200806561 九、發明說明: t發明所屬之技術領域:! 發明領域 本發明係有關於一種如申請專利範圍第1項先行詞所 5 述,將線捲繞至包裝管的捲繞裝置。 H Tltr 發明背景 EP 0 648 701 A1揭示一種一般型捲繞裝置。 該習知捲繞裝置具有一包裝支撐件,該包裝支撐件將 10 一以可旋轉方式安裝之張力板支撐於其兩對立端部。一用 以承接捲繞至包裝體之線的包裝管被繃緊於該張力板之 間。該包裝支撐件以樞軸方式固定於一樞軸的對立端部, 該包裝管或待捲繞之包裝體緊靠一驅動滾子之週邊。該驅 動滾子透過一馬達驅動。在此一類型之捲繞裝置中,以可 15移動方式固定之該包裝支撐件一方面被用以確保儘管與該 驅動滾子持續接觸該包裝體之成長在該線之捲繞期間是被 允許的’另_方面,其亦確保該包裝體在從該驅動滾子被 釋放之位置上的改變是可行的。該包裝支撐件為達此-目 的沿該樞輛執行持續的移動。 2〇 此外在该習知捲繞叢置中設有用以偵測該包裝管或 / 體在捲纟兒期間之旋轉速度的裝置。為此,該包裝支 撐件配備一感應構件,該感應構件係由一位於一該張力板 之端面上的磁鐵以及一位於該包裝支撐件上之霍爾感應 為組成’㈣爾感應器被固定於與該張力板一起旋轉之該 5 200806561 磁鐵的有效範圍内。該霍爾感應器被耦合至一連接線以將 感應訊號傳送至一控制裝置。 在該習知捲繞裝置中,該霍爾感應器以大致未受保護 之方式被安裝於該包裝支撐件之自由端。因此,被輕合至 5 該霍爾感應器之該連接線必須被設計成可移動,以賦予談 包裝支撐件單獨的位置。然而,基本上在該電氣連接線之 持續移動中,存在電纜斷裂或不受期待之彎曲負載可能發 生於該霍爾感應器與該連接線間之耦合點的風險。再者, 該包裝支撐件之功能僅由機械保久型零件特性化,因此, 10在電子零件於該包裝支撐件上整合中,這些零件之可交換 性將是受歡迎的。 L發明内容】 發明概要 鑑此,本發明之目的是要開發一種用以捲繞一般型線 15之捲、、>〇衣置’其中邊包裝支撐件所配備之該感應構件可以 功旎可罪且可交換之方式固定。 本务明之一進階目的是要儘可能地在習知捲繞裝置中 達成4感應構件之整合而不影_包裝支撐件之機械零件。 、此-目的在本發明中可達成,因為該霍爾感應器係由 2〇 離式感應H支撑件目定,祕鮮支撐件以可釋放方 式被連接至該包裝支撐件且具有—電導管以承接該連接線。 t月之有利的研發成果界定於附屬申請專利範圍之 特徵與特徵組合中。 本發明之不同處在於,儘管該包裝支撐件在移動,該 6 200806561 霍:T連接線之間並不會產生相對的移動。 :,言曲負裁可以避免,特別 爾感應盗之間的焊接接合點處。此外,一. 隹 連接線可㈣與該 情況 5 10 下,不麟該以切叙料_別修飾。 赖ί發Γ之發展’㈣電财管料包敎撐件延伸至 =中錢接線以和該框軸齊平之方式被導出該感 特別有利於減少該連接線上之相對移動。因 裝讀件所執行之樞軸移動不會影響該連接線。 :可二:::包裝支撐件上之該電子零件對故障的敏感 —為了承接該連接線’該感應器支撲件上之該電纜導管 L且地以體成型模鑄成且將其職較於該包裝支撐件 下=之ϋ形部分做成。因此,可以達成具有可靠之繞線且 15與環境遮蔽隔開的連接線。 為了減少該霍爾感應器對故障的敏感性,可適當地使 用本發明之研發成果,其中該感應器支撐件具有一用以承 接j亥霍爾感應器之空腔,在該空腔中,該霍爾感應器透過 二填充承載材料被固定。因此,以傳統方式由一電路板做 20成之該霍爾感應器可以被收容且固定以和環境完全絕緣, h况下其功能性產能不會被降低。使用之承載材料 玎為比方說聚乙烯塑膠。特別適宜之承載材料為可以抵抗 通吊在備製線之捲繞期間將會產生的備製媒體之揮發性組 件的承载材料。 7 200806561 用以承接該霍爾感應器之該空腔宜形成於該感應器支 撐件之一自由端上,該自由端在該包裝支撐件下方被歸讓 至該張力板,以便在一單一平面上直接連結該連接線與該 霍爾感應器。 5 為了確保可交換性,根據本發明之一有利發展,該感 應支撐件、該霍爾感應器及該連接線宜結合成一結構單 元,該連接線在該感應器支撐件外側一自由端處被連接至 一检基。因此可以簡易方式在一操作中的捲繞裝置上交換 感應構件。 10 為了安全的固定,即使在包裝支撐件具有盡其可能長 之突出長度的情況下,發明人提議將該感應支撐件設計成 具有一夾鉗扣帶及一與該夾钳扣帶隔開一段距離之繫結凸 緣’錢結凸緣以一連接構件被連接至該包裝支撐件,真 名夾鉗扣帶被滑入該包裝支撐件。因此,透過釋放一單〆 15的連接構件,整個該感應器支撐件可以從該包裝支撐件被 釋放並交換。即使在具有大突出長度之包裝支撐件中,该 感應is支撐件上亦不會發生相對移動,故可避免該霍爾感 應為與連接部之間之耦合點上產生負載。 曰為了儘可能地避免在該包裝支撐件上產生任何明顯的 2°重量差,該感應器支撐件宜以塑膠做成。 圖式簡單說明 下文將藉由一不範實施例並參照隨附圖示詳細說明木 發明,在圖式中: 第1圖概略例示根據本發明之捲繞裝置示範實施例的 8 200806561 側視圖; 第2圖概略例示第1圖中該示範實施例之一正視圖的細部; 第3及4圖概略例示一使用於根據本發明之捲繞裝置的 感應器支撐件之若干圖示。 5 【貧施方式】 較佳實施例之詳細說明 第1及2圖例示根據本發明之該捲繞裝置的第丨示範實 靶例。第1圖以侧視圖例示該示範實施例,第2圖以正視圖 細部之形式例示該捲繞裝置。在沒有明確指明圖式的情況 10下’說明文字適用於該兩圖式。 根據本發明之該捲繞裝置的圖示僅顯示對本發明而言 重要的零件。此一類型之捲繞裝置揭示於现0 921 087 中,因此,為說明整體配置及功能,在此一節點上,我們 將特別參照引用之讀,並僅針對本發明之重要零件做說明。 15 _本發明之該捲繞裝置的示範實施例具有一雙臂式 包衣支撐件卜该包裝支撐件i承載兩個互相對立設置之張 力板2。各該張力板2透過一板軸8被連接至該包裝支撐件, 該張力板2以可旋轉方式被固定於該板轴让。一用以承接 捲、%至包裝體中之線的包裝管3被_緊於該張力板2之間。 2〇 °亥包衣支撐件1 一端被固定於-樞軸4上。該樞軸4由- 載體5耦口至;^支架6。附加提供以執行樞軸移動之導 件及致動器在此-示範實施例中未顯示。在此一範例中, 用以#UT 4包裝讀件!之樞軸移動的該致動器主要僅係 為將該包裝支撐件引導至一改變位置而啟動。 200806561 一驅動滾子7以可旋轉方式被安裝於該包裝管3下方— 滾子載體9中。為此目的,該滾子載體9被繫結至該機器支 架6。該驅動滾子7被耦合至一圖中未示之電氣傳動裝置。 。亥电氣傳動裝置在此一範例中可形成於該驅動滾子中做為 5 一外部轉子或以一外部電氣馬達做成。在此一範例中,該 包衣管3或被捲繞包裝體在操作位置上被做成與該驅動滚 子7保持周邊接觸,以便該包裝管3或該包裝體可以一特定 周邊速度被驅動。 為了偵測該包裝管3或該包裝體之該周邊速度或旋轉 10速度,該包裝支撐件1被歸讓至一由一磁鐵10及一霍爾感應 器η形成之感應構件。該磁鐵10被配置於該張力板2之面向 ”亥包裝支撐件1的端面上。靜止之該霍爾感應器^被固定於 正對該張力板2之該端面且距其不遠之位置上,以達成該張 力板2也因此該包裝管3之該旋轉速度的非接觸性感應。^ 此範例中’在該張力板2之每一次迴轉中,該旋轉磁鐵 將在該霍爾感應器11上觸發一感應訊號且該感應訊號將透 過一耦合至該霍爾感應器η之連接線13被傳送。 ^該霍爾感應器11與該連接線13由一感應器支撐件12固 2疋。該感應器支撐件12形成一電纜導管14,該電纜導管14 20攸该感應器支擇件^之一自由端延伸至位於該包裝支樓件 1之端部的該樞軸4。該魏導管14係由該感應器支撐^ 形成於該包裝支撐件i下方。該電繞導管14終止於該柩轴* 區域,以使该連接線13以和該樞軸4齊平之方式被直接導 出該感應器支撐件12。因此,該包裝支撐件1之樞軸移動= 10 200806561 5 大致不影Μ連接線13,使位於該錢器切件12之咳自 由端的該霍爾感應龍與該連接線13之間不會產生贿形 目對機。-繫結凸緣15及—錢扣帶16被提供以繫 —感應Α支撐件12。肖夾钳扣帶16在此—範例中被塞入 該包裳支撐件!