200922856 九、發明說明: 【發明所屬之技術領域】 本發明係關於-種呈三角形狀轉動之雙鼓卷線機。 【先前技術】 第1圖中顯示有先前之卷線機之正視圖。 如第1圖所示,先前之用於捲線線之卷線機1〇〇, (winder)包括以下部分:押寸帶有各種構造物之機身 110’;與上述機身110,之前方結合之一對導軌i2〇,(guide raii);與上述導軌120’結合並進行升降之滑動部13〇, j slide member);與上述滑動部13〇’之左側結合之摩擦 部1401 (fricti〇n member);與上述滑動部13〇,之右側結 合之橫動部150,(traverse member);設於上述滑動部 13〇’之下端之圓形鼓160,(drum);以及分別設於上述圓 形鼓160,之上部及下部之筒管夾161,、162,(b〇bbin holder)。當然,在設於上述圓形鼓16〇,之上部及下部之 筒官夾16Γ、162'上,分別結合有複數個筒管。 圖式中未說明之符號Γ係捲繞於筒管上之線,圖式 中未說明之符號163'係圓形鼓160,之旋轉中心點。 上述先前之卷線機1 〇〇,從位於上部之導絲輥(g〇det roller)(未圖示)供給有線。繼而’上述卷線機ι〇〇,將 上述線經由橫動部150’而供給至設於圓形鼓160,之上端 且同時進行高速旋轉之筒管夾170,,亦即與之結合之筒 & ’藉此將線捲繞至上述筒管上。此時,上述滑動部丨3〇, 200922856 沿著導軌120,下降固定距離,藉此,上述摩擦部⑽’對 捲、凡至上述筒官上之線加壓。由此,線被牢固地捲繞至 上述筒管上。 山之後,對上述卷線機1〇〇,而言,若設在上述鼓Μ。, ,士之筒g夹1 61亦即筒管為滿筒管,則藉由將上述圓 支160旋轉約18〇。而使滿筒管位於圓形鼓Mo,之下 :’使空筒管位於圓形鼓16〇,之上端。料,上述卷線 * 100中’使原先位於上部之筒管夹161,位於下部且 使原先位於下部之筒管夹162,位於上部。 古另方面,上述卷線機正朝向如下方向發展:為提 :線之捲繞效率而使筒管夹之旋轉速度增加,或者為結 s更多的筒管而使筒管夾之長度增加。然而,存在以下 ”:若如上所述般使筒管夹之旋轉速度達到—定速度 或者使其長度達到—定長度以上,則會出現斷線 =動現象變得嚴重’從而產生捲繞不良。因此,增加 “夾之旋轉速度或者增加筒管夾之長度是有限度的。 ,“二’存在一種增加卷線機之設置數目以提高線之捲 之方法’但此時存在以下問題:卷線機所占之空 曰交大,且維修費用增加,因而難以管理。 【發明内容】 [發明所欲解決之問題] =發明係為了解決先前之問題研製而成者,其目的 4供-種呈三角形狀轉動之雙鼓卷線機,該呈三角 200922856 卷7可利用1橫動部來使捲繞效 [料門而不會使設置空間有較大增加。 L解决問題之技術手段] 士支表i 1達成上述目的,本發明之呈三角形狀轉動之雙 :卷線機包括:機身;設於上述機身之前方之一對導 軌;與上述-對導軌結合並進行升降之滑動:4: 兩側之一對摩擦部;在上述滑動部之中:設於 二=部之間的一個橫動部;—對鼓,其等在上述機 1 上述—對摩擦部之下部,且上部及下部分 1'!:官夹;以及鼓旋轉部,其使上述鼓進行圓弧運 缸部之筒管夾位於下部且使下部之筒管失 上部。 上述摩擦部在下端進而設有朝向 本發明之特徵為 上述橫動部之摩擦幸昆 卩包括.與上U動部結合之橫動板;與 述橫動板結合並向預先指定之方向旋轉之橫動凸 輪,以及&動導紗器,其與上述橫動凸輪之兩側結合, 將橫動凸輪之旋轉運動轉換為水平往復運動。 上述鼓旋轉部包括:馬達,其設於上述機身上,且 具有旋轉之驅動輪;張力輪,其藉由鏈條而連結於上述 馬達之驅動輪;被動輪,其藉由上述鏈條而連結於上述 馬達之驅動輪及上述張力輪,且結合於上述鼓之中央; 以及曲線型LM執道’其上分別結合有上述鼓之上端與 200922856 下端,使上述鼓進行圓弧運動。 上述政於長度方向 設於上述鼓上之被動為三角形態。 本發明之特徵為動軌跡為三角形態。 第1曲率之三個第二區面:,線型以執道包括:具有 面部之間且具有第2 =位:上述三個第-區 區面部及第二區”各自:乐二區面部,上述第-原點形成60。之角度 之兩端朝向自身之曲率半徑 於上述曲線型lm軌# 上之軌跡而形成正三角形執跡二=長:方向 頂點至最遠位置處的第自上述正三角形之 區面部之曲率半徑,自上述正面:為止之距離成為第- 處的第二區面部為止之距U二角形之頂點至最近位置 徑。 之距離成為第二區面部之曲率半 本發明之特徵為,上述鼓於 …塊,且上述以塊結合於上述曲=A分別設有 [發明效果] 、曲線型UVT執道。 本發月之壬二角形狀轉動之 橫動部為中心而钟 又支卷線機上,以一個 捲師先;:=摩擦部及兩個鼓,藉此,線之 千/、无刖相比增加為約兩倍。 又,本發明之呈二 之單純將兩個狀㈣之雙鼓卷線機與先前 更少,且二以結合之構造相比,所占之空間 即、、、勺所使用之零件數目(例如,僅使用一個 200922856 横動部)。 又,本發明之呈三角形 經由LM塊而結合 動之雙鼓卷線機中,鼓 藉此,不僅可使鼓 之曲線型UVi軌道, 文政之移動執跡最 時旋轉時不會相互干焊, ,而且當兩個鼓同 進一步最小化。 使卷、、泉摘之設置空間 【實施方式】 約一 Γ下’為了讓具有本發明所屬技術領域之常識者-夠容易地實施,根據圖式來說明本發明之者月匕 筮9罔及丄心 十5x乃I貫轭形態。 弟2圖係本發明之呈三 正視圖。 ㈣狀轉動之雙鼓卷線機之 如第2圖所示,本發明之呈 冉形狀轉動之雙鼓卷 線機100包括:機身11〇、—對 对¥軌120、—個滑動部 130、-對摩擦部140、一個橫動部15〇、一對鼓⑽、 以及使上述政160向特定方向旋轉之鼓旋轉部1。 上述機身110具有設置各種構造物之作用,同時還 具有使上述各種構造物自地面上穩定地安置之作用。冬 然,上述機身110之内部設有馬達、各種齒輪器具、以 及各種電氣控制電路(未圖示)。 上述一對導執120設於上述機身11〇之前方。亦 即’上述一對導執12〇以相互之間隔開特定距離之狀態 設置於垂直方向上。 上述一個滑動部13 0機械地結合於上述一對導轨 200922856 im ’上述滑動㉝13〇可沿著上述—對導執i2〇 而於上下方向上升降。 上述-對摩擦部140設於上述滑動部13〇之兩側。 亦即,上述一對摩擦部14〇在上述滑動部130之左、右 側分別相互隔開固定距離而設置著。 、又,上述一對摩擦部140上進而設有摩擦輥⑷, 以使摩擦輕141在線之捲繞動作中緊貼於筒管而旋轉, 错此將線牢固地捲繞至筒管上。上述摩擦輕ΐ4ι朝向設 於中央之橫動部150。亦即,以橫動部15〇為中心而於 工右側77別5又有摩_部14(),而設於上述摩擦部14〇 上之摩擦輥141朝向上述中央之橫動部15〇。 上述橫動部150在上述滑動部13〇之中央設於上述 '们摩U 140之間。又,上述橫動部15〇包括:與滑 動部130結合之橫動板151 ;與上述橫純151結合之 同時向敎方向旋轉之橫動凸輪152;以及橫動導紗器 /、”上述杈動凸輪丨52之兩側結合,將上述樺動 =輪⑸之旋轉運動轉換為水平往復運動。亦即,分別 :於上述;U動凸輪152之左、右側之橫動導紗器⑸朝 °摩擦輥141。當然’來自導絲輥(未圖示)之線受到 t述橫動導紗器153在料方向上之往復引導,從而沿 水平方向捲繞至與上述筒管失161結合之筒管上。由於 ^橫動凸輪152與橫動導紗器153之結合構造已廣為 本領域技術人員所熟知,故此處省略進一步之說明。 200922856 部Η。中之摩擦輕;4二端上=分別設於摩擦 直方向上之長戶知k巫下鳊。又,上述鼓160設為垂 上端及下端二乂 ,方向上之長度更長的形態,且在 上鈿及下鳊分別設有筒管夹 隹 16〇中之上端設有 ’亦即’於上述鼓 上述鼓⑽中之ΐ端接近之筒管夾161,於 在由筒管夹⑹所3U^二=再者,上述鼓160 ⑽。。例如在第2圖中,捲滿線時則旋轉約 向逆時斜方自又於左側之鼓“Ο在捲滿線時 —針方向旋轉180。,設 : 時針方向旋轉18〇。。 叉在捲滿線%向順 上述鼓旋轉部1 70且有 間不會干擾且佔據最小;間兩個鼓16。相互 鼓旋轉部m包括被動輪175疋^之j乍用。亦即,上述 等,因此具有 两 曲線型LM執道176 且使下部之以忐 &上部之筒管夹161位於下部, 夹⑹結合H^62位於上部。藉此’與上部之筒管 結合之办^於下部,且與下部之筒管夾⑹ 之m立於上部。圖式 不鼓^之長度方向上之執跡。月之付说n係表 弟3圖係表不本發二 機的鼓旋轉部之構歧動作之崎動之雙鼓卷線 ”:鏈圖:::^部⑺包括:馬達一動輪 1來1 73、張力輪]%、姑 74被動輪175、以及曲線型 -]ι - 200922856 LM執道176。 上述馬達171可為通常之電動馬達,但本發明並 限定於上述種類。 上述驅動輪172結合於上述馬達171之旋轉軸而向 特定方向旋轉。 上述鏈條173結合於上述驅動輪172而向特定方向 移動。當,然,可利用通常之皮帶及其等價物來取代上述 鏈條173,此處,其種類並未受到限定。 上述張力輪174結合於上述鏈條173而向特定方向 方疋轉,且被設置為可根據上述被動輪175之位置而在上 部及下部方向上轉動固歧離。例如’可於上述張力輪 174上設置彈簧等’以利用作用於鏈條173上之張力而 在上部及下部方向上轉動固定距離。上述張力輪⑺藉 由作用於鏈條173上之張力而在上部或下部方向上之^ 動之構成係已為本領域技術人員所熟知之通常技術,故 省略關於該構成之更多說明。 上述被動輪175結合於上述鼓16〇之大致中央或其 附近處。