201216315 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種程式開關的製造方法,特別是指 一種能快速組合安裝的程式開關的製造方法及用於增進製 造效率的端子組合體。 【先前技術】 參閱圖1與圖2,現有的一程式開關1具有相對應接合 且為絕緣材質的一基座11、一蓋殼12、一設置在該基座U # 的端子單元13,及多數個分別設置在該基座11與該蓋殼12 之間的撥動件14。 該基座11具有多數個沿一側相間隔貫穿設置的第一定 位孔111 ’及多數個分別對應該等第一定位孔u丨並沿一相 反側相間隔地貫穿設置的第二定位孔112。 該端子單元13具有多數支相間隔且分別插設在該等第 一定位孔111的固定端子131,及多數支相間隔且插設在該 等第—疋位孔112的活動端子132,該等活動端子132各具 有分別對應該等固定端子13丨設置的彈性接觸段133。 該等撥動件14 ^:分別對應該等活動端子132設置,並 相對該基座11與該蓋殼u在一導通位置與—非導通位置間 •移動,當歸動件14位移㈣導通位置時會推抵該活動端 子132的彈性接觸段133靠向該固定端子m而與該固定 端子131形成電連接,當該撥動件14位移到該非導通位置 時’則該活動端子132的彈性接觸段13"受推抵作用並 會自動回復為與該固定端子131不相接觸的非導通狀態。 201216315 雖然該程式開關1能藉由該等撥動件14與該等活動端子 132的彈性接觸段133的結構設計與作動關係達到控制該等 活動端子132與該等固定端子131導通或斷電的使用目 的,但實際上仍存有下列諸點可再改良: 一、 因應該程式開關1的結構設計,在組合安裝時, 必須先以人工方式分別將該等固定端子131與活動端子132 一一插置入該基座11的該等第一定位孔U1與第二定位孔 112,才能使該等端子131、132獲得穩固定位,接著,藉由 使該蓋殼12與該基座11互相套接同時使該等撥動件14被 炎設在該基座U與該蓋殼12之間]完成該程式開關丄的 組合,藉此,使現有程式開關i在插置該等端子i3i、132 的步驟,需要耗費較多的人力與時間,導致製程效率不 佳’並有高工時與高製造成本的缺點。 二、 為了避免該等固定端子131、活動端子132在組合 過程中散落,須在該基座U上形成該等第一、 -η一等端子…32插置卡合並孔 因應電子產品體積小型化的需求,該基座u的尺寸也需縮 小’在體積小型化的規格下,要在該基座u精確形成能使 該等端子13卜132穩定定位的定位孔⑴、112,將使該基 座11成㈣具的設計相對較複雜,同樣會增加製造難度, 並導致該程式開關1的整體製造成本增加。 【發明内容】 因此’本發明的目的,是在提供一種方便快速組合定 位、能適應自動化生產,進而能改善製程效率與降低製造 201216315 成本的程式開關的製造方法。 於疋,本發明程式開關的製造方法包含下列步驟: 刀別製備一基座、一蓋殼、一固定端子組合體、一活 動端子組合體’及多數個撥動件,該基座包括一具有反向 的第一側及一第二側的底壁,及多數個相間隔地自該底 壁向上延伸並相配合界定形成多數個定位槽的間隔壁,該 蓋殼包括多數個相間隔貫穿設置的活動開口,該固定端子 ’且〇肢·包括夕數個分別對應該基座的定位槽相間隔排列的 •固定端子,及一供該等固定端子連接定位的基片,該活動 端子組合體包括多數個分別對應該基座的定位槽相間隔排 列的/舌動端子,及一供該等活動端子連接定位的基片; 一、分別對該固定端子組合體、活動端子組合體施加 作用力,使該固疋端子組合體的固定端子朝向該底壁的 第一側位移以卡接入該等定位槽並與該基片分離,及使該 活動端子組合體的該等活動端子朝向該底壁的第二側位移 以卡接入該等定位槽並與該基片分離;及 Φ 二、使該蓋殼與該基座相接合,同時使該等撥動件以 分別穿設於該蓋殼的活動開口,並與該活動端子組合體的 活動端子相對應的方式被夾設在該蓋殼與該基座之間,就 能獲得該程式開關的完整組合體。 本發明程式開關的製造方法的有益效果在於:該固定 端子組合體、活動端子組合體的該等固定端子、活動端子 分別與該二基片結合成一體’因此,在步驟二中,能藉由 一個動作及對該固定端子組合體、活動端子組合體施加預 201216315 疋的作用力,使已分別與該等定位槽相對齊的固定端子或 活動端子同時靠向該基座位移以卡接至該等定位槽並與該 基片相刀離,接著,再使該蓋殼、基座與該等撥動件組合 定位後,就能獲得組合完成的程式開關,藉此,能大幅減 >、”且σ的時間,使本發明具有較佳的製程效率而能節省製 &成本此外,配合基座的結構設計,使該固定端子組合 體、活動端?組合It能從該基座的頂面或側面方向直接置 =該等定位槽,除了可增進組裝速度外,也使該製造方法 容易以自動化方式進行組合,同樣能節省人力及增進製程 效率。 本發明的另一目的,是在提供一種可適用於前述製造 方法,且有助於增進製造效率的端子組合體。 於是,本發明端子组合體適合與一基座、一蓋殼及多 數個撥動件相組合製成—程式開關,該基座具有一底壁, 及多數個相間隔地自該底壁向上延伸並相配合界定形成多 數個定位槽的間隔壁’該蓋殼與該基座相套合,該等撥動 件是夾設在該基座與該蓋殼之間,該端子組合體是設置在 该基座上並與該等撥動件相對應,並包含多數個相間隔排 列设置的端子U於供料端子連接定位的基片。 每一個端子各包括一容置在該基座的定位槽内的定位 奴、與該定位段反向且延伸出該基座外的端子段,及一 與該定位段彎折連接且位在該定位段與該端子段之間的連 接段。該.基片則與該等定位段反向設置。 本發明端子組合體的有益效果在於:藉由使該等端子 201216315 相間隔並同時連接定位在該基片的結構設計,使該端子體 用於組合形成該程式開關時,能方便且快速地使該等端子 同時容置在該基座蚊位槽内,藉此,能大幅減少該程式 開關組合完成的時間’使該端子組合體具有能顯著提升整 體製造效率的特性。 【實施方式】 有關本發明之前述及其他技術内容、特點與功效,在 以下配合參考圖式之一個較佳實施例的詳細說明中,將可 清楚的呈現。 參閱圖3與圖4,本發明程式開關2的製造方法的較佳 實施例包含下列步驟: 步驟301是分別製備一基座4、一蓋殼5、_固定端子 組合體6、一活動端子組合體7,及多數個撥動件8 ^ 其中,該基座4為絕緣材質所製成,並包括一具有反 向的一第一側411及一第二側4丨2的底壁41,及多數個相 間隔地自該底壁41向上延伸並相配合界定形成多數個定位 槽420的間隔壁42。該底壁W還具有多數個相間隔地自該 第一側411内凹而與該等定位槽42〇相連通的第一缺样 413 ’及多數個相間隔地自該第二側412内凹而該等定位槽 420相連通的第二缺槽414。 該蓋殼.5為絕緣材質所製成,並包括多數個相間隔貫 穿設置的活動開口 51,該等活動開口 51各具有反向的一第 一端511及一第二端512。 該固定端子組合體6包括多數個分別對應該基座4的 201216315 該等定位槽420相間隔排列的固定端子61 ,及一供該等固 定端子61連接定位的基片62。該等固定端子61各具有一 定位段611、一與該定位段611反向的端子段612、一連接 在該定位段611與該端子段612之間的連接段613、二個分 別自該定位段611二相反側朝外凸伸的上卡制部614,及二 個自該連接段613二相反側向外凸伸的下卡制部615。其 中,該等固定端子61的連接段613是與該定位段611彎折 連接,並具有一與該端子段612相連接的外露端部616。該 基片62是鄰近該等端子段612而與該等定位段611反向設 置,具有一間隔設置於該等端子段612下方的基材部621 , 及多數個連接在該基材部621與相鄰的連接段613的外露 端部616之間的T形銜接部622。 該活動端子組合體7包括多數個分別對應該基座4的 該等定位槽420相間隔排列的活動端子71,及一供該等活 動端子71連接定位的基片72«該等活動端子71各具有一 定位段711、一與該定位段711反向的端子段712、一連接 在該定位段711與該端子段712之間的連接段713、一自該 疋位段712朝遠離5亥連接段713的方向延伸的彈性接觸段 714、二個分別自該定位段711二相反側朝外凸伸的上卡制 部715,及二個自該連接段713二相反側向外凸伸的下卡制 部716。其中,該等活動端子71的連接段713是與該定位 段711彎折連接,並具有一與該端子段712相連接的外露端 部717。該基片72是鄰近該等端子段712而與該等定位段 711反向設置,具有一間隔設置於該等端子段712下方的基 201216315 數個連接在該基材部721與相鄰的連接段 71 7之間的τ形銜接部722。 該等撥動件8各具有 上延伸的操作部82,及一 83 〇 会人參_ 4 '圖5與圖6 ’步驟3()2是分別對該固定端子 ^體6 ’舌動糕子組合體7施加一作用力,使該固定端子201216315 VI. Description of the Invention: TECHNICAL FIELD The present invention relates to a method of manufacturing a program switch, and more particularly to a method of manufacturing a program switch that can be quickly assembled and assembled, and a terminal assembly for improving manufacturing efficiency. [Prior Art] Referring to FIG. 1 and FIG. 2, a conventional switch 1 has a base 11 corresponding to an insulating material, a cover 12, a terminal unit 13 disposed on the base U # , and A plurality of dial members 14 are respectively disposed between the base 11 and the cover case 12. The pedestal 11 has a plurality of first positioning holes 111 ′ extending through the one side and a plurality of second positioning holes 112 respectively corresponding to the first positioning holes u 丨 and spaced apart along an opposite side. . The terminal unit 13 has a plurality of fixed terminals 131 spaced apart from each other and inserted into the first positioning holes 111, and a plurality of movable terminals 132 spaced apart from each other and inserted in the first clamping holes 112. The movable terminals 132 each have elastic contact segments 133 that are respectively disposed corresponding to the fixed terminals 13A. The dialing members 14 ^: respectively corresponding to the movable terminal 132, and moved between the base 11 and the cover shell u in a conducting position and a non-conducting position, when the returning member 14 is displaced (four) in the conducting position The elastic contact portion 133 that pushes the movable terminal 132 is electrically connected to the fixed terminal 131 toward the fixed terminal m. When the toggle member 14 is displaced to the non-conductive position, the elastic contact portion of the movable terminal 132 13" is pushed and automatically returns to a non-conducting state that is not in contact with the fixed terminal 131. 