之-延伸部分17上的開孔。該繫結凸緣15透 過連接構件18,最好是,被牢固地連接至該包 件1 〇 ^ 為進-步制該感應H支撐件12,我們現在參考第3及 4一圖中從該包裝支撐们被釋放之該感應器支擇件12的圖 1〇不。^此-範例中,第3圖顯示一概略圖而第4圖則顯示該 感應器支撐件12之職_。在沒有明確指明圖示的情況 下,說明文字適用於該兩圖示。 該感應器支撐件與該霍爾感應器n及該連接線13共同 被形成-結構單元。在此一結構單元中,該感應器支擇件 15 12宜以塑膠做成比方說射出成型模鑄件。該感應器支樓件 12於一自由端上具有一空腔2〇,該霍爾感應器丨丨被固定於 該空腔20中。該霍爾感應S11被塞入該空腔2〇中做為一泰 路板,該霍爾感應器11之週遭被填充一位於該空腔2〇中之 承載材料22。該承載材料22宜以一填充塑膠材料形成,以 20使該霍爾感應器11固定並以一完全與環境絕緣之方式受保 護。在該感應器支撐件12上,該空腔20構成一一體成型模 鑄成之u形部分21,該u形部分21形成該電纜導管14。該一 體成型模鑄部分21延伸至該感應器支撐件12之對立端,誃 感應為支撐件12之形狀由該包裝支撐件之形狀預設,因此 11 200806561 - 其形狀可具有一或多個彎曲。該感應器支撐件12之形狀與 ^ 該一體成型模鑄部分21之形狀被挑選,以使該一體成型模 鑄U形部分21之該開孔在任一情況下皆被該包裝支撐件J之 下側覆蓋。在該空腔20與該一體成型模鑄部分21之間的過 5渡區域中,該連接線13被耦合至該霍爾感應器η。在此一 範例中,以傳統方式,該連接線13之個別的導體被焊接至 該霍爾感應器11之該電路板。 a亥連接線在遠感應咨支撐件12之一點上被導出該電纔 • 導管14,其在安裝妥之狀態下大致與該包裝支撐件1之該樞 1〇軸齊平。在該感應器支撐件12外側,該連接線13被連接至 一栓基19,該栓塞19允許直接連結至一控制裝置。 為了將該感應器支撐件12繫結至該包裝支撐件〗,該减 應裔支撐件12具有一繫結凸緣15,該繫結凸緣15橫向且大 致垂直地相對於該一體成型模鑄部分21地延伸。該繫結凸 15緣15具有一開孔24,透過該開孔24,——連接構件可連接至 - 該包裝支撐件。 ^ 在與該繫結凸緣15相隔一段距離處形成一夾鉗扣帶 16,该夾鉗扣帶16以相同方式橫向地相對於該一體成型模 鑄部分21垂直突出且具有一切除部分23,該包裝支撐件之 20 一延伸部分可齒合於該切除部分23中。故該感應器支撐件 可以可靠地透過一單一螺栓連接至該包裝支撐件。 第3及4圖中所示具有該整合式霍爾感應器與連接線的 該感應器支撐件特別適合用以在根據本發明之該捲繞裝置 的包裝支撐件上形成感應構件。在此一範例中,該電子零 12 200806561 件可以無需顧及該包裝支撐件之功能與使用壽命地獨立使 用及交換。 L圖式簡單說明3 第1圖概略例示根據本發明之捲繞裝置示範實施例的 側視圖, 第2圖概略例示第1圖中該示範實施例之一正視圖的細部; 第3及4圖概略例示一使用於根據本發明之捲繞裝置的 感應器支撐件之若干圖示。200806561 IX. Description of invention: The technical field to which the invention belongs: FIELD OF THE INVENTION The present invention relates to a winding device for winding a wire to a packaging tube as described in the first paragraph of the patent application. H Tltr BACKGROUND OF THE INVENTION EP 0 648 701 A1 discloses a general type winding device. The conventional winding device has a package support that supports a rotatably mounted tension plate at its two opposite ends. A packaging tube for receiving a wire wound to the package is stretched between the tension plates. The package support is pivotally secured to an opposite end of a pivot that abuts the periphery of a drive roller. The drive roller is driven by a motor. In this type of winding device, the package support fixed in a movable manner 15 is used on the one hand to ensure that the growth of the package is allowed during the winding of the wire despite continuous contact with the drive roller. The 'other aspect' also ensures that the package is changeable in the position from which the drive roller is released. The package support performs a continuous movement along the pivot for this purpose. Further, in the conventional winding cluster, means for detecting the rotational speed of the packaging tube or body during rolling is provided. To this end, the package support member is provided with an inductive member which is fixed by a magnet located on an end surface of the tension plate and a Hall sensor located on the package support member to form a '(four) sensor Rotating with the tension plate is within the effective range of the 5 200806561 magnet. The Hall sensor is coupled to a connection line for transmitting the inductive signal to a control device. In the conventional winding device, the Hall sensor is mounted to the free end of the package support in a substantially unprotected manner. Therefore, the connection line that is lightly coupled to the Hall sensor must be designed to be movable to give the talk package a separate position. However, basically in the continuous movement of the electrical connection line, there is a risk