亦即,上述被動輪175被固定於設在上部之筒 管夾161及設在下部之筒管夾162之間的大致中間或其 附近處的上述鼓16〇上。 a上述曲線型LM軌道176將於以下進行更詳細之說 八為大致一角之閉曲線形態。再者,上述曲線型Lm 執遏17 6設為各邊及各頂點均具有特定之曲率半徑之 -12- 200922856 曲形態 著鼓I::二於上述曲線型⑽軌道176之内側,沿 :3:度方向上之軌跡而形成正-角形執跡⑺)。 之鼓旋轉部17。係以橫動部15。為綱於 捲滿線時鼓】6。向大致逆時針方向轉動。當 M k動部W為基準設於右側的鼓⑽在捲滿線時 向大致順時針方向轉動。 士又,設於上述鼓⑽之中央的被動輪175在捲滿線 日4繪二角執跡(T2)而向特定方向轉動。然而,構成 上述執跡(Τ2)之三角形各邊具有特定曲率。再者,第 ^圖所示之被動輪175係以橫動部15()為基準設於左側 ,,在捲滿線時向大致料針方向轉動。當然,以橫動 j 1士50為基準設於右㈣被動* 175在捲滿線時向大致 C 4針方向移動。鼓丨6〇於上述曲線型執道1 %上 之移動狀態將於以下進行更詳細之說明。 一第4圖係表示可使本發明之呈三角形狀轉動之雙鼓 卷線機的鼓進行圓弧運動的曲線型L M軌道之概略平面 圖。 如第4圖所示,曲線型LM執道176包括:具有第 曲率(R1)之二個弟一區面部176a,以及位於上述三 個第一區面部176a之間且具有第2曲率(R2)之三個 第一區面部176b,上述第一區面部176a及第二區面部 176b各自之兩端朝向自身之曲率半徑r卜尺2之原點形 •13- 200922856 ::0。之角度。此處,第一區㈣17“之 亦即,第—^ (Μ)相比,相對更大。 £面邛176a之長度較第二區面 度而言相對更長。 /⑽之長 X於上述曲線型LM軌道176之内#卜沿著鼓之 、向上之執跡而形成正三角形軌跡了!,從上述正三 2之頂點至最遠位置處的第—區面部,為止之距 離成為第-區面部176a之曲率半徑仏自上述正三角 也之頂點至最近位置處的第二區面部176 成為第二區面部㈣之曲率半徑以。根據上述構成離 ^述曲線型LM執道176成為各頂點及各邊具有特定曲 率之大致三角軌道形態。 第5A圖係表示本發明之呈三角形狀轉動之雙鼓卷 «的曲線型LM軌道肖LM塊之結合狀態之平面圖, 第5B圖係剖面圖,第5C圖係側面圖,第5d圖係立體 圖。 如第5A圖所示,曲線型LM執道176具有特定半 杈而形成,於上述曲線型LM執道176上可移動地結合 有LM塊177。當然,上述LM塊177於上述曲線型 執道176上結合有兩個,且於其上部分別結合有鼓16〇 之上端及下端。亦即,在鼓160之上端及下端分別結合 有LM塊177,上述兩個LM塊177結合於一個曲線型 LM執道176。 -14- 200922856 又,如第5β圖至第5^岡碎_丄 圖所不,在曲線型LM執道 176與LM塊177之間介启古★私,、 逼 177 t、f A t 稷數個球178,上述塊 177如者上述曲她M軌道176而平緩地轉動。 以下’對具有上述構成之2二 风之王一角开^狀轉動之雙鼓表 線機之整個動作進行說明。 從位於呈三角形狀轉動之雙鼓卷線機⑽之上部的 導絲輥(未圖示)向下部之左、右方向分別供給線。上 述線受到橫動部15G之橫動凸輪152及橫動導紗器153 導’被捲繞至設於上述橫動部15〇之左、右側的各 筒官夾161之筒管上。亦即,線被捲繞至設於橫動部⑼ 之左右側之豉16G中的與相對地位於上部之筒管夹 161結合之筒管上。此時,上述橫動冑150巾,如上所 述,橫動導紗1 153將橫動凸輪152之旋轉運動轉換成 水平往復運動,藉此,線—面於水平方向上往復移動, 一面被供給至筒管。 又,於上述捲繞動作中,滑動部130沿著導執12〇 下降至最低位置。因此,與上述滑動部130結合之摩擦 部140及橫動部15〇亦下降至最低位置。進而,設於上 述摩擦部140上之摩擦輥141緊貼於捲繞至上述筒管上 之線而旋轉,從而使線緻密且牢固地捲繞至上述筒管 上。儘官圖式中顯示了橫動部150中之橫動板151干擾 到政1,但貫際上橫動板151為緊貼於滑動部13〇之 板形態’且鼓160與機身110隔開固定距離而設置著, 15- 200922856 因而不存在相互間之干擾現象。 繼而,若將線持續捲繞至筒管上,則捲繞至上述筒 管上之線之捲繞厚度备逵 m厚度而成為滿 卷狀L。右如此,則上述滑動部13 0沿導執i 2 〇向上 上升固定距離。ϋ此,與上述滑動部130結合之兩個摩 擦部刚以及一個橫動…5〇亦會向上部上彳。在成為 上述狀態後,準備使上述各鼓16〇分別旋轉約⑽。。亦 Γ即’使原先於上部結合有滿筒管之筒管夾161位於下 部’使原先於下部結合有空筒管之筒管夹162絲上部。 以下參照隨附之第6Α圖至第仍圖進行更詳細之 祝明。此處,圖中心之鼓細第2圖為基準而設 側之鼓為例。 ' 之鼓如第6A圖所示,在豎立於垂直方向之形態 2味―的上端所設置之筒管夾161上,亦即與之結 二同管上捲滿線。圖式中,該狀態表示為影線。當然, 160中的下端所設置之筒管《162上為結合有空筒 態。又’料符號T1表示鼓16()之移動執跡 ^付T2表示結合於鼓⑽之被動輪175之移動軌 如第6B圖所示,以原先下部之筒管夹162為中心, 邛之筒管央161向大致左側下部移動。 逆e士 未圖示之馬達171動作,使鏈條173向大致 、’十方向旋轉(參照苐3圖),藉此,結合於上述鼓 -16- 200922856 160之被動輪175向大致左侧下部移動。同時,在下部 之筒管夾162被固定之狀態下,僅上部之筒管夹i6i : 著曲線型LM執道176向大致左側下部移動。 …繼而,如第6C圖所示,以筒管失161為中心,筒 官夾162向大致右側上部移動。 亦即’未圖示之馬達171動作,使鏈條173進一步 向大致逆時針方向旋轉(參照第3圖),藉此,結合於 上述鼓160之被動輪175肖大致上部移動。同時,:上 :::官夾161被固定之狀態下,僅下部之筒管夾ία 化者曲線型LM執道176向大致上部移動。 一 +取後’如第6〇圖所示’以筒管夹162為中心,筒 If:6:向大致右側下部移動’藉此,原先位於下部之 向上部移動’原先位於上部之筒管夹⑹向 圖不之馬達ηΐ動作,使鏈條173進一步 丄述;Ϊ =針方向旋轉(參照第3圖),藉此,結合於 在^〜Ϊ被動輪175向大致右側上部移動。同時, 16 2 :::、: f 161被固定之狀態下’僅下部之筒管夾 "& LM執道176向大致下部右側移動。 ⑹之二Π1:旋轉後,再次向結合於上述筒管夾 吕上i、給線,藉此,連續地進行線之 斷。當然,與上述筒管央161結合之 : 稭由未圖示之筒管分離裝置而從筒管夹i6i上分離。 200922856200922856 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a double drum reeling machine that rotates in a triangular shape. [Prior Art] A front view of the previous winding machine is shown in Fig. 1. As shown in Fig. 1, the former winder for winding a wire, the winder includes the following parts: a body 110' having various structures; and the body 110, the former combination a pair of guide rails i2, (guide raii); a sliding portion 13 〇, j slide member) combined with the above-mentioned guide rail 120'; and a friction portion 1401 combined with the left side of the sliding portion 13'' (fricti〇n a traverse portion 150 coupled to the right side of the sliding portion 13A, and a circular drum 160 disposed at a lower end of the sliding portion 13''; and respectively disposed on the circle The drum 160, the upper and lower bobbin clamps 161, 162, (b〇bbin holder). Of course, a plurality of bobbins are respectively combined on the upper and lower cylindrical members 16 Γ and 162' provided on the circular drum 16 上述. The symbol 未, which is not illustrated in the drawings, is a thread wound on a bobbin, and the symbol 163', which is not illustrated in the drawings, is a circular center of rotation of the circular drum 