201216315, the program switch 1 can control the conductive terminals 132 to be electrically connected or disconnected from the fixed terminals 131 by the structural design and the active relationship between the toggle members 14 and the elastic contact portions 133 of the movable terminals 132. The purpose of use, but in fact there are still the following points can be improved: First, due to the structural design of the program switch 1, in the combined installation, the fixed terminal 131 and the movable terminal 132 must be manually manually The first positioning holes U1 and the second positioning holes 112 are inserted into the base 11 to obtain stable positions of the terminals 131 and 132. Then, the cover shell 12 and the base 11 are nested together. Simultaneously, the triggering members 14 are disposed between the base U and the cover case 12 to complete the combination of the program switch ,, thereby causing the existing program switch i to interpose the terminals i3i, 132. The steps require more manpower and time, resulting in poor process efficiency, and have the disadvantages of high labor hours and high manufacturing costs. 2. In order to prevent the fixed terminals 131 and the movable terminals 132 from being scattered during the assembly process, the first, -n, etc. terminals are to be formed on the base U. 32 insertion card merging holes are required to miniaturize the size of the electronic product. Needs, the size of the pedestal u also needs to be reduced. Under the size miniaturization specification, positioning holes (1), 112 for accurately positioning the terminals 13 and 132 can be accurately formed on the susceptor u, which will make the base The design of the 11-inch (four) is relatively complicated, which also increases the manufacturing difficulty and leads to an increase in the overall manufacturing cost of the program switch 1. SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a method of manufacturing a program switch that facilitates quick and easy assembly and can be adapted to automated production, thereby improving process efficiency and reducing the cost of manufacturing 201216315. The manufacturing method of the program switch of the present invention comprises the following steps: preparing a base, a cover shell, a fixed terminal assembly, a movable terminal assembly and a plurality of dial members, the base includes a a reverse first side and a second side bottom wall, and a plurality of spaced apart upwardly extending from the bottom wall and cooperatively defining a partition wall forming a plurality of positioning slots, the cover shell comprising a plurality of spaced intervals The movable opening, the fixed terminal 'and the limbs · including a plurality of fixed terminals respectively arranged corresponding to the positioning grooves of the base, and a substrate for connecting and positioning the fixed terminals, the movable terminal assembly The utility model comprises: a plurality of tongue-and-groove terminals respectively arranged corresponding to the positioning grooves of the base, and a substrate for connecting and positioning the movable terminals; 1. respectively applying a force to the fixed terminal assembly and the movable terminal assembly Disposing the fixed terminal of the solid terminal assembly toward the first side of the bottom wall to be inserted into the positioning groove and separated from the substrate, and to enable the living terminal assembly to perform the same The movable terminal is displaced toward the second side of the bottom wall to be inserted into the positioning slots and separated from the substrate; and Φ 2, the cover shell is engaged with the base, and the dial members are respectively A complete assembly of the program switch can be obtained by being inserted through the movable opening of the cover and being interposed between the cover and the base in a manner corresponding to the movable terminal of the movable terminal assembly. The method for manufacturing the program switch of the present invention has the beneficial effects that the fixed terminal and the movable terminal of the fixed terminal assembly and the movable terminal assembly are respectively integrated with the two substrates. Therefore, in step 2, a motion and a pre-201216315 作用 force applied to the fixed terminal assembly and the movable terminal assembly, so that the fixed terminal or the movable terminal respectively aligned with the positioning slots are simultaneously displaced toward the base to be engaged thereto After the positioning groove is separated from the substrate, and then the cover shell, the base and the dial member are combined and positioned, the combined program switch can be obtained, thereby greatly reducing the weight of the And σ time, the invention has better process efficiency and can save system & cost. In addition, with the structural design of the pedestal, the fixed terminal