that the cable is broken or the undesired bending load may occur at the coupling point between the Hall sensor and the connection line. Moreover, the function of the package support is characterized only by the mechanically durable parts, and therefore, the interchangeability of these parts will be welcome in the integration of the electronic parts on the package support. SUMMARY OF THE INVENTION In view of the above, it is an object of the present invention to develop a roll for winding a general type of thread 15, and a garment assembly in which the side of the package support member can be used. Crime is fixed and exchangeable. One of the main objectives of this service is to achieve as much as possible the integration of the four sensing members in the conventional winding device without affecting the mechanical parts of the packaging support. This, the object is achieved in the present invention, since the Hall sensor is defined by a 2-ply-inductive H-support, the clavicular support is releasably connected to the package support and has an electric conduit To take over the cable. The favorable research and development results of t-month are defined in the characteristics and feature combinations of the scope of the patent application. The difference in the present invention is that although the package support is moving, the relative motion between the 6 200806561 Huo:T connecting lines does not occur. :, the ruling can be avoided, especially at the welding joint between the sensor. In addition, one. 隹 The connection line can be (4) and the situation is 5 10, and it is not necessary to modify it. The development of the 赖 Γ ’ ( ( ( 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 = = = = = = = = = = = = = The pivot movement performed by the reader does not affect the cable. : 可二::: The electronic component on the packaging support is sensitive to the fault - in order to undertake the cable, the cable duct L on the sensor member is molded by body molding and its position is compared It is made up of a ϋ-shaped portion under the packaging support. Thus, a connection line having a reliable winding and 15 spaced from the ambient shield can be achieved. In order to reduce the sensitivity of the Hall sensor to failure, the development of the present invention can be suitably used, wherein the inductor support has a cavity for receiving a JH Hall sensor, in which the cavity The Hall sensor is fixed through the two filled carrier materials. Therefore, the Hall sensor can be housed and fixed in a conventional manner by a circuit board to be completely insulated from the environment, and its functional capacity is not reduced. The carrier material used is 聚乙烯, for example, polyethylene plastic. A particularly suitable carrier material is a carrier material that is resistant to volatile components of the ready-to-use media that will be produced during the winding of the ready line. 7 200806561 The cavity for receiving the Hall sensor is preferably formed on one of the free ends of the inductor support, the free end being fed under the package support to the tension plate for a single plane Connect the cable directly to the Hall sensor. 5 In order to ensure interchangeability, according to an advantageous development of the invention, the inductive support, the Hall sensor and the connecting line are preferably combined into a structural unit, the connecting line being at a free end of the outer side of the inductor support Connect to a test base. Therefore, the sensing member can be exchanged on the winding device in an operation in a simple manner. 