160. The above-described conventional winding machine 1 is supplied with a wire from a g导det roller (not shown) located at the upper portion. Then, the above-mentioned winding machine ι〇〇 supplies the above-mentioned wire to the upper end of the circular drum 160 via the traverse portion 150', and simultaneously rotates the bobbin holder 170 at a high speed, that is, the tube combined with it & 'But the wire is wound onto the above bobbin. At this time, the sliding portion 丨3〇, 200922856 is lowered by a fixed distance along the guide rail 120, whereby the friction portion (10)' presses the wire to the line on the cylinder. Thereby, the wire is firmly wound onto the bobbin. After the mountain, the above-mentioned winding machine 1 is provided in the above drum. , the cylinder of the g-clamp 1 61, that is, the bobbin is a full bobbin, by rotating the above-mentioned circular branch 160 about 18 〇. And the full bobbin is located under the circular drum Mo, ': The empty bobbin is located at the upper end of the circular drum 16 。. In the above-mentioned winding line * 100, the bobbin holder 161 which is originally located at the upper portion is placed at the lower portion, and the bobbin holder 162 which is originally located at the lower portion is located at the upper portion. In other respects, the above-mentioned winding machine is moving in the direction of increasing the rotational speed of the bobbin clamp for the winding efficiency of the wire, or increasing the length of the bobbin clamp for more bobbins. However, there is the following ": If the rotation speed of the bobbin holder reaches the constant speed or the length thereof is equal to or longer than the fixed length as described above, the disconnection = the movement phenomenon becomes severe", resulting in winding failure. Therefore, there is a limit to increasing the "rotation speed of the clip or increasing the length of the bobbin holder. "Two" has a method of increasing the number of winding machines to increase the volume of the wire. However, there is a problem at this time: the space occupied by the winding machine is large, and the maintenance cost is increased, so that it is difficult to manage. 】 [The problem to be solved by the invention] = The invention was developed in order to solve the previous problem, and the purpose of the invention is to provide a double drum reeling machine with a triangular shape rotating, and the triangle 200922856 volume 7 can utilize 1 traverse The part is used to make the winding effect [the material door does not increase the installation space greatly. L. Technical means for solving the problem] The stalk table i 1 achieves the above object, and the double-shaped rotating double of the present invention: the winding machine includes a fuselage; one of the pair of guide rails disposed on the front side of the fuselage; and the sliding of the above-mentioned pair of rails for lifting and lowering: 4: one pair of friction parts on both sides; among the above sliding parts: set at two = part a traverse portion between the two; a pair of drums, which are in the above-mentioned machine 1 - the lower portion of the friction portion, and the upper and lower portions 1': the official folder; and the drum rotating portion, which causes the drum to perform an arc The cylinder clamp of the cylinder is located at the lower part and the lower tube is lost. The friction portion is further provided at the lower end with a traverse plate which is characterized by the traverse portion of the present invention, including a traverse plate coupled with the upper U-moving portion; combined with the traversing plate and rotated in a predetermined direction a traverse cam, and a moving guide, which is coupled with the two sides of the traverse cam to convert the rotational motion of the traverse cam into a horizontal reciprocating motion. The drum rotating portion includes a motor disposed on the body And a rotating driving wheel; the tension wheel is coupled to the driving wheel of the motor by a