M419252 五、新型說明: 【新型所屬之技術領域】 本新型是有關於一種連接器,更明確而言,是有關於 一種避免驅動裝置脫出的技術。 I:先前技術3 一種驅動裝置係配置於連接器中,以便維持在連接器 上之端子與扁平排線中之電極之間之壓力接觸,其中此連 • 接器係使用於例如軟性印刷電路(FPC)與軟性扁平排線 (FFC)之爲平排線上。 揭露於專利文獻1之連接器端子具有延伸至基部之前 方之前樑以及延伸至基部之後方之後樑。於此,前樑與後 樑係能相對於彼此上下移動。驅動裝置之凸輪部係安置於 後樑之下方,且能在-押入位置與一釋放位置之間旋轉,、 - 則甲入位置中,後樑係被往上推,而前樑係與扁平排線接 • 觸,而於釋放位置中,往上推的動作被釋放。驅動裝置亦 A有-槓桿部’其朝遠離&輪部之方向延伸,而當損桿部 從直立姿態翻到後方時,凸輪部從釋放位置旋轉至押入位 置。 專利文獻1 :曰本專利公開第924〇8號申請案。 然而’在揭露於專利文獻i之連接器中,—上升部係 配置於凸輪部之後方當作-止擋部。然而,即使當形成上、 升部時,通常的情況是,如果負栽被施加至直立:態之損 桿部,且負載係朝向前而不朝向後,則凸輪部可能越過: 升部並脫落在後。 3 M419252 依據此種情況,本新型之一個目的係提供一種連接 器’其能避免驅動裝置脫出。 為了解決此問題,本新型係揭露一種連接器,其具有 —個或多個端子、-個用以支撐端子之殼體、以及一驅動 裝置。端子具有基部;—前上樑,從基部之一上部向 前延伸並安置於—扁平排線之上;—後上樑,從基部之上 部向後延伸及-後下樑,從基敎—下部向後延伸。 於此’ m上樑與後上樑係能使用基部之上部作為__樞轉點 而上下移動1動裝置具有—凸輪部及_槓桿部。凸輪部 係安置於後上樑與後下樑之間,並能在-押人位置與一釋 放位置之間旋轉’於押人位置中,凸輪部將樑之間的間隙 推開’於釋放位置中’凸輪部釋放推開動作。槓桿部朝遠 離凸輪部之旋轉之中心之—方向延伸,並在凸輪部從釋放 位置旋轉至押人位置時,從―直立姿態翻到後方。一第一 止=部係形成在殼體巾,並安置於前上樑之上方與損桿部 之刖方。一第二止擋部係形成於後下樑中,並安置於凸輪 4之後方。於此,當槓桿部鄰接第—止擒部時,凸輪部鄰 接第二止擋部。 ^於本新型中,因為即使當負載朝向前方向被施加至直 立姿態之槓捍部時,槓桿部鄰接安置於前方之第一止擋 t而凸輪部鄰接安置於後方之第二止擔部。這同時使^ 桿部不會向前翻轉,並使凸輪部不會上升。因此,驅動裝 置係被維持不會脫出。 4 M419252 又,槓桿部可具有一梳狀部以及一操控部,於梳狀部 已形成間隙以供後上樑插人,而操控部係藉由梳狀部而與 凸輪部相分離。亦,槓桿部可沿著形成於操控部中之鄰接 面鄰接第一止擋部。相較於第一止擋部鄰接梳狀部之情 況’這改善了鄰接面面積。M419252 V. New description: [New technical field] The present invention relates to a connector, and more specifically, to a technique for avoiding the escape of a driving device. I: Prior Art 3 A driving device is disposed in the connector to maintain pressure contact between the terminals on the connector and the electrodes in the flat cable, wherein the connector is used, for example, in a flexible printed circuit ( FPC) and soft flat cable (FFC) are on the flat line. The connector terminal disclosed in Patent Document 1 has a front beam extending to the front of the base and a rear beam extending to the rear of the base. Here, the front and rear beams can move up and down relative to each other. The cam portion of the driving device is disposed below the rear beam and is rotatable between the --in position and a release position, - in the in-situ position, the rear beam is pushed up, and the front beam and the flat row The wire is touched and touched, and in the release position, the upward push is released. The driving device also has a - lever portion which extends in the direction away from the & wheel portion, and when the broken portion is turned from the upright posture to the rear, the cam portion is rotated from the release position to the pushed position. Patent Document 1: Japanese Patent Application Laid-Open No. 924-8. However, in the connector disclosed in Patent Document i, the rising portion is disposed behind the cam portion as a -stop portion. However, even when the upper and lower portions are formed, it is usually the case that if the load is applied to the erected portion of the erected state and the load is directed toward the front and not toward the rear, the cam portion may pass over: the lift portion and fall off is behind. 3 M419252 In accordance with this situation, it is an object of the present invention to provide a connector 'which prevents the drive from coming off. In order to solve this problem, the present invention discloses a connector having one or more terminals, a housing for supporting the terminals, and a driving device. The terminal has a base; the front upper beam extends forward from one of the upper portions of the base and is disposed above the flat cable; the rear upper beam extends rearward from the upper portion of the base and the rear lower beam, from the base to the lower portion extend. Here, the 'm upper beam and the rear upper beam system can use the upper portion of the base as the __ pivot point and move up and down. The movable device has a cam portion and a lever portion. The cam portion is disposed between the rear upper beam and the rear lower beam, and is rotatable between the position of the detainer and a release position in the position of the detainer, and the cam portion pushes the gap between the beams away from the release position. The middle cam section releases the push-open action. The lever portion extends in a direction away from the center of the rotation of the cam portion, and is turned from the "upright posture" to the rear side when the cam portion is rotated from the release position to the detent position. A first stop = portion is formed in the casing towel and is disposed above the front upper beam and the damper portion. A second stop is formed in the rear lower beam and is disposed behind the cam 4. Here, when the lever portion abuts the first stop portion, the cam portion abuts the second stop portion. In the present