10 For a secure attachment, even in the case where the packaging support has the greatest possible length, the inventors propose to design the induction support to have a clamp strap and a section spaced from the clamp buckle The distance knot flange 'money knot flange is connected to the package support by a connecting member, and the real name clip buckle strap is slid into the package support. Therefore, by releasing the connecting member of a single weir 15, the entire sensor support can be released and exchanged from the package support. Even in a package support having a large projection length, relative movement does not occur on the induction is support member, so that the Hall sense can be prevented from generating a load at a coupling point with the connection portion. In order to avoid any significant 2° weight difference on the package support as much as possible, the sensor support should preferably be made of plastic. BRIEF DESCRIPTION OF THE DRAWINGS In the following, a wood invention will be described in detail by way of an exemplary embodiment with reference to the accompanying drawings in which: FIG. 1 is a schematic illustration of a side view of an exemplary embodiment of a winding apparatus according to the present invention 8 200806561; Fig. 2 schematically illustrates a detail of a front view of one of the exemplary embodiments of Fig. 1; Figs. 3 and 4 schematically illustrate several illustrations of an inductor support for use in a winding device according to the present invention. 5 [Poor Mode of Application] Detailed Description of Preferred Embodiments Figs. 1 and 2 illustrate a third exemplary embodiment of the winding apparatus according to the present invention. Fig. 1 illustrates the exemplary embodiment in a side view, and Fig. 2 illustrates the winding device in the form of a front view detail. In the case where the schema is not clearly indicated, the description text applies to the two schemas. The illustration of the winding device according to the invention shows only the parts that are important to the invention. This type of winding device is disclosed in the current 0 921 087. Therefore, in order to explain the overall configuration and function, at this point, we will specifically refer to the reading and only for the important parts of the present invention. 15 - An exemplary embodiment of the winding device of the present invention has a double-armed coating support member that carries two tension plates 2 disposed opposite each other. Each of the tension plates 2 is coupled to the package support through a plate shaft 8, and the tension plate 2 is rotatably fixed to the plate shaft. A packaging tube 3 for receiving the roll, % to the line in the package is tightly held between the tension plates 2. One end of the 2 〇 ° coating support 1 is fixed to the - pivot 4 . The pivot 4 is coupled by a carrier 5 to a bracket 6. Guides and actuators that are additionally provided to perform pivotal movement are not shown in this exemplary embodiment. In this example, use #UT 4 to wrap the reader! The actuator that pivots is primarily activated only by directing the package support to a modified position. 