200923150 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種雙鼓卷線機。 【先前技術】 圖1中顯不有先前之卷線機之正視圖。 如圖1戶斤示’ A前之用於捲繞線之卷線機100| (―)包括以下部分:附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12〇,(㈣e raU),與上述導執12〇’結合並進行升降之滑動部⑽ (Sli和member );與上述滑動部13〇,之左側結合之摩擦 口P 140 (friction mender);與上述滑動部13〇义右側钍 合之橫動部!5G’(traversemembe〇;以及設於上述滑動口 邰130之下i而且於上部及下部分別設有筒管夹bp、 162’(bobbin holder)之鼓 160,(drum)。當然,在設於 上述鼓⑽,之上下端之筒管夾161,、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,係鼓16〇,之旋轉中心點。 上述先前之卷線機100’係將來自導絲輥(⑼心丈 roller)(未圖示)之線經由上述橫動部15〇,而供必並 繞至設於鼓!60’之上端的筒管夾161,,亦即筒管:。此 時,上述滑動部130,沿導執120,下降固定距離,藉此, 上述摩擦部140,對捲繞於上述筒管上之線加壓。由θ此, 200923150 將線牢固地捲繞至上述筒管上。 經上述動作後,若設在上述鼓16〇,上端之筒管 161亦即筒官成為滿筒管,則上述鼓160'旋轉約18〇。, 藉此,使滿筒管位於鼓斷下端而使空筒管位於鼓 160'之上端。亦即,原先位於上部之筒管夹⑹,移動至 下部,原先位於下部之筒管夾162,移動至上部。當然, 在由上述筒管夾162’所夾持之空筒管上,自上:動、 r 150,供給並捲繞有線。 /、動# 另一方面,上述卷線機正朝向如下方向發展:為提 高線之捲繞效率而使筒管夾之旋轉速度增加,或者為結 合更多的筒管而使筒管夾之長度增加。然而,存在以下 問題:若如上所述般使筒管夾之旋轉速度達到—定逮产 以上,或者使其長度達到長度以上,則會出現頻$ 斷且震動現象變得嚴重而產生捲繞不良。目此,增 U加筒管炎之旋轉速度或者增加Mf夾之長度是有限^ 的。 又,存在一種增加卷線機之設置數目以提高線之捲 繞效率之方法,但此時存在以下問題:卷線機所占之空 間變大,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] 本發明係為了解決先前之問題研製而成者,其目的 在於提供一種雙鼓卷線機,該雙鼓卷線機可利用一個橫 200923150 動部來使捲繞效率增加為兩倍,而不會使設置空間有較 大增加。 [解決問題之技術手段] 為達成上述目的,本發明之雙鼓卷線機包括:機 設於上述機身前方之一對導執;與上述一對導執結 合並進行升降之滑動部;設於上述滑動部兩側之一對摩 ir、。卩,在上述滑動部之中央設於上述摩擦部之間的一個 毛、動邛,以及對鼓,其等在上述機身之前方分別設於 上述一對摩擦部之下部,且上部及下部分別設有筒管 夾。 本么明之特彳玫為,此處,上述摩擦部在下端進而設 有朝向上述橫動部之摩擦輕。 上述橫動部包括:與上述滑動部結合之橫動板;與 迟也、動板,、Ό合併向預先指定之方向旋轉之橫動凸 L以及橫動導紗器,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。 —上述鼓之位置為,捲繞動作時相對地位於上部之筒 官夹以通過鼓之旋轉中心點的水平線為基準而傾斜5〜 850。 上述滑動部在線之捲繞動作時下降,而使設於上述 摩擦部上之摩擦輥緊貼至與上述筒管失結合之筒管。 上述滑動部在線之捲繞動作停止時上升,而使設於 上述摩擦部上之摩擦輥自與上述筒管失結合之筒管分 200923150200923150 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a double drum reeling machine. [Prior Art] A front view of the previous winding machine is shown in FIG. As shown in Fig. 1, the winding machine 100 for the winding line is shown in Fig. 1. (-) includes the following parts: the body 110 with various structures attached; one of the former combinations with the above-mentioned body 110' For the guide rail 12〇, ((4) e raU), the sliding portion (10) (Sli and member) combined with the above-mentioned guide 12〇' and lifting, and the friction port P 140 (friction mender) combined with the left side of the sliding portion 13〇 ; the traverse portion of the right side of the sliding portion 13; 5G' (traversemembe; and a drum 160 provided under the sliding port 130 and provided with a bobbin holder bp, 162' (bobbin holder) at the upper and lower portions, respectively. The drum (10) has upper and lower bobbin clamps 161, 162, and a plurality of bobbins respectively coupled thereto. The symbol 未, which is not illustrated in the drawings, is a thread wound on the bobbin, which is not illustrated in the drawings. Reference numeral 163 denotes a rotation center point of the drum 16〇. The above-described conventional winding machine 100' supplies a thread from a godet roller (not shown) via the traverse portion 15 It must be wound around the bobbin holder 161 provided at the upper end of the drum 60', that is, the bobbin: at this time, the sliding portion 130 is lowered along the guide 120 by a fixed distance, whereby the friction portion 140, Pressurizing