201223015 六、發明說明: 【發明所屬之技術領域】 本案之申請專利範圍所記載的發明,係關於一種連接 器裝置’其在安裝有可撓性印刷配線基板(FPC)或可撓性平 板狀缴線(FFC)等配線板狀構件之前提下,基於為了將設於 該配線板狀構件之連接端子部維持在與其他配線基板電氣 連接之狀態’而具備有與設在所安裝之配線板狀構件之連 接端子部接觸連接的接觸件及將所安裝之配線板狀構件為 了阻止其脫離而予以卡止的鎖止部。 【先前技術】 構裝於各種電子機器之較小型的可撓性印刷配線基板 或可撓性平板狀纜線等配線板狀構件,大多使用電氣連接 且固定於主配線基板之連接器裝置,以進行對安裝有各種 電氣零件之主配線基板的安裝。在將此種配線板狀構件安 裝於主配線基板時所使用之連接器裝置,係具有與設於配 線板狀構件之連接端子部接觸連接之導電性接觸件,透過 該接觸件㈣於配線板狀構件之連接端子部電氣連接於設 在主配線基板之配線部中的端子。 以往所提出之例如將形成為可撓性印刷配線基板之配 線板狀構件女裝於主配線基板時所使用的連接器裝置,係 设有插入配線板狀構件之插入部,並具有配置於主配線基 板之例如由絕緣材料形成之外殼(h〇usingW匕外,具備:複 數個接觸件’係排列g己置設於該外殼内以連結於設在主配 線基板之配線端子,並在配線板狀構件經由插人部插入外 4 201223015 殼時,分別對應於設在該配線板狀構件之複數個連接端子 部;導電性殼(conductive shell),係有助於針對複數個接觸 件之特性阻抗調整,亦作為外部電磁波雜訊對策,亦即為 了獲得對來自外部之電磁波雜訊的屏蔽效果,而配置成局 部或整體地覆蓋外殼,並連結於設在主配線基板之接地端 子;以及致動器(actuator),係設置成可相對外殼旋動,並 分別卡合於複數個接觸件,在受到旋動時使各複數個接觸 件中之動作部移位,藉此於複數個接觸件,使其形成分別 接觸連接於複數個訊號連接端子部之狀態、或從與複數個 訊號連接端子部之接觸連接釋放的狀態。此外,複數個接 觸件係處於分別接觸連接於設在配線板狀構件之複數個連 接端子部的狀態,藉此配線板狀構件即處於與主配線基板 電氣連接之狀態。 再者’在以往所提出之將配線板狀構件安裝於主配線 基板時所使用的連接器裝置中,雖具有如上述般之外殼, 並具備有如上述般之複數個接觸件與導電性殼,不過並未 具備對外殼設置成可旋動之致動器,當配線板狀構件經由 插入部插入外殼時,自動地設於外殼内之複數個接觸件即 分別接觸連接於設在所插入之配線板狀構件的複數個連接 端子部。在此連接器裝置中’配線板狀構件僅經由插入部 適切地插入外殼,配線板狀構件即處於與主配線基板電氣 連接之狀態。 在此種以往所提出之連接器裝置中,不論是具備有對 外殼設置成可旋動之致動器者或不具備此致動器者之任一 201223015 it況爿如’形成為可撓性印刷配線基板之配線板狀構 件’經由插入部插入配置於主配線基板之外殼,配置於外 殼内之複數個接觸件即分別接觸連接於插入外殼内之配線 板狀構件中的複數個連接端子部,藉此當配線板狀構件處 於與主配線基板電氣诖技夕μ能# , # 土攸电孔運接之狀態時,必須能避免配線板狀 構件從外殼非所欲地脫離之情形。當然,a了適切地維持 配置於外殼内之複數個接觸件分別接觸連接於插人外殼後 之配線板狀構件中的複數個連接端子部的狀態,必須設置 成經由插入部插入外殼之配線板狀構件可穩定地維持該狀 態,而不會造成從外殼非所欲地被抽離之情形。 因此,以往已提出一種連接器裝置(例如,參照專利文 獻1),其係屬於如上述般之具有夕卜殼,Λ 個接觸件、導電性殼、以及可相對外殼旋動之致動;= 接器裳置者’具備有卡合於經由插入部插入外殼之配線板 狀構件,以阻止該配線板狀構件從外殼非所欲之抽離的卡 止手段。又,以往亦已提出一種連接器裝置(例如,參照專 利文獻2) ’其屬於如上述般之具有外殼,此外雖亦具備有 複數個接觸件、以及導電性殼,不過並未具備對外殼設置 成可旋動之致動器的連接器裝置者,具備有卡合於經由插 入部插入外殼之配線板狀構件,以阻止該配線板狀構件從 外殼非所欲之抽離的卡止手段。 在專利文獻1所示之連接器裝置中,係於導電性殼(屏 蔽板(ShieldPlate)ll)之一部分,形成有可如蹺蹺板(seesaw) 般位移的卡止手段(鎖止部Uc),於此卡止手段則設有朝向 6 201223015 導電性殼之内側彎曲的卡止端部(爪部丄id)。此外,卡 段係對應設置成可相對外殼(外殼3)旋動之致動器(致動器 3 )的旋動操作而位移。 在此種前提下’ ^在配線板狀構件(FPC21)插入外殼内 之收容”(FPC收容空間34)後,進行致動器往第i方向之 旋動操作,則配置於外殼内之複數個接觸件⑶t接觸件5、 第2接觸件6),即藉由形成於致動器之凸輪(凸輪部%叫 使其位移,而分別接觸連接於插入外殼之配線板狀構件中 之複數個連接端子部,並且卡止手段即藉由形成於致動器 之凸輪(凸輪部94)使其位移,使設於其之卡止端部卡合於 設在插入外殼内之配線板狀構件的卡合部(切口 21約。藉 此,阻止插入外殼後之配線板狀構件從外殼之非所欲的抽 離。 然後,設於卡止手段之卡止端部若在卡合於設在插入 外殼之配線板狀構件之卡合部的前提下,進行往與致動器 之第1方向反向之第2方向的旋動操作,則形成於致動器 之凸輪(凸輪部94)’即容許在卡止手段形成解除設於其之 卡止端部與設於配線板狀構件之卡合部的卡合。藉此,插 入外殼内之配線板狀構件即處於可從外殼抽離的狀態。 又在專利文獻2所示之連接器裝置中,係於外殼(外 殼本體2)具備有設置成對其可旋動之導電性殼(殼4)。此 外,於導電性殼之一部分形成有板簧狀之卡止手段(足部 46) ’於此卡止手段之前端部則設有朝向導電性殼之内側的 卡止突起(卡止突起44)。 