201132573 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種薄紙拉斷之設計,特別是關於一種 薄紙捲繞裝置之薄紙拉斷方法及機構。 【先前技術】 查典型的薄紙捲繞裝置主要包括有一上捲輪、一導引 板、一下捲輪、一騎輪,其中導引板係設置於上捲輪之一輪 面下方鄰近位置,並與該上捲輪之間形成一通道,該上捲 輪、下捲輪和騎輪之間係形成一捲繞區。 一般薄紙捲繞裝置之紙管,是靠一輸送機傳遞至一上 捲輪旁,再由一推桿推入一導引板通道,再到達一捲繞區, 在紙管上捲繞薄紙成為一捲筒紙,如捲筒衛生紙等。完成一 捲筒紙之捲繞工作後,藉由控制一旋轉桿之轉速,使其相對 速度比上捲輪之轉速快或比上捲輪之轉速慢,藉此所產生之 速差而造成薄紙斷裂。 在另一種先前技術中,是藉由接觸式的薄紙拉斷方法 及機構,例如以撥桿抵觸於薄紙捲繞裝置所配置的一上捲輪 面,而將通過該上捲輪面的薄紙抵制住,再藉由薄紙受到捲 繞區捲繞形成之捲筒紙之拉力而被拉斷。 【發明内容】 本發明所欲解決之技術問題 然而,在上述習用之薄紙捲繞裝置中,須注意旋轉桿 201132573 之轉速不可恰與上捲輪之轉速相同,才可造成速差而使薄紙 斷裂,而且若薄紙是以高韌性之材質所製成時,若旋轉桿與 上捲輪之間的速差不夠大,亦無法造成薄紙斷裂。 而在前述接觸式的薄紙拉斷先前技術中,由於撥桿需 實際抵觸於上捲輪面,故在機構組成構件的耐用性、安全性 方面存在了無法克服的缺點。 緣此,本發明之主要目的即是提供一種具拉斷機構之 薄紙捲繞裝置,以期利用非接觸的薄紙拉斷方式將薄紙拉 斷。 本發明之另一目的是提供一種包括有抽氣裝置以及具 有抽氣通道和中空通道之拉斷機構之薄紙捲繞裝置。 本發明之另一目的是提供一種以產生真空吸附力來作 為薄紙捲繞裝置中將薄紙拉斷的方法及裝置。 本發明解決問題之技術手段 本發明為解決習知技術之問題所採用之技術手段係在 薄紙捲繞裝置的上捲輪之一輪面下方鄰近位置配置一拉斷 機構,該拉斷機構包括一轉軸,具有一外環面及至少一撥 桿,該撥桿具有一轉軸連結端和一薄紙接觸端,該轉軸連結 端係連結固定於該轉軸之外環面,而該薄紙接觸端係由該轉 軸之外環面凸伸出。當該撥桿受一驅動機構之驅動而使該撥 桿之薄紙接觸端旋轉至一面向於上捲輪的接觸位置時,該撥 桿之薄紙接觸端吸附或導引通過該通道之薄紙,使該薄紙因 受到捲繞區捲繞形成之捲筒紙之拉力,而使該薄紙被拉斷。 201132573 本發明對照先前技術之功效 經由本發明所採用之技術手段,可以使得撥桿在不接 觸上捲輪的狀況下,即可將薄紙捲繞裝置的薄紙予以拉斷, 如此可以提昇薄紙捲繞裝置的運行順暢度及安全性,也可以 減少薄紙捲繞裝置組成構件的機械耐用度。 本發明所採用的具體實施例,將藉由以下之實施例及 附呈圖式作進一步之說明。 【實施方式】 參閱第1圖所示,本發明薄紙捲繞裝置1〇〇之第一實 施例係包括一基座11 一上捲輪12、複數個導引板13(側 視圖只能看見-個)、-拉斷機構14、—下捲輪15、一騎輪 16、一紙管輸送裝置π ' 一對夾送輪21、一打孔裝置u、 一傾斜通道23。201132573 VI. Description of the Invention: [Technical Field] The present invention relates to a design for thin paper breaking, and more particularly to a thin paper breaking method and mechanism for a thin paper winding device. [Prior Art] A typical tissue winding device mainly includes an upper reel, a guiding plate, a lower reel, and a riding wheel, wherein the guiding plate is disposed adjacent to a wheel surface of the upper reel, and A passage is formed between the upper reels, and a winding zone is formed between the upper reel, the lower reel and the riding wheel. Generally, the paper tube of the thin paper winding device is conveyed by a conveyor to a winding reel, and then pushed by a push rod into a guiding plate passage, and then reaches a winding area, and the thin paper is wound on the paper tube. A roll of paper, such as roll toilet paper. After completing the winding work of a web, by controlling the rotation speed of a rotating rod, the relative speed is faster than the rotation speed of the upper reel or slower than the rotation speed of the reel, thereby causing a thin paper caused by the speed difference generated thereby. fracture. In another prior art, the contact type thin paper breaking method and mechanism are used, for example, by a lever against a reeling surface configured by the tissue winding device, and the tissue passing through the winding surface is resisted. It is then pulled off by the tensile force of the web formed by the winding of the tissue. SUMMARY OF THE INVENTION Problems to be Solved by the Invention However, in the conventional thin paper winding device, it should be noted that the rotation speed of the rotating rod 201132573 is not the same as the rotation speed of the winding reel, so that the speed difference can be caused to break the thin paper. And if the tissue is made of a material