200937757 九、發明說明: 【發明所屬之技術領域】 本案之申請專利範圍所記栽的發明,係關於一種連接 為裝置,其在連結纜線或可撓性印刷配線基板(FPC)等之狀 態下,與例如安裝於硬質印刷配線基板等主基板之對方側 連接器裝置處於嵌合狀態,而達成纜線或Fpc等與對方側 連接器裝置之電氣連接。 〇 【先前技術】 在將複數條較細之纜線或較小型之可撓性印刷配線基 板,電氣連接於安裝有各種電氣零件之硬質印刷配線基板 等主基板時,大多使用第丨連接器裝置與第2連接器裝置, 其中第1連接器裝置係安裝於主基板並與主基板構成電氣 連接之基板側連接器裝置,而第2連接器裝置係連結有複 數條纜線或可撓性印刷配線基板並與第丨連接器裝置處於 嵌合狀態的、纜線等側連接器裝置。從第】連接器裝置來觀 看時,第2連接器裝置對第!連接器裝置而言,係對方侧 連接器裝置,而從第2連接器裝置來觀看時,第丨連接器 裝置對第2連接器裝置而言’則為對方側連接器裝置。 此種情況下,第1連接器裝置係具備例如設有以嵌合 凹部為喪合部之絕緣外殼,並分別將以各一端部為端子部 且電现連接於主基板之複數個導電接頭的部分,排列設置 於該絕緣外殼之嵌合部。此外,第1連接器裝置具備局部 覆蓋絕緣外殼之金屬板材製導電性殼,料外部電磁波雜 5 200937757 訊之對策。又’構成第1連接器裝置之對方側連接器裝置 的第2連接器裝置具備絕緣外殼,而該絕緣外殼設有例如 以喪合凸部為嵌合部,用以嵌合於設在第1連接器裝置之 絕緣外殼的嵌合部’並於該嵌合部排列設置與複數條纜線 等構成電氣連接之複數個導電接頭之部分,此外,第2連 接器裝置亦具備局部覆蓋絕緣外殼之金屬板材製導電性殼 或導電性蓋,作為外部電磁波雜訊之對策。又,在設於第 2連接器裝置之絕緣外殼的嵌合部與設於第丨連接器裝置 之絕緣外设的嵌合部處於喪合狀態時,第2連接器裝置之 複數個導電接頭即分別制連接於第1連接^裝置之複數 個導電接頭,而可取得帛1連接器裝置與第2連接器裝置 之電氣連接狀態。 签取例連接器裝置為 ---V个 上 π饮命衣罝及以縵 ❹ 、、等側連接H裝置為第2連接器裝置,例如在第i連接器 於主基板之狀態下,當設料結有複數條境線或 盘P刷配線基板之第2連接器裝置之絕緣外殼的喪合 狀::没:第1連接器裝置之絕緣外殼的嵌合部處於嵌合 1連接器裝置與第…= 態,以穩定維持第 與第2連接器裝置之電氣連接 第1連接器裝置輿坌^ 殼之嵌合般,針料於各絕緣外 卩為處於彼此嵌合狀態下使 置,以往可查閱到继括m J呵1固連接器裝 的方法。 用以適切維持各嵌合部之嵌合狀態 該方法之一 已提案有一種如下述者(例如 參照專利 6 200937757 文獻υ,其係將各絕緣外殼分別設有叙合部之帛i 連接器裝置中之一者,役成且播叮士 操作桿或操作棒,二;二備其絕緣外殼旋動之 及第2、查姑 第連接器裝置之絕緣外殼 Θ A h裝置之絕緣外殼的嵌合部處於彼此I合狀態 〇 ❹ 二=操作第1及第2連接器裝置中-者所具備之操作 作棒,以與構成對方側連接器裝置之第i及第2連 置以―者之絕緣外殼卡合,藉此阻止設於第1及 •、接器裂置中另—者之絕緣外殼的嵌合部從設於第1 2連接器裝置中一者之嵌合部抽離的情況。 :用上述以往所提案之方法的連接器裝置中,設於第 ^裝置(母型連接器)之絕緣外殼的嵌合部與設於構 缘外Μ側連接^置之第2連接器裝置(公型連接器)之絕 二 =嵌合部,彼此嵌合下,…接器裝置係具備操 。操作#具有可藉由突設於其絕緣外殼之銷而軸支 所1二❸兩^ ^卜操作桿其兩端部係藉由連結部(連結桿) 。I體而吕係形成為構成大致〔字狀。此外,設於 第 1連拉# μ 、 、置之絕緣外殼的嵌合部與設於第2連接器裝 器=絕緣外殼的歲合部在處於彼此换合狀態時,第1連接 部^所八備之操作桿受旋動操作,其連結部即越過卡止 /於與第2連接器裝置之絕緣外殼之嵌合部相反側 部=於=止設於第2連接器裝置之絕緣外殼的嵌合 ' 連接器裝置之絕緣外殼的嵌合部抽離。 專利t齡 、1 :曰本實開昭62 — 178469號公報(第3〜6 貝、圖1〜4) 200937757 【發明内容】 ❹ Ο 在上述以往所提案之連接器裝置中,設於第丨連接器, 且在設於各第i及第2連接器之絕緣外殼的嵌合部處於彼 此嵌合狀態時,使其連結部越過卡止部而卡合於與第2連 接器之絕緣外殼之嵌合部相反侧之端部的操作桿,其兩端 係藉由突設於絕緣外殼之銷而軸支成可旋動而進行位置固 疋。因此,當操作桿之連結部越過卡止部而卡合於與第2 連接器之絕緣外殼之嵌合部相反側之端部時,會於該連結 部與第2連接器之絕緣外殼之間形成間隙,其結果,處^ 彼此嵌合狀態之第i及第2連接器的各嵌合部,即無法適 =維持該彼此嵌合狀態’而有無法穩^維持第丨連接器與 第2連接器之電氣連接狀態之虞。 又’考量到上述操作桿之連結部與第2連接器之絕緣 外殼間所形成之間隙,& 了穩定維持第1連接器與第2連 接器之電氣連接狀態,因必須相對加長第丨及第2連接器 之各嵌合部的有效彼此嵌合長度’故會對各第】及第2連 接器的小型化造成妨礙。再者,若在操作桿之連結部與第 2連接器之絕緣外殼間形成有間隙時,操作桿會變得晃動 不穩,而亦會產生發出異音等問題。 有鐘於此點,本案之申請專利範圍所記載之發明,係 提供-種連接ϋ裝置,其設有:絕緣外殼;嵌合部,設於 緣外殼Μ置有複數個導電接頭,以與設㈣方側連接 益裝置之絕緣外殼的對方側|合部取得嵌合狀態,並使複 8 200937757 〇 數個導電接頭與設於對方側連接器裝置之複數個導電接頭 取得連接狀態;以及操作桿,為維持該嵌合部與對方職 合部的嵌合狀態’而卡合於對方側連接器裝置,可確實避 免於卡合在對方側連接器裝置之操作桿與對方側連接器裝 置之間形成間隙的狀態,藉此可謀求整體之小型化且極度 降低招致下述事態之虞,亦即無法適切維持嵌合部與對方 職合部之欲合狀態’而導致無法敎維持與對方側連接 益裝置之電氣連接狀態、以及操作桿產生晃動不穩。 本案之申請專利範圍中第!項至第7項中任二項所記 載之本發明(以下,稱為本發明)的連接器裝置,具備.絕 斜殼,設有與設於對方側連接器裝置之第】嵌合部處於 欣合狀態的第2喪合部;複數個第2導電接頭具有 設置於該f 2叙合部之部分並配置於該絕緣外殼, 2嵌合部與該帛i礙合部處於嵌合狀態時,則連接於配置 在該對方側連接器裝置之複數個第1導電接頭;導電性殼, 局部覆蓋該絕緣外殼;以及操作桿,#由設於該導電性殼 之一對支揮機構支撐兩端部,並可相對該絕緣外殼旋動. 該操作桿當該第2谈合部與該第丨嵌合部處於嵌合狀態時 受旋動操作’該兩端部間之連結部係卡合於該對方侧連 器裝置’設於該導電性殼之一對支撐機構係分別具備彈性 卡合部,以將處於該連結部卡合在該對方側連接器裝置之。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 For example, it is fitted to the counterpart connector device mounted on the main substrate such as the hard printed wiring board, and electrical connection with the counterpart connector device such as a cable or Fpc is achieved.先前 [Prior Art] When a plurality of thinner cables or smaller flexible printed wiring boards are electrically connected to a main substrate such as a hard printed wiring board on which various electrical components are mounted, a second connector device is often used. And the second connector device, wherein the first connector device is a substrate-side connector device that is mounted on the main substrate and electrically connected to the main substrate, and the second connector device is connected to a plurality of cables or flexible printing The wiring board and the side connector device such as a cable that is in a fitted state with the second connector device. When viewing from the 】 connector device, the second connector device is facing! The connector device is the counterpart connector device, and when viewed from the second connector device, the second connector device is the counterpart connector device for the second connector device. In this case, the first connector device includes, for example, an insulating case provided with a fitting recess as a splicing portion, and each of the plurality of conductive joints each having one end portion as a terminal portion and electrically connected to the main substrate. And arranged in a fitting portion of the insulating housing. In addition, the first connector device is provided with a conductive plate made of a metal plate partially covering the insulating case, and the external electromagnetic wave is mixed. Further, the second connector device constituting the counterpart connector device of the first connector device is provided with an insulating case, and the insulating case is provided with, for example, a fitting portion for dissipating a convex portion for fitting in the first a fitting portion of the insulating case of the connector device, and a portion of the plurality of conductive joints electrically connected to the plurality of cables or the like is arranged in the fitting portion, and the second connector device is also provided with a partial cover insulating cover. A conductive shell or a conductive cover made of a metal plate is used as a countermeasure against external electromagnetic wave noise. Further, when the fitting portion of the insulating case provided in the second connector device and the fitting portion provided in the insulating peripheral portion of the second connector device are in a state of being in a state of being disengaged, the plurality of conductive joints of the second connector device are A plurality of electrically conductive joints connected to the first connection device are separately formed to obtain an electrical connection state between the first connector device and the second connector device. The connector device of the signing example is a V-up π 命 罝 罝 罝 罝 、 、 、 、 、 、 、 、 、 、 、 、 、 、 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接The insulation of the insulating case of the second connector device of the plurality of lines or the disk P-wiring substrate is provided: No: the fitting portion of the insulating case of the first connector device is in the fitting 1 connector device and In the first state, in order to stably maintain the electrical connection between the second connector device and the first connector device, the pin material is placed in a state in which the respective outer casings are fitted to each other. You can find out how to install the connector. One of the methods for appropriately maintaining the fitting state of each fitting portion has been