201022123 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種絲線捲繞裝置及其方法,特別 是關於一種可防止最内層中間起褶的絲線捲繞裝置及其 方法。 【先前技術】 請參閱圖1A與圖1B,圖1A其係為習知技藝之絲 線捲繞裝置之示意圖,且圖1B係為具有中間起褶的蛋 糕狀情況之線軸之示意圖。 如圖1A所示,絲線捲繞裝置100’包括一可旋轉的 旋轉滾筒110’、一橫動輥部120’與一摩擦輥部130’。旋 轉滚筒110’可於其上下部旋轉地設置線軸架(bobbin holder) 11Γ、112’,且橫動輥部120’位於旋轉滚筒110’ 的上部,並設置於線軸架111’、112’的線軸上以規定寬 度捲繞絲線。摩擦輥部130’通過與旋轉滾筒110’的上部 線轴接觸,並對絲線Y產生一壓力。本文中,所述線軸 亦稱為支管,而絲線捲繞在線軸上的狀態亦稱為蛋糕狀 (cake) 〇 絲線捲繞裝置100’在上部線軸形成一滿負載線軸 113’時,於下部線軸亦形成一空負載線軸114’,通過旋 轉滚筒110’以規定角度旋轉,使得滿負載線軸113’和空 負載線轴114’的位置互換。即,如圖1A所示,通過旋 轉滾筒110’的旋轉,使得空負載線軸114’位於旋轉滾 201022123 筒110’之上部,滿負載線轴113,位於旋轉滾筒110,之下BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wire winding device and a method thereof, and more particularly to a wire winding device and a method thereof for preventing lining of an innermost layer. [Prior Art] Referring to Fig. 1A and Fig. 1B, Fig. 1A is a schematic view of a wire winding device of the prior art, and Fig. 1B is a schematic view of a bobbin having an intermediate pleated egg cake. As shown in Fig. 1A, the wire winding device 100' includes a rotatable rotary drum 110', a traverse roller portion 120' and a friction roller portion 130'. The rotary drum 110' is rotatably provided with bobbin holders 11A, 112' at its upper and lower portions, and the traverse roller portion 120' is located at an upper portion of the rotary drum 110' and is disposed on the bobbin of the bobbin 111', 112'. The wire is wound up in a prescribed width. The rubbing roller portion 130' comes into contact with the upper bobbin of the rotary drum 110' and generates a pressure to the yarn Y. Herein, the bobbin is also referred to as a branch pipe, and the state in which the wire is wound on the bobbin is also referred to as a cake. The wire winding device 100' is formed on the lower bobbin when the upper bobbin forms a full load bobbin 113'. An empty load spool 114' is also formed which is rotated by a predetermined angle by the rotating drum 110' such that the positions of the full load spool 113' and the empty load spool 114' are interchanged. That is, as shown in Fig. 1A, by the rotation of the rotary drum 110', the empty load bobbin 114' is located above the drum 110' of the rotating roller 201022123, and the full load spool 113 is located below the rotary drum 110.
部。 D 此外,在狀態下,絲線Y移動到旋轉滚筒11〇,之上 部的空負載線軸114,侧時可被切斷。為達到切斷的目 的,橫動輥部120,和摩擦輥部13〇,須從旋轉滾筒11〇,向 上方上升一高度,然後下部的滿負載線軸113,停止旋 轉。此時,上部的空負載線轴114,繼續旋轉,由此使得 絲線Y移動到上部的空負載線軸114,上的同時,在滿負 載線軸113,和空負載線軸114,之間可切斷絲線。 、 但是,這種現有的絲線捲繞裝置和採用裝置的絲線 移動和切斷方法存在以下的問題,即在絲線移動和切斷 時,由於橫動輥部120,和摩擦輥部13〇,從旋轉滚筒11〇, 上升至一咼度,開始產生新的捲繞的線轴(空負載線軸) 的褶皺在中央處集中。即,如圖1Β所示,集中在蛋糕 狀c的中央的絲線捲繞在最内層,產生一中部起褶(mb middle bunch)現象。 ❹ 此問題是由於絲線移動和切斷時,橫動輥部12〇,和 摩擦輥部130’從旋轉滾筒110,上升一高度造成的。亦 即’從空負载線軸114,到橫動輥部12〇,的距離相對較 遠’因此在開始捲繞時,絲線會集中捲繞在線軸的中心 部分。像這樣線上軸產生中部起褶現象後,為製造各種 坯料而解開絲線時,絲線會產生張力差,在染色等的後 續工序中也會產生問題,在影響較大的情況下還會產生 絲線切斷的問題。 201022123 【發明内容】 传提之問題,本發明之其中-目的 2出-種可防止最内層中間起褶的絲線捲繞裝置及其 t ’可在橫動輥部和摩擦輥部*上升的狀態下,移動 同時將絲線切斷,因此可防止最内層產生中間起 最内月之另—目的’提出—種提供—種可防止 f内層中間起褶的絲線捲繞裝置及其方法,可防止锋線 =和:斷時絲線的過度脫離,並維持-定的張力’, 使、糸線進行正確移動和切斷。 根據本發明之再—目的H種可防止最内層中 線捲繞裝置及其方法,可透過旋轉滾筒之下 π滿負載線轴的制動力將絲線切斷。 為達到上述目的,本發明提出一種可防止 間起褶的絲線捲繞裝置,包括一 的線軸架(_η h〇lder)、二、;數個線軸 一 ) 杈動輥部、一摩擦輥部、 =導 轉移尾部形成部以及-擺動(吻) 筒之i邱Ϊ數個線軸的線軸架’分職轉設置於旋轉滚 fϋ 。橫動輥部位於旋轉滾筒的上部,且橫 動輥邛設置於上料轴#魏定 =通過與旋轉滾,上部線轴接;的並=產 #動引導部设置於橫動輥部之侧部,使絲線 離橫向位置。轉移尾部形成部設置於摩 φ ❹ 201022123 :二=Γ:讀,’引導絲線至線轴的轉移 部之側部,在動引導部設置在摩擦輥 Γ轉移尾部槽侧,並於絲線切斷前使絲線維= 絲線捲繞裝:發出一種可防止最内層—間起褶的 心,將移動引導部之下端在蜉弓部之上端為-令 順時斜始絲 下知在、,、糸線移動和切斷時以一角度 ,因此絲線可從一橫向位置脫離。 絲線二ΐ發止最内層中間起褶的 -第-滾筒、一第滾筒f ::水ίϊ:覆蓋於㈣部。第-滾筒將覆蓋板 的轉移尾部槽’並將在安裝第-滚筒的心 使覆k板可滑動地設置於一水 設置於第1㈣的方向另外,第二滾筒 蝮從綠向,且第二引導部係將絲 t線軸的轉移尾部槽回復至原來的橫向位置,並在安 滾㈣同時’使第—引導部可滑動地設置於一垂 直方向。 此外’本發明更提出—種可防止最内層中間起槽的 j線捲繞裝置,其中第—引導部包括—引導板以及複數 個引導棒。複數㈣導棒位於料板的下端並在引導板 201022123 下部方向上延伸一長度,將絲線從一橫向位置引導至線 軸的轉移尾部槽處。 此外,本發明更提出一種可防止最内層中間起褶的 絲線捲繞裝置,其中第二料部包括—引導板與複數個 引導棒。複數個引導棒位於引導板的下端並在下部方向 上延伸一長度,將絲線從線軸的轉移尾部槽回復至一橫 向位置。 、 ❿ 此外,本發明更提出一種可防止最内層中間起稽的 絲線捲繞裝置,其中第一引導部具有一固定突起,在第 二引導部中形成可嵌入固定突起,並可在垂直方向上移 動的長孔。 此外,本發明更提出一種可防止最内層中間起褶的 絲線捲繞裝置’其中擺動引導部包括-滾筒、-擺動引 導構,以及一起褶板(bunch Plate)。擺動引導構件安裝 在滾筒上,以滾筒之旋轉軸為中心以一角度旋轉,並位 ❹於/袞筒上部之負載線軸的下端,藉由擺動引導構件 對絲線引導於其行進的路徑上。起褶板安裝於擺動引導 構件上,係維持絲線的張力。 此外本發明更提出一種可防止最内層中間起褶的 絲線捲繞裝置’其中擺動引導構件,在—水平方向上形 成,數個水平突起和複數個水平凹槽,而將絲線引導至 方向的一端。打褶板在一垂直方向上形成複數個垂 直突起和複數個垂直凹槽,而將絲線引導至垂直方向 一端。 201022123 xb M t實現上述目的,本發明更提出一種可防止最内層 勹二、褶的絲線捲繞方法,適用於一絲線捲繞裝置其 =下步驟,在旋轉滚筒之上部和下部分別設置一線 盤綠妯沾!!f進行捲繞直至設置在上部的線軸形成滿負 睥、μ』,當設置在上部的線轴形成為滿負載線軸 線:=Γ,™ 間的絲線引導至一側線軸和空負載線軸之 並使空負載線軸的上部的絲線從 檢向位置脫離,並引導至 停止旋轉下部的滿負龍缸、戰深釉的轉移尾邻槽中, 負載線軸之間的絲線=及切斷將滿負載線轴和空 至原來的橫二:使空負載線軸的上部的絲線回復 絲線及===可最内層中間起褶的 处 J具有一或多個下述優點: 參 移動摩:::不上升的狀態下,在 中間起褶的情況。、因此可防止線轴最内層發生 離,=二定可移動和切斷時絲線的過度脫 切斷。 可正確的對絲線進行移動和 切斷H卜因下部滿負載線轴的制動力自動 、、'、他具有切斷功能之構件。