the wire wound around the bobbin. The wire is firmly wound onto the bobbin by θ, 200923150. After the above operation, if it is provided on the drum 16〇, the bobbin 161 at the upper end is also When the cylinder becomes a full bobbin, the drum 160' is rotated by about 18 〇. Thereby, the full bobbin is located at the lower end of the drum and the empty bobbin is located at the drum. The upper end of the 160', that is, the tube clamp (6) originally located at the upper portion, moved to the lower portion, and the tube clamp 162 originally located at the lower portion, moved to the upper portion. Of course, the empty tube held by the above-mentioned bobbin holder 162' On the tube, from the top: move, r 150, supply and wind the wire. /, move # On the other hand, the above-mentioned winding machine is developing in the following direction: the rotation speed of the bobbin holder is increased to improve the winding efficiency of the wire Increase, or increase the length of the bobbin clamp in order to combine more bobbins. However, there is the following problem: if the rotation speed of the bobbin clamp is above the above-mentioned, or the length is reached to the length In the above, there will be a frequency break and the vibration phenomenon becomes severe and the winding is poor. Therefore, increasing the rotation speed of the U plus tube inflammation or increasing the length of the Mf clip is limited. The number of machines is set to increase the winding efficiency of the wire, but at this time, there is a problem that the space occupied by the winding machine becomes large, and the maintenance cost increases, and thus it is difficult to manage. [Summary of the Invention] Problem] the invention is A solution to solve the previous problems, the purpose of which is to provide a double drum reeling machine which can utilize a horizontal 200923150 moving part to double the winding efficiency without setting space. [Technical means for solving the problem] In order to achieve the above object, the double drum reeling machine of the present invention comprises: a pair of guides arranged in front of the fuselage; combined with the pair of guides and raised and lowered a sliding portion; one of the two sides of the sliding portion; a ridge, a bristles disposed between the friction portions at a center of the sliding portion, and a pair of drums, etc. The front side is respectively disposed under the pair of friction portions, and the upper and lower portions are respectively provided with bobbin holders. In the present invention, the friction portion is further provided with a lower friction toward the traverse portion at the lower end. The traversing portion includes: a traverse plate coupled with the sliding portion; a traverse convex L that is combined with a late, movable plate, and cymbal to rotate in a predetermined direction, and a traverse guide, and the traverse cam The two sides are combined to convert the rotary motion of the traverse cam into a horizontal reciprocating motion. - The position of the drum is such that the upper portion of the cylinder is relatively inclined by 5 to 850 based on the horizontal line of the center point of rotation of the drum during the winding operation. The sliding portion is lowered during the winding operation of the wire, and the friction roller provided on the friction portion is brought into close contact with the bobbin which is decoupled from the bobbin. The sliding portion rises when the winding operation is stopped on the line, and the friction roller provided on the friction portion is separated from the bobbin of the bobbin. 200923150