proposed as follows (for example, refer to Patent No. 6 200937757, which is a connector device in which each insulating case is provided with a merging portion. One of them, the service and the mooring operation lever or the operating rod, two; the second insulative housing rotation and the second, the insulative housing of the connector device Θ A h device insulation shell fitting The unit is in the state of being in the same state, and the operation of the first and second connector devices is insulated from the first and second connections that constitute the counterpart connector device. When the outer casing is engaged, the fitting portion of the insulating case provided in the first and/or the connector is prevented from being separated from the fitting portion provided in one of the first connector devices. In the connector device according to the above-described conventional method, the fitting portion of the insulating case provided in the first device (mother connector) and the second connector device provided on the outer side of the flange are provided ( The male connector is the second fitting part, and the fitting device is fitted to each other. The operation # has a pin which can be protruded from the insulating casing and the shaft branch is 1 ❸ 2 ^ ^ 卜. The two ends of the operating rod are connected by a connecting portion (connecting rod). In the case of the first connection member #μ, the fitting portion of the insulating case and the fitting portion provided in the second connector assembly = the insulating case are in a state of being replaced with each other, 1 The connecting rod of the connecting unit is operated by a rotation, and the connecting portion thereof is over the locking/the side opposite to the fitting portion of the insulating case of the second connector device = == is set to the second connector The fitting of the insulating case of the device is separated from the fitting portion of the insulating case of the connector device. Patent T-age, 1: 曰本实开昭62-178469 (3rd to 6th, 1st to 4th) 200937757 According to the above-mentioned conventional connector device, the connector device is provided in the second connector, and when the fitting portions of the insulating cases provided in the respective i-th and second connectors are fitted to each other, The connecting portion is engaged with the end portion on the opposite side of the fitting portion of the insulating case of the second connector over the locking portion The rod is fixed in position by being pivoted by a pin protruding from the insulating casing. Therefore, when the connecting portion of the operating rod passes over the locking portion, the second connector is engaged with the second connector. When the end portion of the opposite side of the fitting portion of the insulating case is formed, a gap is formed between the connecting portion and the insulating case of the second connector, and as a result, the i-th and second connectors of the second connector are fitted to each other. In each of the fitting portions, it is not possible to maintain the state of being fitted to each other, and it is impossible to maintain the electrical connection state between the second connector and the second connector. (2) The gap formed between the insulating cases of the connector, and the electrical connection between the first connector and the second connector is stably maintained, and the respective fitting portions of the second and second connectors must be relatively lengthened. The fitting length 'is a hindrance to the miniaturization of each of the second and second connectors. Further, when a gap is formed between the connecting portion of the operating lever and the insulating case of the second connector, the operating lever may become unstable and may cause an abnormal sound. In this regard, the invention described in the scope of the patent application of the present invention provides a connection device comprising: an insulative housing; a fitting portion disposed on the edge housing and having a plurality of electrically conductive joints (4) The opposite side of the insulative housing of the side-side connection benefit device is obtained in a fitting state, and the plurality of conductive joints of the plurality of 200937757 are connected with the plurality of conductive joints provided on the other side connector device; and the operating lever In order to maintain the fitting state of the fitting portion and the partner engagement portion, the card is engaged with the counterpart connector device, and it is possible to surely avoid engagement between the lever of the counterpart connector device and the counterpart connector device. In the state in which the gap is formed, it is possible to reduce the size of the whole and extremely reduce the situation, which means that the state of the fitting portion and the partner's joint portion cannot be properly maintained, and the connection to the other side cannot be maintained. The electrical connection status of the device and the operation lever are unstable. The scope of the patent application in this case is the first! The connector device of the present invention (hereinafter referred to as the present invention) according to any one of the items of the seventh aspect of the present invention, comprising: a slanting case, and being provided at a fitting portion provided in the other side connector device a second splicing portion in the merging state; a plurality of second conductive joints having a portion provided at the f 2 merging portion and disposed in the insulating case, and 2 when the fitting portion and the 碍i blocking portion are in a fitted state And connecting to the plurality of first conductive joints disposed on the counterpart connector device; the conductive shell partially covering the insulating shell; and the operating rod, # is provided by the one of the conductive shells to support the supporting mechanism The end portion is rotatable relative to the insulating housing. The operating lever is subjected to a rotary operation when the second engaging portion and the second engaging portion are fitted. The connecting portion between the end portions is engaged The one-side connector device is provided in each of the conductive cases, and each of the support members includes an elastic engagement portion for engaging the connection portion with the counterpart connector device.