201223015 其整體成為201223015 VI. EMBODIMENT OF THE INVENTION: TECHNICAL FIELD The invention described in the patent application of the present invention relates to a connector device which is provided with a flexible printed wiring board (FPC) or a flexible flat plate. A wiring board member such as a wire (FFC) is lifted up, and is provided in a wiring board shape to be mounted in order to maintain the connection terminal portion provided in the wiring board member in a state of being electrically connected to another wiring board. A contact member that is in contact with the connection terminal portion of the member and a locking portion that locks the mounted wiring board member to prevent it from coming off. [Prior Art] A wiring board member such as a small flexible printed wiring board or a flexible flat cable that is mounted on various electronic devices is often connected to a connector device that is electrically connected and fixed to the main wiring board. Mounting of the main wiring board on which various electrical parts are mounted is performed. The connector device used when the wiring board member is mounted on the main wiring board has a conductive contact that is in contact with the connection terminal portion provided on the wiring board member, and transmits the contact member (four) to the wiring board. The connection terminal portion of the member is electrically connected to a terminal provided in the wiring portion of the main wiring substrate. In the connector device used for the main wiring board, for example, the wiring board member which is formed as a flexible printed wiring board is provided with an insertion portion into which the wiring board member is inserted, and is disposed in the main portion. The wiring board, for example, an outer casing formed of an insulating material (including a plurality of contacts) is disposed in the outer casing to be connected to a wiring terminal provided on the main wiring substrate, and is disposed on the wiring board When the shape member is inserted into the outer 4 201223015 case via the insertion portion, it corresponds to a plurality of connection terminal portions provided in the wiring board member; the conductive shell helps the characteristic impedance of the plurality of contacts The adjustment is also used as an external electromagnetic wave noise countermeasure, that is, to obtain a shielding effect on electromagnetic noise from the outside, and is configured to partially or entirely cover the outer casing, and is connected to a ground terminal provided on the main wiring substrate; and actuating Actuator, which is arranged to be rotatable relative to the outer casing and respectively engaged with a plurality of contacts, and each of the plurality of contacts is rotated when subjected to rotation The operation portion is displaced, whereby the plurality of contacts are in a state of being in contact with each other connected to the plurality of signal connection terminal portions or released from a contact connection with the plurality of signal connection terminal portions. The contact member is in a state of being in contact with and connected