200806561 A drive roller 7 is rotatably mounted under the packaging tube 3 - in the roller carrier 9. For this purpose, the roller carrier 9 is tied to the machine support 6. The drive roller 7 is coupled to an electric drive, not shown. . In this example, the Hai electric drive can be formed in the drive roller as an external rotor or as an external electric motor. In this example, the coating tube 3 or the packaged package is in an operative position to maintain peripheral contact with the drive roller 7 so that the packaging tube 3 or the package can be driven at a specific peripheral speed. . In order to detect the peripheral speed or the rotational speed of the packaging tube 3 or the package, the package support 1 is returned to an inductive member formed by a magnet 10 and a Hall sensor η. The magnet 10 is disposed on an end surface of the tension plate 2 facing the "package support 1". The stationary Hall sensor is fixed to the end face of the tension plate 2 and not far from it. In order to achieve the non-contact induction of the tension plate 2 and thus the rotational speed of the packaging tube 3. In this example, in each revolution of the tension plate 2, the rotating magnet will be at the Hall sensor 11 An inductive signal is triggered and the inductive signal is transmitted through a connecting line 13 coupled to the Hall sensor n. The Hall sensor 11 and the connecting line 13 are fixed by an inductor support 12. The inductor support 12 forms a cable conduit 14 that extends from one of the free ends of the sensor support member to the pivot 4 at the end of the package extension member 1. 14 is formed by the inductor support ^ under the package support i. The electric winding conduit 14 terminates in the * axis* region, so that the connecting wire 13 is directly led out in a manner flush with the pivot 4 Sensor support 12. Therefore, the pivotal movement of the package support 1 = 10 200806561 5 substantially does not affect the connecting line 13, so that the Hall sensor dragon located at the cough free end of the money cutting member 12 and the connecting line 13 will not produce a brigade. - The flange 15 and The money buckle 16 is provided to tie the induction support 12. The xiao clamp buckle 16 is here inserted into the opening in the extension portion 17 of the package support! 15 through the connecting member 18, preferably, is securely attached to the package 1 〇 ^ to the step-by-step induction H support 12, we are now released from the package support in reference to Figures 3 and 4 Figure 1 of the sensor support member 12. In this example, FIG. 3 shows a schematic view and FIG. 4 shows the position of the sensor support member 12. The figure is not explicitly indicated. In this case, the explanatory text is applied to the two figures. The sensor support member is formed together with the Hall sensor n and the connecting line 13 to form a structural unit. In this structural unit, the sensor supporting member 15 12 should be made of plastic, for example, to shoot a molded die casting. The sensor branch member 12 has a cavity 2 一 on a free end, the The sensor 丨丨 is fixed in the cavity 20. The Hall sensor S11 is inserted into the cavity 2〇 as a taidao plate, and the Hall sensor 11 is filled around the cavity 2 The carrier material 22 of the crucible. The carrier material 22 is preferably formed of a filled plastic material to secure the Hall sensor 11 and be insulated from the environment. On the inductor support 12, The cavity 20 constitutes