assembly and the movable end combination It can be from the top of the pedestal Directly placed in the face or side direction = these positioning grooves, in addition to increasing the assembly speed, the manufacturing method is easy to combine in an automated manner, which also saves manpower and improves process efficiency. Another object of the present invention is to provide a terminal assembly which is applicable to the above manufacturing method and contributes to an improvement in manufacturing efficiency. Thus, the terminal assembly of the present invention is suitable for a base, a cover, and a plurality of The dial member is combined to form a program switch, the base has a bottom wall, and a plurality of partition walls extending upwardly from the bottom wall and cooperatively defining a plurality of positioning grooves, the cover shell and the base The socket is sleeved between the base and the cover shell, and the terminal assembly is disposed on the base and corresponding to the dials, and includes a plurality of phases The terminals U are arranged at intervals to connect the positioning substrate to the feeding terminal. Each of the terminals includes a positioning slave housed in the positioning groove of the base, opposite to the positioning segment and extending out of the base. a terminal segment, and a connecting portion bent and connected between the positioning segment and the terminal segment. The substrate is disposed opposite to the positioning segments. The beneficial effects of the terminal assembly of the present invention In: by making these terminals 201216315 The structure of the substrate is spaced and simultaneously connected, so that when the terminal body is used to form the switch, the terminals can be conveniently and quickly accommodated in the base mosquito bit groove, thereby The time required for the combination of the program switch can be greatly reduced, so that the terminal assembly has the characteristic of significantly improving the overall manufacturing efficiency. [Embodiment] The foregoing and other technical contents, features and effects of the present invention are described below with reference to the drawings. A detailed description of a preferred embodiment will be apparent. Referring to Figures 3 and 4, a preferred embodiment of the method of fabricating the program switch 2 of the present invention comprises the following steps: Step 301 is to separately prepare a susceptor 4 a cover case 5, a fixed terminal assembly 6, a movable terminal assembly 7, and a plurality of dial members 8 ^ wherein the base 4 is made of an insulating material and includes a reversed one A bottom wall 41 of one side 411 and a second side 4丨2, and a plurality of partition walls 42 extending upward from the bottom wall 41 and defining a plurality of positioning grooves 420 are defined to be spaced apart. The bottom wall W further has a plurality of first missing 413' recessed from the first side 411 and communicating with the positioning slots 42 及 and a plurality of spaced apart from the second side 412 And the positioning slots 420 are in communication with the second slots 414. The cover shell 5 is made of an insulating material and includes a plurality of movable openings 51 spaced apart from each other. The movable openings 51 each have a first end 511 and a second end 512 opposite to each other. The fixed terminal assembly 6 includes a plurality of fixed terminals 61 which are respectively arranged at intervals of the 201216315 corresponding to the susceptor 4, and a substrate 62 for connecting and positioning the fixed terminals 61. Each of the fixed terminals 61 has a positioning section 611, a terminal section 612 opposite to the positioning section 611, a connecting section 613 connected between the positioning section 611 and the terminal section 612, and two positioning positions respectively. The upper portion 611 has an upper engaging portion 614 which protrudes outward from the opposite side, and two lower engaging portions 615 which protrude outward from opposite sides of the connecting portion 613. The connecting section 613 of the fixed terminals 61 is bent and connected to the positioning section 611 and has an exposed end 616 connected to the terminal section 612. The substrate 62 is disposed opposite to the positioning segments 611 adjacent to the terminal segments 612, has a base portion 621 spaced apart from the terminal segments 612, and a plurality of the base portions 621 are connected to the substrate portion 621. T-shaped engagement portions 622 between the exposed ends 616 of adjacent connecting segments 613. The movable terminal assembly 7 includes a plurality of movable terminals 71 respectively spaced apart from the positioning slots 420 of the base 4, and a substrate 72 for positioning the movable terminals 71. The movable terminals 71 are each A positioning section 711, a terminal section 712 opposite to the positioning section 711, a connecting section 713 connected between the positioning section 711 and the terminal section 712, and a connection from the clamping section 712 toward the remote side An elastic contact portion 714 extending in the direction of the segment 713, two upper locking portions 715 protruding outward from opposite