to a plurality of connection terminal portions provided in the wiring board member, whereby the wiring plate member is electrically connected to the main wiring substrate. Further, the wiring is conventionally proposed. The connector device used when the plate member is mounted on the main wiring substrate has the outer casing as described above, and has a plurality of contact members and a conductive shell as described above, but does not have a spiral for the outer casing. In the actuator, when the wiring board member is inserted into the casing via the insertion portion, a plurality of contact members automatically provided in the casing are respectively in contact with a plurality of connection terminal portions provided in the inserted wiring board member. In this connector device, the wiring board member is appropriately inserted into the casing only via the insertion portion, and the wiring board member is electrically connected to the main wiring substrate. In the connector device of the prior art, any one of the actuators having the actuator that is provided to be rotatable or not equipped with the actuator is, for example, formed as The wiring board-shaped member of the flexible printed wiring board is inserted into the outer casing of the main wiring board via the insertion portion, and the plurality of contacts disposed in the casing respectively contact a plurality of the wiring board members connected to the inside of the insertion housing. The terminal portion is connected, whereby when the wiring board member is in a state of being electrically connected to the main wiring substrate, it is necessary to prevent the wiring board member from being unintentionally detached from the outer casing. Of course, a state in which a plurality of contact members disposed in the casing are appropriately contacted with a plurality of connection terminal portions respectively connected to the wiring board member connected to the insertion housing must be provided to be inserted into the outer casing via the insertion portion. The wiring board member can stably maintain this state without causing an unintentional withdrawal from the casing. Therefore, a connector device has been proposed in the related art (for example, refer to Patent Document 1), which has the above-described outer casing, one contact member, a conductive shell, and an actuation that can be rotated relative to the outer casing; The connector skirter is provided with a locking means that engages with the wiring board-like member inserted into the casing via the insertion portion to prevent the wiring board-shaped member from being undesirably extracted from the casing. Further, a connector device has been proposed in the related art (for example, refer to Patent Document 2), which has