unit. Further, in the state, the yarn Y is moved to the rotary drum 11A, and the upper empty load spool 114 can be cut off while being on the side. In order to achieve the cutting purpose, the traverse roller portion 120 and the friction roller portion 13 are raised from the rotary drum 11 向 upward by a height, and then the lower full load bobbin 113 is stopped. At this time, the upper empty load bobbin 114 continues to rotate, thereby moving the wire Y to the upper empty load spool 114, while cutting the wire between the full load spool 113 and the empty load spool 114. . However, such a conventional wire winding device and a wire moving and cutting method using the same have problems in that, when the wire is moved and cut, due to the traverse roller portion 120, and the friction roller portion 13〇, The rotating drum 11 is raised to a degree, and wrinkles which start to produce a new wound bobbin (empty load bobbin) are concentrated at the center. That is, as shown in Fig. 1A, the filaments concentrated in the center of the cake shape c are wound around the innermost layer, resulting in a mb middle bunch phenomenon. ❹ This problem is caused by the traverse roller portion 12〇 and the friction roller portion 130' rising from the rotating drum 110 by the height when the wire is moved and cut. That is, the distance from the empty load bobbin 114 to the traverse roller portion 12A is relatively long. Therefore, at the start of winding, the wire is concentratedly wound around the center portion of the bobbin. When the center crease phenomenon occurs in the inner shaft, the yarn is twisted when the yarn is unwound for the production of various blanks, and problems occur in subsequent processes such as dyeing, and the yarn is generated in the case where the influence is large. Cut off the problem. 201022123 [Disclosure] The problem of the present invention is that the wire winding device capable of preventing the innermost pleating of the innermost layer and the state in which the t' can be raised in the traverse roller portion and the friction roller portion* Under the movement, the wire is cut at the same time, so that the innermost layer can be prevented from being produced in the middle of the innermost month, and the purpose of the invention is to provide a wire winding device capable of preventing the middle pleating of the inner layer and a method thereof, which can prevent the front. Line = and: excessive detachment of the thread at the time of the break, and maintain the - fixed tension ', so that the 糸 line is correctly moved and cut. According to still another aspect of the present invention, the innermost layer winding device and the method thereof are capable of preventing the wire from being cut by the braking force of the π full load bobbin under the rotary drum. In order to achieve the above object, the present invention provides a wire winding device capable of preventing pleats, including a bobbin, a second bobbin, a bobbin, a rubbing roller, and a friction roller. = guide transfer tail forming part and - swing (kiss) tube i Qiu several bobbins of the bobbin 'divisional turn is set to the rotating roll fϋ. The traverse roller portion is located at the upper portion of the rotating drum, and the traverse roller 邛 is disposed on the loading shaft #魏定=by connecting with the rotating roller and the upper bobbin; and the ==production# moving guiding portion is disposed on the side of the traverse roller portion Department, the wire is placed away from the lateral position. The transfer tail forming portion is disposed on the motor φ ❹ 201022123: two = Γ: read, 'the side portion of the transfer portion that guides the wire to the bobbin, and the movable guide portion is disposed on the side of the friction roller Γ transfer tail groove, and before the wire is cut Wire Thread = Wire Winding: It emits a heart that prevents the innermost layer from creping, and the lower end of the moving guide is at the upper end of the sacral bow. The movement and cutting are at an angle so that the wire can be detached from a lateral position. The second line of the thread is pleated in the middle of the innermost layer - the first roller, the first roller f: :: water ϊ: covering the (four) portion. The first roller will cover the transfer tail groove of the plate and will be slidably disposed in the direction in which the water is disposed in the first (four) in the center of the first roller, and the second roller is in the green direction, and the second roller The guiding portion returns the transfer tail groove of the wire t-axis to the original lateral position, and simultaneously makes the first guiding portion slidably disposed in a vertical direction at the same time. Further, the present invention further proposes a j-wire winding device which can prevent the innermost layer from being grooved, wherein the first guide portion includes a guide sheet and a plurality of guide bars. The plurality (four) of the guide bars are located at the lower end of the web and extend a length in the lower direction of the guide sheets 201022123 to guide the wires from a lateral position to the transfer tail groove of the bobbin. Further, the