portion 4 is integrally connected. The hinge portion 4 is configured to have a thin portion that is curved so that the front surface 3a side of the insertion portion 2 and the attachment portion 3 are curved outward. The key portion 4 is placed adjacent to the bending center. The square side is integrally connected to one side of the mounting portion 3, and the other side that holds the bending center is integrally connected to One side portion on the width side of the through portion 2. The hinge portion 4 is connected so that the front surface 2a of the feedthrough portion 2 and the front surface of the mounting portion 3 are 'medium-shaped, and the pure angle is 180 degrees. In the first example, the 323483 9 201216886 rotating turn line X of the rope locking device, that is, the through-axis 2 is the bending center of the hinge portion 4, and is formed along the edge. The insertion portion 3 and the width direction of the insertion portion 2 are formed. The through hole 1 passes through the front surface 2a and the back surface 2b of the insertion portion 2. Further, the through hole 1 has a long hole shape elongated in the longitudinal direction of the insertion portion 2. The through hole 1 is configured to have a lower hole edge lc substantially parallel to the rotation axis χ and left and right side edge edges ld and ld (Fig. u). The lower hole edge lc is located on the side of the hinge portion 4. The left and right side edge edges ld, H have a first portion le and a first portion If' the first portion le is substantially orthogonal to the lower edge aperture lc in the hinge portion 4, and the second portion lf It is assumed that the continuation of the first 卩 is & and gradually decreases from the side of the hinge portion 4 to gradually narrow the interval between the other side edge 1d and the other side edge 1d. A substantially right-angled corner portion lg is formed between the first-part le and the lower-hole edge lc of the left and right side edge Ids. The distance between the first portions le of the left and right side edge lds is slightly smaller than the thickness of the string B as the object to be fixed. On the other hand, the second portion lf of the left and right side edge Ids is the end portion of the feedthrough portion 2 opposite to the connection side of the mounting portion 3, that is, the end of the hole other end ib side «I5 7 side An acute angled corner lh is formed between the second portion 1^ of the side edge ld of the other side. Therefore, in the example of the drawing, the lower hole edge lc of the through hole i is the one end la of the hole, and the corner of the acute angle is made to be the other end lb of the above hole (Fig. 11). Further, in the first example, the string locker c is a soft synthetic material in a state in which the inner member 5 made of a hard synthetic resin and having the through-holes is positioned in a molding die which is not shown. The resin is injected into the mold of 323483 10 201216886, whereby the outer casing portion 6 - composed of the soft synthetic resin is formed on the outer side of the inner member 5 and formed in the outer casing portion 6 toward the aforementioned - through hole 1 The through hole 6a is penetrated. The inner member 5 is configured to have an outer diameter and a thickness smaller than the through hole 2, and has a plate shape. The portion of the front surface 5a of the inner member 5 excluding the through-hole 1 and the edge portion is covered by the outer casing portion 6, and the mounting portion 3 is connected to the outer casing portion 6 via the hinge portion 4. The communication hole 6a is larger than the through hole 1 formed in the inner member 5, and the portion 5b' not covered by the outer casing portion 6 between the through hole 1 and the communication hole 6a is the front surface 5a of the inner member. It is formed throughout the entire circumference of the through hole 1 . Thus, in this embodiment, the inner member 5 can be stably supported by the portion in the molding die at the time of molding. Further, in the above manner, the portion of the bulging portion of the string-like body 5 which is squeezed in the through-hole 1 and which is bulged on both sides can escape into the communication hole 6a, and The string body is easily fixed to the fixed portion l〇a. In the embodiment of the fifth embodiment, the surface 2Q of the mounting portion is connected to the front surface 2a of the feedthrough portion 2 so that an obtuse angle is formed in the hinge portion 4, and the back surface 3b of the mounting portion 3 is connected