a casing as described above, and also has a plurality of contacts and a conductive casing, but does not have a casing. The connector device that is a rotatable actuator includes a locking means that engages with a wiring board-like member that is inserted into the casing through the insertion portion to prevent the wiring board-shaped member from being undesirably pulled away from the casing. In the connector device shown in Patent Document 1, a locking means (locking portion Uc) which can be displaced like a seesaw is formed in a part of a conductive shell (Shield Plate 11). This locking means is provided with a locking end portion (claw portion id) which is bent toward the inner side of the 6 201223015 conductive case. Further, the card segment is displaced correspondingly to the swirling operation of the actuator (actuator 3) which is rotatable relative to the outer casing (outer casing 3). Under this premise, '^ after the wiring board member (FPC21) is inserted into the housing" (FPC housing space 34), and then the actuator is rotated in the i-th direction, the plurality of components are disposed in the housing. The contact member (3) t contact member 5 and the second contact member 6) are respectively connected to the plurality of connections connected to the wiring board member inserted into the outer casing by the cam formed on the actuator (the cam portion is called to be displaced) The terminal portion and the locking means are displaced by the cam (cam portion 94) formed in the actuator, and the locking end portion provided thereon is engaged with the card of the wiring board member provided in the insertion housing. The joint portion (the slit 21 is about. Thereby, the wiring board member inserted into the outer casing is prevented from being unintentionally pulled away from the outer casing. Then, the locking end portion provided in the locking means is engaged in the insertion outer casing if it is engaged On the premise of the engagement portion of the wiring board member, the rotation operation in the second direction opposite to the first direction of the actuator is performed, and the cam (cam portion 94) formed in the actuator is allowed. The locking means is formed to release the locking end portion provided at the locking means and is disposed on the wiring board The engagement of the engaging portion of the member, whereby the wiring board member inserted into the outer casing is in a state of being detachable from the outer casing. Further, in the connector device disclosed in Patent Document 2, the outer casing (the outer casing body 2) a conductive shell (shell 4) provided to be rotatable therewith. Further, a leaf spring-shaped locking means (foot 46) is formed in one portion of the conductive shell 'before the locking means A locking protrusion (a locking protrusion 44) facing the inner side of the conductive case is provided.