present invention further proposes a wire winding device which can prevent lining of the innermost layer, wherein the second material portion includes a guide plate and a plurality of guide bars. A plurality of guide bars are located at the lower end of the guide plate and extend a length in the lower direction to return the wire from the transfer tail groove of the spool to a lateral position. Further, the present invention further provides a wire winding device capable of preventing the innermost layer from being lifted, wherein the first guiding portion has a fixing protrusion, and the second guiding portion forms an insertable fixing protrusion and is vertically movable Moving long holes. Further, the present invention further proposes a wire winding device which prevents lining of the innermost layer, wherein the swinging guide portion includes a drum, a swinging guide, and a bunch plate together. The swing guiding member is mounted on the drum, rotates at an angle centering on the rotating shaft of the drum, and is positioned at the lower end of the load bobbin at the upper portion of the drum, and guides the wire to the path on which it travels by the swing guiding member. The pleating plate is attached to the oscillating guide member to maintain the tension of the wire. Further, the present invention further provides a wire winding device for preventing lining of the innermost layer, wherein the swing guiding member is formed in a horizontal direction, a plurality of horizontal projections and a plurality of horizontal grooves, and the wire is guided to one end of the direction. . The pleating plate forms a plurality of vertical projections and a plurality of vertical grooves in a vertical direction to guide the wires to one end in the vertical direction. 201022123 xb M t achieve the above object, and the present invention further provides a wire winding method capable of preventing the innermost layer and the pleats, which is suitable for a wire winding device, wherein the lower step is to set a line on the upper and lower portions of the rotary drum. The disc is smeared!! f is wound until the bobbin set at the upper part is full of negative 睥, μ", and when the bobbin set at the upper part is formed as the full load line axis: = Γ, the wire between the TM leads to the side bobbin And the empty load spool and the upper wire of the empty load spool is disengaged from the detection position, and guided to the full negative cylinder of the lower rotation stop, the transfer tail adjacent groove of the deep glaze, the wire between the load spools = and Cut off the full load spool and empty to the original transverse two: make the upper thread of the empty load spool return to the thread and === the innermost pleat of the inner layer has one or more of the following advantages: ::: In the case of not rising, pleating in the middle. Therefore, it is possible to prevent the innermost layer of the bobbin from being separated, and the second thread can be excessively cut off when it is movable and cut. It is possible to correctly move the wire and cut off the braking force of the lower full load spool, and 'have the function of cutting off the function.
f實施方式J 201022123 請參閱附圖’以本發明所屬技術領域普通技術人員 可容易實施的程度對本發明的優選實施例進行詳細說 明。但本發明不限於這些實施例。 請參閱圖2A,其係為本發明中可防止最内層中部起 褶現象的絲線捲繞裝置的絲線切斷方法的示意圖,圖2b 其係為本發明中不會發生中間起稽現象的蛋糕狀的示意 圖。 如圖2A所示,本發明絲線捲繞裝置1〇〇的絲線切 斷方法是,基本上不從上部的空負載線軸114向橫動報 部120和摩擦㈣130上升的情況下,對絲線γ進行移 動:::二亦即’在絲線γ移動和切斷時’摩擦輥部130 依…維H負載線軸114接觸的狀態。在這種方法 2褶2 所示,在蛋糕狀C中形成具有較寬幅度的 =:發成“ _現 權現=繞中可防止最内層”起 轉滚=所一示横:線捲繞裝置⑽包括-可旋轉的旋 二二-=:120、一摩擦輥部13〇、-移動 160。旋轉滾筒=可尾:成部150以及-擺動引導部 軸架⑴、112,^ =於其上部及下部旋轉地設置線 部,並在上部線!^位於旋轉滾筒削的上 擦棍部130 it過與旋轉滾=向寬度的絲線Y。摩 /旖110的上部線轴接觸,並對f EMBODIMENT J 201022123 Referring to the drawings, the preferred embodiments of the present invention are described in detail to the extent that those skilled in the art can readily implement. However, the invention is not limited to these embodiments. Please refer to FIG. 2A , which is a schematic diagram of a wire cutting method for a wire winding device capable of preventing pleating in the middle portion of the innermost layer in the present invention, and FIG. 2 b is a cake shape in which no intermediate phenomenon occurs in the present invention. Schematic diagram. As shown in FIG. 2A, the wire cutting method of the wire winding device 1 of the present invention is such that the wire γ is not substantially raised from the upper empty load bobbin 114 to the traverse portion 120 and the friction (four) 130. The movement::: two, that is, the state in which the friction roller portion 130 is in contact with the dimension H load bobbin 114 when the yarn γ is moved and cut. In this method, 2 pleats 2 are formed, and a wide width is formed in the cake shape C: "Y-now present = the innermost layer can be prevented from being wound up" = the horizontal direction: the winding The device (10) includes a rotatable spin two-=: 120, a friction roller portion 13A, and a movement 160. Rotating drum = tailable: part 150 and - swinging guide The pedestal (1), 112, ^ = rotatively set the line on the upper and lower parts, and on the upper line! ^ Located on the rotating drum, the wiping stick 130 is over the thread Y of the rotating roller = width. The upper bobbin of the motor/旖110 is in contact with