to the back surface 2b of the feedthrough portion 2. The angle of the hinge portion 4 is formed to be greater than 180 degrees. The string locking device is attached to the object A (Fig. 3) such that the back surface 3b of the mounting portion 3 is in close contact with the surface Aa of the object A. Therefore, the through portion 2 is located in the mounting portion 3. The opposite end portion of the connecting side, in other words, is gradually separated from the surface Aa of the object A toward the end surface 7 of the other end n of the hole. s 11 323483 201216886 Since the through-hole 1 is formed of the inner member 5 made of a hard synthetic resin, the string-like body β can be firmly held in the through-hole 1 to form the above-mentioned fixation. On the other hand, since the outer casing portion 6 is made of a soft synthetic resin, the touch of the hand is good, and the feeling of discomfort can be reduced even when used in a garment or the like, and the mounting portion is also made of a soft synthetic resin. It is configured to be attached to the object 藉 by sewing. Further, in this embodiment, when the rotation operation of the feedthrough portion 2 is performed, the spring force is generated in the direction in which the position of the feedthrough portion 2 (4) is reversed. In the illustrated example, the hinge portion 4 is formed as a HI with the money portion 3 and the lap portion 6 composed of a soft synthetic tree, and the '10' portion 4_ is elastically deformed to allow the rotation operation, and is stopped. The turning material formation_moving tilt (four) is elastically returned. Furthermore, in this embodiment, the other end of the hole penetrating the through hole i = the wire locker c of the hole on the other end lb side = "the back portion 8 is configured to be able to hold the finger" The back surface % of the through-holes that are located between the foregoing is located at the back of the through-hole 2 between the other end of the hole and the portion of the material of the portion 4, such as two: A step 9 is formed therebetween. Then, when the above-described turning operation is performed on the pair 2, the finger or the like is easily fastened to the end portion 7 of the through-through portion 2. Further, the embodiment 觫Φ, 1' The side is formed by the lower hole edge ic which is parallel to the end of the through hole 1 and the axis C axis x is parallel, and the side hole edge Id which is substantially the same as the parent side, so the rope 323483 12 201216886 In the case where B is a round rope, in the one end side of the hole penetrating through hole i, it is easy to form a gap between the string body B and the through hole, and when the rope-like body B is released. The inner wall of the through-hole 1 is not in contact with the string body ^ in a wide range. 'Furthermore' In the example of the drawing, the through-hole 1 is used to set the opening π diameter of the back side of the feedthrough 2 to be large. The opening diameter on the front side of the feedthrough portion 2 is a range from the back surface 2b of the tooth passage portion 2 in the inner bore of the through hole 1 to a position substantially in the middle of the through direction of the through hole 1, except for the hole The one end of the one side is inclined toward the direction in which the aperture of the through hole 2 is gradually narrowed toward the intermediate position. The range from the intermediate position in the inner bore of the through hole to the front surface 2a of the tooth passage 2 is approximately In parallel with the through-direction, the corner portion 1 of the string body B through which the puncture is passed is formed inside the through-hole 1. The rope lock c of the first example, although omitted, borrows By providing the through-holes i of the two or more portions in the through-hole portion 2, it is possible to fix two or more string-like bodies B. (Second example shown in Figs. 13 to 15) In Fig. 13 to 帛In the second example shown in 15 ® , the cord lock c has a through portion 2 including the through hole 1 and a mounting portion 3 for the object to be attached. Next, the through portion 2 is made by the hinge portion 4. Connected to the mounting portion 3 so that the front surface 2a of the punching portion 2 faces toward the front surface 3a of the mounting portion 3. The hinge portion 4 is provided with the shaft 4b and the bearing hole 4c for the shaft 4b in the through portion 2, and the shaft 4b and the bearing hole 4c are provided in the wearing portion 3. In the example of the