設在插入外殼後之配線板狀構件的卡合部(Fpc卡止孔 FPC2)。藉此’阻止插人外殼後之配線板狀構件從外殼之非 在此種對外殼設置成可旋動之導電性殼 接近外鈸即形成對外殼伏臥之位置的前提下 構件(FPC)經由插入部(插入口 21)插入外殼時 内之複數個接觸件(接觸件3(上部接觸件31 所欲的抽離。 然後,設於卡止手段之卡止突起在卡合於設在插入外 殼後之配線板狀構件之卡合部的前提下,對外殼設置成可 旋動之導電性殼,若受到為了形成對外殼起立之位置的旋 動操作,則形成於導電性殼之卡止手段亦隨著導電性殼位 移,設於其之卡止突起即解除與設於配線板狀構件之卡合 部的卡合。藉此,插入外殼後之配線板狀構件即處於可從 外殼抽離之狀態。 專利文獻1 :日本特開2008 — 52993號公報(段落0016、 0017、0033 〜0043、圖 1、圖 5、圖 6) 專利文獻2.曰本特開2008 — 192574號公報(段落 0026 ' 0027、0031 〜0034 ' 圖 1〜6) 【發明内容】 在如上述般之使用於將可撓性印刷配線基板等配線板 狀構件安裝於主配線基板的連接器裝置,且作為具備有阻 止插入外殼内之配線板狀構件從外殼之非所欲之脫離之卡 201223015 二=往所提出之連接器裝置_,卡止手段係對應對 j々疋動之致動窃的旋動操作而位移,或 備設置成對外殼設置成可旋動之導電性殼,並於該導電性 殼之一部分形成有卡止手段。 在此種設置成卡止手段係對應對外殼設置成可旋動之 致動器的旋動操作而位移之習知連接器裝置的情況下,係 必須具備對外殼設置成可旋動之致動器,此卻會成為對連 接器裝置整體進一步小型化的障礙,進而亦成為 器裝置之製造成本的主因。此外,在使卡止手段形成對配 線板狀構件之卡止狀態或卡止解除狀態時,使致動器對外 殼旋動之操作係不可或缺’而必須在連接器裝置之周圍設 置用以進行此操作之非所欲的空間。再者,導電性殼係設 置成僅覆蓋外殼之上面(與對接於主配線基板之面相對向之 另-面)與複數個接觸件之排列方向中的側端面,而有難以 有效地獲得對來自外部之電磁波雜訊之屏蔽效果之虞。 又纟具備對外喊设置成可旋動之導電性殼,並於該 導電性殼之-部分形成有卡止手段的以往所提出之連接器 裝置的情況下’由於導電性殼係對外殼設置成可旋動,因 此無法利用導電性殼來將連接器裝置固定於主配線基板, 而必須另外具備用以將連接器裝置固定於主配線基板之構 件(壓制(h〇lddown)構件),此卻會成為對連接器裝置整體進 -步小型化的障礙’進而亦成為增大連接器裝置之製造成 本的主因。再者,在此遠技哭壯班丄 連接裝置中,導電性殼亦設置成 僅覆蓋外殼之上面(與對接於主配線基板之面相對向之另- 201223015 面)與複數個接觸件之排列方向中的側端面,而有難以有效 地獲付對來自外部之電磁波雜訊之屏蔽效果之虞。 有L於此點’本案之申請專利範圍所記載的發明,係 一種連接nm用於將形成為可撓性印刷配線基板或 可撓性平板狀i㈣之配線板狀構件安裝於其他配線基 板,具備:外殼’係設有板狀構件插入部;複數個接觸件, 係排列配置設於外殼;以及導電性殼,係覆蓋外殼;無須 對外威^设置成可旌動之_致命| $ Λ , 从』观勑 < 级勁益等,亦無須將導電性殼對外 殼設置成可旋動,藉此可將零件數量設置成較少,而可謀 求整體更進一步之小型化與製造成本之降低…卜亦無須 將致動器或導電性殼之旋動操作等所須之非所欲的空間設 置在連接器裝置之周圍。 本案之申請專利範圍中申請專利範圍第】至ι〇項中任 一項所記述之發明(以下,稱為本發明)的連接器裝置,具 備.外殼’係設有板狀構件插人部並配置在配線基板上; 複數個接觸件’係排列配置在外殼内以形成與設在配線基 板之配線端子連結之狀態,在配線板狀構件經由板狀構件 插入部插入外殼時,接觸連接於插入外殼之配線板狀構件 中之複數個連接端子部;以及導電性殼,係配置成局部地 覆蓋外殼之表面,以形成連結於設在配線基板之接地端子 之狀態;⑤導電性殼一體地形成有延伸於外殼内且形成將 經由板狀構件插入部插入該外殼之配線板狀構件卡止之狀 態之鎖止部、及連結設於鎖止部且一部分在與外殼中之對 接於配線基板之一端面部對向之另一端面部側形成突出至 10 201223015 導電性殼之外方之操竹却* μ , 呆作。卩之鎖止解除部,鎖止部係將插入 外殼之配線板狀構件卡止,在該鎖止部構成配線板狀構件 ,卡止之狀態下’對鎖止解除部之操作部施加朝向導電性 .又内之方向之按壓力時,鎖止解除部使鎖止部解除 板狀構件之卡止。 冰 尤其S本案之申請專利範圍中申請專利範圍第2項 所5己述之本發明之逢接^哭壯@ 連接益裝置中,一體地形成於導電性殼 之鎖止部具備在外殼内卡合於設在經由板狀構件插入部插 入該外殼之I線板狀構件之卡合部以㈣將喊板狀構件 卡止之狀態之卡止部、及從導電性殼延伸並將卡止部支承 成可位移之彈性支承部’於彈性支承部連結有一體地形成 於導電性殼之鎖止解除部。 又,在本案之申請專利範圍中申請專利範圍第5項所 記述之本發明之連接器裝置中,一體地形成於導電性殼之 鎖止解除部’除了操作部以外’具備從該操作部往導電性 殼内延伸並對接於外殼或導電性殼中之壁狀部之可動部、 及將可動部連結於鎖止部之彈性支承部之連結部,對操作 部施加朝向導電性殼内之方向之按壓力時,伴隨此可動部 及連結部移動,使鎖止部解除對配線板狀構件之卡止。 再者’在本案之申請專利範圍中申請專利範圍第ό項 所記述之本發明之連接器裝置中,一體地形成於導電性殼 之鎖止解除部之操作部,係形成有使設置成自由端之一端 抵接於與外殼中之對接於配線基板之一端面部對向之另一 端面部並能使另-端對該—端彈性位移之傾斜板狀部。 201223015 在上述本發明之連接器裝置中,當配線板狀構件經由 設於外殼之板狀構件插人部插人配置於配線基板之外崎 時,排列配置於外殼内之複數個接觸#,即接觸連接於所 插入之配線板狀構件中的複數個連接端子部,並且―體地 形成於導電性殼之鎖止部,在外殼内,即將所插人之配線 板狀構件予以卡止。藉此,阳、*_丨A ▲" ㈣a止插入外殼後之配線板狀構 件從外设之非所欲的抽離。 ifq rr ,杜 僻忭v μ卜正的丽提下, -體地形成於導電性殼且連結於鎖止部之鎖止解除部中, 在與外殼中之對接於配線基板之一端面部對向之另一端面 部側突出至導電性殼之外方的操作部,處於施加有朝向導 電性殼内之方向之㈣力的狀態冬該鎖止解除部即移動 以在鎖止部解除對配線板狀構件之卡止。