with high toughness, if the speed difference between the rotating rod and the winding reel is not large enough, the thin paper cannot be broken. In the prior art of the contact type thin paper breaking, since the lever needs to be in actual contact with the winding surface, there is an insurmountable disadvantage in terms of durability and safety of the mechanical component. Accordingly, it is a primary object of the present invention to provide a tissue winding device having a pull-off mechanism for interrupting the use of a non-contact tissue pull-off method. Another object of the present invention is to provide a tissue winding device including an air suction device and a pull-off mechanism having an air suction passage and a hollow passage. Another object of the present invention is to provide a method and apparatus for breaking a tissue in a tissue winding apparatus by generating a vacuum suction force. Technical Solution for Solving the Problems According to the present invention, a technical means for solving the problems of the prior art is to arrange a pull-off mechanism adjacent to a wheel surface of one of the upper reels of the thin paper winding device, the pull-off mechanism including a rotating shaft The utility model has an outer ring surface and at least one lever, the lever has a rotating shaft connecting end and a thin paper contact end, wherein the rotating shaft connecting end is fixedly connected to the outer ring surface of the rotating shaft, and the thin paper contact end is connected to the rotating shaft The outer torus is convex. When the lever is driven by a driving mechanism to rotate the thin paper contact end of the lever to a contact position facing the upper reel, the thin paper contact end of the lever adsorbs or guides the thin paper passing through the passage, so that The tissue is pulled by the tension of the web formed by the winding of the winding zone. 201132573 The invention compares the efficacy of the prior art, and the technical means adopted by the invention can make the thinning paper of the thin paper winding device be pulled off without contacting the upper reel, so that the thin paper winding can be improved. The smoothness and safety of the device can also reduce the mechanical durability of the components of the tissue winding device. The specific embodiments of the present invention will be further described by the following examples and the accompanying drawings. [Embodiment] Referring to Fig. 1, a first embodiment of the tissue winding device 1 of the present invention comprises a base 11, an upper reel 12, and a plurality of guide plates 13 (the side view can only be seen - , a breaking mechanism 14, a lower reel 15, a riding wheel 16, a paper tube conveying device π ' a pair of pinch wheels 21, a perforating device u, and an inclined channel 23.