狀態之該操作桿的端部,往該連結部推I 裝置之方向彈壓。。 训運接器 特別是,在本發明之連接器裝置令申請專利範圍第3 9 200937757 、斤。己載者中,支撐操作桿之兩端部的一對支撐機構係分 】又於與絕緣外殼中其長邊方向之兩端部對應之導電性殼 的兩端部。 在上述方式所構成之本發明之連接器裝置中,設於絕 緣外殼之第2肷合部與對方側連接器裝置之第i嵌合部處 ;嵌口狀L時’包含兩端部與該等間之連結部而形成、且 2兩端部係藉由設於導電性殼之—對支㈣構支撐成可旋 的操作#’係受旋動操作且處於其連結部卡合 :接器裝置的狀態。在該情形下,在支撐操作桿之兩端部 支撐機構中,其所具備之彈性卡合部係分別將操作 干之知邛,在操作桿之連結部推壓對方側連接器 向彈壓。 机κ力 具備此種彈性卡合部並支撐操作桿之兩端部的 =之Γ係分別設於與絕緣外殼中其長邊方向之兩端 邛對應之導電性殼的兩端部。 在上述本發明之連接器裝# ❹2嵌巾緣外殼之第 時,處.於兩端部間之連”卡人 。°處…狀態 能夕姐从 、’、° °p卡σ於對方側連接器裝置之狀 心知作桿的兩端部,係藉由支擇該兩端部之 構所具備的彈性卡合部f支撐機 ^ ^ ^ 輙作和之連結部推壓對方侧連 接器裝置之方向彈愿,藉此至少在操作桿之 」連 與對方側連接器裝置之間即不會形成間隙。因此°刀 發明之連接器裝置,即可確實避免於卡據本 裝置之操作桿與對方側連接器裝置 2側連接器 间形成間隙的狀態, 200937757 藉此可謀求整體之小型化且極度降低招致下述事態之虞, 亦即無法適切維持嵌合部與對方側嵌合部之嵌合狀態,而 導致無法穩定維持與對方側連接器裝置之電氣連接狀態、 以及處於連結部卡合於對方側連接器裝置之狀態的操作捍 產生晃動不穩。 【實施方式】 以下述本發明之實施例來說明用以實施本發明之最佳 ❹形態。 [實施例] 圖1係表示本發明之連接器裝置之一例及連結於其之 複數條規線。 圖1中’構成本發明之連接器裝置之一例的連接器裝 置11 ’例如係在電氣連結有複數條同轴纜線12之情況下, 作為纜線等側連接器裝置使用,以嵌合於作為基板側連接 ❹裔裝置之對方側連接器裝置,其中該基板側連接器裝置係 安裝於例如以硬質印刷配線基板為基板並與設於該基板之 電氣電路構成部構成電氣連接。又,連接器裝置11係具 備藉由合成樹脂等絕緣材料所形成之絕緣外殼13、作為外 '^電磁波雜訊對策而局部覆蓋絕緣外殼13之外面部且例 如分別具有彈性之金屬板材料所彎曲而成的導電性殼14 及導電性蓋15、以及金屬棒狀構件所彎曲形成且設置成可 相對絕緣外殼13旋動之操作桿16。 於絕緣外殼13設有嵌合凸部17,其係與設於對方側 11 200937757 連接器裝置(基板側連接器裝置)之嵌合凹部處於嵌合狀 態,並朝絕緣外殼13之長邊方向(藉由箭頭L所示之方向, 以下稱為L方向)延伸。又,於絕緣外殼13,係將例如各 具有彈性之金屬板材料所彎曲形成的複數個導電接頭18, 分別使其一部分沿L方向排列設置於嵌合凸部1 7。 ❹ 各複數個導電接頭18中設置於嵌合凸部17的部分, 在敌合凸部17與設於對方側連接器裝置之嵌合凹部處於 寂合狀態時’係與配置在該對方側連接器裝置並與基板構 成電氣連接之複數個導電接頭中的相對應者接觸連接,藉 此複數個導電接頭1 8即分別連接於對方側連接器裝置之 複數個導電接頭。又,於各複數個導電接頭18係分別連 接複數條同軸纜線12中之相對應者的訊號導體。各複數 條同軸纜線12,其訊號導體係分別連接於導電接頭18, 且其接地導體係接觸連接於導電性殼14及導電性蓋15, 而電氣連結於連接器裝置u。The end of the operating lever in the state is biased in the direction in which the connecting portion pushes the I device. . In particular, in the connector device of the present invention, the patent application range is 3 9 200937757. In the loader, the pair of support mechanisms supporting the both end portions of the operating lever are further divided into both ends of the conductive shell corresponding to both end portions in the longitudinal direction of the insulating case. In the connector device of the present invention, which is configured as described above, the second nip portion of the insulating case and the ith fitting portion of the counterpart connector device are provided; when the socket is L, 'the both ends are included The two portions are formed by the joint between the two sides, and the two end portions are supported by the conductive shell to support the rotation of the branch (four). The rotation is operated and the engagement portion is engaged: the connector The status of the device. In this case, in the support mechanisms of the both end portions of the support lever, the elastic engagement portions provided therein are known to operate, and the joint portion of the operation lever is pressed against the counterpart connector to be biased. The κ force is provided at both ends of the conductive shell corresponding to both ends of the insulating case in the longitudinal direction of the insulating case. In the above-mentioned connector of the present invention, the connector #2 is inserted at the edge of the edge of the towel, at the end of the connection between the two ends of the "card person. ° ... ... state can be from the sister, ', ° °p card σ on the other side The ends of the connector device are known as the two ends of the rod, and the elastic engaging portion f which is provided by the two ends is supported by the supporting mechanism and the connecting portion is pressed against the other side connector. The orientation of the device is such that at least no gap is formed between the "operating rod" and the counterpart connector device. Therefore, the connector device of the invention can reliably avoid a gap between the operating lever of the device and the connector of the counterpart connector device 2 side, and the overall miniaturization and extreme reduction can be achieved by 200937757. In the following state, the fitting state between the fitting portion and the mating side fitting portion cannot be properly maintained, and the electrical connection state with the counterpart connector device cannot be stably maintained, and the connecting portion is engaged with the other side. The operation of the state of the connector device causes sloshing instability. [Embodiment] The best mode for carrying out the invention will be described by way of the following examples of the invention. [Embodiment] Fig. 1 is a view showing an example of a connector device of the present invention and a plurality of gauge wires connected thereto. In Fig. 1, the connector device 11' constituting an example of the connector device of the present invention is used as a connector device such as a cable, for example, when a plurality of coaxial cables 12 are electrically connected. The other side connector device that connects the semiconductor device to the substrate side is mounted on, for example, a hard printed wiring substrate as a substrate, and is electrically connected to an electric circuit constituent portion provided on the substrate. Further, the connector device 11 includes an insulating case 13 formed of an insulating material such as synthetic resin, and partially covers the outer surface of the insulating case 13 as a countermeasure against external electromagnetic noise, and is bent by, for example, a metal plate material having elasticity. The conductive case 14 and the conductive cover 15 and the metal rod-like member are bent and formed as an operating lever 16 that is rotatable relative to the insulating case 13. The insulating case 13 is provided with a fitting convex portion 17 which is fitted to the fitting recessed portion of the connector device (substrate side connector device) provided on the other side 11 200937757, and faces the longitudinal direction of the insulating case 13 ( It extends by the direction indicated by the arrow L, hereinafter referred to as the L direction. Further, in the insulating case 13, a plurality of conductive joints 18 which are formed by bending each of the elastic metal plate materials, for example, are partially arranged in the L direction and arranged in the fitting convex portion 17.部分 The portion of each of the plurality of conductive contacts 18 that is provided in the fitting convex portion 17 is connected to the other side when the matching convex portion 17 and the fitting concave portion provided in the counterpart connector device are in a closed state. The device is in contact with a corresponding one of a plurality of electrically conductive contacts electrically connected to the substrate, whereby the plurality of electrically conductive contacts 18 are respectively connected to the plurality of electrically conductive contacts of the counterpart connector device. Further, each of the plurality of conductive contacts 18 is connected to a signal conductor of a corresponding one of the plurality of coaxial cables 12. Each of the plurality of coaxial cables 12 has a signal guiding system connected to the conductive joint 18, and the grounding guiding system is in contact with the conductive shell 14 and the conductive cover 15, and is electrically connected to the connector device u.