201022123 絲線γ產生一愿力。较 徑脫離橫向位置。轉移尾;::140可引導絲線υ的路 軸的轉移尾部槽中。擺成部15G可㈣絲線至線 路徑引導i動(SWlng)?丨導部160可將絲線Y =引導至線轴的轉移尾部槽側,並使絲線Y維持-定 旋轉滾筒110設置於轉嬙 ,Una 於、、糸線捲繞裝置100的框架101 上,其與馬柄驅動軸唾合(圖中 規定方向上旋轉。亦即,旌ΜJ ^ 付J即碇轉滾筒110在插入到線軸架 111、112中的線軸形成滿負载線軸113時,通過約⑽ 度或者27G度的旋轉,可改變滿負載線軸ιΐ3和空負載 線轴114的位置。請參閱圖3’可得知滿負載線軸⑴ 位於下部,空負載線軸114位於上部的情況。201022123 Silk γ produces a willing force. The diameter is off the lateral position. The transfer tail;::140 guides the transfer of the wire axis to the tail groove. The pendulum portion 15G can guide the wire movement to the wire path (SW1ng). The guide portion 160 can guide the wire Y= to the transfer tail groove side of the bobbin, and maintain the wire Y-maintaining rotation drum 110 on the switch. , Una on the frame 101 of the 糸 卷绕 卷绕 卷绕 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , When the spools 111, 112 form the full load spool 113, the position of the full load spool ι3 and the empty load spool 114 can be changed by about (10) degrees or 27G degrees of rotation. See Figure 3' for the full load spool (1) Located at the lower portion, the empty load bobbin 114 is located at the upper portion.
線轴架111、112在旋轉滾筒11〇的上部和下部分別 具有一疋長度,而且與各馬達的驅動轴轉合(圖中未標 示出),因此可在規定方向上旋轉。亦即,通過使線軸^ 111、112以規定速度旋轉,對安裝在支架上的線軸捲繞 絲線。當然’在這種線轴架111、112上可以一定間隔設 置多個線軸。 °X 橫動輥部120設置在旋轉滚筒110的上部,其作用 是,橫動輥121使絲線以規定寬度橫動,提供給下部的 線軸。 摩擦輥部130設置在旋轉滚筒110的正上方,且具 有一摩擦輥131。摩擦輥部130之作用係為其摩擦觀1M 與上部的線軸直接接觸對絲線Y提供一定的壓力,由此 201022123 在上部的線軸上捲繞絲線γ。 移動引導部140設置在朝向摩捧 部uo的侧部處,且移㈣導^4〇 ^^30的橫動輥 ㈣的側部在—角度以旋轉的方式安裝。=橫_部 j為中心,使下端在絲線γ ;用^以 時針旋轉’使得絲線Υ從橫向位置脫離斷=-角度順 轉滾筒110上部的㈣rnj 亦即,位於旋The bobbins 111, 112 have a length of one turn at the upper and lower portions of the rotary drum 11A, respectively, and are rotated with the drive shafts of the respective motors (not shown), so that they can be rotated in a predetermined direction. That is, by rotating the bobbins 111, 112 at a predetermined speed, the wires are wound around the bobbin mounted on the holder. Of course, a plurality of bobbins may be provided at intervals on such bobbin holders 111, 112. The θ traverse roller portion 120 is provided at the upper portion of the rotary drum 110, and functions as the traverse roller 121 traverses the yarn at a predetermined width to be supplied to the lower bobbin. The rubbing roller portion 130 is disposed directly above the rotary drum 110 and has a rubbing roller 131. The action of the friction roller portion 130 is such that the frictional view 1M is in direct contact with the upper bobbin to supply a certain pressure to the yarn Y, whereby 201022123 winds the yarn γ on the upper bobbin. The moving guide portion 140 is disposed at a side portion facing the grip portion uo, and the side portion of the traverse roller (4) which is moved (4) is mounted at an angle in a rotational manner. = transverse _ part j is centered, so that the lower end is in the thread γ; with the clockwise rotation ', the thread Υ is disconnected from the lateral position = - the angle is reversed (four) rnj of the upper portion of the drum 110, that is,
❹ 二1〇旋轉約180度,從而使得上部的滿負裁線 下和而下部的空負载線軸114位於上邛位罟夕 後,絲線Y從下邱的、黑鱼#± 上口p位置。之 哉始缸 負载線軸113移動至上部的空負 Η㈣上將滿負载線軸113和空負载線軸…之 :的:線Υ強制切斷。為了達到絲線的移動和切斷之效 果’移動引導部刚進行操作,但是移動引導部14〇已 :離絲線γ的橫向位置。亦即,移動引導部14〇上端為 轉軸,而以一角度順時針旋轉,使得絲線γ從原來 的&,位置脫離。需注意的是,圖3中未標明,但可使 =滾筒或馬達等構件應用於移動引導部u〇中,以達到 當絲線Y從原來的橫向位置脫離的目的。此外,下述的 轉移尾部形成部150和擺動引導部160可共同操作,以 達到移動和切斷絲線γ之目的。 轉移尾部形成部150設置在摩擦輥部13〇的上部。 但是,本發明對轉移尾部形成部15〇的設置位置沒有任 何限疋。轉移尾部形成部丨5〇,通過移動引導部14〇將 脱離的絲線Y從橫向位置移動到線轴的轉移尾部槽,因 此可將絲線Y移動到上部的空負載線轴 114上,以切斷 11 201022123 滿負載線轴113和空負載線軸114之間的絲線γ。 擺動引導部160設置在摩擦輥部13〇的一侧。但是 本發明對這種擺動引導部16〇的設置位置沒有任何限 定。擺動引導部160的作用是,將滿負載線轴U3和空 負載線軸114之間絲線γ的路徑引導至空負載線 的轉移尾部槽侧,並維持γ絲線的一定的張力。擺動引 導部160包括一滾筒16卜一旋轉轴162、一擺動引導構 件163、一起褶板166。滚筒161設置於絲線捲繞裝置 1〇〇之框架101上。擺動引導構件163設置於滾筒ΐ6ΐ 上,且以旋轉軸162為中心旋轉一角度,並位於空負載 線轴114之下端,且引導絲線γ之路徑。起褶板(bunch Ρ·Μ66設置於擺動引導構件163上,在切斷絲線γ 前,可維持絲線γ的張力。 請參閱圖4,其係為本發明中可防止最内層發生中 部起褶現象的絲線捲繞裝置中的轉移尾部形成部的正視 圖。 請參閱圖4,轉移尾部形成部15〇包括覆蓋板⑸、 滾筒152/第一引導部153、第二滚筒155和第二引 邛156。覆蓋板151具有大致覆蓋著絲線捲繞裝置 2的摩擦輥部13G的上部的形狀。值得注意的是,覆蓋 板151也可形成與摩擦輥部13〇無關的其他形狀。第一 設置在覆蓋板151的水平方向(長度方向)上。 3、可為Μ滾筒、油壓滾筒或為其具有相似 月b構件中選出的任意一種,在本發明中對其種類沒 12 201022123 有任何限定。 第一引導部153安裝在第一滾筒152上的同時, 滑動地設置於覆蓋板151的水平方向上。例如可設置為 -導執構造’於覆蓋板151水平方向上設置導轨(圖; 未標示出),第一引導部153可在導轨上滑動。可操 一滾筒152,使第-引導部153在水平方向上滑動。引 導板154安裝於第-引導部153上,並可滑動於水平方 向導執。複數個引導棒154a位於引導板154的下端並在 引導板154的下部方向上延伸一長纟,將絲線γ從橫向 位置引導至線軸的轉移尾部槽中。 第二滚筒155設置在第一引導部153的垂直方向(寬 度方向)上。第二滾筒155為從空壓滾筒、油壓滚筒或 為其具有相似功能之構件中選出的任意一種,在 中對其種類沒有任何限定。 第二引導部156安装在第二滾筒155上的同時,並 φ 滑動地設置於第一引導部153的垂直方向上。例如可設 置為一長孔構造,於第一引導部153上以規定距離間隔 形成固定突起158a,在第二引導部156上形成長孔 158b,長孔158b可嵌入固定突起158a,並在垂直方向 上引導固定突起158a。