藉此,藉由按壓 鎖止解除部之操作部朝向導電性殼 "又π之方向,而在外殼内 形成解除鎖止部對配線板狀構件卡 的狀態,使配線板 狀構件處於可從外殼抽離的狀態。 在此前提下,一體地形成於導電性殼之鎖止部,例如, 如本案之申請專利範圍中申請專利範圍第2項所呓述之本 發明之連接器裝置的情形般,係設置成具備:卡:部,係 在外殼内+合於設在經由板狀構件插入部插入該外殼之配 線板狀構件的卡合部’以形成將配線板狀構件予以卡止的 狀態;以&彈性支承冑’係料電性殼延伸並將卡止部支 承成可位移。此外,於鎖止部之彈性支承部,連結有二體 地形成於導電性殼之鎖止解除部,以構成與鎖止解除部與 12 201223015 鎖止部之連結。 又,一體地形成於導電性殼(conductiveshell)之鎖止解 除部,例如,如本案之申請專利範圍中申請專利範圍第5 項所記述之本發明之連接器裝置的情形般,除了該操作部 以外,係設置成亦具備:可動部,係從操作部往導電性殼 内延伸並對接於外殼或導電性殼中之壁狀部;以及連結 部,係將可動部連結於鎖止部之彈性支承部。此外,對操 作部施加朝向導電性殼内之方向的按壓力時,伴隨此可動 部及連結部即移動,使具有透過連結部連結於可動部之彈 性支承部的鎖止部’解除對配線板狀構件之卡止。 又,一體地形成於導電性殼之鎖止解除部,例如,如 本案之申請專利範圍中申請專利範圍第6項所記述之本發 明之連接器裝置的情形般,該操作部係形成有使設置成自 由端之一端抵接於與外殼中之對接於配線基板之一端面部 對向的另-端面部,並使另一端對該一端可彈性移位的傾 斜板狀部。對操作部施加朝肖導電性殼内之方向的按壓力 時,使傾斜板狀部之另一端往朝向導電性殼内之方向彈性 位移,藉此使操作部所形成之傾斜板狀部整體,接近外殼 中之另一端面部,而設置成往導電性殼之外方的突出量較 小’當操作部不再受到朝向導電性殼内之方向的按壓力 ,,傾斜板狀部之另-端即往導電性殼之外方彈性位移而 復原,藉此使操作部所形成之傾斜板狀部整體,從外殼中 之另一端面部隔離,而設置成導電性殼往外方之突出量較 13 201223015 *在本發明之連接器裝置中,如上述般,對經由設於外 殼之板狀構件插人部插人外殼的配線板狀構件,可進行形 成於導電性殼之鎖止部的卡止、以及透過形成於導電性殼 之鎖止解除部解除鎖止部之卡止’藉由將為此目的之鎖止 部與鎖止解除部分別一體地形成於導電性殼,即可謀求零 件數量之減少與連接器裝置整體之更進一步的小型化。 又,在對插入外殼之配線板狀構件,進行鎖止部之卡 止及透過鎖止解除部解除鎖止部之卡止時,例如,無須對 外殼設置成可旋動之致動器,此外亦無須將導電性殼對外 殼設置成可旋動,並可利用對外殼固定之導電性殼來將連 接器裝置固^於配線基板,a無須另外具備用以將連接器 裝置固定於配線基板之構件。其結果,利用本發明之連接 器裝置’即可將零件數量設置成較少以有效地謀求製造成 本之降低。 再者,由於僅將配線板狀構件經由設於外殼之板狀構 件插入部插入外殼,即可對配線板狀構件進行一體地形成 於導電性殼之鎖止部的卡止,並且僅將朝向導電性殼内之 方向的按壓力,施加於一體地形成於導電性殼且連結於鎖 止部之鎖止解除部中突出至導電性殼之外方的操作部,即 可進行鎖止部對配線板狀構件之卡止的解除,因此藉由極 為簡單之操作即可解除鎖止部對配線板狀構件之卡止,而 且於此操作並無須在鎖止解除部之周圍設置非所欲之空 間。 二 尤其,在本案之申請專利範圍_申請專利範圍第2項 ⑧ 14 201223015 所記述之本發明之連接器裝置中,由於一體地形成於導電 性殼之鎖止部’係設置成具備:卡止#,係在外殼内卡合 於設在經由板狀構件插人部插人該外殼之配線板狀構件的 卡口。卩,以形成將配線板狀構件予以卡止的狀態;以及彈 性支承部,係從導電性殼延伸並將卡止部支承成可位移,· 彈f·生支承。卩,連結有一體地形成於導電性殼之鎖止解 除’因此以較簡單之構成’即可確實地對配線板狀構件 進行鎖止部之卡止及鎖止部之卡止的解除。 又,在本案之申請專利範圍中申請專利範圍第5項所 :己述之本發明之連接器裝置令,由於一體地形成於導電性 殼之鎖止解除部了該操作部以外,亦具備:可動部, 係從操作部往導電性殼内延伸並對接於外殼或導電性殼中 之i狀邛,以及連結部,係將可動部連結於鎖止部之彈性 支承。p ’對操作部施加朝向導電性殼内之方向的按壓力 =伴隨此可動部及連結部即彈性位移,而使具有透過連 、、’。邛連結於可動部之彈性支承部的鎖止部,解除對配線板 狀構件之卡止,因此以較簡單之構成,即可既容易又確實 、貞止解除《^巾之操作部的按—,進行鎖止部對配線板 狀構件之卡止的解除。 再者,在本 所記述之本發明 之鎖止解除部中 方的傾斜板狀部 向的按壓力時, 案之申請專利範圍中申請專利範圍第6項 之連接器裝置中,一體地形成於導電性殼 之操作部,係形成有突出至導電性殼之外 ,§操作部不再受到朝向導電性殼内之方 使操作部所形成之傾斜板狀部整體,從外 15 201223015 殼中之另一端面部隔離,而設置成導電性殼往外方之突出 置較大,相對於此,在操作部受到朝向導電性殼内之方向 的按壓力時,使傾斜板狀部之另一端往朝向導電性殼内之 方向彈性移位,使操作部所形成之傾斜板狀部整體,接近 夕曰卜殼中之另一端面部,而設置成往導電性殼之外方的突出 置較小,然後,當操作部不再受到按壓力時,傾斜板狀部 之另一端即往導電性殼之外方彈性移位而復原。藉此,在 配線板狀構件經由板狀構件插人部插人外殼的前提下冬 鎖止解除部中之操作部往導電性殼之外方的突出量設置: 較大時’在外殼内鎖止部對配線板狀構件之卡止即已適切 地進行。目此,從導電性殼之外部藉由目視操作部所形成 之傾斜板狀部’即可既容易又迅速且正確地確認在外殼内 鎖止部對配線板狀構件之卡止已適切地進行的狀態。 【實施方式】 用以實施本發明之形態,係以針對以下所述之本發明 之實施例1〜3來加以說明。 [實施例1 ] 圖(從正面側觀看之立體圖)、圖2(從背面側觀看之立 體圖)、圖3(前視圖)、圖4Π 一 國俯視圖)、以及圖5(仰視圖),係 表示構成本發明之連接器裝 裝置之第1例(實施例1)的連接器 裝置10。此外,為了方便,斜料、击吐 乃使針對連接器裝置10,從圖3所 示之連接器裝置丨 ^ 面觀看,係將左方稱為左或左側, 將右方稱為右或右側,將 下或下側。 $稱為上或上側,將下方稱為 ⑧ 201223015 圖1〜5中,構成本發明之連接器裝置之一例的連接器 裝置1G ’係具備有由合成樹脂等絕緣材料所形成的外咬 a—)11。在外殼如圖1及圖3所示,於其正面側 端面部設有板狀構件插人部12,板狀構件收容空間係從板 狀構件插入部12往外殼丨丨之内部延伸。 