操作柃16其一對彎曲腕部19a及i9b具有藉由沿[ 方向延伸之連結部2〇而連結的構成,—對脊曲腕部心及 19b之各端部係、分別藉由導電性殼14之[方向的兩端部支 撑成可旋動藉此,操作桿16即可相對絕緣外殼^方走動。 於操作桿16之連結部2〇安 ^女裝有操作吊片21,用以使對操 作桿16之旋動操作易於進行。 V電* 14係局部覆蓋絕緣外殼} 3中構成圖1下側 之外面(以下,稱為底 ")且導電性蓋1 5係局部覆蓋絕緣 外喊13中構成圖1上相 側之外面(以下,稱為上面)。在連接 12 200937757 器裝置11,如表-土 ± φ ^ „ 不禾連結複數條同轴纜線12且已卸除導 %性盖1 5之壯能& ’“、圖2所示,於導電性殼14之L方向的 兩端部設有形虑燐处 ^狀邛之支撐機構25a及25b,其中該支 擇機構25a及m 糸用以將操作桿16之一對彎曲腕部19a 及19b的各端部,亦 ^ 亦即操作# b之一對端部22a及22b分 別支撐成可旋動。 操作桿16之一料被 私b 對^ 〇P 22a及22b ’係設置成在L方向 從絕緣外殼13之端部朝&由. © m L 鲕邗朝向中央部方向延伸且彼此相對向。 口此,將該等之„ η 端°卩22a及22b支撐成可旋動之支撐機構 25b所刀別形成之槽狀部,亦設置成沿L方向延伸, 而操作桿16則可以沿通過一對端部22a及22b之L方向 延伸的假想轴線為旋動中心,相對絕緣外殼Μ旋動。 如將圓111(圍繞包含設於圖2所示之操作桿“之端部 及導電f生殼14之一端部之支撐機構25a的部分)内放 之圖3所不’在支禮機構25a所形成之槽狀部,於 ❹广向正交之方向(藉由箭頭s所示之方向以下稱為s 方向)之一對對向壁部 P 23a及24a中-者之壁部23a設有彈 卡。部26&’且於一對對向壁部23a及24a中另一者之 壁:"4a設有卡止部27a。彈性卡合部施係彈性卡合於 配置在支律機構25a所形成之槽狀部内之操作桿Μ的端部 仏,以將該端部仏在s方向往朝向壁部…及卡止部27a 之方向彈麼。藉此,操作桿16之端部仏即被往推磨壁部 24a之方向彈壓,並藉由卡止部27&卡止。 於支推機構25b(設於支撐操作桿16之端部咖之導 13 200937757 -,且"對向壁部=壁 設有卡止部27b。彈性卡入邻规y另一者之壁部⑽ 撐機槿m 卡 彈性卡合於配置在支 料”成之槽狀部内之操作捍16的端部22b’以 ^ 纟s方向往朝向壁部糾及卡止部m之方 1 =彈:此’操作桿16之端部22“Ρ被往推麼壁部24b 之方向彈壓,並藉由卡止部27b卡止。 導電性蓋15在如m 1 *ί·_ 在如圖1所不局部覆蓋絕緣外殼13之上 面日’其L方向之兩端部29a及29b係設於導電性殼Μ ^方向的兩端部’並分別覆蓋支擇機構25a及25b,其 中該支撐機構25a及25b係形成將操作㈣之—對端部❿ 及咖分別支樓成可旋動的槽狀部。又,於η =方向的兩端部29a*29b,分別設有卡合部施及_, 部3〇a係卡合於設在導電性心之支律機構〜的卡 H 28a’且卡合部3〇b係卡合於設在導電性殼μ之支擇 機構25b的卡合部28b。以此方式,藉由使導電性蓋㈠之 兩端部W及29b分別覆蓋形成槽狀部的支撐機構…及 Mb’即可防止灰塵或異物侵人各支撐機構〜及…㈣ 成之槽狀部内,並限制操作桿16之—對端部仏及2 離開支撐機構25a及25b之方向移動。 此外,於導電性蓋15之兩端部29a及州,分 與卡合部30a及_在S方向相對向之兩個卡合部(未顯現 於圖)’該等係卡合於設在導電性殼u之支擇機構…及 200937757 ZD 〇 並與卡合部28a及28b分別在ς 士 Α上 合部(未顯現於圖)。 “方向相對向的兩個卡 又,於導電性蓋15,在其兩端部 設有卡合突起3一,用以在絕緣外殼心 :4^方側連接—合凹部處於嵌二: 卡曰於狄在對方側連接器裝置之導電性殼的卡合孔 突起31a及31b,係分別形成於 ° .. u 电迮盍15之—部分所形 Ο 並伴隨彈性片之彈性變形來進行與設於對方 2接H裝置之導電性殼之卡合孔的卡合及自該卡合 圖4(立體圖)及目5(前視圖)係表示構成連接器裝置η 所要嵌合之對方側連接器裝置之—例的基板側連接器装置 40 〇 圖4及圖5十,基板側連接器裝置40,係在安裝於例 如以硬質印刷配線基板為基板並與設於該基板之電氣電路 構成部構成電氣連接的狀態下,連接器裝置丨丨所要嵌合 者此外基板側連接器裝置4 0具備藉由合成樹脂等絕 緣材料所形成之絕緣外殼41、及作為外部電磁波雜訊對策 而覆蓋幾乎所有絕緣外殼4丨之外面部且例如具有彈性之 金屬板材料所彎曲而成的導電性殼42。 嵌合於透孔之定位用突起41a及41b係從絕緣外殼41 之圖5下方側之面突出’其中該透孔係設於安裝有基板侧 連接器裝置40之基板。 於絕緣外殼41及導電性殼42設有嵌合凹部43,該嵌 15 200937757 ❹The operation 柃16 has a pair of curved arm portions 19a and i9b which are connected by a connecting portion 2〇 extending in the direction, and each of the end portions of the ridged wrist portion and the 19b is made of a conductive shell The two ends of the direction of the 14 are supported to be rotatable, whereby the operating lever 16 can move relative to the insulating housing. The connecting portion 2 of the operating lever 16 has an operating sling 21 for facilitating the slewing operation of the operating lever 16. V electric* 14 series partially covered insulative housing} 3 constitutes the outer surface of the lower side of Fig. 1 (hereinafter referred to as "bottom") and the conductive cover 15 is partially covered with insulation and shouts 13 to form the outer side of the upper side of Fig. 1. (hereinafter, referred to as the above). In the connection 12 200937757 device 11, such as the table - soil ± φ ^ „ not connected to a plurality of coaxial cables 12 and has been removed from the guide cover 1 5 strong & ', shown in Figure 2, Both ends of the conductive shell 14 in the L direction are provided with support mechanisms 25a and 25b which are shaped to mean the bending of the wrists 19a and 19b by one of the operating levers 16 Each of the ends, that is, one of the ends #22 and 22b of the operation #b, is respectively supported to be rotatable. One of the operating levers 16 is disposed in the L direction from the end of the insulating housing 13 toward the center of the insulating housing 13 and extends from the center of the insulating housing 13 toward the central portion and faces each other. In this case, the η end 卩 22a and 22b are supported as groove portions formed by the rotatably supported mechanism 25b, and are also arranged to extend in the L direction, and the operating rod 16 can be passed along The imaginary axis extending in the L direction of the end portions 22a and 22b is a center of rotation, and is rotated relative to the insulating case. For example, a circle 111 (around the end portion including the operating rod shown in Fig. 2) and the conductive f The portion of the support mechanism 25a at one end of the casing 14 is placed in the groove portion formed by the yoke mechanism 25a in the direction of the ridge width direction (in the direction indicated by the arrow s) One of the s-directions is provided with an elastic card for the wall portion 23a of the opposing wall portions P 23a and 24a. The portion 26 &' and the wall of the other of the pair of opposing wall portions 23a and 24a: "4a is provided with a locking portion 27a. The elastic engaging portion is elastically engaged with the end portion 操作 of the operating rod 配置 disposed in the groove portion formed by the branching mechanism 25a, so that the end portion is swung in the s direction toward the wall portion... and the locking portion 27a What about the direction? Thereby, the end portion of the operating lever 16 is biased in the direction of the rubbing wall portion 24a, and is locked by the locking portion 27 & The pushing mechanism 25b (provided at the end of the support lever 16) 13200937757-, and " opposite wall=wall is provided with a locking portion 27b. The elastic snaps into the wall of the other side of the neighborhood y (10) The support 槿m card is elastically engaged with the end portion 22b' of the operation cymbal 16 disposed in the groove portion of the struts in the direction of the 纟s direction toward the wall portion to correct the side of the locking portion m. The end portion 22 of the 'operation lever 16' is biased toward the wall portion 24b and is locked by the locking portion 27b. The conductive cover 15 is as in m 1 * ί _ as shown in FIG. The upper surface portions 29a and 29b of the upper portion of the insulating cover 13 are disposed in the end portions of the conductive shell Μ^ direction and respectively cover the branching mechanisms 25a and 25b, wherein the supporting mechanisms 25a and 25b respectively The formation of the operation (4) - the end of the ❿ 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 咖 。 η 。 。 。 。 。 