invention, since the lever portion abuts the first stopper t disposed in the front side and the cam portion abuts the second stopper portion disposed rearward even when the load is applied to the lever portion of the upright posture toward the front direction. At the same time, the lever portion does not flip forward and the cam portion does not rise. Therefore, the drive unit is maintained without coming out. 4 M419252 Further, the lever portion may have a comb portion and a manipulation portion, and a gap is formed in the comb portion for the rear upper beam to be inserted, and the manipulation portion is separated from the cam portion by the comb portion. Also, the lever portion may abut the first stopper along an abutting surface formed in the manipulation portion. This improves the abutment surface area compared to the case where the first stop abuts the comb.
又,當槓桿部具有直立姿態時,操控部可從梳狀部向 前突出。因為第一止擋部鄰接操控部突出至梳狀部之前 方,所以第一止擋部可被安置於較遠離前方。 又,鄰接面可以是-傾斜®,當才貢桿部具有直立姿態 時,傾斜面向前與向下傾斜4可允許從第—止撞部作^ 於槓桿部之力量之方向接近鄰接面之域方向。 又’凸輪部可通過後上樑與第二止擔部之間,並被插 入在後上樑與後下樑之間。Further, when the lever portion has an upright posture, the manipulation portion can protrude forward from the comb portion. Since the first stop abuts the control portion to the front of the comb, the first stop can be placed farther forward. Further, the abutment surface may be - tilted®, and when the stalk portion has an upright posture, the inclined front and downward inclinations 4 may allow the direction of the abutment portion to approach the abutment surface in the direction of the force of the lever portion. direction. Further, the cam portion is passed between the rear upper beam and the second stop portion and is inserted between the rear upper beam and the rear lower beam.
又,凸輪部可被安置在後上樑與後下襟之間的第二止 擋部之上方與前方,而#槓桿部具有—從直立姿態向前傾 斜之安態時’傾斜面之下端部可被安置於第—止擋部之上 方。料允許槓桿部被引導進人―直立錢,因為當 部掉洛下時,第一止擋部接觸傾斜表面。 【實施方式】 以下將參照相關圖式’說明依本新型較佳 種連接器。 圖1A至1C係為依據本新型之—實施例之連接器 ^體圖 '刖視圖及俯視圖。圖2八至4]8係為連接器丄之 圖。圖2A與3顯示處於釋放位置之凸輪部51。圖⑶顯 5 M419252 示處於押入位置之凸輪部51。圖5A至6B係為用以說明同 一連接器1之組裝程序之圖。 如圖1A至1C所示,連接器1具有一實質上平的盒狀 殼體2,其由一種具有絕緣特性之樹脂材料鑄造出。一插入 開口 la係位於殼體2之前方,而現在顯示在附圖中之一扁 平排線之末端部係被插入。扁平排線可以是FPC或FFC。 於本實施例中,一群組之電極係形成於末端部之兩面上。 在殼體2内部,藉由衝出具有導電特性之一厚金屬板而形 成之一第一端子3與一第二端子4,係以一預先決定的間隔 配置平行於彼此。延伸至左右且由具有絕緣特性之樹脂材 料形成之一長驅動裝置5,係安裝於殼體2之右上側。藉由 彎曲一薄金屬板而形成之一支撐托架係安裝於殼體2之左 右端部。 殼體2具有垂直地面向彼此之實質上平的頂部21與底 部23,及連接頂部與底部之左右端部之側部25。形成於頂 部21與底部23之間之空間收容第一端子3與第二端子4。 頂部21與底部23兩者都包含向前與向後延伸之複數個溝 部,用以讓第一端子3與第二端子4插入。頂部21覆蓋除 了底部23之後部以外之整個區域。頂部21之後端部係為 延伸至左右之一端緣部,並作為第一止擋部29,說明於下。 如圖2A與圖2B所示,第一端子3係形成實質上呈現 字母Η之形狀。換言之,第—端子3具有—下部31、〜4Further, the cam portion may be disposed above and in front of the second stopper between the rear upper beam and the rear lower jaw, and the #lever portion has an end portion of the inclined surface when the posture is tilted forward from the upright posture. It can be placed above the first stop. The material allows the lever portion to be guided into the person - upright money, because when the part is dropped, the first stop contacts the inclined surface. [Embodiment] A preferred connector according to the present invention will be described below with reference to the related drawings. 1A to 1C are schematic views and top views of a connector body according to an embodiment of the present invention. Fig. 2 to 4] 8 is a diagram of the connector. 2A and 3 show the cam portion 51 in the release position. Figure (3) shows 5 M419252 shows the cam portion 51 in the pushed-in position. 5A to 6B are views for explaining the assembly procedure of the same connector 1. As shown in Figs. 1A to 1C, the connector 1 has a substantially flat box-like casing 2 which is cast from a resin material having an insulating property. An insertion opening la is located in front of the casing 2, and the end portion of one of the flat wires shown in the drawing is now inserted. The flat cable can be FPC or FFC. In this embodiment, a group of electrodes are formed on both sides of the tip end portion. Inside the casing 2, a first terminal 3 and a second terminal 4 are formed by punching out a thick metal plate having a conductive characteristic, and are disposed parallel to each other at a predetermined interval. A long drive device 5, which extends to the left and right and is formed of a resin material having insulating properties, is attached to the upper right side of the casing 2. A support bracket is formed by bending a thin metal plate to be mounted to the left and right ends of the casing 2. The housing 2 has a substantially flat top portion 21 and a bottom portion 23 that face each other vertically, and a side portion 25 that connects the left and right end portions of the top and bottom portions. The space