上述鼓以其旋 當與筒管夾結合之筒管上捲滿線時 轉中心點為基準而旋轉180。。 [發明之效果;| 以一個橫動部為中心而 ,線之捲繞效率與先前 於本發明之雙鼓卷線機中, 設有兩個摩擦部及兩個鼓,藉此 相比增加為約兩倍。 又 ^之雙鼓麵機與^之單純將!%個卷線 機加以結合之構造相比,所占之”更少,且 使用之零件數目(例如,僅使用—個橫動 【實施方式】 '為了讓具有本發明所屬技術領域之常識者能 夠容易地實施’根據圖式來說明本發明之實施形態。 圖2中顯示有本發明之雙鼓卷線機之正視圖。 如圖2所示,本發明之雙鼓卷線機1〇〇包括:機身 110、一對導軌120、一個滑動部130、一對摩捧部14〇、 -個橫動部15〇、以及一對鼓16〇。此處,於上述各鼓 16〇上,在上部及下部分別設有筒管夾161、162。 上述機身11 〇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。當 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)。 上述一對導軌120設於上述機身110之前方。亦 200923150 即’上述一對導執120以相互之間隔開特定距離之狀熊 設置於垂直方向上。 上述一個滑動部130機械地結合於上述—對導軌 120。因此,上述滑動部130可沿著上述一對導執12〇 而於上下方向上升降。The drum is rotated 180 with reference to the center of rotation of the bobbin coupled to the bobbin clamp. . [Effects of the Invention; | With one traverse portion as the center, the winding efficiency of the wire is different from that of the double drum reeling machine of the present invention, and two friction portions and two drums are provided, thereby increasing About twice. And the double drum machine and ^ simply combine %% of the winding machine to form a combination of less, and the number of parts used (for example, only use - traverse [embodiment] The embodiment of the present invention will be described in accordance with the drawings in order to enable those skilled in the art to which the invention pertains. Fig. 2 is a front view of the double drum reeling machine of the present invention. The double drum reeling machine 1 of the present invention includes: a body 110, a pair of guide rails 120, a sliding portion 130, a pair of holding portions 14A, a traversing portion 15A, and a pair of drums 16A. Here, bobbin holders 161 and 162 are provided on the upper and lower portions of each of the drums 16A. The body 11 has the function of providing various structures, and also has the above-mentioned various structures from the ground. The function of stably positioning is provided. Of course, a motor, various gear tools, and various electric control circuits (not shown) are provided inside the body 110. The pair of guide rails 120 are disposed in front of the body 110. Also 200923150 That is, the above-mentioned pair of guides 120 are mutually The bears spaced apart by a certain distance are disposed in the vertical direction. The one sliding portion 130 is mechanically coupled to the pair of guide rails 120. Therefore, the sliding portion 130 can be raised and lowered in the up and down direction along the pair of guides 12 .