η η η The 3A is engaged with the card H 28a' provided in the branching mechanism of the conductive core, and the engaging portion 3〇b is engaged with the engaging portion 28b provided in the cutting mechanism 25b of the conductive housing μ. In this way, borrow The both ends W and 29b of the conductive cover (1) are respectively covered with the support mechanisms ... and Mb' forming the groove portion to prevent dust or foreign matter from invading the support mechanisms and/or (4) into the groove portion and restrict the operation lever 16 - the end portions 仏 and 2 are moved away from the supporting mechanisms 25a and 25b. Further, at both end portions 29a and the state of the conductive cover 15, the engaging portions 30a and _ are opposite to each other in the S direction. The engaging portion (not shown in the figure) is engaged with the cutting mechanism provided in the conductive shell u and the 200937757 ZD 〇 and the engaging portions 28a and 28b respectively on the ς Α ( (not shown) In the figure). "The two cards facing in the opposite direction are respectively provided on the conductive cover 15, and the engaging protrusions 3 are provided at the two ends thereof for connecting the sides of the insulating shell: the side of the 4^ side is recessed Two: the engaging hole protrusions 31a and 31b of the conductive shell of the connector device of the other side are respectively formed in the shape of the portion of the electric socket 15 and accompanied by elastic deformation of the elastic piece Engagement with the engagement hole of the conductive case provided on the other side of the H device and the engagement of FIG. 4 (stereo view) and The head 5 (front view) is a substrate-side connector device 40 which is an example of a counterpart connector device to be fitted to the connector device η. FIGS. 4 and 5, and the substrate-side connector device 40 is mounted. For example, in a state in which the hard printed wiring board is used as a substrate and electrically connected to the electric circuit constituent portion provided in the substrate, the connector device is to be fitted, and the substrate-side connector device 40 is provided with synthetic resin or the like. The insulating case 41 formed of an insulating material and a conductive case 42 which is formed by bending a metal plate material having a surface other than the outer surface of the insulating case 4 and covering the outer surface of the insulating case 4 as a countermeasure against external electromagnetic wave noise. The positioning projections 41a and 41b fitted to the through holes protrude from the lower surface side of the insulating case 41 in Fig. 5, wherein the through holes are provided in the substrate on which the substrate side connector device 40 is mounted. The insulative housing 41 and the conductive housing 42 are provided with fitting recesses 43 which are embedded 15 200937757 ❹
合凹部43係在與設於連接器裝置u之嵌合凸部η處於 寂合狀態下沿絕緣外殼41的長邊方向(藉由箭頭L,所示之 方向以下稱為L’方向)延伸。又,於絕緣外殼41係將例 如各具有彈性之金屬板材料所彎曲形成的複數個導電接頭 44沿±乙方向排列配置。又,從各複數個導電接頭44之絕 緣:设41往其外側突出之—端,係形成連接端子,該連 接端子係、連接於設在基板(安裝有基板側連接器I置4〇)的 配線圖案部°又,複數個導電接頭44之另-端侧的部分, 係配置山於嵌合凹部43内,並在連接器裝置i i之嵌合凸部 17與嵌合凹部43處於嵌合狀態時,為配置於連接器裝置 11之複數個導電接頭18十之相對應者所接觸連接。 —於導電性殼42,在L,方向之兩端部45a及45b,設有 卡合孔46a及46b,當設於連接器裝置11之絕緣外殼13 的瓜S凸°卩17與設於絕緣外殼41之嵌合凹部43處於嵌 合狀態時,為設於連接器裝置u之導電性蓋15的卡合突 起31a及31b所分別卡合。 又,於導電性殼42設有接地連接端子47a及47b,其 係在隔著所排列設置之複數個導電接頭44的位置,從絕 緣外殼4丨往其外部突出,並連接於設在安裝有基板側連 接器裝置40之基板的接地連接部。 再者,於導電性殼42之端部45a設有彈性卡合部48a 及49a,當設於連接器裝置u之絕緣外殼13的嵌合凸部i7 與設於絕緣外殼41之嵌合凹部43處於嵌合狀態時,分別 卡合於連接器裝置11所具備且受旋動操作之操作桿16的 200937757 4曲腕°卩1 ^及連結部20。同樣地,於導電性殼42之端 部45b亦設有强μ |α 坪【生卞合部48b及49b,當設於連接器裝置 11之絕緣外殼13的嵌合凸部17與設於絕緣外殼41之欲 口卩3處於嵌合狀態時,分別卡合於連接器裝置11所 八備且又旋動操作之操作桿丨6的彎曲腕部【外及連結部 20 ° 此種基板侧連接器裝置4〇,其各複數個導電接頭44 之一端係連接於設在基板(安裝有基板侧連接器裝置4〇)的 配線圖案部’且其接地連接端子47a & 47b錢接於設在 基板(安裝有基板側連接器裝置4〇)的接地連接部,而處於 安裝於基板並與設於該基板之電氣電路構成部構成電氣連 接的狀態。 上述連接器裝置11及基板侧連接器裝置4〇中,如圖 6所示,基板側連接器裝置4〇在安裝於例如以硬質印刷配 線基板為基板並與設於該基板之電氣電路構成部構成電氣 連接的狀態下,設於連接器裝f n之絕緣外殼13的嵌合 凸部17,係伴隨沿S方向之移動插入而處於嵌合在設於基 板側連接器裝置40之絕緣外殼41及導電性殼42的嵌合 凹部43,藉此連接器裝置11即嵌合於基板側連接器裝置 40 ° 如圖6所示,設於連接器裝置U之絕緣外殼13的嵌 合凸部17 ’在被插入設於基板侧連接器裝置4〇之絕緣外 殼41及導電性殼42的嵌合凹部43而處於嵌合之狀態時, 連接器裝置11之複數個導電接頭18即分別接觸連接於基 17 200937757 板側連接器裝置40之複數個導電接頭44。又,設於連接 器裝置U之導電性蓋15的卡合突起仏及心:即分別 卡合於設在基板側連接器裝置4〇之導電性殼42之兩端部 45a及Mb的卡合孔杨及偏,藉此導電性蓋b與導電 性殼42即彼此接觸連接,導電性蓋15則經過導電性殼a 接地連接’並保持連接ϋ裝置u之嵌合凸部17與基板側 連接器裝置40之嵌合凹部43的嵌合狀態。以此方式,連 接器裝置U之複數個導電接頭18即分別接觸連接於基板 側連接器裝置40之複數個導電接頭44,且設於連接器裝 置U之導電性蓋15的卡合突起…及⑽,即分別卡合 於設在基板侧連接器裝置40之導電性殼42之兩端部“a 及5b的卡σ孔46a及46b,藉此即可取得連接器農置J! 與基板側連接器裝置40之電氣連接狀態。 又,設於連接器裝置u之絕緣外殼13的嵌合凸部17, 在被插入設於基板側連接器裝s 4〇 <絕緣外殼Ο及導電 〇性殼42的嵌合凹部43而處於嵌合之狀態時,連接器裝置 11之操作桿16即受旋動操作。藉由該旋轉操作使操作桿 16之f曲腕部19a及⑽與伴隨操作吊片。之連結部2〇, 以假想軸線為㈣巾心、相對絕緣外殼13從圖7(表示圓6 之VII νπ線戴面)之箭頭A所示的連接器裝置U側往基 板側連接器裝置40側之方向旋動,其中該假想轴線係延 伸於通過設在連接器裝置u之導電性殼14的支撐機構ha 及25b刀別形成之槽狀部所支撐之一對端部22a及22b的 ^方向。又,操作桿16其連結部20係越過各突出部而卡 200937757 合於設在基板側連接器裝置40之導電性殼42的彈性卡合 4 48a及48b,且其彎曲腕部19a及19}?則越過各突出部 而分別卡合於設在基板側連接器裝置4〇之導電性殼42的 彈性卡合部49a及49b,其結果便可取得圖6所示之位置。 此卜操作桿1 6之連結部20越過各突出部而分別卡 合於彈性卡合部48a及楊之動作,即使是設置不具彈性 之卡口 4以取代各彈性卡合部48a及抓,亦可藉由操作 才干16之一對端部22a及22b分別往克服彈性卡合部26a及 鳩之彈壓力的方向移動,以使彈性卡合部26a及26b產 生彎曲來進行。因此,雖亦可設置不具彈性之卡合部以取 代各彈性卡合部48&及48b,不過藉由設置彈性卡合部 及48b ’可使操作桿16之連結部2〇越過各突出部而分別 卡合於彈性卡合部48a &杨時所產生之彈性卡合部26a 及2的的弯曲較小,而可獲得使彈性卡合部26a及26b不 易產生塑性變形的優點。 Q 在操作桿16取得圖6所示之位置時,如以上所述,在 5又於連接器裝置u之導電性殼14之支樓機構…所形成 的槽狀部内’設於壁部23a之彈性卡合部26a即在s方向 將操作桿16之端部22a朝向壁部24a彈壓。藉此,如圖7 ^不,操作桿16之端部22a即被往推壓壁部24a之方向彈 f ’並藉由設於壁部24a之卡止部27a卡止。同樣地,在 °又於連接器裝置U之導電性殼14之支撐機構2讣所形成 的槽狀部内,設於壁部23b之彈性卡合部26b亦在s方向 將知作桿16之端部22b朝向壁部24b彈壓。藉此,操作 200937757 桿16之端部22b即被往推壓„ 24b之方向 由設於壁㈣之卡止部27b卡止。亦即各卡止部27藉& 及]即分別構成位置限制部,以進行對藉由彈 26a及鳩彈壓之各端部22am的位置限制。 ❹ 以此方式,操作桿16之端部22a即被往推壓壁部… 之方向彈壓並處於藉由卡止冑27a卡止之狀態,且操作桿 16之端部22b亦被往推壓壁部鳥之方向彈壓並處於藉由 卡止4 27b卡止之狀態’藉此取得圖7所示位置之操作桿 16的連結部2〇,即在S方向承受朝向基板侧連接器裝置40 之方向的彈塵力’如Η 7戶斤示,透過設在基板側連接器裝 置40之導電性殼42的彈性卡合部48a被往絕緣外殼“推 壓,並透過設在基板側連接器裝置4〇之導電性殼42的彈 性卡合部48b推壓於絕緣外殼41。其結果,取得圖7所示 位置之操作桿16即至少於其連結部2〇之部分與基板側連 接器裝置40之間不會產生間隙。因此,即可確實避免在 卡合於基板側連接器裝置40之操作桿16與基板側連接器 裝置40之間形成間隙的狀態,藉此使連接器裝置n及基 板側連接器裝置40適合於小型化,並可極度降低招致以 下事態之虞,亦即無法適切維持設於連接器裝置n之絕 緣外殼13之嵌合凸部17與設於基板側連接器裝置4〇之 絕緣外殼41及導電性殼42之嵌合凹部43的嵌合狀態, 而無法穩定維持連接器裝置11與基板側連接器裝置4〇之 電氣連接狀態、以及處於連結部20卡合於基板側連接器 裝置40之狀態的操作桿1 6產生晃動不穩。 20 200937757 再者,操作桿16之彎曲腕部19a及19b越過各突出部 而分別卡合於設在基板側連接器裝置4〇之導電性殼42的 彈性卡合部49a及49b之方式,亦有助於避免操作桿16產 生晃動不穩之狀態。 ❹ 〇 以此方式,藉由使操作桿16取得圖6及圖7所示位置, 即可適切穩定維持設於連接器裝置u之絕緣外殼13之嵌 合凸部17與設於基板側連接器裝置4〇之絕緣外殼41及 導電性殼42之嵌合凹部43的嵌合狀態,而可穩定維持連 接器裝置11與基板側連接器裝置4〇之電氣連接狀態。 其次,當設於連接器裝置n之絕緣外殼13的嵌合凸 部17欲從設於基板側連接器裝置4〇之絕緣外殼41及導 電性殼42之嵌合凹部43抽離時,取得圖6及圖7所示位 置之操作桿16’即經旋動操作而從圖7箭頭b所示之基板 側連接器裝置40側往連接器裝置⑴則之方向(與圖7箭頭 A所示之方向相反的方向)旋動。 於該情形下,如圖8所示,操作桿16之連結部2〇越 過設於基板側連接器裝置4〇之導電性殼42之各彈性卡人 部偽及彻的突出部時’操作桿16之端部…即在設: = U之導電性殼14的支撑機構25a所形成之槽 ,部内’克服設於壁部23a之彈性卡合部26a的彈壓力, = 24a彺朝向壁部23a之方向移動,而於操作桿16之 =3與壁部%之間形成間隙,且操作桿16之端部22b 接^裝置11之導電性殼14的支樓機構咖所 槽狀部内,克服設於壁部23b之彈性卡合部地的 21 200937757 彈?,從壁冑24b往朝向壁部23b之方向移動,而於操 作朴16之端部22b與壁部2仆之間形成間隙。 