導引板13係设置於上捲輪12之一輪面下方鄰近位 置’並與上捲輪12之間形成一通道3。上捲輪12、下捲輪 15和騎輪16之間係形成—捲繞區19。—具有—預定厚度及 寬度之薄紙4係以-傳遞方向n經由夾送輪21之輸送並 經過打孔裝置22在該薄紙4在傳遞方向n每隔―預定長度 距離打上一排正交於該傳遞方向II的孔洞41(如第2圖所 示),再臨貼於上捲輪12下半部之輪面而捲繞於—位在捲繞 區19之第一紙官5上,薄紙4可在捲繞區19形成-預定直 徑之捲筒紙51,例如捲筒衛生紙等。 201132573 參閱第3圖所示,拉斷機構14係設置於上捲輪12下 方鄰近位置,拉斷機構14包括一轉轴丨41及至少一撥桿 142。轉軸141具有一外環面141a。撥桿142係設置於轉軸 141之外環面14ia’各個撥桿142係具有一轉軸連結端142a 和一薄紙接觸端142b’轉軸連結端142a係連結固定於轉軸 141之外環面14ia ’而薄紙接觸端142b係由轉軸ι41之外 環面141 a凸伸出。The guide plate 13 is disposed adjacent to a position below one of the treads of the upper reel 12 and forms a passage 3 with the upper reel 12. A winding region 19 is formed between the upper reel 12, the lower reel 15 and the riding wheel 16. - a tissue 4 having a predetermined thickness and width is conveyed in the transfer direction n via the pinch roller 21 and passed through the punching device 22 in the transfer direction n in the transfer direction n every predetermined length distance is orthogonal to the row The hole 41 of the transmission direction II (as shown in FIG. 2) is further attached to the tread of the lower half of the upper reel 12 and wound around the first paper officer 5 of the winding zone 19, and the tissue 4 can be A web 51 of predetermined diameter is formed in the winding zone 19, such as a roll of toilet paper or the like. 201132573 Referring to Fig. 3, the breaking mechanism 14 is disposed adjacent to the lower reel 12, and the breaking mechanism 14 includes a rotating shaft 41 and at least one lever 142. The rotating shaft 141 has an outer annular surface 141a. The lever 142 is disposed on the outer surface of the rotating shaft 141. Each of the levers 142 has a rotating shaft connecting end 142a and a thin paper contact end 142b. The rotating shaft connecting end 142a is coupled and fixed to the outer surface of the rotating shaft 141. The contact end 142b is protruded from the outer surface 141a of the rotating shaft ι41.
一驅動機構(未示)可驅動撥桿142以轉軸141為旋轉中 心而旋轉,撥桿142之旋轉方向13係相同於上捲輪12之旋 轉方向12,故撥桿142之薄紙接觸端14沘旋轉至接觸位置 A時’撥桿142之薄紙接觸端142b的旋轉方向恰相反於上 播輪12之旋轉方向12。撥桿142之旋轉執跡係可形成一旋 轉軌跡圓142d。 請同時參閱第4圖所示,撥桿142之薄紙接觸端麗 係設置有,⑽口 H2e,並且熟141㈣係具有一抽氣 通道U!b而使轉軸⑷呈中空管狀,轉轴i4i之外環面⑷s 選定位置係開設有複數個連通於抽氣通道i4i 141c,撥样142係開設有至少一連 咆通於吸附口 142c和轉軸 之開孔141c之中空通道l42ee 轉 得釉141連結有一柚翁 裝置(未示),用以抽離轉轴141之抽氣强*抽孔 . 142β 虱通道 Hlb 和撥桿 142 之中空通痘142e中之二虱,以使撥坦 142b位在吸附口 142c具有—真空吸42之薄紙接觸端 觸端l42b之吸附π 142e最好是呈。較佳地,薄紙接 U2c在吸_紙4時具有最佳㈣附^構’以使該吸附口 201132573 參閱第5〜12圖所示,係顯示本發明第一實施例在進行 薄紙拉斷之一序列動作示意圖。當撥桿142受驅動以旋轉方 向13旋轉而使撥桿142之薄紙接觸端142|?週期性地旋轉至 面向於該上捲輪12之接觸位置a(如第6圖所示)。此時, 邊撥桿142之薄紙接觸端142b與薄紙4接觸,並與上捲輪 12之間保持一預定間距,並未接觸,且撥桿142之薄紙接 觸端142b將薄紙4吸附於吸附口 142c。 第二紙管6經紙管輸送裝置17之一承板171之輸送, 而到達導引板13與上捲輪12之間所形成之通道3之入口 後,紙管輸送裝置17之一推板172會旋轉而將第二紙管6 推入通道3内(如第7圖所示)。 本發明較佳實施例中,為了使撥桿142之薄紙接觸端 142b順利吸附通過通道3之薄紙4,可以在撥桿142之薄紙 接觸端142b位在接觸位置A時,由控制器(圖未示)稍降低 下捲輪15之轉速,而使薄紙4稍懸垂(如第7圖所示),如 此可使撥桿142之薄紙接觸端142b順利吸附薄紙4。 當薄紙4受撥桿142之薄紙接觸端142b吸附的同時, 薄紙4之右側端因受到捲繞區19捲繞形成之捲筒紙51之拉 力而被拉斷’而使薄紙4在斷裂處分裂為一靠近第一紙管5 之尾端43和一靠近第二紙管6之頭端44,薄紙4之尾端43 會捲繞在第一紙管5上而完成捲筒紙51之捲繞(如第10圖 所示)’此時,下捲輪15之轉速回復至正常轉速。該薄紙4 之斷裂位置係位在該接觸位置A與該第一紙管5之捲筒紙 51之間。在實際的產業利用時,其斷裂位置會在薄紙4受 201132573 打孔裝置22進行打孔所形成的孔洞41的位置。 當薄紙4被拉斷的同時,由於撥桿142之薄紙接觸端 142b吸附住薄紙4之頭端44,並藉由撥桿142在接觸位置 A之反方向旋轉而將薄紙4之頭端44帶往剛進入通道3的 第二紙管6,而使薄紙4之頭端44初步捲繞於第二紙管6 之外環面(如第9、10圖所示)。 當撥桿142旋轉離開薄紙4及通道3後,第二紙管6 沿著通道3繼續向前滾動,而使得薄紙4之頭端料完全捲 繞於第一、,·氏g 6上’同時薄紙4之尾端43會捲附於捲筒紙 51上而完成捲筒紙51之捲繞(如第1〇、u圖所示)。 、、參閱第11、12圖所示’第二紙管6會藉由下捲輪15 減速所造成之上捲輪12和下捲輪15之間的速差效應而被傳 遞至捲繞區19(如第12圖所示),並開始進行-新的捲筒紙 之捲繞工作。而已完成之捲筒紙51則沿著傾斜通道23排出。 Φ 由於捲筒紙51已沿著傾斜通道23排出,而騎輪16係 連結於一擺臂161(同時參閱第1圖),擺臂161係具有-旋 轉中心轴⑹,擺们61係可以其旋轉中心㈣2為中心而 擺動因此連於擺臂161之騎輪16亦會隨著擺臂⑹之 ,動軌跡而上下移動’當捲筒紙51排出後,原本壓觸於捲 筒紙51之騎輪16即會向下移動而壓觸於第二紙管6。 