an integrally molded u-shaped portion 21 which forms the cable conduit 14. The integrally formed molded portion 21 extends to the opposite end of the inductor support 12, The shape of the support member 12 is preset by the shape of the package support, and thus 11 200806561 - its shape may have one or more bends. The shape of the inductor support member 12 and the shape of the integrally molded molding portion 21 are selected such that the opening of the integrally molded molded U-shaped portion 21 is in any case under the package support member J. Side coverage. In the over-crossing region between the cavity 20 and the integrally formed molded portion 21, the connecting line 13 is coupled to the Hall sensor n. In this example, the individual conductors of the connecting wire 13 are soldered to the circuit board of the Hall sensor 11 in a conventional manner. The ahai connection line is led out at a point on the remote sensing support member 12. The catheter 14 is substantially flush with the pivot axis of the package support member 1 when mounted. Outside the inductor support 12, the cable 13 is connected to a bolt 19 which allows direct attachment to a control device. In order to tie the inductor support 12 to the package support, the attenuated support 12 has a tie flange 15 that is transversely and substantially perpendicularly opposed to the integrally formed die. Part 21 extends. The tying flange 15 has an opening 24 through which the connecting member can be coupled to the package support. ^ a nipper strap 16 is formed at a distance from the tying flange 15 which protrudes transversely transversely relative to the integrally formed molded portion 21 in the same manner and has a cutout portion 23, An extension of the package support 20 can be engaged in the cutout portion 23. Therefore, the sensor support can be reliably connected to the package support through a single bolt. The inductor support having the integrated Hall sensor and the connecting wire shown in Figures 3 and 4 is particularly suitable for forming an inductive member on the package support of the winding device according to the present invention. In this example, the electronic zero 12 200806561 piece can be used and exchanged independently of the function and life of the package support. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view schematically showing a side view of an exemplary embodiment of a winding device according to the present invention, and FIG. 2 is a schematic view showing a detail of a front view of one exemplary embodiment of the first embodiment; FIGS. 3 and 4 A schematic representation of a sensor support for use in a winding device in accordance with the present invention is schematically illustrated.
【主要元件符號說明】 1...包裝支撐件 13...連接線 2...張力板 14...電纜導管 3...包裝管 15...繫結凸緣 4…樞軸 16…炎钳扣帶 5…載體 17...延伸部分 6…機器支架 18…連接構件 7…·驅動滾子 19…滅 8…板轴 20…空腔 9…滾子載體 21...—體成型部分 10."磁鐵 22·"承載材料 11...霍爾感應器 23…切除部分 12...感應器支撐件 24…開孔 13[Description of main component symbols] 1...Package support 13...Connector 2...Tensile plate 14...Cable conduit 3...Packing tube 15...Flange flange 4...Pivot 16 ...inflammation caliper buckle 5...carrier 17...extension portion 6...machine support 18...connection member 7...drive roller 19...off 8...plate shaft 20...cavity 9...roller carrier 21...body Molding portion 10. " Magnet 22&&; Carrying material 11... Hall sensor 23... Cutting portion 12... Sensor support 24... Opening 13