sides of the positioning portion 711, and two lower portions protruding outward from opposite sides of the connecting portion 713 The carding portion 716. The connecting portion 713 of the movable terminal 71 is bent and connected to the positioning portion 711 and has an exposed end portion 717 connected to the terminal portion 712. The substrate 72 is disposed opposite to the positioning segments 711 adjacent to the terminal segments 712, and has a base 201216315 spaced apart from the terminal segments 712. The plurality of connections are connected to the substrate portion 721 and the adjacent connections. A τ-shaped engagement portion 722 between the segments 71 7 . The dial members 8 each have an upper extending operation portion 82, and an 83 〇 ginseng _ 4 ' FIG. 5 and FIG. 6 'step 3 () 2 are respectively the fixed terminal body 6 'glossy cake combination The body 7 applies a force to make the fixed terminal
組合體6的固定端? 61卓月向該底壁41的第一側4ιι位移以 卡接入該等^位槽42G並同步與該基片62分離,及使該活 動端子組合體7的該等活動端子71朝向該底壁41的第二 ^ 412位移以卡接入該等定位槽42〇並同步與該基片72相 刀離。卡接在該定位槽42〇的該等活動端子71與該等固定 端子61會間隔相對。The fixed end of the assembly 6? 61 Zhuo Yue is displaced to the first side 4 of the bottom wall 41 to be carded into the slots 42G and simultaneously separated from the substrate 62, and the movable terminals 71 of the movable terminal assembly 7 are oriented toward the bottom. The second portion 412 of the wall 41 is displaced into the positioning slots 42 by a card and is synchronously disengaged from the substrate 72. The movable terminals 71 that are snapped into the positioning groove 42 are spaced apart from the fixed terminals 61.
材部721,及多 713的外露端部 一個基部81、一個自該基部8 i向 個自該基部81向下延伸的推抵部 參閱圖5、圖6與圖7,在本實施例中,是使用一設有 機械手臂(圖未示)的自動化裝置完成該固定端子組合體6、 活動端子組合體7與該基座4的組合,該自動化裝置具有 疋位座塊91 ’及分別受機械手臂驅動而相對該定位座塊 91二相反側靠近與遠離移動的一第一移動塊92、一第二移 動塊93 ’且是使該基座4定位在該定位座塊91上,並使該 固定端子組合體6、活動端子組合體7分別定位在該第一移 動塊92、第二移動塊93上,以使該固定端子組合體6、活 動端子組合體7受該第一移動塊92、第二移動塊93帶動而 靠向該基座4’進而使該等固定端子61、該等活動端子71 分別卡接入該等定位槽420 » 201216315 其中,該定位座塊91具有反向設置的一第一側面 911 第—側面912、多數個相間隔且分別對齊該基座4 的定位夕槽420凹設形成在該第-側面911的第一限位槽 913夕數個相間隔且分別對齊該基座4的定位槽侧凹設 =成在該第二側面912的第二限位槽914,及多數個相間隔 :置並自該第-側面911延伸至貫穿該第二側面912的定位 :道910,該等第一限位槽913分別用於容置該固定端子組 合體6的固定端子61,該等第二限位槽914分別用於容置 該活動端子組合體7的活動端子71,該第—移動塊Μ具有 夕數個刀別對應該等固定端子Μ凸伸並與該等第一限位槽 相卡σ的第一推塊部921,及二個對應該定位座塊W 的其中二個定位管道910設置的第-對位插銷922,及該第 —移動塊93具有多數個分別對應該等活動端子71凸伸並 ,、第一限位槽914相卡合的第二推塊部931,及二個對 i塊91的其中二個定位管道91〇設置 插銷奶。在本實施例中,該等第―、第二對位插銷奶、 =是分別對齊最外側的二個定位管道㈣設置。且該固定 。體6的基片62具有多數個相間隔貫穿用於套接在 對位插銷922上的貫孔⑵,及該活動端子组合體7 II/2具有可多數個相間隔貫穿用於套接在該等第二對 "32上的貫孔?23,藉此,使該固定端子組合體6、 ;=子組合體、7能夠暫時定位在該第-移動塊92、第二 相對U93/ ’並能隨著該第一移動塊92、第二移動塊93 相對該基座4位移。 10 201216315 當以該自動化裝置執行該程式開關2的組合作業時, 主要是先使該基座4时在蚊位座塊91上,再藉由機械 手臂驅動該第-移動塊92、第二移動塊93分別朝:該定位 座塊的第-側面911、第二側面912位移,並連動該固 定端子組合體6、活動端子組合體7分別#向該基座4,直 到該等固定端子61、該等活動端子71位移到即將進入該等 定位槽420的暫駐位置為止,其中,是藉由設置在該定'立 座塊91上的定位管道91〇與該第_移動塊%上的第—對 位插銷922、該第二移動塊93上的第二對位插銷932的對 應設計’使該㈣定端子61及該等第—推塊部921分別盘 該等第-限位槽913對齊’並使該等活動端子71及該等第 二推塊部931分別與該等第二限位槽914對齊,當該第一 移動塊92、第二移動塊93繼續朝蚊位座塊91靠近而使 該等第-推塊冑921、第二推塊部931朝該等第一限位槽 913、第二限位槽914内推進時,可通過該定位座塊μ的 第-側面9U擋抵該固定端子組合體6的基片Q,及該第 -側面912擋抵該活動端子組合體7的基片72,並使該二 基片62、72分別被夾持定位,而該等固定端子61、活動端 子71則分別受到該等第—推塊部921、第二推塊部持 續推動而被推人該等定位槽與該等第—限位槽913,及 該等定位#㈣與該等第二限位槽9Μ Θ,並使該基月 62、該基>{ 72分別與該等固定端子61、活動端子71相分 離。由於該基片62、72的T形銜接部622、722與該等固 定端子6卜活動端子71的外露端部616 717間的相接結 201216315 在該第—移動塊92、第二移動塊% 位座…動及使該基片62、該基片”受爽持 的作用下,該等外露端部616、717與該“ &、該基片 72的相接處很容易就會斷開,藉此,在該等固定端子61、 二Si:;被定位至該等定位槽420的同時,就能同步移 Γ二:該基片I當組合完成後,使該第-移動塊 Α 一塊93遠離該定位座塊91位移就能分別將該 基片62、該基;^72帶_相定端^、活動端子心 〜t閲圖4與圖8,其中,是分別使該等固定端子61的 疋位& 611卡接定位在該基座4的該等定位槽似及使該 料接段⑴卡接定位在料第—缺槽413,且每—個固定 以子61的該二上卡制冑614會分別嵌人二側的間隔壁μ 中增加該等固定端子61定位的穩固性’該二下卡制部615 則依設f位置不同而有不同的作用,當該二下卡制部615 鄰近該疋位& 611時’則會嵌入配合界定形成該第一缺槽 413的一相反壁面415,同樣可藉此增加定位穩固性,此 外’該二下卡制部615亦可鄰近該端子段612設置,並在 將該等固疋端子61組合至該等定位槽㈣時,分別卡抵在 X底2 41的—底面417而形成與該定位段相配合夹持 在-亥底壁41的上 '下二側的狀態,同樣有輔助定位效果。 此外’在使该等活動端子的定位段川卡接定位在 X基座4的4等&位槽42() ’及使該等連接段川卡接定位 在《亥等第一缺槽414時,該等彈性接觸段川分別呈朝該 等固定端子61延伸並與該等定位段611間隔相對的狀態, 12 201216315 且每一個活動端子71的該二 側的間隔壁42中,及,下:”15同樣分別澈入二 及該一下卡制部716依設置位置不同, 而會欲入配合界^形成該第二缺槽414的二相反壁面416, 或分別卡抵在該底壁41的麻而 的底面417而形成與該定位段711 相配合夾持在該底壁41的上、下二侧的狀態,藉此,使該 等活動端子7i同樣能透過該等上、下卡制部μ、·增 進穩固定位的效果。在本實施例中,該固定端子61與該活The material portion 721, and the exposed end portion of the plurality 713, a base portion 81, and a pushing portion extending downward from the base portion 8i from the base portion 81 are referred to FIG. 5, FIG. 6, and FIG. 7, in this embodiment, The combination of the fixed terminal assembly 6, the movable terminal assembly 7 and the base 4 is completed by using an automatic device provided with a robot arm (not shown). The automation device has a clamp block 91' and is respectively mechanically The first driving block 92 and the second moving block 93' are moved closer to and away from the opposite side of the positioning block 91 than the positioning block 91, and the base 4 is positioned on the positioning block 91, and the The fixed terminal assembly 6 and the movable terminal assembly 7 are respectively positioned on the first moving block 92 and the second moving block 93, so that the fixed terminal assembly 6 and the movable terminal assembly 7 are subjected to the first moving block 92, The second moving block 93 is driven to the base 4 ′, and the fixed terminals 61 and the movable terminals 71 are respectively inserted into the positioning slots 420 » 201216315 , wherein the positioning block 91 has a reverse setting a first side 911 first side 912, a plurality of intervals The positioning slots 420 respectively aligned with the pedestal 4 are recessed and formed on the first limiting slot 913 of the first side surface 911, and are spaced apart from each other and aligned with the positioning slot side of the pedestal 4 respectively. a second limiting slot 914 of the second side 912, and a plurality of spaced apart: extending from the first side 911 to a positioning through the second side 912: a track 910, wherein the first limiting slots 913 are respectively used The second limiting slot 914 is configured to receive the movable terminal 71 of the movable terminal assembly 7, and the first moving block has a plurality of blades. a first push block portion 921 corresponding to the fixed terminal Μ protruding and engaging with the first limit groove σ, and two first alignment pipes corresponding to the two positioning pipes 910 corresponding to the positioning block W The latch 922 and the first moving block 93 have a plurality of second push block portions 931 respectively corresponding to the movable terminals 71 and the first limit slots 914 are engaged, and two pairs of i blocks 91 Two of the positioning pipes 91 are provided with pin milk. In this embodiment, the first and second alignment pin milks, = are respectively aligned with the outermost two positioning pipes (four). And it should be fixed. The substrate 62 of the body 6 has a plurality of through holes (2) spaced apart for being sleeved on the alignment pins 922, and the movable terminal assembly 7 II/2 has a plurality of spaced intervals for being sleeved therein. Waiting for the second pair of through holes 23 in the "32, whereby the fixed terminal assembly 6, the = subassembly, 7 can be temporarily positioned in the first moving block 92, the second relative U93/ 'and The first moving block 92 and the second moving block 93 can be displaced relative to the base 4. 10 201216315 When the combination operation of the program switch 2 is executed by the automation device, the base 4 is first placed on the mosquito seat block 91, and the first moving block 92 and the second movement are driven by the robot arm. The block 93 is respectively displaced toward the first side surface 911 and the second side surface 912 of the positioning block, and the fixed terminal assembly 6 and the movable terminal assembly 7 are respectively linked to the base 4 until the fixed terminals 61, The movable terminals 71 are displaced to a temporary position that is about to enter the positioning groove 420, wherein the positioning pipe 91 disposed on the fixed block 91 and the first moving block % - the corresponding design of the alignment latch 922 and the second alignment latch 932 on the second moving block 93 aligns the (four) fixed terminal 61 and the first push block portion 921 with the first-limit slot 913 'Aligning the movable terminal 71 and the second pushing block portions 931 with the second limiting slots 914, respectively, when the first moving block 92 and the second moving block 93 continue to approach the mosquito seat block 91 And causing the first push block 921 and the second push block portion 931 to face the first limit slot 913 and the second limit position. When the groove 914 is advanced, the substrate Q of the fixed terminal assembly 6 can be blocked by the first side 9U of the positioning block μ, and the first side 912 can be blocked against the substrate 72 of the movable terminal assembly 7. The two substrates 62 and 72 are respectively clamped and positioned, and the fixed terminal 61 and the movable terminal 71 are respectively pushed by the first push block portion 921 and the second push block portion to be pushed. The positioning slot and the first-limit slot 913, and the positioning #(4) and the second limiting slot 9Μ, and the base month 62, the base > {72 and the fixed terminals 61, respectively The movable terminals 71 are separated. Due to the junction between the T-shaped engaging portions 622, 722 of the substrates 62, 72 and the exposed ends 616 717 of the fixed terminals 6 of the movable terminals 71, the first moving block 92, the second moving block% When the substrate is moved and the substrate 62 and the substrate are subjected to the holding, the exposed ends 616, 717 and the "the substrate" are easily disconnected. Thereby, the fixed terminals 61, the two Si:; are positioned to the positioning grooves 420, and can be synchronously moved: the substrate I, when the combination is completed, causes the first moving block to be 93 away from the positioning block 91 displacement, the substrate 62, the base; ^72 with _ phased end ^, movable terminal center ~ t read Figure 4 and Figure 8, wherein the fixed terminals The clamping position of the 61 & 611 card is positioned in the positioning slot of the base 4 and the positioning of the material connecting section (1) is positioned in the material-deficient slot 413, and each of the two is fixed by the sub-61 The upper clamping mechanism 614 will respectively increase the stability of the positioning of the fixed terminals 61 in the partition wall μ embedded in the two sides. The two lower clamping portions 615 have different