此外,第二引導部156可透過第 二滾筒155在垂直方向上滑動,但也可透過第一引導部 153的水平運動共同在水平方向上滑動。 引導板157可藉由固定突起158a來安裝在第二引導 部156之長孔158b上。複數個引導棒157a位於引導板 13 201022123 之下端,並在引導板157的下部方向上延伸一長度, :…線γ從形成線轴的轉移尾部槽回復至橫向位置。 ,一在本發明中,對第一引導部152以導軌構造為例進 行了說對第二引導部156以長孔構造為例進行了說 =,但疋,本發明不僅限於這樣的構造。亦即,第一引 2部152也可以為長孔構造,第二引導们^也可以為 導軌構造。此外,第一引導部152和第二引導部156還 可選擇習知技術中已知的所有構造,實現可於水平或者 攀 垂直方向運動的構造。 請參閱® 5,其係為本發明中可防止最内層發生中 間起褶現象的絲線捲繞裝置中擺動引導部的側視圖。 如圖5所示,擺動引導部160包括一滾筒161、一 擺動引導構件163和一起褶板166。滾筒161設置在摩 擦輥部130侧部上,但本發明對這樣的設置位置沒有任 何限定。另外,滾筒161可為從空壓滚筒、油壓滾筒或 為其具有相似功能之構件中選出的任意一種,在本發明 ® 中對其種類沒有任何限定。 藉由將擺動引導構件163的一侧安裝在滾筒161 上,而另一側安裝在旋轉軸162上,在滚筒161進行操 作時,可以旋轉軸162為中心旋轉一角度。擺動引導^ 件163係為透過以旋轉軸162為中心旋轉一角度,使其 位於上部的工負載線轴114轉換至位於下端的位置處, 以引導絲線γ之路徑。接著在擺動引導構件163的下部 處形成水平方向的水平凹槽165,引導絲線γ在水平方 向的一端。亦即,在擺動引導構件163的下部形成水平 201022123 突起164,將絲線γ最大限度地引導至靠近線轴的轉移 尾部槽處。水平突起164於線轴方向上具有彎曲的形狀。 在擺動引導構件163上安裝一起褶板166,可於引 導絲線路徑的同時,維持一定的絲線張力。起褶板166 在垂直方向上形成一垂直凹槽168,以將絲線γ引導至 垂直方向的一端。亦即,在起褶板166的下部形成垂直 突起167 ’以將絲線γ最大限度的引導至靠近線軸的轉 移尾部槽處並維持張力。嵌合固定的突起於線軸方向上 具有彎曲的形狀。 請參閱圖6,其係為本發明中絲線捲繞裝置的絲線 移動方法的流程圖。 如圖6所示,使用本發明絲線捲繞裝置1〇〇的絲線 移動方法,包括絲線捲繞步驟S1、絲線脫離和引導步驟 s2、絲線切斷步驟S3、絲線回復步驟S4和絲線捲繞步 驟S5。 鲁 圖7A〜圖7E依次表示出採用本發明絲線捲繞裴置 的絲線移動方法的示意圖。在此同時請參閱圖3〜圖6。 在此,圖7A〜圖7E中導絲輥中心以GC表示,第 引導部以G1表示’第二引導部以(32表示,移動引導 部以SG表示’橫動輥部中心以TC表示,摩擦輥部中心 以FC表示,擺動引導部的相對位置以sw表示、滿負載 線輛113之轉移尾部槽U3a以及空負載線軸114之轉 f尾部槽114a。此外,圖7A〜圖7E中較粗的線表示的 是現在操作中的構成要素,較細的線表示現在操作 非構成要素。 15 201022123 如圖7 A所示,在絲線捲繞步驟s丨中,對絲線γ ^的橫向寬度進行捲繞,直至使安裝在上部線轴架ιΐ2 的線軸成為滿負載線軸113的狀態。亦即’從導絲觀供 ^的絲線Y橫向形成規定寬度,同時將 轴 上的線軸捲繞成滿負載線軸ιΐ3。此時,移動: =140、轉移尾部形成部⑼的第—引導部⑸、第二 ;=5:和擺動引導部160停止作動,僅橫動輥部‘ 和摩擦輥部130作動。 ❹ 圖7B所示,在絲線脫離和引導步驟S2中,# 先當設置在上部的線轴形成為滿負載線二時將: 】14純$“: 下部,將下部的空負载線軸 。。亦即,透過將旋轉滾筒110旋轉一角 f此:;變滿負載線軸113和空負载線軸I二:置 在此狀射’操作擺㈣導部⑽, 160將滿負載線軸113和 ::: 最大限度的引導至靠近414之間的絲線γ 114a侧。而且,振動載線軸114的轉移尾部槽 絲線切斷為止。引導部⑽可維持絲線的一張力至 時了透過位於空負載線軸114上部 部140和轉移尾部 M上相移動引導 線_上部的脫離=的並作移動動=二空負載 線軸114的轉移尾部槽n4a 工負載 150可透過第—引導 。,轉移尾部形成部 二引導部…,而二=動而形成。並可操作第 阳將,4線γ移動至橫向位置。 如圖7C所示,在絲線切斷步驟S3卜可停止旋轉 16 201022123 滿負載線軸113 ,將滿負載線軸113和空負載線軸114 之間的絲線γ強制切斷。亦即,停止下部滿負載線軸113 的旋轉,繼續維持上部空負载線軸114的旋轉,在滿負 載線軸113和空負載線軸114之間對絲線γ產生強大的 張力,從而切斷絲線γ。當然此時絲線γ,透過處於上 部空負載線軸U4中的轉移尾部槽U4a中,因此絲線γ 可移動至空負載線軸U4。 如圖7D所示’在絲線回復步驟S4中’空負載線軸 ❹ U4的上部的絲線Y回復到原來的橫向位置處。亦即, 移動引導部140,可透過轉移尾部形成部150的第一引 導部153和第二引導部156回復至原來的位置,使絲線 Y &L暢地回復至原來的橫向位置處。並且可透過第二引 導部156將處於上部空負載線軸114中的轉移尾部槽 114a中的絲線γ回復至橫向位置處。 如圖7E所示,在絲線捲繞步驟S5中,在空負載線 轴114中可捲繞具有規定橫向寬度的絲線γ。因此,在 ❹絲線捲繞步驟中,移動引導部140、第一引導部153、第 二引導部156和擺動引導部16〇可回復至原來位置。 如上所述,本發明在絲線移動和切斷時,橫動輥部 和摩擦輥部不像習知技術那樣上升至上部規定高度。因 此’不會發生習知技術中在絲線移動和切斷完成後線 軸中產生的中部起褶現象。 以上所述僅為舉例性,而非為限制性者。任何未脫 離本發明之精神與範嘴,而對其進行之等效修改或變 更,均應包含於後附之申請專利範圍中。 17 201022123 【圖式簡單說明】 第1八圖係為習知技藝之絲線捲繞裝置之示意圖; 第1B圖係為具有中間起褶的蛋糕狀情況之線軸之示意 园 · 圃, 第2A圖係為本發明中可防止最内層中部起褶現象的絲 線捲繞裴置的絲線切斷方法的示意圖; Φ 第2B圖係為本發明中不會發生中間起褶現象的蛋糕狀 的示意圖; 第3圖係為本發明中可防止最内層中部起褶現象的絲 線捲繞裝置的示意圖; 第4圖係為本發明中可防止最内層發生中部起褶現象 的絲線捲繞裝置中的轉移尾部形成部的正視 園, ,第5圖係為本發明中可防止最内層發生中間起褶現象 的絲線捲繞裝置中擺動引導部的側視圖; 第6圖係為本發明中絲線捲繞裝置的絲線移動方法的 流程圖;以及 第7Α圖〜第7Ε圖係為依次表示出採用本發明絲線捲 繞裝置的絲線移動方法的示意圖。 201022123 【主要元件符號說明】 100、100’ :絲線捲繞裝置; 101 :框架; 110、 110’ :旋轉滚筒; 111、 11Γ、112、112,:線軸架; 113、 113’ :滿負載線軸; 113a :轉移尾部槽; 114、 114’ :空負載線軸; ❿ 114a:轉移尾部槽; 120、120’ :橫動輥部; 121 :橫動輥; 130、130’ :摩擦輥部; 131 :摩擦輥; 140 :移動引導部; 150 :轉移尾部形成部; 151 :覆蓋板; ❿ 152 :第一滾筒; 153、G1 :第一引導部; 154 :引導板 154a :引導棒; 155 :第二滾筒; 156、G2 :第二引導部; 157 :引導板; 157a :引導棒; 158a :固定突起; 19 201022123 158b :長孔; 160 :擺動引導部; 161 :滾筒; 162 :旋轉軸; 163 :擺動引導構件; 164 :水平突起; 165 :水平凹槽; 166 .起梢板, 參 167 :垂直突起; 168 :垂直凹槽; BH :線軸架; C :蛋糕狀; FC :摩擦輥部中心; GC :導絲輥中心; MB :中部起褶; S1 :絲線捲繞步驟; © S2 :絲線脫離和引導步驟; 53 :絲線切斷步驟; 54 :絲線回復步驟; 55 :絲線捲繞步驟; SG :移動引導部; SW:擺動引導部的相對位置; TC :橫動輥部中心;以及 Y :絲線。 20❹ 2〇 rotates about 180 degrees so that the upper full negative line is cut and the lower empty load spool 114 is in the upper position, and the thread Y is from the lower jaw, black fish #± upper port p position. The starting cylinder load spool 113 moves to the upper empty negative Η (4). The full load spool 113 and the empty load spool are: Forced to cut off. In order to achieve the effect of the movement and cutting of the thread, the movement guide has just been operated, but the movement guide 14 has been positioned laterally from the thread γ. That is, the upper end of the moving guide portion 14 is a rotating shaft, and is rotated clockwise at an angle so that the thread γ is disengaged from the original position. It should be noted that not shown in Fig. 3, but a member such as a drum or a motor can be applied to the moving guide portion u to achieve the purpose of detaching the yarn Y from the original lateral position. Further, the transfer tail forming portion 150 and the swing guiding portion 160 described below can be operated together for the purpose of moving and cutting the yarn γ. The transfer tail forming portion 150 is provided at an upper portion of the rubbing roller portion 13A. However, the present invention does not have any limitation on the position at which the transfer tail forming portion 15A is disposed. The tail forming portion 丨5〇 