外成11,例如,係配置於未圖示之主配線基板,藉此 設置成連接器裝置10整體為安裝於主配線基板。此時:外 忒11中夾在正面側端面部與背面側端面部之一對對向端面 f中之一方即下側端面部係作為對接於主配線基板之端面 邛且另方即上側端面部係作為開放之端面部》接著, 例如,後述之可撓性印刷配線基板,作為構成配線板狀構 件者,即經由板狀構件插入部12而插入外殼丨i。 在外殼11,於其内部,沿著外殼11之長邊方向(左右 方向,以箭頭L所示之方向(以下,稱為L方向)),排列配 置設有各為以彈性導電材料形成之複數個接觸件13。複數 個接觸件13,雖設置作為與構成配線板狀構件之可撓性印 刷配線基板中之複數個連接端子部接觸連接的訊號用接觸 件,不過亦可作為與可撓性印刷配線基板中之複數個訊號 連接端子部及接地連接部接觸連接的訊號用及接地用接觸 件。於複數個接觸件13,如圖2所示,係分別設有從外殼 11之背面側端面部導出至其外部的連接端子部13a,連接端 子部13a係藉由例如焊接而連接於設在配置有外殼丨丨之主 配線基板的配線端子。接著,複數個接觸件丨3,例如,係 從圖2所不之外殼1丨的背面側端面部側,往外殼丨丨之内 201223015 部按壓插入》 此等複數個接觸件13,係在構成配線板狀構件之可撓 性印刷配線基板經由板狀構件插入部1 2插入外殼1 1時, 在外殼11内分別接觸連接於插入外殼丨丨後之可撓性印刷 配線基板中的複數個連接端子部。藉此,插入外殼丨丨後之 可撓性印刷配線基板中的複數個連接端子部,即透過複數 個接觸件13 Μ結於設在酉己置有夕卜殼n之主配線基板的 配線端子。 又,連接器裝置10係具備有局部地覆蓋其表面之導電 性殼(conductive shen^4。此導電性殼M係金屬板材料經 過加工成形所構成,主要係為了有助於針對複數個接觸件 13之特性阻抗調整,再者亦作為針對連接器裝置ι〇之外部 電磁波雜訊對策,亦即為了獲得連接器裝置1〇對來自外部 之電磁波雜讯的屏蔽效果而具備。因此,於導電性殼14係 "又有複數個接地連接端子部14a,此等接地連接端子部 14a例如係藉由焊接而分別連結於設在配置有外殼11之主 配線基板的接地端子。 如圖1〜5所示,導電性殼14,針對外殼〖丨中之正面 側端面部及其周圍部分、上側端面部之與背面側端面部之 邊界部分的一部分、背面側端面部中複數個接觸件13導出 卜P之。卩分、以及下側端面部之正面側端面部側的部 分,雖並未覆蓋該等之表面,不過針對這些部分以外之部 刀亦即上側端面部之與背面側端面部之邊界部分之—部 y刀以外的部分、左側端面部、右側端面部、以及下側端面 ⑧ 18 201223015 部之背面側端面部側的部分等,係大致整體地覆蓋該等之 表面。又,設於導電性殼14之複數個接地連接端子部i4a, 在藉由例如焊接而連接於設在配置有外殼u之主配線基板 的接地料時,^電性# 14亦利用作為用卩將連接 置 1〇固定於主配線基板之構件。 。 此外,在導電性殼14中,如表示圖3中之線剖 面的圖6、以及表示導電性殼14之左側端部的圖7所示, 複數個接地用接觸件16,係分別設置成從覆蓋外殼1丨中下 側端面部之背面側端面部側之部分的部分15〇,朝向板狀構 件插入部12並往外殼i i内延伸。複數個接地用接觸件16 係分別在外殼U内與複數個接觸件13中之一個相對向配 置,在構成配線板狀構件之可撓性印刷配線基板,經由板 狀構件插入部12插入外殼n時,接觸連接於設在該可撓 性印刷配線基板之接地連接部。 又’在導電性殼14,如圖5所示’係於覆蓋外殼i丨中 下側端面部之背面側端面部側之部分的部分丨5D中之左側 端部17及右側端部18 ’分別形成有鎖止部2〇,以維持將 經由板狀構件插入部12插入外殼u且構成配線板狀構件 之可撓性印刷配線基板予以卡止的狀態。 如表示導電性殼14之左側端部的圖8所示,形成於導 電性殼14之部分15D中之左側端部17的鎖止部20,係構 成為具備卡止部21、以及彈性支承部22,其中該卡止部21 係在外殼1 1内卡合於設在經由板狀構件插入部丨2插入外 设11且構成配線板狀構件之可撓性印刷配線基板的卡合 19 201223015 部’以維持將該可撓性印刷配線基板予以卡止之狀陣,該 彈性支承部22係從導電性殼14之部分1 5D中之左側端部 17朝向板狀構件插入部12延伸並將卡止部2 1支承成可位 移。以此方式,具備有卡止部21與彈性支承部22之鎖止 部20 ’係與導電性殼14 一體地形成。 鎖止部20中之卡止部21,係形成有從彈性支承部22 朝向上側上升之突起,並將其端面部設置成形成傾斜面 者,該傾斜面2 1 a係沿著構成配線板狀構件之可撓性印刷配 線基板經由板狀構件插入部丨2插入往外殼丨丨的方向上升 傾斜。此外’卡止部2丨係使形成該傾斜面2丨a之部分卡合 於設在經由板狀構件插入部12插入外殼丨丨且構成配線板 狀構件之可撓性印刷配線基板的卡合部。又,鎖止部2〇之 彈性支承部22,係從導電性殼14之部分丨5D中之左側端部 17形成有具有彈性且延伸的臂狀部,在成為連結於導電性 殼14之部分15D中之左側端部17之基部與卡止部21之間 的部位,設有設置成窄幅部分之窄縮部23,此窄縮部23係 彎曲成微幅向上隆起。 形成於導電性殼14之部分丨5 D中之右側端部丨8的鎖 止部20’亦與形成於上述導電性殼14之部分15D中之左側 端部17的鎖止部20同樣地構成,並與形成於導電性殼14 之邙为1 5D中之左側端部丨7的鎖止部2〇同樣地動作。 又,在導電性殼14,如圖1〜4所示,分別於其左側端 部及右側端部,形成有可移位之鎖止解除部30。此鎖止解 除部3〇係用來操作以解除由鎖止部20所形成之對經由板 20 201223015 m集!i插入部12插入外殼11且構成配線板狀構件之τ 性印刷配線基板的卡止。 褥件之可撓 如圖7及固〇 & 鎖止解除部30,俜構I形成於導電性殼14之左側端部的 及連結部33,|Γ 備有操作部&可動部32、以 上側端”之^操作部31係突出至覆蓋外殼11中之 承受朝向導電it:二之導電性殼14之部分灿的外方,以 係從操作部3 内之方向的按壓操作’該可動部32 動部心二1! 内延伸’該連結部33係將可 備有斑^ °之彈性支承部22°以此方式,具 ' °卩31、可動部32、以及連結部33之鎖止解除部 备操^過鎖止部2〇而與導電性殼14 一體地形成。此外, ;=:"1受到朝向導電性殼14内之方向的按壓力時, ^可動部32即移動至向下之方向並且連結部33亦與可 4 32 —起移動’使具有透過連結部33連結於可動部Μ 诰t承σρ 22的鎖止部2〇,解除對構成配線板狀構件之 可撓性印刷配線基板的卡止。 