formed between the top portion 21 and the bottom portion 23 houses the first terminal 3 and the second terminal 4. Both the top portion 21 and the bottom portion 23 include a plurality of grooves extending forward and rearward for inserting the first terminal 3 and the second terminal 4. The top portion 21 covers the entire area except the rear portion of the bottom portion 23. The rear end portion of the top portion 21 is extended to one of the right and left end edges, and serves as a first stopper portion 29, which will be described below. As shown in Figs. 2A and 2B, the first terminal 3 is formed in a shape substantially in the form of a letter Η. In other words, the first terminal 3 has a lower portion 31, a lower portion
月1J 上樑32、一後上樑33、一前下樑34及一後下樑35。下邹 31朝垂直方向延伸,前上樑32延伸至基部31之一上部之 6 M419252 刚方,後上樑33延伸至基部31之上部之後方,前下樑34 延伸至基部31之一下部之前方,而後下樑35延伸至基部 31之下部之後方。1J upper beam 32, a rear upper beam 33, a front lower beam 34 and a rear lower beam 35. The lower side 31 extends in the vertical direction, the front upper beam 32 extends to the upper portion of the base portion 31, 6 M419252, the rear upper beam 33 extends to the upper portion of the base portion 31, and the front lower beam 34 extends to the lower portion of the base portion 31. Square, and the rear lower beam 35 extends to the rear of the lower portion of the base portion 31.
基部31係於縱向安置於殼體2之中央部,而前上樑32 從基部31之上部沿著殼體2之頂部21之底面延伸至插入 埠la。前上樑32係安置於從插入埠la被插入至殼體2之 一扁平排線99之上方。一個朝下突出之接點部32a係形成 於前上樑32之前端,而接點部32a接觸配置於扁平排線99 之頂面之一端子。後上樑33延伸至基部31之上部之後方 超過頂部21之後端部。後上樑33係安置於驅動裝置5之 凸輪部51之上方,且係被插入至在梳狀部%中之一空間。The base portion 31 is longitudinally disposed at a central portion of the casing 2, and the front upper beam 32 extends from the upper portion of the base portion 31 along the bottom surface of the top portion 21 of the casing 2 to the insertion 埠la. The front upper beam 32 is disposed above a flat cable 99 that is inserted into the housing 2 from the insert 埠la. A contact portion 32a projecting downward is formed at the front end of the front upper beam 32, and the contact portion 32a contacts one of the terminals disposed on the top surface of the flat cable 99. The rear upper beam 33 extends beyond the upper portion of the base portion 31 beyond the rear portion of the top portion 21. The rear upper beam 33 is disposed above the cam portion 51 of the driving device 5 and is inserted into one of the spaces in the comb portion.
前下樑34沿著殼體2之底部23之頂面而從基部31之 下部延伸至插人開π la。前下樑34係安置於從插入痒h 被插入至殼體2之扁平排線99之下方。前下樑%分割成 兩個中間部分並向前延伸。安置於上側之上側枝部地係 朝垂直方向可彈性地變形。一朝上突出之接點部地係形 成於上側枝部34a之前端部中,而接點部3和接觸一配置 於爲平排線99之底面上之端子。安置於下端之下側枝部 3扑係被從殼體2之底部23朝上突出之—支撐部π所支 撑一個開口朝下之插入琿28a係形成於支撐部28中而 下側枝部34b之前端部係被插入至插入埠。 後下樑35續梯狀方式從基部31之下部延伸至後, 並延伸至後超過底部23之後端部。後下樑%具有一基端 部35a、一鄰接部35b及一第二止擔部%。基端部35a安 7 M419252 置於近端,鄰接部35b安置於基端部35a的後側斜上方, 而第二止擔部35c *置於鄰接部35b力後側斜上方。鄰接 部35b係安置於驅動裝置5之凸輪部$i之下方,並鄰接凸 輪部51第一止擋部35c係安置於後上樑33之前端部之下 方,並從鄰接部35b朝下突出。第二止擋部35c係安置於 驅動裝置5之凸輪部51之後方…接點部%係安置於後 下標35之後端部中到達底部23之後端部之後方,並略突 出至底部23之底面之下方。接點部36接觸一端子,其配 置於安裝有連接器1之電路板之表面上。 如圖3所不,第二端子4係形成實質上呈現字母h之 形狀。換言之,第二端子4具有一下部41、一前上樑42、 一後上樑43、一前下樑44及一後下樑45。下部41朝垂直 方向延伸,前上樑42延伸至基部41之一上部之前方,後 上樑43延伸至基部41之上部之後方,前下樑44延伸至基 部41之一下部之前方,而後下樑45延伸至基部41之下部 之後方。 基部41係朝縱向安置於殼體2之中央部,而前上標42 沿著殼體2之頂部21之底面從基部41之上部延伸至插入 埠la。前上樑42係安置於從插入埠ia被插入至殼體2之 扁平排線99之上方。一個朝下突出之接點部4以係形成於 前上標42之如知,而接點部42a接觸一個配置於扁平排線 99之頂面之端子。形成於前上樑42之中間部分中之接點部 42a,以及形成於第一端子3之前上樑32之前端部中之接 點部32a係彼此縱向分離,並配置成一鋸齒狀圖案。後上 8 ’、43延伸至基部41之上部之後方超過頂部2i之後端部。 唆上樑43係安置於驅動裝置5之凸輪部51之上方,且被 入至一個在梳狀部55中之空間。前上樑42與後上樑43 系可彈性變形,俾能使用基部41之上部作為樞轉點而相對 於坡此垂直移動。 立别下樑44沿著殼體2之底部23之頂面從基部41之下 k伸至插入開口 la。前下樑44係安置於從插入埠ia被 插入至殼體2之扁平排線99之下方。前下樑34具有一上 1枝。卩44a’其延伸至後超過後部。上側枝部44&係朝垂直 方^可彈性變形。-朝上突出之接點部44c係形成於上側 枝部34a之前端部中,而接點部4牝接觸一個配置於扁平 排線99々底面上之端子。形成於前下樑44之中間部分中 ^接點部44a,以及形成於第—端子3之前下樑%之前端 中之接點部34a係彼此縱向分離地,並配置成—鑛齒狀 圖案-個略突出至底部23之底面之下方之接點部46係 配^於前下樑44之前端部中’並安置於底部Μ之前端部 之則。接點部46接觸-端子’其配置於被連接器i安裝之 電路板之表面上。 4下部後下樑45沿著底部23之上表面從基部31延伸至 设體2之底部23之後端。後下樑45係安置於驅動裝置5 51之下方,並鄰接凸輪部51。-個朝上突出之鑛 回狀的展人部45a係形成於後下樑45之基端部中。壓入部 ^刀入至配置於殼體2之内部之—切㈣之底面。支 牙係安置於在後上樑43與後下樑45之間之驅動裝置 M419252 5之凸輪部51之前方。 驅動裝置5實質上形成延伸至左右之一矩形板之形 狀。驅動裝置5其中一個長端係一操控部57,其由使用者 使用指尖來旋轉。一梳狀部55係配置於驅動裝置5之另一 長端,於梳狀部55中,類似縫隙的空間係配置於左右。梳 狀部55之前端部係被凸輪部51連接,凸輪部51具有一非 圓形的剖面輪廓。凸輪部51係配置在第一端子3之後上樑 33與後下樑35之間,或在第二端子4之後上樑43與後下 樑45之間。第一端子3之後上樑33或第二端子4之後上 樑43係被插入至梳狀部55中之一空間。梳狀部55與朝遠 離凸輪部51之旋轉中心之方向延伸之操控部57提供一種 用以旋轉凸輪部51之槓桿部53之功能。 凸輪部51之配置係能使長直徑的方向接近驅動裝置5 之厚度方向。梳狀部55具有幾乎等於凸輪部51之長直徑 的長度之厚度。操控部57係比梳狀部55厚,並於驅動裝 置5之厚度方向突出超過梳狀部55。操控部57之突出部具 有一鄰接面57a位於靠近梳狀部55之側,並傾斜至梳狀部 55。如圖2A所示,當驅動裝置5具有一直立姿態時,操控 部57突出至前超過梳狀部55,而鄰接面57a面向上與下。 當使用者操控配置於槓桿部53之前端側之操控部57 時,凸輪部52係在顯示於圖2A與圖3之釋放位置以及顯 示於圖2B之押入位置之間旋轉。在顯示於圖2B之押入位 置,凸輪部51具有一姿態,於其中長直徑的方向係處於垂 直方向,而第一端子3之後上樑33朝上推。更明確而言, 10 M419252 在後下樑35之後上樑33與鄰接部35b之間之間隔係比凸 輪部51之長直徑來得狹小,而上升之凸輪部51增廣間隔。 