is moved, and the detached yarn Y is moved from the lateral position to the transfer tail groove of the bobbin by the moving guide portion 14〇, so that the yarn Y can be moved to the upper empty load bobbin 114 to cut Break 11 201022123 Thread γ between the full load spool 113 and the empty load spool 114. The swing guiding portion 160 is provided on one side of the rubbing roller portion 13A. However, the present invention does not limit the arrangement position of such a swing guiding portion 16A. The swing guiding portion 160 serves to guide the path of the wire γ between the full load spool U3 and the idle load spool 114 to the transfer tail groove side of the empty load line, and maintain a constant tension of the γ wire. The swing guiding portion 160 includes a drum 16 including a rotating shaft 162, a swing guiding member 163, and a pleating plate 166. The drum 161 is disposed on the frame 101 of the wire winding device 1 . The swing guiding member 163 is disposed on the drum ΐ6ΐ and rotated at an angle centering on the rotating shaft 162, and located at the lower end of the empty load spool 114, and guides the path of the wire γ. The pleating plate (bunch Ρ·Μ 66 is disposed on the oscillating guiding member 163, and maintains the tension of the wire γ before cutting the wire γ. Referring to Fig. 4, it is possible to prevent the middle pleating phenomenon in the innermost layer in the present invention. A front view of the transfer tail forming portion in the wire winding device. Referring to FIG. 4, the transfer tail forming portion 15 includes a cover plate (5), a roller 152/first guide portion 153, a second roller 155, and a second guide 156. The cover plate 151 has a shape that substantially covers the upper portion of the friction roller portion 13G of the wire winding device 2. It is noted that the cover plate 151 may also form other shapes unrelated to the friction roller portion 13A. The first arrangement is covered. The horizontal direction (longitudinal direction) of the plate 151. 3. It may be any one selected from the group consisting of a crucible drum, a hydraulic cylinder or a member having a similar month b. In the present invention, there is no limitation on the type thereof 12 201022123. A guide portion 153 is slidably disposed in the horizontal direction of the cover plate 151 while being mounted on the first roller 152. For example, the guide structure may be disposed to provide a guide rail in the horizontal direction of the cover plate 151 (Fig.; not labeled Out The first guiding portion 153 is slidable on the guide rail. The roller 152 can be operated to slide the first guiding portion 153 in the horizontal direction. The guiding plate 154 is mounted on the first guiding portion 153 and slidable in the horizontal direction. The plurality of guide bars 154a are located at the lower end of the guide plate 154 and extend a long turn in the lower direction of the guide plate 154 to guide the wire γ from the lateral position into the transfer tail groove of the spool. The second roller 155 is disposed at the The guide roller 153 is in the vertical direction (width direction). The second roller 155 is any one selected from the air cylinder, the hydraulic cylinder, or a member having similar functions, and there is no limitation on the kind thereof. The second guiding portion 156 is mounted on the second roller 155 and is slidably disposed in the vertical direction of the first guiding portion 153. For example, it may be provided as an elongated hole structure at a predetermined distance on the first guiding portion 153. The fixing protrusion 158a is formed, and the long hole 158b is formed in the second guiding portion 156, and the long hole 158b can be fitted into the fixing protrusion 158a, and the fixing protrusion 158a is guided in the vertical direction. Further, the second guiding portion 156 can pass through the The roller 155 slides in the vertical direction, but can also slide in the horizontal direction through the horizontal movement of the first guiding portion 153. The guide plate 157 can be mounted on the long hole 158b of the second guiding portion 156 by the fixing protrusion 158a. A plurality of guiding bars 157a are located at the lower end of the guiding plate 13 201022123 and extend a length in the lower direction of the guiding plate 157, ... the line γ is returned from the transfer tail groove forming the bobbin to the lateral position. In the present invention, The first guide portion 152 has been described by taking the guide rail structure as an example. The second guide portion 156 has an elongated hole structure as an example. However, the present invention is not limited to such a configuration. That is, the first lead portion 152 may also be a long hole structure, and the second guides may also be a rail structure. Further, the first guiding portion 152 and the second