chain; the driven wheel is coupled to the driving wheel of the motor and the tension wheel by the chain, and is coupled to the drum The center of the present invention; and the curved LM trajectory 'the upper end of the drum and the lower end of the 200922856 are respectively coupled to the circular motion of the drum. The above-mentioned passively disposed on the drum in the longitudinal direction is in a triangular state. The feature is that the moving trajectory is a triangular state. The three second regional faces of the first curvature: the linear type includes: having between the faces and having the 2nd position: the above three first-regional faces And a second region "are each: Lok portion II, the first - the origin 60 is formed. The radius of curvature of the two ends of the angle toward the trajectory of the curved type lm rail # forms an equilateral triangle. The second radius is the radius of curvature of the surface of the region from the vertices to the farthest position. From the front side: the distance from the apex of the U dih to the nearest position to the second area of the first part. The distance is the curvature half of the second-area face. The present invention is characterized in that the drum is arranged in a block, and the above-mentioned block=A is combined with the above-mentioned curve=A, and the curved effect UVT is provided. The traverse part of the shape of the twentieth of the month of the month is centered on the winding machine, and the first is a winding machine;:=the friction part and the two drums, thereby the line thousand/, the flawless phase The ratio is increased by about twice. Moreover, the double-drum reeling machine of the present invention has two fewer (four) double-drum reeling machines than before, and the space occupied by the two-piece (four) is the number of parts used by the scoop (for example, , use only one 200922856 traverse section). Moreover, in the double drum reeling machine in which the triangular shape of the present invention is coupled via the LM block, the drum can not only dry the curved UVi track of the drum, but also does not dry weld each other when the movement of the literary movement is rotated at the most time. And when the two drums are further minimized. Setting space for making a roll and a spring [Embodiment] In order to make it easy for a person having ordinary knowledge in the technical field to which the present invention pertains, the present invention will be described based on the drawings. The heart is ten 5x is the I yoke form. The second diagram is a three-front view of the present invention. (D) Rotating double drum reeling machine As shown in FIG. 2, the double drum reeling machine 100 of the present invention having a crucible shape rotation includes: a body 11 〇, a pair of ¥ 120 120, a sliding portion 130 And a pair of friction portions 140, one traverse portion 15A, a pair of drums (10), and a drum rotating portion 1 that rotates the above-described polity 160 in a specific direction. The above-described body 110 has a function of providing various structures, and also has a function of stably arranging the above various structures from the ground. In the winter, the inside of the body 110 is provided with a motor, various gears, and various electric control circuits (not shown). The pair of guides 120 are provided in front of the body 11〇. That is, the pair of guides 12 are disposed in the vertical direction in a state of being spaced apart from each other by a certain distance. The one sliding portion 130 is mechanically coupled to the pair of guide rails 200922856 im ′. The sliding portion 3313 升降 can be raised and lowered in the vertical direction along the above-described guide rail i2 〇. The above-described pair of friction portions 140 are provided on both sides of the sliding portion 13A. In other words, the pair of friction portions 14 are disposed at a fixed distance from each other on the left and right sides of the sliding portion 130. Further, the pair of friction portions 140 