閱第13〜2G圖所不,侧示本發明第二實施例在進 行=、氏拉斷之序列動作示意圖。其中第^〜Μ圖與前述第 例之動作相同’而在第16圖中,在進行薄紙的正常 動作期間’將下捲輪15之轉速由正常轉速稱降低轉 201132573 速,而可使位在該通道3之該薄紙4稍懸垂而形成一懸垂區 段42。此懸垂區段42恰可藉由撥桿142之薄紙接觸端142b 之導引(如第17圖所示),將該薄紙4之懸垂區段42至少一 部份區段(即鄰近於第二紙管6之區段)導引夾捲於該第二紙 管6與該導引板13之間(如第18圖所示)。此時,下捲輪15 之轉速回復至正常轉速,故薄紙4因受到捲繞區19捲繞形 成之捲筒紙51之拉力而被拉斷(如第19圖所示),該薄紙4 之斷裂位置係位在被夾捲在該第二紙管6與該導引板13間 的位置與該第一紙管5之捲筒紙51之間。 相同於前一實施例,當撥桿142受驅動以旋轉方向13 旋轉而使撥桿142之薄紙接觸端142b週期性地旋轉至面向 於該上捲輪12之接觸位置A。撥桿142之薄紙接觸端142b 的吸附口 142c所產生的真空吸附力,輔助該撥桿142之薄 紙接觸端142b將薄紙4之懸垂區段42至少一部份區段導引 夾捲於該第二紙管6與該導引板13之間。 當薄紙4被拉斷後,其後續的動作(如第20圖所示)則 與前一實施例之動作相同。 由以上之實施例可知,本發明所提供確具產業上之利 用價值,故本發明業已符合於專利之要件。惟以上之敘述僅 為本發明之較佳實施例說明,凡精於此項技藝者當可依據上 述之說明而作其它種種之改良,惟這些改變仍屬於本發明之 發明精神及以下所界定之專利範圍中。 【圖式簡單說明】 -9 - 201132573 第1圖係本發明第一實施例之側視圖; 第2圖係顯示薄紙每隔一預定長度距離打上一排孔洞之示 意圖, 第3圖係顯示本發明中上捲輪和拉斷機構之撥桿之側視圖; 第4圖係拉斷機構之撥桿之剖視圖; 第5圖係本發明第一實施例在進行薄紙拉斷之動作示意圖 一; 第6圖係本發明第一實施例在進行薄紙拉斷之動作示意圖A driving mechanism (not shown) can drive the lever 142 to rotate with the rotating shaft 141 as a center of rotation, and the rotating direction 13 of the lever 142 is the same as the rotating direction 12 of the winding reel 12, so the thin paper contact end 14 of the lever 142 When rotated to the contact position A, the direction of rotation of the thin paper contact end 142b of the lever 142 is exactly opposite to the direction of rotation 12 of the upper tractor wheel 12. The rotation of the lever 142 can form a rotational trajectory circle 142d. Please also refer to Fig. 4, the thin paper contact end of the lever 142 is provided with (10) port H2e, and the cooked 141 (four) has an air suction passage U!b to make the rotating shaft (4) hollow tubular, and the outer shaft of the rotating shaft i4i The surface (4)s is provided with a plurality of connected air passages i4i 141c, and the dial 142 is provided with at least one hollow passage l42ee which is connected to the adsorption opening 142c and the opening 141c of the rotating shaft, and the glaze 141 is connected to the vine 141. (not shown), for extracting the pumping force from the rotating shaft 141, * pumping holes 142? 虱 channel Hlb and the hollow rod 142e of the lever 142, so that the bit 142b is located at the adsorption port 142c - The adsorption π 142e of the contact end l42b of the thin paper contact end of the vacuum suction 42 is preferably present. Preferably, the thin paper U2c has the best (four) attachment when sucking the paper 4 so that the adsorption port 201132573 is shown in Figures 5 to 12, showing that the first embodiment of the present invention performs the thin paper breaking. A sequence of action diagrams. When the lever 142 is driven to rotate in the rotational direction 13, the thin paper contact end 142|? of the lever 142 is periodically rotated to the contact position a facing the upper reel 12 (as shown in Fig. 6). At this time, the thin paper contact end 142b of the side lever 142 is in contact with the thin paper 4, and is kept at a predetermined interval from the upper reel 12, and is not in contact, and the thin paper contact end 142b of the lever 142 adsorbs the thin paper 4 to the adsorption port. 142c. The second