guiding portion 156 can also select all configurations known in the prior art to realize a configuration that can be moved horizontally or vertically. Refer to ® 5, which is a side view of the swing guiding portion in the wire winding device which prevents the occurrence of the intermediate pleating phenomenon in the innermost layer in the present invention. As shown in Fig. 5, the swing guiding portion 160 includes a drum 161, a swing guiding member 163, and a pleat plate 166 together. The drum 161 is provided on the side of the friction roller portion 130, but the present invention is not limited to such an installation position. Further, the drum 161 may be any one selected from the air cylinder, the oil cylinder, or the member having similar functions, and the kind thereof is not limited in the invention. One side of the swing guiding member 163 is mounted on the drum 161, and the other side is mounted on the rotating shaft 162. When the drum 161 is operated, the rotating shaft 162 can be rotated at an angle. The swing guide member 163 is rotated at an angle centering on the rotary shaft 162 so that the upper work load spool 114 is switched to the position at the lower end to guide the path of the yarn γ. Next, a horizontal horizontal groove 165 is formed at the lower portion of the swing guiding member 163 to guide the wire γ at one end in the horizontal direction. That is, the horizontal 201022123 protrusion 164 is formed at the lower portion of the swing guiding member 163 to guide the thread γ to the maximum of the transfer tail groove near the bobbin. The horizontal projection 164 has a curved shape in the spool direction. A pleat plate 166 is attached to the oscillating guide member 163 to maintain a certain wire tension while guiding the wire path. The pleating plate 166 forms a vertical groove 168 in the vertical direction to guide the wire γ to one end in the vertical direction. That is, a vertical projection 167' is formed at the lower portion of the pleating plate 166 to guide the wire γ to the maximum of the transfer tail groove near the bobbin and maintain the tension. The fitting fixed projection has a curved shape in the bobbin direction. Please refer to Fig. 6, which is a flow chart of the method for moving the wire of the wire winding device of the present invention. As shown in FIG. 6, the wire moving method using the wire winding device 1 of the present invention includes a wire winding step S1, a wire detaching and guiding step s2, a wire cutting step S3, a wire returning step S4, and a wire winding step. S5. Lutu Figures 7A to 7E show, in order, a schematic diagram of a method of moving a wire using the wire winding device of the present invention. Please refer to Figure 3 to Figure 6 at the same time. Here, the center of the godet roller in FIGS. 7A to 7E is denoted by GC, and the first guiding portion denotes 'second guiding portion' with G1 (represented by 32, the moving guiding portion is indicated by SG', and the center of the traverse roller portion is represented by TC, friction The center of the roller portion is indicated by FC, and the relative position of the swinging guide portion is indicated by sw, the transfer tail groove U3a of the full load line 113, and the turn end groove 114a of the empty load spool 114. Further, the thicker ones in FIGS. 7A to 7E The line indicates the constituent elements in the current operation, and the thinner line indicates the current operation non-constituting element. 15 201022123 As shown in Fig. 7A, in the wire winding step s, the lateral width of the yarn γ ^ is wound. Until the bobbin mounted on the upper bobbin ΐ2 becomes the state of the full load bobbin 113. That is, the yarn Y from the guide wire is formed to form a predetermined width laterally, and the bobbin on the shaft is wound into a full load bobbin ιΐ3 At this time, the movement: =140, the first guide portion (5) of the transfer tail forming portion (9), the second; = 5: and the swing guide portion 160 are stopped, and only the traverse roller portion ' and the friction roller portion 130 are actuated. 7B, in the wire detachment and guiding step S 2, #1 When the upper bobbin is set to the full load line 2: 】 14 pure $ ": lower part, the lower empty load bobbin. That is, by rotating the rotating drum 110 by a corner f: The full load spool 113 and the empty load spool I are placed in this position to operate the pendulum (four) guide (10), 160 to fully guide the full load spool 113 and ::: to the side of the wire γ 114a between 414 Further, the transfer tail line of the vibrating carrier shaft 114 is cut off. The guide portion (10) maintains a force of the wire from passing through the upper portion 140 of the empty load bobbin 114 and the shifting guide M on the transfer tail M. And the moving movement = the transfer tail groove n4a of the second empty load spool 114, the work load 