are further provided with a friction roller (4) so that the friction light 141 is rotated in close contact with the bobbin during the winding operation, and the wire is firmly wound onto the bobbin. The above-mentioned friction tweezer 4i faces the traverse portion 150 provided at the center. In other words, the frictional roller 141 provided on the friction portion 14A faces the center traverse portion 15A with the traverse portion 15A as the center and the motor portion 77. The traverse portion 150 is provided between the above-mentioned "U" U 140 at the center of the sliding portion 13A. Further, the traverse portion 15A includes a traverse plate 151 coupled to the sliding portion 130, a traverse cam 152 that rotates in the 敎 direction while being combined with the horizontal 151, and a traverse guide/" The two sides of the movable cam 丨 52 are combined to convert the rotary motion of the above-mentioned birch=wheel (5) into a horizontal reciprocating motion, that is, respectively: above; the left and right traverse guides (5) of the U-moving cam 152 are facing toward Friction roller 141. Of course, the line from the godet roller (not shown) is reciprocally guided in the direction of the material by the traverse guide 153, so as to be wound in the horizontal direction to the barrel combined with the above-mentioned bobbin loss 161. Since the combination of the traversing cam 152 and the traverse guide 153 is well known to those skilled in the art, further explanation is omitted here. 200922856 Partially. The friction in the middle is light; 4 on the two ends = The long drums are arranged in the straight direction of the friction, and the drums 160 are arranged in the upper end and the lower end, and the length in the direction is longer, and the bobbins are respectively provided in the upper and lower jaws. The upper end of the folder 16 is provided with 'also known as 'the drum above the drum (10) The end of the tube clamp 161 is close to the tube clamp 161, and the drum 160 (10) is replaced by the tube clamp (6). For example, in the second figure, when the line is full, the rotation is about the reverse direction. The drum from the left side is "when the thread is full" - the needle rotates 180. , Set : Rotate 18 inches in the hour hand direction. . The fork is in the full line % direction to the above drum rotating portion 1 70 and does not interfere and occupy the smallest; the two drums 16 are in between. The mutual drum rotating portion m includes a passive wheel 175. That is, the above-mentioned, etc., therefore has a two-curved LM trajectory 176 and the lower portion of the upper tube clamp 161 is located at the lower portion, and the clamp (6) is coupled with the H^62 at the upper portion. This is combined with the upper bobbin to the lower portion, and the lower bobbin clamp (6) is placed on the upper portion. The pattern does not drum the length of the obstruction. The payment of the month says that the n-series cousin 3 is not the two drums of the drum rotation part of the two-machine drum. "The chain diagram:::^ part (7) includes: the motor one wheel 1 1 73. Tension wheel]%, Gu74 passive wheel 175, and curved type-] ι - 200922856 LM 176. The motor 171 may be a normal electric motor, but the present invention is limited to the above-described type. The chain 173 is rotated in a specific direction in conjunction with the rotation shaft of the motor 171. The chain 173 is coupled to the drive wheel 172 to move in a specific direction. When the belt 173 is replaced with a normal belt and its equivalent, the chain 173 may be replaced here. The type of the tension wheel 174 is coupled to the chain 173 to be rotated in a specific direction, and is provided to be rotatable in the upper and lower directions according to the position of the driven wheel 175. For example, A spring or the like may be provided on the tension wheel 174 to rotate a fixed distance in the upper and lower directions by the tension acting on the chain 173. The tension wheel (7) is in the upper or lower