接者,操作桿16即解除其連結部20與彈性卡合部48a 及48b之卡合,進而並解除其彎曲腕部l9a及19b與設於 基板側連接H裝置4G之導電性殼42之彈性卡合部心及 桃的:合,而取得圖丨所示之位置。之後,例如藉由手 指保持操作吊# 21,使連接器裝置u整體往離開基板侧 連接器裝置4G之方向移動,藉此設於連接器裝置11之絕 緣外殼13的嵌合凸部17即可從設於基板側連接器裝置4〇 之絕緣外殻41及導電性殼42之嵌合凹部43抽離。 在上述連接器裝置U,雖採取使設於其導電性殼14 之一端部的支撐機構25a形成槽狀部,於該槽狀部之壁部 23a δ又有彈性卡合部26a且於壁部2乜設有卡止部的 構成,並採取使設於導電性殼Μ之另一端部的支撐機構2讣 形成槽狀部,於槽狀部之壁部23b設有彈性卡合部且 於壁部24b設有卡止部27b的構成,但各支撐機構…及 25b,亦可採取其他各種具體構成,以將操作桿16之兩端 部22a及22b分別支採成可旋動並可加以彈壓。 以上所述之本發明之連接器裝置,在具備使複數個導 電接頭取得與配置於對方侧連接器裝置之複數個導電接頭 之連接狀態的嵌合部、及為維持該嵌合部與對方側連接器 裝置之嵌合部之嵌合狀態而卡合對方側連接器裝置的操作 桿之下,即可確時避免在卡合於對方侧連接器裝置之操作 桿與對方侧連接器裝置之間形成間隙的狀態,藉此可謀求 22 200937757 整體之小型化,並可廣泛應用於各種電子機器等,以極度 降低招致以下事態之虞,亦即無法適切維持嵌合部與對方 側嵌合部的嵌合狀態,而無法穩定維持與對方侧連接器裝 置之電氣連接狀態、以及操作桿產生晃動不穩。 【圖式簡單說明】 ❹ ❹ 圖1係表示本發明之連接器裝置之一例與連結於其之 複數條纜線的立體圖。 ' 圖2係表示針對®丨所#之連接器裝置在未連結複數 條規線且卸除導電性蓋之狀態的立體圖。 ^ 圖3係放大表示圖2所示之圓Ιπ内的放大立體圖。 圖4係表示構成本發明之連接器裝置之一例所要山人 之對方側連接器裝置之一例之基板側連接器裝置的:: 圖。 圖5係表示構成本發明之連接器裝置之一例所 之對方側連接器裝置之一例之基板側連 :: 圖。 衣直的前視 圖6係表示圖!所示之連接器裝置嵌合於圖 所示之基板侧連接器裝置之狀態的立體圖。 圖7係表示圖6中VII—νπ線截面的截面圖。 圖8係在圖1所示之連接器裝置故合於圖4及圖 示之基板側連接器裝晉夕扯# 國5所 迕接器裝置之狀態下,供說明受旋 作桿的截面圖。 之操 23 200937757 【主要元件符號說明】 11 連接器裝置 12 同軸纜線 13, 41 絕緣外殼 14, 42 導電性殼 15 導電性蓋 16 操作桿 17 嵌合凸部 18, 44 導電接頭 19a, 19b 彎曲腕部 20 連結部 21 操作吊片 22a, 22b (操作桿16之)端部 23a, 23b, 24a, 24b 壁部 25a, 25b 支撐機構 26a, 26b, 48a, 48b, 49a, 49b 彈性卡合部 27a, 27b 卡止部 28a, 28b, 30a, 30b 卡合部 29a, 29b (導電性蓋15之)端部 31a, 31b 卡合突起 40 基板側連接器裝置(對方側連接器裝置) 43 嵌合凹部 46a, 46b 卡合孔 47a, 47b 接地連接端子 24The recessed portion 43 extends in the longitudinal direction of the insulating case 41 (in the direction indicated by the arrow L, hereinafter referred to as the L' direction) in a state in which the fitting convex portion η provided in the connector device u is in a state of being separated. Further, in the insulating case 41, a plurality of conductive joints 44 which are formed by bending each of the elastic metal plate materials are arranged in the ± B direction. Further, from the insulation of each of the plurality of conductive joints 44, the terminal 41 is protruded to the outside thereof to form a connection terminal, and the connection terminal is connected to the substrate (the substrate-side connector I is mounted). In the wiring pattern portion, the other end portion of the plurality of conductive joints 44 is disposed in the fitting recessed portion 43, and the fitting convex portion 17 and the fitting concave portion 43 of the connector device ii are fitted. At the same time, the corresponding contacts of the plurality of conductive joints 18 disposed in the connector device 11 are in contact with each other. The conductive case 42 is provided with engaging holes 46a and 46b at both end portions 45a and 45b of the L direction, and is provided in the insulating case 13 of the connector device 11 and is provided in the insulating case. When the fitting recessed portion 43 of the outer casing 41 is fitted, the engaging projections 31a and 31b provided in the conductive cover 15 of the connector device u are engaged with each other. Further, the conductive case 42 is provided with ground connection terminals 47a and 47b which protrude from the insulating case 4 to the outside thereof at positions where the plurality of conductive contacts 44 are arranged to be interposed, and are connected to and mounted thereon. A ground connection portion of the substrate of the substrate-side connector device 40. Further, elastic engaging portions 48a and 49a are provided at the end portion 45a of the conductive case 42, and the fitting convex portion i7 provided in the insulating case 13 of the connector device u and the fitting concave portion 43 provided in the insulating case 41 are provided. When in the fitted state, they are respectively engaged with the 200937757 4 crank and the connecting portion 20 of the operating lever 16 which is provided by the connector device 11 and is rotated. Similarly, the end portion 45b of the conductive case 42 is also provided with a strong μ |α ping [raw nip portion 48b and 49b, and the fitting convex portion 17 provided in the insulating case 13 of the connector device 11 is provided in the insulating case 41. When the mouthpiece 3 is in the fitted state, the wrists of the operating levers 6 that are respectively engaged with the connector device 11 and that are rotated and operated are respectively [outer and connecting portions 20 ° such a substrate-side connector device] In other words, one of the plurality of conductive terminals 44 is connected to a wiring pattern portion ' provided on the substrate (the substrate-side connector device 4 is mounted) and the ground connection terminals 47a & 47b are connected to the substrate ( The ground connection portion to which the substrate-side connector device 4 is mounted is mounted on the substrate and electrically connected to the electrical circuit constituent portion provided on the substrate. In the connector device 11 and the board-side connector device 4, as shown in FIG. 6, the board-side connector device 4 is mounted on, for example, a hard printed wiring board as a substrate and an electric circuit forming portion provided in the substrate. In the state in which the electrical connection is made, the fitting convex portion 17 provided in the insulating case 13 of the connector mounting fn is fitted into the insulating case 41 provided in the substrate-side connector device 40 with the movement in the S direction. The fitting recess 43 of the conductive case 42 is fitted to the substrate-side connector device 40 as shown in Fig. 6, and the fitting convex portion 17' of the insulating case 13 of the connector device U is provided. When the insulating case 41 provided in the board-side connector device 4 and the fitting recess 43 of the conductive case 42 are inserted into the fitting state, the plurality of conductive contacts 18 of the connector device 11 are respectively contact-connected to the base. 17 200937757 A plurality of electrically conductive joints 44 of the board side connector device 40. Further, the engagement protrusions 仏 and the core of the conductive cover 15 of the connector device U are engaged with the engagement of the end portions 45a and Mb of the conductive case 42 provided on the substrate-side connector device 4, respectively. The hole and the bias, whereby the conductive cover b and the conductive shell 42 are in contact with each other, and the conductive cover 15 is grounded via the conductive shell a' and the fitting convex portion 17 of the connecting device u is connected to the substrate side. The fitting state of the fitting recess 43 of the device device 40. In this manner, the plurality of conductive contacts 18 of the connector device U respectively contact