因為後下樑35鄰接安置於下側之底部23以限制位移,所 以凸輪部51使後上樑33產生位移。 當第一端子3之後上樑33被凸輪部51依此方式朝上 推時,第一端子3之前上樑32被朝下推並接觸被插入至殼 體2之扁平排線99之頂面。於此時,扁平排線99係介設 於前上樑32與前下樑34之間。依此方式,第一端子3之 接點部32a、34c係強迫地變成與一個配置於扁平排線99 之兩面電極接觸。第二端子4係與第一端子3同樣地被凸 輪部51驅使變形。 於顯示於圖2A與圖3之釋放位置,凸輪部51具有一 姿態,於其中長直徑的方向係處於縱向。第一端子3之後 上樑33係與第二端子4之後上樑43分離,而朝上推它們 之動作被釋放。當釋放時,第一端子3之前上樑32與第二 端子4之前上樑42返回至下壓位置,並與扁平排線99之 頂面分離。當扁平排線99介設於第一端子3之前上樑32 與前下樑34之間時,其被釋放而不會介設於第二端子4之 前上樑42與前下樑44之間,並可被插入至插入埠la或從 插入埠la被拉下。 當凸輪部51處於圖2與圖3所示之釋放位置時,槓桿 部53變成直立位置,於其中從凸輪部51延伸之方向係沿 著垂直方向。當槓桿部53從直立姿態被使用者翻轉至後方 時,凸輪部51從釋放位置旋轉到達顯示於圖2B之押入位 11 M419252 置。依此方式,連接器1於本實施例中形成一種後翻式連 接器。 當槓桿部53係處於如圖2A與圖3所示之直立姿態 時,配置於殼體2之頂部21之後端部上之第一止擋部29 係安置於槓桿部53之鄰接面57a之上方。因此,當負載不 是被施加至後方,而是照樣被施加至處於直立姿態之槓桿 部53之前方時,位於槓桿部53上之鄰接面57a鄰接第一 止擋部29。於此時,力量作用於槓桿部53上以繞著在鄰接 面57a與第一止擋部29之間之接觸點使槓桿部旋轉,而凸 輪部51與鄰接部35a分離並試圖以朝向後之一斜角朝上上 升。然而,因為一第二止擔部35c係形成於第一端子3中 到達凸輪部51之後方,如圖2A所示,所以凸輪部51鄰接 第二止擋部35c。因此,凸輪部51係被維持免於升起。這 像驅動裝置5不能脫出。為了使凸輪部51無法升起,第二 止擋部35c應從鄰接部35a朝上突出一段長度,其至少等 於但最好是大於凸輪部51之短直徑。 又,因為於本實施例中,配置於左右延伸之槓桿部53 之操控部57上之鄰接面57a鄰接位於左右延伸之殼體2之 頂部21之後端部之第一止擋部29,所以鄰接面積可被增 加。又,因為於本實施例中,第一止擋部29鄰接操控部57, 其以槓桿部53處於直立姿態的方式突出至梳狀部55之前 方,所以殼體2之頂部21之下端部並不需要超過必要地突 出至後方。又,因為於本實施例中,當槓桿部53處於直立 姿態時,鄰接面57a面向上與下,所以第一止擋部29碰到 12 M419252 槓桿部53之鄰接表面57a,試圖翻轉向前接近鄰接面μ 之法線方向。因此,槓桿部53係被維持免於在與第一止擔 部29接觸時變成不對準。 胃 如圖4A與圖4B所示’支撐托牟 t永b具有一内側部61 與一外側部63,其延伸至前與後。内側部61與外側部μ 係被一個配置於後部(參見圖ic)之連接部65連接。内 側部61具有一個開口朝下之實質上U形固定部61a,以及 一個從固定部61a向前延伸之樑部61b。固定部6ia係被配 置成,在一個形成於殼體2之側部25之内後部中之溝部25a 中,使開放端能面向下。固定部61a從上方向下按壓於驅 動裝置5之軸部59上。作為旋轉之中心之軸部59係配置 於左右之凸輪部51之外部之位置。樑部61b係從下面被一 支撐臂25b支撐,而支撐臂25b從殼體2之側部25以懸臂 支撐架的型式延伸至前方。一個朝下突出之鉤部6lc係形 成於樑部61b之前端部中。鉤部61c鉤住配置於扁平排線 99之末端部之兩側之耳部(未顯示)’並提供作用以使扁平 排線99不能脫出。 外側部63具有一個從前部朝下延伸之固定部63a ,以 及一個從中央部朝下延伸之固定部63b。固定部63a係被插 入至一穴部25c,其形成於殼體2之側部25之外前部中並 垂直延伸。其係被插入直到達到穴部25c之底端為止。固 疋部63a之後側具有一鉤子狀’俾能切入至穴部25c之側 壁中。固定部63a係從側部25之間隙部25e (參見圖ία) 朝左與朝右地露出至外部。此種間隙部25e係用以焊接電 13 M419252 路板之表面。另一固定部63b係被插入至一穴部25d,其形 成於殼體2之側部25之外中央部中並垂直延伸。固定部63b 之前側具有一鉤子狀,以切入至穴部25d之側壁。 圖5A至6B係為用以說明關於連接器1之組裝程序之 圖。首先,如圖5A所示,第二端子4係從前方(亦即,從 插入埠la)被插入至殼體2。接著,如圖5B所示,第一端 子3係從後方被插入至殼體2。其次,如圖5C所示,驅動 裝置5係從後方安裝。接著,如圖5D所示,支撐托架6 係從上方安裝於殼體2之側部25。於此連接器1中之第一 端子3之接點部36、第二端子4之接點部46及支撐托架6 之固定部63c係被焊接至電路板之表面,並被固定至電路 板。 如圖6A與圖6B所示,當驅動裝置5安裝於殼體2中 時,驅動裝置5之槓桿部53呈現一姿態,於其中其從直立 姿態略傾斜向前,俾能使凸輪部51之長直徑的方向係處於 縱向。當長直徑的方向係處於縱向時,凸輪部51通過在第 一端子3之後上樑33與第二止擋部35c之間,並被插入至 後上樑33與鄰接部35b之間。於此時,槓桿部53之鄰接 面57a之下端部係安置於第一止擋部29之上方。換言之, 凸輪部51係被插入至後上樑33與鄰接部35b之間。當其 被安置於第二止擋部35c之上與前方時,鄰接面57a之下 端部係被直接安置於第一止擋部29之上方。當凸輪部51 被降低且面向鄰接部35b時,第一止擋部29接觸鄰接面 57a,而槓桿部53係被引導成為直立姿態。 14 M419252 以上已經說明本新型之實施例,但是本新型係並未受 限於本實施例。多種不同變化當然可以被熟習本項技藝者 所設計。 I:圖式簡單說明3 圖1A係為本新型之一實施例之連接器之立體圖。 圖1B係為同一連接器之前視圖。 圖1C係為同一連接器之俯視圖。 圖2A係為同一連接器之剖面圖。 圖2B係為同一連接器之剖面圖。 圖3係為同一連接器之剖面圖。 圖4A係為同一連接器之剖面圖。 圖4B係為同一連接器之剖面圖。 圖5A係為用以說明同一連接器之組裝程序之圖。 圖5B係為用以說明同一連接器之組裝程序之圖。 圖5C係為用以說明同一連接器之組裝程序之圖。 圖5D係為用以說明同一連接器之組裝程序之圖。 圖6A係為用以說明同一連接器之組裝程序之圖。 圖6B係為用以說明同一連接器之組裝程序之圖。 【主要元件符號說明】 1 :連接器 25a :溝部 la :插入埠 25b :支撐臂 2 :殼體 25c :穴部 21 :頂部 25d :穴部 23 :底部 25e :間隙部 25 :側部 27 :支撐部 15 M419252 28 :支撐部 28a :插入埠 29 :第一止擋部 3:第一端子 31 :下部/基部 32 :前上樑 32a :接點部 33 :後上樑 34 :前下樑 34a :上側枝部 34b :下側枝部 34c :接點部 35 :後下樑 35a :基端部 35b :鄰接部 35c :第二止擋部 36 :接點部 4:第二端子 41 :下部/基部 42 :前上樑 42a :接點部 43 :後上樑 44 :前下樑 44a :上側枝部 44c :接點部 45 :後下樑 45a :壓入部 46 :接點部 5:驅動裝置 51 :凸輪部 52 :凸輪部 53 :槓桿部 55 :梳狀部 57 :操控部 57a :鄰接面 59 :轴部 6:支撐托架 61 :内側部 61a :固定部 61b :樑部 61c :釣部 63 :外側部 63a :固定部 63b :固定部 63c :固定部 65 :連接部 99 :扁平排線 16The front lower beam 34 extends from the lower portion of the base portion 31 to the insertion opening π la along the top surface of the bottom portion 23 of the casing 2. The front lower beam 34 is disposed below the flat wire 99 inserted into the casing 2 from the insertion itching h. The front lower beam is divided into two intermediate portions and extends forward. The side branches disposed on the upper side are elastically deformed in the vertical direction. A contact portion projecting upward is formed in the front end portion of the upper branch portion 34a, and the contact portion 3 and the contact portion are disposed on the bottom surface of the flat line 99. The lower branch portion 3 disposed below the lower end is protruded upward from the bottom portion 23 of the casing 2, and the opening portion 28a supported by the support portion π is formed in the support portion 28 and the front end portion of the lower branch portion 34b. The department is inserted into the insertion file. The rear lower beam 35 extends from the lower portion of the base portion 31 to the rear portion and extends to the rear portion beyond the rear portion of the bottom portion 23. The rear lower beam % has a base end portion 35a, an adjacent portion 35b, and a second stop portion %. The base end portion 