portion by the tension acting on the chain 173. The configuration of the upward movement is a common technique well known to those skilled in the art, and therefore a more detailed description of the configuration is omitted. The passive wheel 175 is coupled to substantially the center of the drum 16〇 or its vicinity. The driven wheel 175 is fixed to the drum 16A disposed substantially at or near the intermediate between the upper tube clamp 161 and the lower tube clamp 162. The curved LM rail 176 will be as follows In more detail, the eighth is a closed-loop curve shape. In addition, the above-mentioned curved Lm is set to 17 6 to set each side and each vertex to have a specific radius of curvature -12- 200922856. On the inner side of the curved type (10) rail 176, a positive-angular shape (7) is formed along a trajectory in a direction of 3: degrees. The drum rotating portion 17 is a traverse portion 15. The drum is used for the full line. 6. Rotate in a substantially counterclockwise direction. When the drum (10) provided on the right side of the M k moving portion W is wound in a substantially clockwise direction, the driven wheel 175 is disposed in the center of the drum (10). In the full line of the day 4 draw two corners (T2) and in a specific direction However, each side of the triangle constituting the above-mentioned obstruction (Τ2) has a specific curvature. Further, the passive wheel 175 shown in the figure is set on the left side with respect to the traverse portion 15(), and is in the full line. When it is rotated in the direction of the needle, it is set to the right (four) passive * 175 with the traverse j 1 士 50 as the reference. When the line is full, it moves in the direction of the C 4 needle. The drum 丨 6 〇 in the above curve type 1 The moving state on the % will be described in more detail below. Fig. 4 is a schematic plan view showing a curved LM rail in which the drum of the double drum reeling machine of the present invention is rotated in a circular arc. As shown in FIG. 4, the curved LM trajectory 176 includes: two diaper-area portions 176a having a first curvature (R1), and a third curvature (R2) between the three first-region-surface portions 176a. The three first-area surface portions 176b, the two ends of the first-area surface portion 176a and the second-area-surface portion 176b are oriented toward the radius of curvature of the ruler r2 of the ruler 2: 13-200922856::0. The angle. Here, the first zone (4) 17", that is, the first -^ (Μ) is relatively larger. The length of the face 176a is relatively longer than that of the second zone. / (10) The length X is above Within the curved LM track 176, a regular triangle track is formed along the drum and upwards! From the apex of the positive three 2 to the first face at the farthest position, the distance becomes the first zone. The radius of curvature of the face 176a is from the vertex of the positive triangle to the second zone face 176 at the nearest position as the radius of curvature of the second zone face (4). According to the above configuration, the curve type LM is 176 and becomes the apex and Each side has a substantially triangular orbital shape of a specific curvature. Fig. 5A is a plan view showing a combined state of a curved LM track LM block of a double-drum roll « in the triangular shape of the present invention, and Fig. 5B is a sectional view, 5C is a side view, and Fig. 5d is a perspective view. As shown in Fig. 5A, the curved LM trajectory 176 is formed with a specific half turn, and the LM block 177 is movably coupled to the curved LM trajectory 176. Of course, the above LM block 177 is on the above curved type 176. There are two, and the upper end and the lower end of the drum 16 are respectively combined on the upper portion thereof. That is, the LM block 177 is respectively coupled to the upper end and the lower end of the drum 160, and the two LM blocks 177 are combined with a curved LM. Acting 176. -14- 200922856 Also, as in the 5th to 5th, the LM is 176, and the LM block 