operations depending on the f position. When the two lower clamping portions 615 are adjacent to the clamping position & 611, the embedded wall 415 defines an opposite wall surface 415, which can also be used to increase the positioning stability. The locking portion 615 can also be disposed adjacent to the terminal segment 612, and when the solid-state terminals 61 are combined to the positioning slots (4), respectively, the bottom surface 417 of the X-bottom 2 41 is formed to form a positioning portion. In the state of being clamped on the upper two sides of the upper wall 41, there is also an auxiliary positioning effect. In addition, the positioning of the movable terminal is positioned in the 4th & position slot 42() of the X base 4 and the connection is positioned in the first missing slot 414 The elastic contact segments respectively extend toward the fixed terminals 61 and are spaced apart from the positioning segments 611, 12 201216315 and the partition walls 42 of the two sides of each of the movable terminals 71, and The "15" is also separately inserted into the second and the lower locking portion 716 is different according to the set position, and the opposite wall surface 416 of the second notch 414 is formed to fit into the matching wall, or is respectively engaged with the bottom wall 41. The bottom surface 417 of the hemp is formed in a state of being clamped to the upper and lower sides of the bottom wall 41 in cooperation with the positioning portion 711, whereby the movable terminals 7i can also pass through the upper and lower locking portions. μ, · enhance the effect of the stable fixed position. In this embodiment, the fixed terminal 61 and the live
動端子的下卡制部615'716皆是設計成卡抵在該底壁 41的底面417的型式。 參閱圖4、圖9與圖1〇,步驟3〇3是使該蓋殼5與該 基座4相接合,同時使該諸動件8以分別穿設於該蓋殼$ 的活動開σ 51 ’並與該活動端子組合體7的該等活動端子 71相對應的方式被纽在該蓋殼5與該基座4之間,組合 時,是分別使該等撥動件8的操作部82穿過該蓋殼5的該 等活動開σ 51向外凸伸,再使該基座4與該蓋殼5相套 合,就能獲得該程式開關2的完整組合體。在此步驟中, 也可以利’械手臂的自動化方式完成該程式開關2的組 合安裝。由於自動化裝置的機構設計非本案重點,且在電 子相關裝置或元件的製程中使用各種自動化裝置為現有製 程技術,在此不再贅述。 需要補充說明的是,在步驟3〇2中,該固定端子組合 體6的該等固定端子61的端子段612是延伸出該基座4 外,且位於該連接段613與該端子段612之間的外露端部 616是露出該基座4外,藉此,便於對於該等固定端子 61 13 201216315 與該基片Μ相接處施加特定處理方式 子組合體7的該箄活叙姑工〜 邊居動i而 / 的端子段712也是延伸出該 t於該連接段713與該端子段712之間的外 二7箄也是露出該基座4外’同樣有助於施加特定處 理方式使㈣活動端子71與該基片72_分開。 此1卜’該等撥動件8的基部81則分別被夾設在該基座 4與該盘殼5之間,兮·莖地、 -4推抵。卩83分別靠抵於該等活動端 子71的彈性接觸段714,該等撥動件8的操作部82能被撥 動而沿該等活動開口 51分別位移到該第—端5ιι與該第二 端⑴,並連動該推抵部83位移到—非導通位置與一導通 位置。在本實施例中,當該操作部82位移到該第一端川 時二該活動端子71的彈性接觸段714是呈與該固定端子6ι 的定位段611 t間維持相間隔的非導通狀態。當該操作部 82位移到該第二端512日寺,該推抵部83會壓抵該彈性接觸 k 714罪近該疋位段611,進而形成該彈性接觸段7丨4與該 定位段611相接觸的導通狀態。 步驟304是沿組合完成的程式開關2的套殼5與基座4 相接合處的縫隙注入黏膠,使該套殼5與該基座4穩固地 結合在一起,以獲得該程式開關2成品。 值得說明的是’在前述製造方法中,雖然是以自動化 方式說明該程式開關2的組合方式,但該程式開關2的製 造方法不以此為限’即使是以人工方式進行組合安裝,仍 此利用該固定端子組合體6、活動端子組合體7的結構設 。十,先使該等固定端子61、活動端子71能同時且快速地結 14 201216315 合至該基座4,再配合剪除工具使該基片62、該基片72分 別與該等Μ端子61、活動料Η分離,再絲上該等撥 動件8與1¾蓋殼5後,仍錢夠以相較於現有的人工組合 作業的效率更佳的方式完成該程式開關2的組合。 歸納上述,本發明程式開關2的製造方法,可獲致下 述的功效及優點,故能達到本發明的目的: 該固疋4子組合體6、活動端子組合體7的該等固 定端子61、該等活動端子71分別藉由與該基片Q、該基 片72結合成一體的結構設計,使該等固定端子61或該等 活動端子71能同時定位在該基座4的定位槽42〇内藉 此,能大幅減少該程式開關2的組合時間與人力,使本發 明具有製程效率佳且能節省製造成本的優點。 一本發明製造方法,在該基座4形成該等間隔壁42 及該等定位槽420的結構型式,使該固定端子組合體6、活 動端子組合體7能直接從該基座4的頂面或側面方向安裝 至該等定位槽420,除了可增進組合安裝速度與方便性外, 也使該製造方法容易轉換為自動化方式生產,同樣能節省 人力並增進製程效率。 二、藉由在該基座4形成該等定位槽420與該等第一 缺槽413、第二缺槽414的結構設計,除了可輔助該等固定 端子61、活動端子71定位外,還能有效防止相鄰的固定端 子61、活動端子71相接觸而產生錯誤的開關訊號,使本發 明能製出品質穩定的程式開關2成品。 四、藉由在該等固定端子61、活動端子71分別設置該 15 201216315 專上卡制部614、71 5、下+ 4ιΐ απ 下审615、716,使該等固定端 子61、活動端子71在组合禍ί〇山 ^ 中能穩固而不易脫落地結合 於該基座4,藉此,使固定娩 疋&子組合體6、活動端子組合體 7能快速定位以改善製程教* 耳·且同樣有助於製出品質穩定 的程式開關2成品。 本發明端子組合體的鲛祛音& 7 , 早佳貫施例可以是前述的固定端 子組合體6的型式,也可以县兮.工去 t j从疋該活動端子組合體7的型 式’其詳細結構在此不再瞽诫 ^ ^ 丹賢这如刖述製造方法所述,不 阳是口疋知子組合體6或活動端子組合體7的型式,都適 «…亥基座4、蓋殼5及該等撥動件8相組合以製成該程式 開關2 ’且該等1^端+6卜該等活動端子62與該基片 62基片72結合成-體的結構設計,使該固定端子組合體 6該’舌動端子組合體7都能快速組合至該基座4而具有增 進製造效率的特性。 惟以上所述者,僅為本發明之較佳實施例而已,當不 月b以此限定本發明實施之範圍,即大凡依本發明申請專利 範圍及發明說明内容所作之簡單的等效變化與修飾,皆仍 屬本發明專利涵蓋之範圍内。 【圖式簡單說明】 圖1是一立體分解圖,說明現有的一程式開關的組合 結構; 圖2是一剖視圖,說明該現有的程式開關組合完成的 情形; 圖3是一流程圖,說明本發明程式開關的製造方法的 16 201216315 一較佳實施例; 圖4是一立體分解圖’說明該較佳實施例的一固定端 子組合體與一活動端子組合體搭配—基座、一蓋殼盘多數 個撥動件進行組合的情形; 圖5是一組合步驟的立體圖,說明該較佳實施例的基 座、固定端子組合體、活動端子組合體分別藉由一定位座 塊、第一移動塊、第二移動塊進行自動化組合的情形; 圖ό是一組合步驟的剖視圖,說明該較佳實施例的固 # 定端子組合體的多數個固定端子’及該活動端子組合體的 多數個活動端子分別被推移到該基座的情形; 圖7是一組合步驟的立體圖’說明該較佳實施例的固 定端子組合體的一基片’及該活動端子組合體的一基片分 別與該等固定端子、活動端子相分離的情形; 圖8是一不完整的立體組合體,說明該固定端子組合 體與活動端子組合體組合至該基座的情形; 圖9是一立體組合體,說明組合完成後,移除該固定 ® 端子組合體的一基片’及該活動端子組合體的一基片的情 形;及 • 圖10是一沿圖9中的直線X -X所取的剖視圖,說明 移動該撥動件而使一活動端子相對一固定端子形成非導通 或導通狀態的情形。 17 201216315 【主要元件符號說明】 2 ....... •…程式開關 616… •…外露端部 4 ....... •…基座 62…… •…基片 41…… •…底壁 621… •…基材部 411… …·第一側 622… •…銜接部 412 ··· …·第二側 623… •…貫孔 413 ···. •…第一缺槽 7 ....... •…活動端子組合體 414 .··. …·第二缺槽 71 ·..·· 415 .... …壁面 711… ----疋位.草又 416… …·壁面 712… •…端子段 417 .... —底面 713… •…連接段 42…… •…間隔壁 714… •…彈性接觸段 420 ···· …定位槽 715… •…上卡制部 5 ....... …·蓋殼 716 ... •…下卡制部 51…… 717… •…外露端部 511 ···. …第一端 72…… •…基片 512 ··· …·第二端 721… •…基材部 6 ....... …·固定端子組合體 722… •…銜接部 61…… ----固疋子 723… •…貫孔 611… …·定位段 8 ....... •…撥動件 612… •…端子段 81 ••… •…基部 613… •…連接段 82••… •…操作部 614 ··· …·上卡制部 83…… •…推抵部 615… •…下卡制部 91 ··.·. •…定位座塊 201216315 910 .... •…定位管道 911 ···· .··.第 一側面 912 ·.·. .···第 二側面 913 ··· …·第 一限位槽 914… .…第 二限位槽 92…… .···第 一移動塊 921 ··· ·.·.第一 推塊部 922… •…插銷 93…… ,_··第二 移動塊 931… ..