35a is placed at the proximal end, the abutment portion 35b is disposed obliquely above the rear side of the base end portion 35a, and the second stop portion 35c* is placed obliquely above the rear side of the abutment portion 35b. The abutting portion 35b is disposed below the cam portion $i of the driving device 5, and is adjacent to the cam portion 51. The first stopper portion 35c is disposed below the front end portion of the rear upper beam 33 and protrudes downward from the abutting portion 35b. The second stopper portion 35c is disposed behind the cam portion 51 of the driving device 5. The contact portion % is disposed behind the end portion of the rear subscript 35 and reaching the bottom portion 23, and protrudes slightly to the bottom portion 23 Below the bottom surface. The contact portion 36 contacts a terminal which is disposed on the surface of the circuit board on which the connector 1 is mounted. As shown in Fig. 3, the second terminal 4 is formed in a shape substantially exhibiting the letter h. In other words, the second terminal 4 has a lower portion 41, a front upper beam 42, a rear upper beam 43, a front lower beam 44, and a rear lower beam 45. The lower portion 41 extends in the vertical direction, the front upper beam 42 extends to the front of one of the upper portions of the base portion 41, and the rear upper beam 43 extends to the rear of the upper portion of the base portion 41, and the front lower beam 44 extends to the front of the lower portion of the base portion 41, and then the lower portion The beam 45 extends to the rear of the lower portion of the base 41. The base portion 41 is disposed longitudinally in the central portion of the housing 2, and the front superscript 42 extends from the upper portion of the base portion 41 to the insertion port 沿着la along the bottom surface of the top portion 21 of the housing 2. The front upper beam 42 is disposed above the flat cable 99 that is inserted into the housing 2 from the insertion 埠ia. A contact portion 4 projecting downward is formed in the front index 42, and the contact portion 42a contacts a terminal disposed on the top surface of the flat cable 99. The contact portion 42a formed in the intermediate portion of the front upper beam 42 and the contact portions 32a formed in the front end portion of the upper beam 32 before the first terminal 3 are longitudinally separated from each other and arranged in a zigzag pattern. The rear upper portion 8', 43 extends beyond the upper portion of the base portion 41 beyond the rear portion of the top portion 2i. The upper beam 43 is placed above the cam portion 51 of the driving device 5 and is introduced into a space in the comb portion 55. The front upper beam 42 and the rear upper beam 43 are elastically deformable, and the crucible can be vertically moved relative to the slope using the upper portion of the base portion 41 as a pivot point. The standing lower beam 44 extends from the lower surface of the base 41 to the insertion opening la along the top surface of the bottom portion 23 of the casing 2. The front lower beam 44 is disposed below the flat cable 99 that is inserted into the housing 2 from the insertion 埠ia. The front lower beam 34 has an upper branch.卩44a' extends beyond the back. The upper side branch 44& is elastically deformable toward the vertical side. The contact portion 44c projecting upward is formed in the front end portion of the upper branch portion 34a, and the contact portion 4 is in contact with a terminal disposed on the bottom surface of the flat cable 99. The contact portion 44a formed in the intermediate portion of the front lower beam 44, and the contact portions 34a formed in the front end of the lower beam % before the first terminal 3 are longitudinally separated from each other, and are arranged in a -tooth pattern - The contact portion 46 slightly protruding below the bottom surface of the bottom portion 23 is fitted to the front end portion of the front lower beam 44 and disposed at the front end portion of the bottom portion. The contact portion 46 contacts the - terminal ' which is disposed on the surface of the circuit board to which the connector i is mounted. 