177 is between the LM and 177. f A t 稷 a number of balls 178, and the above-mentioned block 177 is gently rotated as described above by the M-track 176. The following 'the entire double-drum line machine that has the above-mentioned composition of the two kings of the two winds The operation is described. A guide roller (not shown) located above the double drum reel (10) rotating in a triangular shape is supplied to the left and right directions in the downward direction, respectively. The line is traversed by the traverse portion 15G. 152 and the traverse guide 153 are "wound" to the bobbin provided on each of the left and right side of the traverse portion 15A. That is, the wire is wound to the traverse portion. (9) on the left and right sides of the cymbal 16G, which is coupled to the bobbin tube 16 which is relatively located on the upper tube clamp 161. At this time, the traverse 胄 150 towel, As described above, the traverse guide yarn 1 153 converts the rotational motion of the traverse cam 152 into a horizontal reciprocating motion, whereby the line-surface reciprocates in the horizontal direction and is supplied to the bobbin on one side. During the operation, the sliding portion 130 is lowered to the lowest position along the guide 12 。. Therefore, the friction portion 140 and the traverse portion 15 结合 combined with the sliding portion 130 are also lowered to the lowest position. Further, the sliding portion 140 is provided on the friction portion 140. The friction roller 141 is rotated in close contact with the wire wound around the bobbin, so that the wire is densely and firmly wound onto the bobbin. The traverse plate 151 in the traversing portion 150 is shown to interfere with the policing, but the traversing plate 151 is in the form of a plate that is in close contact with the sliding portion 13 and the drum 160 is separated from the body 110. It is set to open a fixed distance, 15-200922856, so there is no mutual interference. Then, when the wire is continuously wound onto the bobbin, the winding thickness of the wire wound around the bobbin is 逵m thick and becomes a full roll L. In the right case, the sliding portion 130 is raised upward by a fixed distance along the guide i 2 〇. Thus, the two friction portions that are combined with the sliding portion 130 and the one traverse ... 5 〇 will also be lifted upward. After the above state is reached, it is prepared to rotate each of the drums 16 to about (10). . That is, the bobbin holder 161 which is originally joined to the upper portion with the full bobbin is placed at the lower portion, so that the upper portion of the bobbin holder 162 of the original bobbin is joined to the lower portion. In the following, a more detailed description will be made with reference to the attached figure 6 to the still figure. Here, the drum of the center of the figure is a reference to the drum on the side of the reference. As shown in Fig. 6A, the drum is wound on the bobbin holder 161 provided at the upper end of the erecting erection in the vertical direction, that is, the tube is wound up. In the figure, this state is represented as a hatch. Of course, the bobbin "162" provided at the lower end of the 160 is combined with an empty cylinder. Further, the symbol T1 indicates the movement of the drum 16 (). The movement T2 indicates that the moving rail of the passive wheel 175 coupled to the drum (10) is as shown in Fig. 6B, centering on the original lower tube clamp 162. The tube center 161 moves to the lower left side. The motor 171 (not shown) operates in the reverse direction, and the chain 173 is rotated in the approximate "ten direction" (see FIG. 3), whereby the passive wheel 175 coupled to the drum-16-200922856 160 moves to the lower left side. . At the same time, in the state in which the lower bobbin holder 162 is fixed, only the upper bobbin holder i6i: the curved type LM cue 176 is moved to the substantially left lower portion. Then, as shown in Fig. 6C, the tubular pin 162 is moved to the substantially right upper