paper tube 6 is conveyed by one of the sheets 171 of the paper tube conveying device 17, and reaches the entrance of the passage 3 formed between the guiding plate 13 and the upper reel 12, and one of the paper tube conveying devices 17 is pushed. The 172 will rotate to push the second paper tube 6 into the channel 3 (as shown in Figure 7). In the preferred embodiment of the present invention, in order to smoothly move the thin paper contact end 142b of the lever 142 through the thin paper 4 of the channel 3, the controller can be placed at the contact position A of the thin paper contact end 142b of the lever 142. The speed of the lower reel 15 is slightly lowered, and the tissue 4 is slightly suspended (as shown in Fig. 7), so that the thin paper contact end 142b of the lever 142 can smoothly adsorb the tissue 4. While the tissue 4 is adsorbed by the thin paper contact end 142b of the lever 142, the right end of the tissue 4 is pulled off by the pulling force of the web 51 formed by winding the winding zone 19, and the tissue 4 is split at the break. As close to the trailing end 43 of the first paper tube 5 and a leading end 44 adjacent to the second paper tube 6, the trailing end 43 of the tissue 4 is wound around the first paper tube 5 to complete the winding of the web 51. (As shown in Fig. 10) 'At this time, the rotation speed of the lower reel 15 is returned to the normal rotation speed. The breaking position of the tissue 4 is between the contact position A and the web 51 of the first paper tube 5. In the actual industrial use, the position of the break is at the position of the hole 41 formed by the punching of the thin paper 4 by the 201132573 punching device 22. While the tissue 4 is being pulled, the tip end 44 of the tissue 4 is brought up by the thin paper contact end 142b of the lever 142 and the tip end 44 of the tissue 4 is rotated by the lever 142 in the opposite direction of the contact position A. To the second paper tube 6 just entering the channel 3, the head end 44 of the tissue 4 is initially wound around the outer surface of the second paper tube 6 (as shown in Figures 9, 10). After the lever 142 is rotated away from the tissue 4 and the channel 3, the second paper tube 6 continues to roll forward along the channel 3, so that the tip end of the tissue 4 is completely wound on the first, the g 6 ' The trailing end 43 of the tissue 4 is wound onto the roll paper 51 to complete the winding of the roll paper 51 (as shown in Figures 1 and 5). Referring to Figures 11 and 12, the second paper tube 6 is transferred to the winding zone 19 by the speed difference effect between the upper reel 12 and the lower reel 15 caused by the lowering of the lower reel 15 (As shown in Figure 12), and started - the new web winding work. The completed web 51 is discharged along the inclined passage 23. Φ Since the web 51 has been discharged along the inclined passage 23, and the ride 16 is coupled to a swing arm 161 (see also Fig. 1), the swing arm 161 has a --rotation central axis (6), and the 61-series can be The center of rotation (4) 2 is oscillated, so that the rider 16 connected to the swing arm 161 will also move up and