4 The lower rear lower beam 45 extends from the base 31 to the rear end of the bottom portion 23 of the body 2 along the upper surface of the bottom portion 23. The rear lower beam 45 is disposed below the driving device 51 and abuts the cam portion 51. - An upwardly protruding mine is formed in the base end portion of the rear lower beam 45. The press-in portion is cut into the bottom surface of the cut (four) disposed inside the casing 2. The dentition is placed in front of the cam portion 51 of the drive unit M419252 5 between the rear upper beam 43 and the rear lower beam 45. The driving device 5 is formed substantially in the shape of a rectangular plate extending to the left and right. One of the long ends of the driving device 5 is a manipulation portion 57 which is rotated by a user using a fingertip. A comb portion 55 is disposed at the other long end of the driving device 5, and in the comb portion 55, a gap-like space is disposed on the right and left. The front end of the comb portion 55 is connected by a cam portion 51 having a non-circular cross-sectional profile. The cam portion 51 is disposed between the upper beam 33 and the rear lower beam 35 after the first terminal 3 or between the upper beam 43 and the rear lower beam 45 after the second terminal 4. After the first terminal 3 is followed by the upper beam 33 or the second terminal 4, the upper beam 43 is inserted into one of the spaces in the comb portion 55. The comb portion 55 and the manipulation portion 57 extending in a direction away from the rotation center of the cam portion 51 provide a function of rotating the lever portion 53 of the cam portion 51. The cam portion 51 is disposed such that the direction of the long diameter is close to the thickness direction of the driving device 5. The comb portion 55 has a thickness almost equal to the length of the long diameter of the cam portion 51. The manipulation portion 57 is thicker than the comb portion 55 and protrudes beyond the comb portion 55 in the thickness direction of the driving device 5. The projection of the operating portion 57 has an abutment surface 57a located on the side close to the comb portion 55 and inclined to the comb portion 55. As shown in Fig. 2A, when the driving device 5 has the upright posture, the manipulation portion 57 projects to the front beyond the comb portion 55, and the abutment surface 57a faces upward and downward. When the user manipulates the manipulation portion 57 disposed on the front end side of the lever portion 53, the cam portion 52 is rotated between the release position shown in Figs. 2A and 3 and the push-in position shown in Fig. 2B. In the push-in position shown in Fig. 2B, the cam portion 51 has a posture in which the direction of the long diameter is in the vertical direction, and after the first terminal 3, the upper beam 33 is pushed upward. More specifically, the spacing between the upper beam 33 and the abutment portion 35b of the 10 M419252 after the rear lower beam 35 is narrower than the long diameter of the cam portion 51, and the raised cam portion 51 is widened. Since the rear lower beam 35 abuts against the bottom portion 23 disposed on the lower side to restrict displacement, the cam portion 51 displaces the rear upper beam 33. When the upper beam 33 is pushed upward by the cam portion 51 in this manner after the first terminal 3, the upper end 32 of the first terminal 3 is pushed downward and contacts the top surface of the flat wire 99 inserted into the casing 2. At this time, the flat cable 99 is interposed between the front upper beam 32 and the front lower beam 34. In this manner, the contact portions 32a, 34c of the first terminal 3 are forcibly brought into contact with one of the two surface electrodes disposed on the flat wiring 99. Similarly to the first terminal 3, the second terminal 4 is driven to be deformed by the cam portion 51. In the release position shown in Figs. 2A and 3, the cam portion 51 has a posture in which the direction of the long diameter is in the longitudinal direction. After the first terminal 3, the upper beam 33 is separated from the upper beam 43 after the second terminal 4, and the action of pushing them upward is released. When released, the upper end of the first terminal 3 before the upper beam 32 and the second terminal 4 are returned to the depressed position and separated from the top surface of the flat cable 99. When the flat cable 99 is interposed between the upper beam 32 and the front lower beam 34 before the first terminal 3, it is released without being interposed between the upper beam 42 and the front lower beam 44 before the second terminal 4. It can be inserted into the insertion 埠la or pulled down from the insertion 埠la. When the cam portion 51 is in the release position shown in Figs. 2 and 3, the lever portion 53 becomes an upright position in which the direction extending from the cam portion 51 is in the vertical direction. When the lever portion 53 is turned over from the upright posture to the rear by the user, the cam portion 51 is rotated from the release position to the push