上述一對摩擦部140設於上述滑動部13〇之兩侧。 亦即,上述一對摩擦部140在上述滑動部13〇之左、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141, 以使摩擦輥141在線1之捲繞動作中緊貼於筒管而旋 轉,藉此將線i牢固地捲繞至筒管上。上述摩擦輥ΐ4ι 朝向設於中央之橫動部150。亦即,以橫動部15〇為中 心而於左、右側分別設有摩擦部14〇 ’而設於上述摩擦 邛140上之摩擦輥141朝向上述中央之橫動部。 上述橫動部150在上述滑動部13〇之 兩個摩擦部⑽之間。又,上述橫動部15〇包括:、= 動部130結合之橫動板151 ;與上述橫動a結合之 同時向特定方向旋轉之橫動凸輪152;以及橫動導紗器 153,其與上述橫動凸輪152之兩側結合,將上述橫動 凸輪152之旋轉運動轉換為水平往復運動。亦即,分別 設於上述橫動凸輪152之左、右側之橫動導紗1153朝 向摩擦輥141。當然,來自導絲輥(未圖示)之線】受 到上述橫動導紗器153在特定方向上之往復弓丨導,從而 200923150 沿水平方向捲繞至與上述筒管夾⑹結合之筒管上。由 於上述橫動凸輪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-步之說明。 上述-對鼓丨60在上述機身UG之前方設於上述一 對摩擦部140之下部。亦即,上述鼓⑽分別以機身11〇 ,垂直中心線為基準而設於左側及右側。再者,上述各 豉160在同官上捲滿線j時可旋轉約⑽。。當缺,為此 f 各j支⑽之中央結合於未圖示之馬達等。此處y上述鼓 160之旋轉中心點由圖式符號163表示。 j一對筒管夾IQ、〗62設於各鼓⑽上。再者, 上述同管夹161、169 要;、 、》, 162 6又置成,以通過上述鼓160之旋 轉中心點163之水平線(Η)為基準而傾斜約5〜85。。 =上述筒管夾16卜162之設置角度以水平線(Η)為基 二:足5則存在當筒官上捲滿線時會相互干擾而盔 85之問題。又,若上述筒管夾⑹之設置角度超過 ,則存在因自橫動部15〇至筒管為止之距離非常遠 :致線1之捲繞不良的問題。亦即,先前,筒管夾 ,162係設置為,與通過鼓⑽之旋轉中心點163 之水平線(Η)成大致90。,但本發明中,筒管夹⑹、 Ζ係形成為相對於水平、㈣傾斜特定角度, 兩個鼓⑽進行線!之捲繞之同時不會相互干擾。此 :者上撕夾161、162上應結合有捲繞線!之筒管。 上述傾斜角度隨著捲繞至筒管上之線!之量而變 -10- 200923150 化。例如,當線1之捲繞量較少時,傾斜角度相對較小, 當線1之捲繞篁較多時’傾斜角度相對較大。 圖3至圖5中顯示有本發明之雙鼓卷線機之動作。 首先,如圖3所示,自導絲輥〗8〇向左、右側之下 部方向分別供給線1。上述線!受到橫動部15〇之橫動 凸輪152以及橫動導紗器153之引導,而被捲繞至設於 上述橫動部150之左、右側的各鼓16〇之筒管夾ΐ6ι、 亦即與之結合之筒管上。亦即’線1被捲繞至與設於橫 動部150之左、右側之鼓16〇中的相對地位於上部之筒 管夾161結合之筒管上。此時’上述橫動们%中,如 上所述,橫動導紗器153將橫動凸輪152之旋轉運動轉 T為水平往復運動,藉此,線1 一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 立牛至最低位置。因此,與上述滑動部工3 〇結合之摩擦 ^⑽及橫動部15〇亦下降至最低位置。進而,設於上 埏摩挺。卩140上之摩擦輥141緊貼於捲繞至上述筒管上 总線1而疑轉,從而使線1緻密且牢固地捲繞至上述筒 ^上士儘官圖式中顯示了橫動部150中之橫動板151干 160 ’但實際上橫動才反151為緊貼於滑動部130 之板形離,日吟】 4 ’ 政160與機身110隔開固定距離而設置 者’因^不存在相互間之干擾現象。 、繼而,如HI A _ Q 4所不,若將線1持續捲繞至筒管夾161 200923150 筒g上%形成於上述筒管上之線1之捲繞厚度會達 滿卷狀態。若如此,則上:滑 、、 蛉執120向上部上升固定距離。藉此,與上 130結合之兩個摩擦部140以及-個橫動部 ’、θ向上部上升。在成為上述狀態後,準備使上述 各放160分別旋轉約18〇。。 #二^㈣分別旋轉180。,由此 上部= 捲同官之位置相互變化。亦即’原先位於 ⑹位於上部。1 二位先位於τ部之筒管夾 旋轉中心點二:=:以通過鼓16。之 κ十踝為基準而傾斜約5〜85。 旋轉後,再次向與上述筒管失= 不;斷Γ當:藉:連續一 益士土 …、/、上述同官夾161結合之滿捲筒管另行 猎由未圖不之筒管分離裝置而分離。 m以上所述之本發明並不限定於上述特定之較佳實 ㈣,根據申請專利範圍所申請 ,、 :要是r本技術領域之常識者,即二基種本實概念變 【二r於本發明”請專·圍。、 圖1係表示先前之卷線機之正視圖。 =2係表示本發明之雙鼓卷線機之正視圖。 ㈤3至圖5係表示本發明之雙鼓卷線機之動作之正 -12- 200923150 視圖。 【主要元件符號說明】 1 線 100 本發明之雙鼓卷線機 110 機身 120 導執 130 滑動部 140 摩擦部 141 摩擦輥 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 180 導絲幸昆 Η 水平線 -13 -The pair of friction portions 140 are provided on both sides of the sliding portion 13A. In other words, the pair of friction portions 140 are provided at a fixed distance from each other on the left and right sides of the sliding portion 13A. Further, the pair of friction portions 140 are further provided with a rubbing roller 141 for rotating the rubbing roller 141 in close contact with the bobbin in the winding operation of the wire 1, whereby the wire i is firmly wound around the bobbin. The rubbing roller ΐ4ι faces the traverse portion 150 provided at the center. In other words, the friction portion 14A is provided on the left and right sides with the traverse portion 15A as a center, and the friction roller 141 provided on the friction cymbal 140 faces the traverse portion of the center. The traverse portion 150 is interposed between the two friction portions (10) of the sliding portion 13A. Further, the traverse portion 15A includes: a traverse plate 151 in which the movable portion 130 is coupled, a traverse cam 152 that rotates in a specific direction while being combined with the traverse a, and a traverse guide 153 that The two sides of the traverse cam 152 are coupled to convert the rotational motion of the traverse cam 152 into a horizontal reciprocating motion. That