the plurality of conductive contacts 44 connected to the substrate-side connector device 40, and the engaging protrusions of the conductive cover 15 of the connector device U are... (10), that is, the card σ holes 46a and 46b provided at the both end portions "a and 5b of the conductive case 42 of the board-side connector device 40, respectively, thereby obtaining the connector farm J! and the substrate side The electrical connection state of the connector device 40. The fitting convex portion 17 provided in the insulating case 13 of the connector device u is inserted into the substrate-side connector package s 4 〇 <insulating housing Ο and conductive 〇 When the fitting recess 43 of the case 42 is in the fitted state, the operating lever 16 of the connector device 11 is rotated. By the rotating operation, the f-curved portions 19a and (10) of the operating lever 16 and the accompanying operation are suspended. The connecting portion 2〇, the imaginary axis is (4) the center of the napkin, and the insulating housing 13 is connected to the substrate side connector from the side of the connector device U shown by the arrow A of FIG. 7 (the VII νπ line of the circle 6). Rotating in the direction of the side of the device 40, wherein the imaginary axis extends through the connector The supporting mechanisms ha and 25b of the conductive shell 14 of the device u support the direction of the pair of end portions 22a and 22b supported by the groove portion formed by the knife. Further, the connecting portion 20 of the operating rod 16 passes over the respective protruding portions to be stuck. 200937757 is engaged with the elastic engagements 4 48a and 48b of the conductive case 42 provided on the substrate-side connector device 40, and the curved arms 19a and 19} are respectively engaged with the projections on the substrate side. The elastic engagement portions 49a and 49b of the conductive casing 42 of the device 4 are obtained as a result. The position shown in Fig. 6 is obtained. The connecting portion 20 of the operating lever 16 is respectively engaged with the elastic portion over the respective protruding portions. For the action of the engaging portion 48a and the yang, even if the elastic opening 4 is provided instead of the elastic engaging portion 48a and the catch, the one end portion 22a and the 22b of the operating flange 16 can be respectively overcome by the elastic engagement. The movement of the portion 26a and the elastic force of the crucible is performed so that the elastic engagement portions 26a and 26b are bent. Therefore, an elastic engagement portion may be provided instead of the elastic engagement portions 48 & and 48b. By providing the elastic engaging portion and 48b', the connecting portion 2 of the operating lever 16 can be smashed The bending of the elastic engaging portions 26a and 2 which are generated when the protruding portions are respectively engaged with the elastic engaging portions 48a & Yang is small, and the elastic engaging portions 26a and 26b are less likely to be plastically deformed. When the operation lever 16 obtains the position shown in FIG. 6, as described above, it is disposed in the wall portion 23a in the groove portion formed by the branch mechanism of the conductive housing 14 of the connector device u. The elastic engagement portion 26a presses the end portion 22a of the operation lever 16 toward the wall portion 24a in the s direction. Thereby, as shown in Fig. 7, the end portion 22a of the operation lever 16 is urged toward the wall portion 24a. The bullet f' is locked by the locking portion 27a provided on the wall portion 24a. Similarly, in the groove portion formed by the support mechanism 2 of the conductive casing 14 of the connector device U, the elastic engagement portion 26b provided in the wall portion 23b is also known as the end of the rod 16 in the s direction. The portion 22b is biased toward the wall portion 24b. Thereby, the end portion 22b of the rod 16 is operated to be locked by the locking portion 27b provided on the wall (4) in the direction of the pressing of the spring 24b. That is, the locking portions 27 respectively constitute a positional restriction by the & a portion for restricting the position of each end portion 22am by the spring 26a and the squeezing force. ❹ In this manner, the end portion 22a of the operating lever 16 is biased in the direction of the pressing wall portion... and is locked by When the cymbal 27a is locked, the end portion 22b of the operating lever 16 is also biased in the direction of the bird pushing the wall portion and is in a state of being locked by the locking 4 27b, thereby obtaining the operating lever at the position shown in FIG. The connecting portion 2 of the 16 is subjected to the elastic force of the conductive shell 42 provided in the substrate-side connector device 40, as shown in FIG. The joint portion 48a is "pressed" toward the insulating case, and is pressed against the insulating case 41 through the elastic engaging portion 48b of the conductive case 42 provided on the substrate-side connector device 4. As a result, the operation lever 16 at the position shown in Fig. 7 is obtained, and at least the gap between the portion of the connecting portion 2 and the substrate-side connector device 40 is not generated. Therefore, it is possible to surely avoid a state in which a gap is formed between the operating lever 16 that is engaged with the board-side connector device 40 and the board-side connector device 40, whereby the connector device n and the board-side connector device 40 are adapted to Miniaturization, and extremely reduced inconvenience, that is, the fitting convex portion 17 provided in the insulating case 13 of the connector device n and the insulating case 41 provided on the substrate side connector device 4 and the conductive In the fitting state of the fitting recessed portion 43 of the case 42, the state in which the connector device 11 and the board-side connector device 4 are electrically connected and the state in which the connecting portion 20 is engaged with the board-side connector device 40 cannot be stably maintained. The operating lever 16 produces a swaying instability. 