150 can be transmitted through the first guide, the transfer tail forming portion 2 guide portion ..., and the second = movable, and can operate the first positive, The four-line γ is moved to the lateral position. As shown in Fig. 7C, in the wire cutting step S3, the rotation of the 16 201022123 full load bobbin 113 can be stopped, and the wire γ between the full load bobbin 113 and the empty load bobbin 114 is forcibly cut. That is, stop the lower part The rotation of the carrier shaft 113 continues to maintain the rotation of the upper empty load bobbin 114, and a strong tension is generated between the full load bobbin 113 and the empty load bobbin 114 to the yarn γ, thereby cutting the yarn γ. Of course, the yarn γ is transmitted at this time. In the upper empty load bobbin U4, in the transfer tail groove U4a, the wire γ can be moved to the empty load bobbin U4. As shown in Fig. 7D, in the wire returning step S4, the upper wire Y of the empty load bobbin ❹ U4 returns to the original In the lateral position, that is, the movement guiding portion 140 can be returned to the original position through the first guiding portion 153 and the second guiding portion 156 of the transfer tail forming portion 150, so that the yarn Y &L can be smoothly restored to the original position. Lateral position. And the wire γ in the transfer tail groove 114a in the upper empty load bobbin 114 can be returned to the lateral position through the second guiding portion 156. As shown in Fig. 7E, in the wire winding step S5, the wire γ having a predetermined lateral width can be wound in the empty load bobbin 114. Therefore, in the twisting thread winding step, the movement guide portion 140, the first guide portion 153, the second guide portion 156, and the swing guide portion 16 can be returned to the original position. As described above, in the present invention, when the yarn is moved and cut, the traverse roller portion and the friction roller portion are not raised to the upper predetermined height as in the prior art. Therefore, there is no occurrence of a central pleating phenomenon in the prior art after the wire is moved and the cutting is completed. The above is intended to be illustrative only and not limiting. Any changes or modifications to the spirit and scope of the present invention are intended to be included in the scope of the appended claims. 17 201022123 [Simple description of the drawing] The first eight-figure is a schematic diagram of a wire winding device of the prior art; the first drawing is a schematic garden of a bobbin with a cake-like condition with a middle pleat, 第, 2A The present invention is a schematic view of a wire cutting method for preventing a crease of the innermost layer in the middle of the present invention; Φ 2B is a cake-like schematic view in which no intermediate pleating phenomenon occurs in the present invention; The figure is a schematic view of a wire winding device capable of preventing pleating in the middle portion of the innermost layer in the present invention; and Fig. 4 is a transfer tail forming portion in the wire winding device capable of preventing middle pleating in the innermost layer in the present invention; The front view garden, Fig. 5 is a side view of the swing guiding portion in the wire winding device capable of preventing the intermediate pleating phenomenon in the innermost layer in the present invention; Fig. 6 is a wire movement of the wire winding device in the present invention A flow chart of the method; and a seventh to seventh drawing are schematic views sequentially showing a method of moving the wire using the wire winding device of the present invention. 201022123 [Description of main component symbols] 100, 100': wire winding device; 101: frame; 110, 110': rotating drum; 111, 11Γ, 112, 112,: bobbin; 113, 113': full load spool; 113a: transfer tail groove; 114, 114': empty load spool; ❿ 114a: transfer tail groove; 120, 120': traverse roller portion; 121: traverse roller; 130, 130': friction roller portion; 131: friction Roller 140; moving guide portion; 150: transfer tail forming portion; 151: cover plate; ❿ 152: first roller; 153, G1: first guide portion; 154: guide plate 154a: guide bar; 155: second roller 156, G2: second guiding portion; 157: guiding plate; 157a: guiding rod; 158a: fixing protrusion; 19 201022123 158b: long hole; 160: swinging guide portion; 161: roller; 162: rotating shaft; Guide member; 164: horizontal protrusion; 165: horizontal groove; 166. tip plate, 167: vertical protrusion; 168: vertical groove; BH: bobbin; C: cake shape; FC: friction roller center; : guide roller center; MB: middle pleat; S1: wire winding © S2: wire detachment and guiding step; 53: wire cutting step; 54: wire returning step; 55: wire winding step; SG: moving guide; SW: relative position of the oscillating guide; TC: traversing Center of the roll; and Y: silk. 20