is, the traverse guide yarn 1153 provided on the left and right sides of the traverse cam 152 faces the friction roller 141, respectively. Of course, the line from the godet roller (not shown) is guided by the reciprocating bow of the traverse guide 153 in a specific direction, so that the 200923150 is wound in the horizontal direction to the bobbin combined with the bobbin holder (6). on. Since the above-described combination of the traverse cam 152 and the traverse guide 153 is well known to those skilled in the art, the description of the further steps is omitted here. The above-mentioned pair of drums 60 are provided below the pair of friction portions 140 before the body UG. That is, the drums (10) are respectively provided on the left side and the right side with reference to the body 11 〇 and the vertical center line. Furthermore, each of the above-mentioned cymbals 160 can be rotated about (10) when the line is full on the same line. . When it is missing, the center of each j branch (10) is coupled to a motor or the like (not shown). Here, the center of rotation of the drum 160 described above is indicated by a symbol 163. j A pair of bobbin holders IQ, 〖62 are provided on each drum (10). Further, the above-mentioned pipe clamps 161, 169 are further disposed, and are slanted by about 5 to 85 with reference to the horizontal line (Η) of the rotation center point 163 of the drum 160 as a reference. . = The set angle of the above-mentioned bobbin holder 16 162 is based on the horizontal line (Η). Second: The foot 5 has a problem that the helmet 85 interferes with each other when the cylinder is full. Further, when the installation angle of the bobbin holder (6) is exceeded, there is a problem that the distance from the traverse portion 15A to the bobbin is extremely long: the winding of the wire 1 is defective. That is, previously, the bobbin holder 162 is arranged to be substantially 90 with the horizontal line (Η) passing through the center point 163 of the rotation of the drum (10). However, in the present invention, the bobbin holder (6) and the tether are formed to be inclined at a specific angle with respect to the horizontal and (four), and the two drums (10) are lined! The windings do not interfere with each other. This: The upper tearing clips 161, 162 should be combined with a winding line! The tube. The above angle of inclination follows the line wound onto the bobbin! The amount varies -10- 200923150. For example, when the winding amount of the wire 1 is small, the inclination angle is relatively small, and when the winding entanglement of the wire 1 is large, the inclination angle is relatively large. The operation of the double drum reeling machine of the present invention is shown in Figs. 3 to 5. First, as shown in Fig. 3, the wire 1 is supplied from the godet roller 8 〇 to the left and right lower directions, respectively. The above line! Guided by the traverse cam 152 and the traverse guide 153 of the traverse portion 15A, the traverse cam 152 and the traverse guide 153 are wound around the bobbin holder 6 of the drum 16 provided on the left and right sides of the traverse portion 150, that is, Combined with the bobbin. That is, the 'line 1' is wound