20 200937757 Further, the curved arm portions 19a and 19b of the operating lever 16 are respectively engaged with the elastic engaging portions 49a and 49b of the conductive case 42 provided on the substrate-side connector device 4 beyond the respective protruding portions. It helps to prevent the operating lever 16 from being in a state of swaying instability. In this manner, by bringing the operation lever 16 to the position shown in FIGS. 6 and 7, the fitting projection 17 provided in the insulating case 13 of the connector device u and the connector on the substrate side can be stably and stably maintained. The fitting state of the insulating case 41 of the device 4 and the fitting recess 43 of the conductive case 42 can stably maintain the electrical connection state of the connector device 11 and the board-side connector device 4A. When the fitting convex portion 17 of the insulating case 13 provided in the connector device n is to be separated from the fitting concave portion 43 of the insulating case 41 and the conductive case 42 provided in the substrate-side connector device 4, the drawing is obtained. 6 and the operation lever 16' at the position shown in FIG. 7 is rotated from the substrate side connector device 40 side shown by the arrow b in FIG. 7 to the connector device (1) (as indicated by the arrow A in FIG. 7). Rotate in the opposite direction. In this case, as shown in FIG. 8, when the connecting portion 2 of the operating lever 16 passes over the protruding portion of each of the elastic card portions of the conductive case 42 provided on the substrate-side connector device 4, the operating lever The end portion of the end portion 16 is a groove formed by the support mechanism 25a of the conductive shell 14 of: U: the inner portion 'overcoming the elastic pressure of the elastic engaging portion 26a provided on the wall portion 23a, = 24a toward the wall portion 23a The direction is moved, and a gap is formed between the =3 of the operating rod 16 and the wall portion %, and the end portion 22b of the operating rod 16 is connected to the groove portion of the branch mechanism of the conductive shell 14 of the device 11 to overcome the design. 21 200937757 on the elastic engagement part of the wall portion 23b? The movement moves from the wall 24b toward the wall portion 23b, and a gap is formed between the end portion 22b of the operation 16 and the wall portion 2. Then, the operating lever 16 releases the engagement between the connecting portion 20 and the elastic engaging portions 48a and 48b, and releases the elasticity of the curved arms 19a and 19b and the conductive shell 42 of the H device 4G connected to the substrate side. The heart of the engaging part and the peach are combined to obtain the position shown in the figure. Thereafter, the connector device u is moved in the direction away from the substrate-side connector device 4G by the finger holding operation # 21, and the fitting convex portion 17 of the insulating case 13 of the connector device 11 can be provided. The insulating case 41 provided in the board-side connector device 4 and the fitting recess 43 of the conductive case 42 are separated. In the connector device U, the support mechanism 25a provided at one end of the conductive case 14 is formed with a groove-shaped portion, and the wall portion 23a δ of the groove portion has an elastic engagement portion 26a and a wall portion. 2乜 is provided with a locking portion, and a support mechanism 2 provided at the other end of the conductive case is formed into a groove-shaped portion, and an elastic engagement portion is provided on the wall portion 23b of the groove-shaped portion. The portion 24b is provided with the locking portion 27b. However, each of the supporting mechanisms... and 25b may take various other specific configurations to respectively guide the both end portions 22a and 22b of the operating lever 16 to be rotatable and can be biased. . The connector device of the present invention described above includes a fitting portion that connects a plurality of conductive connectors to a plurality of conductive connectors disposed on the other side connector device, and maintains the fitting portion and the opposite side. When the fitting portion of the connector device is fitted and engaged under the operating lever of the counterpart connector device, it is possible to surely avoid the engagement between the operating lever and the counterpart connector device of the counterpart connector device. In the state in which the gap is formed, it is possible to reduce the size of 22 200937757 as a whole, and it can be widely applied to various electronic devices, etc., so as to extremely reduce the following situation, that is, the fitting portion and the mating portion of the mating portion cannot be properly maintained. In the fitted state, the electrical connection state with the counterpart connector device cannot be stably maintained, and the operating lever is unstable. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing an example of a connector device of the present invention and a plurality of cables connected thereto. Fig. 2 is a perspective view showing a state in which a plurality of gauge wires are not connected and the conductive cover is removed, for the connector device of the device. ^ Fig. 3 is an enlarged perspective view showing the circle Ι π shown in Fig. 2 in an enlarged manner. Fig. 4 is a view showing a substrate-side connector device constituting an example of a counterpart connector device of an embodiment of the connector device of the present invention. Fig. 5 is a view showing a substrate side of an example of a counterpart connector device constituting an example of the connector device of the present invention. Straight front view Figure 6 is a picture! A perspective view showing a state in which the connector device shown is fitted to the substrate-side connector device shown in the drawing. Fig. 7 is a cross-sectional view showing a section taken along the line VII-νπ in Fig. 6. Figure 8 is a cross-sectional view showing the connector of the present invention in the state in which the connector device shown in Figure 1 is assembled in the state of the substrate-side connector of Figure 4 and the connector of the state of the country. . Exercise 23 200937757 [Description of main components] 11 Connector device 12 Coaxial cable 13, 41 Insulation housing 14, 42 Conductive housing 15 Conductive cover 16 Operating rod 17 Fitting projection 18, 44 Conductive joint 19a, 19b Bending Wrist 20 joint portion 21 operates the end pieces 23a, 23b (of the operating lever 16) end portions 23a, 23b, 24a, 24b wall portions 25a, 25b support mechanisms 26a, 26b, 48a, 48b, 49a, 49b elastic engaging portion 27a 27b locking portions 28a, 28b, 30a, 30b engaging portions 29a, 29b (the conductive cover 15) end portions 31a, 31b engaging projections 40 substrate-side connector devices (couple side connector devices) 43 fitting recesses 46a, 46b snap hole 47a, 47b ground connection terminal 24