··第二 推塊部 932… •…插銷The lower locking portions 615' 716 of the movable terminals are all designed to be stuck against the bottom surface 417 of the bottom wall 41. Referring to FIG. 4, FIG. 9 and FIG. 1A, step 3〇3 is to engage the cover case 5 with the base 4, and at the same time, the movable members 8 are respectively disposed on the movable opening σ 51 of the cover case $. And in a manner corresponding to the movable terminals 71 of the movable terminal assembly 7, between the cover case 5 and the base 4, when combined, the operation portions 82 of the dial members 8 are respectively made. The movable opening σ 51 passing through the cover case 5 protrudes outward, and the base 4 is engaged with the cover case 5 to obtain a complete assembly of the program switch 2. In this step, the combined installation of the program switch 2 can also be accomplished in an automated manner. Since the mechanism design of the automation device is not the focus of the present case, and various automation devices are used in the process of the electronic related device or component, the existing process technology will not be described herein. It should be noted that, in step 3〇2, the terminal segment 612 of the fixed terminals 61 of the fixed terminal assembly 6 extends beyond the base 4 and is located between the connecting segment 613 and the terminal segment 612. The exposed end portion 616 is exposed outside the base 4, thereby facilitating the application of the specific processing mode sub-assembly 7 to the fixed terminal 61 13 201216315 and the substrate 〜. The terminal segment 712 of the side moving i and / is also extended from the outer two 7 箄 between the connecting segment 713 and the terminal segment 712 is also exposed outside the pedestal 4 'also helps to apply a specific treatment mode (4) The movable terminal 71 is separated from the substrate 72_. The base portions 81 of the sliders 8 are respectively interposed between the base 4 and the disk case 5, and the stems and the stems are pushed against each other. The 卩83 is respectively abutted against the elastic contact segments 714 of the movable terminals 71, and the operating portions 82 of the ejector members 8 can be slid and displaced along the movable openings 51 to the first end 5 ι and the second The end (1) is interlocked with the pushing portion 83 to be displaced to a non-conducting position and a conducting position. In this embodiment, when the operating portion 82 is displaced to the first end, the elastic contact portion 714 of the movable terminal 71 is in a non-conducting state spaced apart from the positioning portion 611t of the fixed terminal 6i. When the operating portion 82 is displaced to the second end 512, the pushing portion 83 presses against the elastic contact k 714 to approach the clamping segment 611, thereby forming the elastic contact portion 7丨4 and the positioning segment 611. The conduction state of the contact. Step 304 is to inject the glue along the gap between the sleeve 5 of the combined program switch 2 and the base 4, so that the sleeve 5 and the base 4 are firmly combined to obtain the finished product of the program switch 2. . It should be noted that in the above manufacturing method, although the combination of the program switch 2 is described in an automated manner, the manufacturing method of the program switch 2 is not limited thereto, even if it is manually installed in combination, this is still the case. The fixed terminal assembly 6 and the movable terminal assembly 7 are configured. 10. First, the fixed terminal 61 and the movable terminal 71 can be simultaneously and quickly connected to the base 4 by the 201216315, and the substrate 62 and the substrate 72 are respectively connected to the terminal 61, together with the cutting tool. After the movable magazines are separated and the sliders 8 and 13⁄4 are covered, the combination of the program switches 2 can be completed in a more efficient manner than the existing manual combination operations. In summary, the manufacturing method of the program switch 2 of the present invention can achieve the following functions and advantages, and the object of the present invention can be attained: the fixed terminal 61 of the fixed junction 4, the movable terminal assembly 7, The movable terminals 71 are designed to be integrated with the substrate Q and the substrate 72, so that the fixed terminals 61 or the movable terminals 71 can be simultaneously positioned in the positioning slots 42 of the base 4. Thereby, the combination time and labor of the program switch 2 can be greatly reduced, and the invention has the advantages of good process efficiency and saving manufacturing cost. In the manufacturing method of the present invention, the partition walls 42 and the positioning grooves 420 are formed in the base 4 so that the fixed terminal assembly 6 and the movable terminal assembly 7 can directly pass from the top surface of the base 4. Or the lateral direction is mounted to the positioning slots 420. In addition to improving the speed and convenience of the combined installation, the manufacturing method can be easily converted into an automated manner, which also saves manpower and improves process efficiency. 