onto a bobbin in which the upper tube clamp 161 is coupled to the left and right drums 16 of the traverse portion 150. At this time, in the above-described traverse %, as described above, the traverse guide 153 turns the rotational motion of the traverse cam 152 to the horizontal reciprocating motion, whereby the line 1 reciprocates in the horizontal direction while being Supply to the bobbin. Further, in the winding operation described above, the sliding portion 130 is positioned along the guide 12 to the lowest position of the oregano. Therefore, the friction ^(10) and the traverse portion 15〇 combined with the above-described sliding portion 3 〇 are also lowered to the lowest position. Furthermore, it is set on the top. The friction roller 141 on the crucible 140 is in close contact with the bus 1 wound on the bobbin and is suspected to rotate, so that the wire 1 is densely and firmly wound to the above-mentioned cylinder. The traverse portion is shown in the figure. The traverse plate 151 of 150 is 160' but the traverse is actually 151 to be close to the plate shape of the sliding portion 130, and the Japanese 160160 is separated from the body 110 by a fixed distance. ^ There is no mutual interference. Then, if HI A _ Q 4 is not, if the thread 1 is continuously wound to the bobbin holder 161 200923150, the winding thickness of the line 1 formed on the bobbin is as full as the winding. If so, the upper: slip, and the squat 120 is raised upward by a fixed distance. Thereby, the two friction portions 140 and the traverse portions ', θ combined with the upper 130 are raised upward. After the above state is reached, it is prepared to rotate each of the above-described discharges 160 by about 18 。. . #二^(四) Rotate 180 respectively. Thus, the upper part of the volume and the position of the official change. That is, 'originally located (6) is located at the top. 1 Two-stage bobbin clamp first located at the τ section Rotation center point two: =: to pass the drum 16. The κ 踝 is tilted by about 5 to 85 as a reference. After the rotation, it will be lost again to the above-mentioned bobbin; if it is broken; when: borrowing: continuous one Yishi soil..., /, the above-mentioned full-cylinder tube 161 combined with the full-bore tube is separately hunted by the unillustrated bobbin separation device And separated. m The invention described above is not limited to the above-mentioned specific preferred embodiment (IV), and is applied according to the scope of the patent application, if: R is a common knowledge in the technical field, that is, the two basic concepts are changed. Fig. 1 is a front view showing a prior art reeling machine. = 2 is a front view showing the double drum reeling machine of the present invention. (5) 3 to 5 are lines showing the double drum reel of the present invention. The action of the machine is positive -12- 200923150 view. [Main component symbol description] 1 line 100 Double drum reeling machine 110 of the present invention Body 120 Guide 130 Slide portion 140 Friction portion 141 Friction roller 150 Transverse portion 151 Traverse Plate 152 traverse cam 153 traverse guide 160 drum 161 > 162 bobbin clamp 180 guide wire lucky Kunyu horizontal line-13 -