position 11 M419252 shown in Fig. 2B. In this manner, the connector 1 forms a flip-up connector in this embodiment. When the lever portion 53 is in the upright posture as shown in FIGS. 2A and 3, the first stopper portion 29 disposed on the rear end portion of the top portion 21 of the casing 2 is disposed above the abutment surface 57a of the lever portion 53. . Therefore, when the load is not applied to the rear but is applied to the front of the lever portion 53 in the upright posture, the abutment surface 57a on the lever portion 53 abuts the first stopper portion 29. At this time, a force acts on the lever portion 53 to rotate the lever portion around the contact point between the abutment surface 57a and the first stopper portion 29, and the cam portion 51 is separated from the abutment portion 35a and tries to face backward. A bevel rises upwards. However, since a second stop portion 35c is formed in the first terminal 3 after reaching the cam portion 51, as shown in Fig. 2A, the cam portion 51 abuts the second stopper portion 35c. Therefore, the cam portion 51 is maintained from being lifted. This is like the drive unit 5 cannot be taken out. In order to prevent the cam portion 51 from rising, the second stopper portion 35c should protrude upward from the abutting portion 35a by a length which is at least equal to, but preferably larger than, the short diameter of the cam portion 51. Further, in the present embodiment, the abutment surface 57a disposed on the manipulation portion 57 of the left and right extending lever portion 53 abuts the first stopper portion 29 located at the rear end portion of the top portion 21 of the left and right extending casing 2, so that the abutment The area can be increased. Further, in the present embodiment, the first stopper portion 29 abuts the manipulation portion 57, which protrudes to the front of the comb portion 55 in such a manner that the lever portion 53 is in the upright posture, so that the lower end portion of the top portion 21 of the casing 2 is It does not need to protrude beyond the necessary to the rear. Further, since in the present embodiment, when the lever portion 53 is in the upright posture, the abutment surface 57a faces upward and downward, so that the first stopper portion 29 hits the abutment surface 57a of the lever portion 53 of the 12 M419252, attempting to flip forward The normal direction of the abutment surface μ. Therefore, the lever portion 53 is maintained from being misaligned when it comes into contact with the first stop portion 29. The stomach as shown in Figs. 4A and 4B, the support tray has an inner portion 61 and an outer portion 63 which extend to the front and the rear. The inner portion 61 and the outer portion μ are connected by a connecting portion 65 disposed at the rear portion (see Fig. ic). The inner side portion 61 has a substantially U-shaped fixing portion 61a with the opening facing downward, and a beam portion 61b extending forward from the fixing portion 61a. The fixing portion 6ia is configured such that the open end can face downward in a groove portion 25a formed in the rear portion of the side portion 25 of the casing 2. The fixing portion 61a is pressed downward from the upper side on the shaft portion 59 of the driving device 5. The shaft portion 59 as the center of the rotation is disposed at a position outside the right and left cam portions 51. The beam portion 61b is supported by a support arm 25b from below, and the support arm 25b extends from the side portion 25 of the casing 2 to the front in the form of a cantilever support frame. A hook portion 61c projecting downward is formed in the front end portion of the beam portion 61b. The hook portion 61c hooks the ear portion (not shown) disposed on both sides of the end portion of the flat wire 99 and provides a function to prevent the flat wire 99 from coming off. The outer side portion 63 has a fixing portion 63a extending downward from the front portion and a fixing portion 63b extending downward from the central portion. The fixing portion 63a is inserted into a hole portion 25c which is formed in the front portion outside the side portion 25 of the casing 2 and extends vertically. It is inserted until it reaches the bottom end of the hole portion 25c. The rear side of the fixing portion 63a has a hook shape which can be cut into the side wall of the hole portion 25c. The fixing portion 63a is exposed to the outside from the gap portion 25e (see FIG. ία) of the side portion 25 to the left and right. This gap portion 25e is used to weld the surface of the 13 M419252 board. The other fixing portion 63b is inserted into