2. By designing the positioning grooves 420 and the first notches 413 and the second notches 414 in the base 4, in addition to assisting the positioning of the fixed terminals 61 and the movable terminals 71, The adjacent fixed terminal 61 and the movable terminal 71 are effectively prevented from coming into contact with each other to generate an erroneous switching signal, so that the present invention can produce a finished product of the stable quality of the program switch 2. 4. By setting the 15 201216315 special card-making parts 614, 71 5 and the lower + 4 ΐ ΐ απ under the fixed terminals 61 and the movable terminals 71, the fixed terminals 61 and the movable terminals 71 are placed. The combination 祸 〇 ^ ^ can be firmly and detachably coupled to the pedestal 4, thereby enabling the fixed sputum & sub-assembly 6, the movable terminal assembly 7 to be quickly positioned to improve the process of teaching It also contributes to the production of a stable quality switch 2 product. The sound and sound of the terminal assembly of the present invention may be the type of the fixed terminal assembly 6 described above, or may be the same as the type of the movable terminal assembly 7 The detailed structure is no longer 瞽诫 ^ ^ 丹贤 This is described in the description of the manufacturing method, the yang is the type of the mouth 疋 疋 子 或 组合 组合 组合 组合 组合 组合 组合 组合 组合 组合 组合 组合 组合5 and the combination of the dial members 8 to form the program switch 2' and the movable terminals 62 and the substrate 62 of the substrate 62 are combined into a body structure, so that The fixed terminal assembly 6 can be quickly combined with the susceptor terminal assembly 7 to have the characteristics of improving manufacturing efficiency. However, the foregoing is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, that is, the simple equivalent changes made by the scope of the invention and the description of the invention. Modifications are still within the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing a combined structure of a conventional program switch; FIG. 2 is a cross-sectional view showing a state in which the conventional program switch combination is completed; FIG. 3 is a flow chart illustrating the present invention. 16 201216315 A preferred embodiment of the present invention; FIG. 4 is an exploded perspective view showing a fixed terminal assembly of the preferred embodiment in combination with a movable terminal assembly - a base, a cover disk FIG. 5 is a perspective view of a combination of steps, illustrating a base, a fixed terminal assembly, and a movable terminal assembly of the preferred embodiment, respectively, by a positioning block, a first moving block And a case where the second moving block is automatically combined; FIG. ό is a cross-sectional view of a combined step, illustrating a plurality of fixed terminals of the fixed terminal assembly of the preferred embodiment and a plurality of movable terminals of the movable terminal assembly FIG. 7 is a perspective view of a combined step illustrating a substrate of the fixed terminal assembly of the preferred embodiment and the activity A substrate of the movable terminal assembly is separated from the fixed terminal and the movable terminal respectively; FIG. 8 is an incomplete three-dimensional assembly, illustrating that the fixed terminal assembly and the movable terminal assembly are combined to the base Figure 9 is a perspective assembled body illustrating the removal of a substrate of the fixed® terminal assembly and a substrate of the movable terminal assembly after the combination is completed; and Figure 10 is a Figure 9 A cross-sectional view taken of the straight line X-X illustrates a situation in which the toggle member is moved to cause a movable terminal to be in a non-conducting or conducting state with respect to a fixed terminal. 17 201216315 [Description of main component symbols] 2 ....... •... Program switch 616... •...Exposed end 4 ...................Base 62... •...Substrate 41... ... bottom wall 621... • base material portion 411... first side 622... •... joint portion 412 ····· second side 623... •...through hole 413 ···. ....... •...Active terminal assembly 414 .··....·Second missing slot 71 ·..·· 415 .... ...wall 711... ----疋 position. Grass 416... ...·wall surface 712... •...terminal section 417 .... — bottom surface 713... •...connection section 42... •...partition wall 714... •...elastic contact section 420 ····...positioning groove 715... •...upper card Department 5 ......... Cover Cap 716 ... •... Lower Handle 51... 717... •...Exposed End 511 ···....First End 72...•...Substrate 512 ··· ...·Second end 721... •...Substrate part 6 .............Fixed terminal assembly 722... •...Connecting part 61... ----Solid 723... •... Through hole 611 ... ... positioning segment 8 ......... •... toggle member 612... • terminal segment 8 1 ••... •...Base 613... •...Connecting section 82••... •...Operating part 614 ·····Upper gripping part 83... •...Pushing part 615... •... Lower gripping part 91 ·· .·. •... positioning block 201216315 910 .... •... positioning pipe 911 ···· . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . The limit slot 914...the second limit slot 92...the first moving block 921 ·····.the first push block 922... •...the latch 93..., _·· second Moving block 931.....··Second push block unit 932... •... latch
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