figure, f 13 5 323483 201216886 ^Packing!"3 is formed with a shaft 4b, and a bearing hole 4c is formed in the through portion 2. Two mountains and S, in the second example, in the through portion 2 The port P' of the hole through-hole 1 of the through-hole 1 is formed with a shaft 4 1G on the left and right sides at intervals therebetween. Then, the bearing arms 1G and 10 of the left and right sides respectively form a bearing hole 4c. A center portion of one side portion of the mounting portion 3 is formed with a protruding portion U accommodated between the left and right bearing arm portions 1 () and the turn, and is formed and pivoted to the corresponding bearing hole on the left and right sides of the large outlet #11. Axis 4b of 4c.拎筮-八丨>-& ° The other configuration of the cord locker C of the first example is the same or substantially the same as the corresponding structure of the cord lock c of the first example, The reference numerals in FIGS. 13 to 15 are the same as those in the corresponding example of the first embodiment, and the description thereof is omitted. (Third example shown in Fig. 16 to Fig. 18) In the third example shown in Figs. 16 to 18, the cord lock c is attached to the hole end la of the hole 1 and the hole. A configuration in which the insertion portion 12 having the strip-shaped body is formed between the end portions 7 of the end wire locks C. Specifically, the end portion of the plate-like body 2 corresponding to the feedthrough portion 2 of the first example, which is formed on the hole-end la side of the through-hole 1 and the one end ia of the hole, is formed in the left-right direction. The slit portion of the aforementioned piercing portion. Therefore, in the third example, the belt-shaped member (not shown) passing through the insertion portion 12 is attached to the belt-like body so as to be rotatable. The center of rotation of the rotation becomes the formation portion of the threading portion 12: the other configuration of the cord locker C of the third example is the same or substantially the same as that of the cord locker C of the first example. The same is true, so the d-th to the 18th icons show the corresponding configuration of the 323483 14 201216886 corresponding to the cord lock 〇 of the first example, and the description thereof is omitted. - [Simplified illustration of the drawings] - Fig. 1 is a perspective view showing a state in which the cord locker is attached to the object to be attached and the cord is fixed. Fig. 2 is a front view showing a state in which Fig. 1 is viewed from the front side of the through portion of the cord lock. Fig. 3 is a cross-sectional view showing the state of Fig. 1. Fig. 4 is a perspective view showing a state in which the feedthrough portion of the cord locker is rotated from the state of Fig. 1. Fig. 5 is a front view showing a state in which Fig. 4 is viewed from the front side of the through portion of the cord lock. Fig. 6 is a cross-sectional view showing the state of Fig. 4. Fig. 7 is a perspective view showing a state in which the feedthrough portion of the cord locker is further rotated from the state of Fig. 4. Fig. 8 is a front view showing a state in which Fig. 7 is viewed from the front side of the through portion of the cord lock. Fig. 9 is a cross-sectional view showing the state of Fig. 7. Figure 10 is a perspective view of the cord lock. Figure 11 is a front view of the cord lock. Figure 12 is a right side view of the absolute lock. Figure 13 is a perspective view of the cord lock of the second example. Figure 14 is a front elevational view of the cord lock of the second example. Figure 15 is a right side view of the cord lock of the second example. Figure 16 is a perspective view of the cord lock of the third example. 15 323483 201216886 Figure 17 is a front view of the third example of the cord lock. Figure 18 is a right side view of the cord lock of the third example. [Main component symbol description] 1 through hole la hole one end side lb hole other end side lc lower hole edge Id side hole edge le side hole edge first part If side hole edge second part lg, lh, li corner 2 through part 2 , plate-like body 2a, 3a, 5a front face 2b, 3b, 5b back face 3 mounting portion 4 keying portion 4a, elastically deformable portion 4b shaft 5 inner member 6 outer casing portion 6a communication hole 7 end portion 8 back portion 9 step difference 10 bearing Arm portion 11 Projection portion 12 Penetration portion A Object Aa Surface B Rope-like body Ba Free-side side of the rope-like body C Cable lock FI tension F2 Tension X Rotation axis 16 323483