a hole portion 25d which is formed in the center portion of the side portion 25 of the casing 2 and extends vertically. The front side of the fixing portion 63b has a hook shape to cut into the side wall of the hole portion 25d. 5A to 6B are views for explaining an assembly procedure with respect to the connector 1. First, as shown in Fig. 5A, the second terminal 4 is inserted into the casing 2 from the front (i.e., from the insertion 埠la). Next, as shown in Fig. 5B, the first terminal 3 is inserted into the casing 2 from the rear. Next, as shown in Fig. 5C, the driving device 5 is mounted from the rear. Next, as shown in FIG. 5D, the support bracket 6 is attached to the side portion 25 of the casing 2 from above. The contact portion 36 of the first terminal 3, the contact portion 46 of the second terminal 4, and the fixing portion 63c of the support bracket 6 in the connector 1 are soldered to the surface of the circuit board and fixed to the circuit board. . As shown in FIGS. 6A and 6B, when the driving device 5 is mounted in the casing 2, the lever portion 53 of the driving device 5 assumes a posture in which it is slightly inclined forward from the upright posture, and the cam portion 51 can be made. The direction of the long diameter is in the longitudinal direction. When the direction of the long diameter is in the longitudinal direction, the cam portion 51 passes between the upper beam 33 and the second stopper portion 35c after the first terminal 3, and is inserted between the rear upper beam 33 and the abutment portion 35b. At this time, the lower end portion of the abutment surface 57a of the lever portion 53 is disposed above the first stopper portion 29. In other words, the cam portion 51 is inserted between the rear upper beam 33 and the abutment portion 35b. When it is placed above and in front of the second stopper portion 35c, the lower end portion of the abutment surface 57a is directly disposed above the first stopper portion 29. When the cam portion 51 is lowered and faces the abutment portion 35b, the first stopper portion 29 contacts the abutment surface 57a, and the lever portion 53 is guided into an upright posture. 14 M419252 The embodiment of the present invention has been described above, but the present invention is not limited to the embodiment. A variety of different changes can of course be designed by those skilled in the art. I: BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a perspective view of a connector of one embodiment of the present invention. Figure 1B is a front view of the same connector. Figure 1C is a plan view of the same connector. Figure 2A is a cross-sectional view of the same connector. Figure 2B is a cross-sectional view of the same connector. Figure 3 is a cross-sectional view of the same connector. Figure 4A is a cross-sectional view of the same connector. Figure 4B is a cross-sectional view of the same connector. Fig. 5A is a view for explaining an assembly procedure of the same connector. Fig. 5B is a view for explaining an assembly procedure of the same connector. Fig. 5C is a view for explaining an assembly procedure of the same connector. Fig. 5D is a view for explaining an assembly procedure of the same connector. Fig. 6A is a view for explaining an assembly procedure of the same connector. Fig. 6B is a view for explaining an assembly procedure of the same connector. [Description of main component symbols] 1 : Connector 25a : Groove portion la : Insert 埠 25b : Support arm 2 : Housing 25 c : Hole portion 21 : Top portion 25 d : Hole portion 23 : Bottom portion 25e : Gap portion 25 : Side portion 27 : Support Portion 15 M419252 28 : Support portion 28a : Insert 埠 29 : First stop portion 3 : First terminal 31 : Lower portion / Base portion 32 : Front upper beam 32 a : Contact portion 33 : Rear upper beam 34 : Front lower beam 34 a : Upper branch portion 34b: lower branch portion 34c: contact portion 35: rear lower beam 35a: base end portion 35b: abutment portion 35c: second stopper portion 36: contact portion 4: second terminal 41: lower portion/base portion 42 : front upper beam 42a : contact portion 43 : rear upper beam 44 : front lower beam 44 a : upper branch portion 44 c : contact portion 45 : rear lower beam 45 a : press-fitting portion 46 : contact portion 5 : drive device 51 : cam Portion 52: Cam portion 53: Lever portion 55: Comb portion 57: Control portion 57a: Abutment surface 59: Shaft portion 6: Support bracket 61: Inner portion 61a: Fixing portion 61b: Beam portion 61c: Fishing portion 63: Outside Portion 63a: fixing portion 63b: fixing portion 63c: fixing portion 65: connecting portion 99: flat cable 16