portion centering on the bobbin case 161. That is, the motor 171 (not shown) operates to further rotate the chain 173 substantially counterclockwise (see Fig. 3), whereby the driven wheel 175 coupled to the drum 160 is moved substantially upward. At the same time, in the state where the upper::: the official clip 161 is fixed, only the lower bobbin clamp ί is rotated to the upper portion. After a + after 'as shown in Fig. 6 'with the bobbin holder 162 as the center, the tube If: 6: moving to the lower right side of the lower part 'by the lower part of the lower part of the movement 'the original upper tube clamp (6) The motor η ΐ is operated, and the chain 173 is further described; Ϊ = the needle direction is rotated (see FIG. 3), whereby the passive wheel 175 is coupled to the substantially right upper portion. At the same time, 16 2 :::, : f 161 is fixed, and only the lower bobbin holder "& LM traverse 176 moves to the lower right side. (6) Π1: After the rotation, the wire is again coupled to the above-mentioned bobbin clamp i, and the wire is continuously wound. Of course, it is combined with the above-mentioned bobbin trunk 161: The straw is separated from the bobbin holder i6i by a bobbin separating device (not shown). 200922856
以上係用以實施本發明之呈三角形狀轉動之雔鼓 卷線機的-個實_,本發明並非限定於上述特定: 佳實施例’根據中請專利範圍所申請的本發明之基本: 念,只要為具有本技術領域之常識I 施變形,上述變形収本發明之申請專利範=各“ 【圖式簡單說明】 第1圖係表示先前之卷線機之正視圖。 第2圖係表示本發明之呈二自 機之正視圖。 之王-角开/狀轉動之雙鼓卷線 機的示本發明之呈三㈣狀轉動之雙鼓卷線 機的豉%轉部之構成及動作之概略圖。 係表示可使本發明之呈三㈣ ^線機的鼓進行圓弧運動的曲線型以執道之概略平面 第5Α㈣表示本發明之呈三角形狀轉動之 線機的曲線型LM執道與LM塊之 : 第沾圖係剖面圖,第5CH仙而°同口狀恶之平面圖’ 圖。 ㈣帛5C圖係側面圖,第5D圖係立體 狀輕=6A圖至第6D圖係依次表示本發明之呈三角形 之雙鼓卷線機的鼓的運動狀態之概念圖。 【主要元件符號說明】 “ 1〇〇丨 no' 卷線機 機身 -18- 200922856 120' 導軌 130’ 滑動部 140' 摩擦部 150' 橫動部 160, 圓形鼓 161' 筒管夾 162’ 筒管夾 163' 旋轉中心點 170' 筒管夾 100 雙鼓卷線機 110 機身 120 導軌 130 滑動部 140 摩擦部 141 摩擦輕 150 橫動部 151 橫動板 152 橫動凸輪 153 橫動導紗器 160 鼓 161 、 162 筒管夾 170 鼓旋轉部 171 馬達 -19- 200922856 172 驅動輪 173 鏈條 174 張力輪 175 被動輪 176 曲線型LM軌道 176a 第一區面部 176b 第二區面部 177 LM塊 178 球 T1 正三角形執跡 T2 軌跡 -20-The above is a method for implementing the triangular-shaped rotating drum reeling machine of the present invention, and the present invention is not limited to the above specific: The preferred embodiment is based on the basic application of the invention as claimed in the patent application scope: As long as there is a variation in the art, the above-described variants of the invention are as follows: [Simplified description of the drawings] Fig. 1 shows a front view of a prior winding machine. Fig. 2 shows The front view of the second self-machine of the present invention. The structure and action of the 豉% turn of the double drum reeling machine of the present invention in the three-four-rotation rotation of the double drum reeling machine of the present invention The schematic diagram shows that the drum of the three-fourth machine of the present invention can be circularly moved, and the curved plane of the triangular shape of the present invention is shown by the curved plane of the fifth aspect of the present invention. The road and the LM block: the first part of the map, the 5th centimeter and the same mouth-like evil plan 'Fig. (4) 帛 5C picture side view, the 5D picture is three-dimensional light = 6A to 6D The movement of the drum of the triangular double drum reeling machine of the present invention is shown in order Conceptual diagram. [Main component symbol description] "1〇〇丨no' reel body -18- 200922856 120' rail 130' sliding portion 140' friction portion 150' traverse portion 160, circular drum 161' tube Pipe clamp 162' bobbin clamp 163' rotation center point 170' bobbin clamp 100 double drum reeling machine 110 fuselage 120 rail 130 sliding portion 140 friction portion 141 friction light 150 traverse portion 151 traverse plate 152 traverse cam 153 Traverse guide 160 drum 161, 162 bobbin holder 170 drum rotating portion 171 motor-19- 200922856 172 drive wheel 173 chain 174 tension wheel 175 passive wheel 176 curved LM rail 176a first section 176b second section 177 LM block 178 ball T1 regular triangle track T2 track -20-