down along with the trajectory of the swing arm (6). When the roll paper 51 is discharged, the ride is originally pressed against the roll paper 51. The wheel 16 will move downward to press against the second paper tube 6. Referring to Figures 13 to 2G, there is shown a schematic diagram of the sequence operation of the second embodiment of the present invention in which the ? Wherein the ^~Μ map is the same as the operation of the previous example', and in the 16th figure, during the normal operation of the tissue paper, the rotation speed of the lower reel 15 is reduced from the normal rotation speed to the 201132573 speed, and the position can be The tissue 4 of the channel 3 is slightly suspended to form an overhanging section 42. The overhanging section 42 can be guided by the thin paper contact end 142b of the lever 142 (as shown in FIG. 17) to at least a portion of the overhanging section 42 of the tissue 4 (ie, adjacent to the second A section of the paper tube 6 is guided between the second paper tube 6 and the guide sheet 13 (as shown in Fig. 18). At this time, the rotation speed of the lower reel 15 is returned to the normal rotation speed, so the tissue 4 is pulled off by the pulling force of the web 51 formed by winding the winding zone 19 (as shown in Fig. 19), the tissue 4 The breaking position is between the position sandwiched between the second paper tube 6 and the guide sheet 13 and the web 51 of the first paper tube 5. As in the previous embodiment, when the lever 142 is driven to rotate in the rotational direction 13, the thin paper contact end 142b of the lever 142 is periodically rotated to the contact position A facing the upper reel 12. The vacuum suction force generated by the suction port 142c of the thin paper contact end 142b of the lever 142 assists the thin paper contact end 142b of the lever 142 to guide at least a portion of the suspension section 42 of the tissue 4 to the first portion. Between the two paper tubes 6 and the guiding plate 13. When the tissue 4 is pulled off, its subsequent action (as shown in Fig. 20) is the same as that of the previous embodiment. It can be seen from the above embodiments that the present invention provides industrially useful value, and thus the present invention has met the requirements of the patent. The above description is only for the preferred embodiment of the present invention, and those skilled in the art can make other various improvements according to the above description, but these changes still belong to the inventive spirit of the present invention and the following definitions. In the scope of patents. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view showing a first embodiment of the present invention; FIG. 2 is a schematic view showing a row of holes per thin predetermined distance of a thin paper, and FIG. 3 is a view showing the present invention. Side view of the lever of the upper and lower reel and the breaking mechanism; Fig. 4 is a cross-sectional view of the lever of the breaking mechanism; Fig. 5 is a schematic view of the operation of the thinning of the thin paper according to the first embodiment of the present invention; Figure 1 is a schematic view of the action of the thin paper in the first embodiment of the present invention
一 · _ _ , 第7圖係本發明第一實施例在進行薄紙拉斷之動作示意圖 第8圖係本發明第一實施例在進行薄紙拉斷之動作示意圖 四; 第9圖係本發明第一實施例在進行薄紙拉斷之動作示意圖 五; 第10圖係本發明第一實施例在進行薄紙拉斷之動作示意圖 六; 第11圖係本發明第一實施例在進行薄紙拉斷之動作示意圖 七; 第12圖係本發明第一實施例在進行薄紙拉斷之動作示意圖 八; 第13圖係本發明第二實施例在進行薄紙拉斷之動作示意圖 第14圖係本發明第二實施例在進行薄紙拉斷之動作示意圖 201132573 第15圖係本發明第二實施例在進行薄紙拉斷之動作示意圖 —» · 9 第16圖係本發明第二實施例在進行薄紙拉斷之動作示意圖 四; 第17圖係本發明第二實施例在進行薄紙拉斷之動作示意圖 五; 第18圖係本發明第二實施例在進行薄紙拉斷之動作示意圖 六; 第19圖係本發明第二實施例在進行薄紙拉斷之動作示意圖 七; 第20圖係本發明第二實施例在進行薄紙拉斷之動作示意圖 八0 【主要元件符號說明】 100 薄紙捲繞裝置 11 基座 12 上捲輪 13 導引板 14 拉斷機構 141 轉軸 141a 轉轴之外環面 141b 抽氣通道 141c 開孔 -11- 2011325731 _ _ , FIG. 7 is a schematic view showing the operation of the thin paper in the first embodiment of the present invention. FIG. 8 is a schematic view showing the operation of the thin paper in the first embodiment of the present invention; FIG. 9 is the first embodiment of the present invention. FIG. 10 is a schematic diagram of a first embodiment of the present invention for performing a thin paper breaking operation; FIG. 11 is a first embodiment of the present invention for performing a thin paper breaking operation. Figure 12 is a schematic view of the first embodiment of the present invention in which the thin paper is broken; Figure 13 is a schematic view of the second embodiment of the present invention in which the thin paper is broken. Figure 14 is a second embodiment of the present invention. FIG. 15 is a schematic view of the operation of the second embodiment of the present invention in the process of performing the thin paper breaking. -> Fig. 16 is a schematic view of the second embodiment of the present invention Figure 17 is a schematic view of the second embodiment of the present invention in which the thin paper is broken; Figure 18 is a schematic view of the second embodiment of the present invention for performing the thin paper breaking; FIG. 20 is a schematic diagram of the operation of the thin paper in the second embodiment of the present invention; FIG. 20 is a schematic diagram of the operation of the thin paper in the second embodiment of the present invention. [The main component symbol description] 100 tissue winding device 11 base 12 Upper reel 13 Guide plate 14 Broken mechanism 141 Rotary shaft 141a Rotary outer ring surface 141b Air extraction passage 141c Opening -11- 201132573
142 撥桿 142a 轉軸連結端 142b 薄紙接觸端 142c 吸附口 142d 旋轉軌跡圓 142e 中空通道 15 下捲輪 16 騎輪 161 擺臂 162 旋轉中心軸 17 紙管輸送裝置 171 承板 172 推板 19 捲繞區 21 夾送輪 22 打孔裝置 23 傾斜通道 3 通道 4 薄紙 41 孔洞 42 懸垂區段 43 尾端 44 頭端 5 第一紙管 -12 - 201132573 51 捲筒紙 6 第二紙管 A 接觸位置 11 傳遞方向 12 旋轉方向 13 旋轉方向142 lever 142a shaft coupling end 142b tissue contact end 142c suction port 142d rotation path circle 142e hollow channel 15 lower reel 16 riding wheel 161 swing arm 162 rotating central shaft 17 paper tube conveying device 171 carrier plate 172 push plate 19 winding area 21 pinch wheel 22 punching device 23 inclined channel 3 channel 4 tissue 41 hole 42 overhanging section 43 tail end 44 head end 5 first paper tube-12 - 201132573 51 web 6 second paper tube A contact position 11 transfer Direction 12 direction of rotation 13 direction of rotation