鎖止解除σρ 3〇之操作部3卜如圖7所示,係使形成自 端3U之一端抵接於外殼u中之上側端面部,並將連結 P32之另端形成作為可彈性移位之傾斜板狀部。 1外,當操作部31受到朝向導電性殼Η内之方向的按壓 2時’操作部31所形成之傾斜板狀部的另-端,即隨著可 ,部32,使其彈性位移至朝向導電性殼心之方向,藉此 Η呆作部3!所形叙傾斜板㈣整體接近外殼u中之上 ㈣面部’而使導f性殼14之部分⑽往外方之突出量較 21 201223015 二广呆作部3i不再受到朝向導電性殼i4内之方向的按 ,:夺’操作部31所形成之傾斜板狀部的另-端,即隨著 可動部32往導電性殼14之外方彈性移位並復原,藉此使 傾斜板狀部整體從外殼u中之上側端面部隔離 性殼14之部分加往外方之突出量較大。 從鎖止解除部30之操作部31往導電性殼㈣延伸之 可動部32’如表示圖4中之Ιχ_Ιχ線剖面的圖9所示,係 ::於與外喊η之左側端部中之壁狀部35對接之狀態的 則如下,設置成移動於上下古θ 七i 、下方向。此外,於可動部32形成 =合部36,並且於外殼u之壁狀部35形成有卡合部^ 對應可動部32之移動,形成卡合部%與卡合相互卡 合之狀態’卡合部36則設置成會越過卡合部37。 如將圖9中之框p内放大表示的圖1〇所示,形成於可 動部32之卡合部36係設置成形成突起者,且形成於外殼 U之壁狀部35的卡合部37係設置成於可動部32之移動方 :亦即上下方向’形成有細長隆起者’而該細長隆起係構 成形成例如夾著沿著正交交又之方向延伸之稜角的第i傾 斜面37a及第2傾斜面37,。此外,卡合部37中之第上傾 ,面37a’係在鎖止解除部3〇之操作部3ι受到朝向導電性 喊14内之方向的按壓力時,對形成於隨其移動至向下之方 向之可動部32的卡合部36而言為上升斜面,且卡合部” 中之第2傾斜面37b,則在鎖止解除部3〇之操作部η不再 受到朝向導電性殼14内之方向的按壓力時,對形成於隨著 弹性復原之操作部31移動至向上之方向之可動部32的卡 22 201223015 合部36而言為上升斜面。 此種前提下’卡合部37中 甲之第1傾斜面37a的傾斜度, 係設置成較卡合部3 7中之笛〇 ^ 干之第2傾斜面37b的傾斜度大。 即,第1傾斜面37a具有較大 炙傾斜度,而第2傾斜面37b 則具有較小之傾斜度。藉此,形# 又錯此,形成於可動部32之卡合部36, 係處於在可動部32移動+ , 勃至向下之方向時當越過卡合部37 時從卡合部3 7所受到之阻六 , 又㈡之阻力,較在可_ 32㈣至向上 之方向時當越過卡合部3 7睥你丰人 時從卡合部37所受到之阻力大 的狀嘘。其結果,在將朝向導電 J守电f生设14内之方向的按壓力 施加於鎖止解除部30之操作部31時,當形成於隨其移動 至向下之方向之可動部32的卡合部36越過形成於外殼η 之壁狀部35的卡合部37時,g卩π也…日 時即可獲得明確之卡入(click) 感’且在鎖止解除部30之操作邱 铞作。卩3 1不再受到朝向導電性 设14内之方向的按壓力,操作邱I〗作広士 铞1乍邛31復原時,即可獲得形 成於隨其移動至向下之方而夕可紅μ w之了動σρ 32的卡合部36,圓滑 地越過形成於外殼U之壁狀 立狀ο|ί 35的卡合部37的狀態。 又,如後述之圖17所示,鎖止解除部30中之可動部 :二:系在外殼η内將其正面側,亦即外殼u中設有板狀 構件插入部12之正而彳目,丨& Αιτ ,, 面側鸲面部側的端面部32a,配置於接 近外殼11中正面側端面部之背面部"a的位置。藉此,在 欲使其移動至外殼11中之正面側端面部側的外力作用於鎖 止解除部30中之可動部32時’其端面部仏即抵接於外殼 中之正面側端面。p的背面部,以進行針對該可動部η之 位置限制。其結果’即可針對鎖止解除部3〇中之可動部η、 23 201223015 或鎖止解除部30整體、甚至連結於鎖止解除部3〇之鎖止 部20 ’阻止非所欲之移位或變形(例如,在已藉由鎖止部2〇 將經由板狀構件插入部12插入外殼11後且構成配線板狀 構件之可撓性印刷配線基板予以卡止的狀態下,因從外殼 Π抽離之方向之外力波及可撓性印刷配線基板時的位移或 變形)。 在導電性殼14之左側端部’於覆蓋外殼u之左側端 面部之導電性殼14的側面部38,形成有插入狹縫之插入卡 合突起部39,其中該狹縫係設在形成外殼丨丨之正面側端面 部的部分。 此冲,如圖7所不,於覆蓋外殼n中下側端面部之背 面側端面部側之部分之導電性殼14的部分丨5D、以及覆蓋 外忒11中上側端面部之大部分之導電性殼14的部分 亦分別形成有從該等突出並插入狹縫之插入卡合突起部 15a及15b,其中該狹縫係設在形成外殼u之正面^端面j 的部分。 形成於導電性殼14 <右側端部的鎖止解除部3〇,亦斑 形成於上述導電性冑14之左側端部的鎖止解除部同樣 地構成,並與形成於導電性殼14之左側端部的鎖止解除邻 30同樣地動作。此外,圖示雖已省略,不過在形成於= 性殼14之右側端部的鎖止解除部3()中可動部h所對 外殼U之右側端面部中的壁狀部35,亦形成有形 : 部32之卡合部36所卡合之卡合部…再者,圖示雖已: 略,不過在導電性殼14之右側端部,於覆蓋 士 之右 24 201223015 側端面部夕描& i <導電性殼14的側面部38 ’亦形成有插入狹縫之 插入卡合突起部39,其中該狹縫係設在形成外殼1 1之正面 側端面部的部分。 如上述般,在連接器裝置10中,於局部地覆蓋其外殼 11表面之導電性殼14之L·方向中的兩端部,係以一體地形 成於導電性殼14之方式,分別設有鎖止部2G與鎖止解除 及圖12係表示經由板狀構件插入部12插入連接 益裝置1 〇中之外殼11 ’且屬構成配線板狀構件之可撓性印 刷配線基板之一例的可撓性印刷配線基板4〇。 在圖11所示之可撓性印刷配線基板4〇表面側之面, 係於其-端部排列配置設有分別使用導電性板材且形成為 條狀的複數個連接端子部4卜又,在圖12所示之可撓性印 刷配線基板40背面側之面,係於其—端部設有接地連接部 42。在具有此種表面側之面及背面側之面的可撓性印刷配 線基板40,於隔著排列配置於表面側之面的複數個連接端 子部41相互對向的-對側緣部,分別形成有卡合部43及 卡合部44’從一對侧緣部之—方中之卡合部43起前端側的 部分係設置成前端平㈣45’並且從一對側緣部之另一方 中之卡合部44起前端側的部分係設置成前端平板部46。 一對卡合部43及卡合部 者’不過亦可取代此等切口, 在可撓性印刷配線基板40之 外,在可撓性印刷配線基板4〇 44雖分別设置成形成切口 而設置成形成一對分別配置 一對側緣部的卡合孔者。此 ,係預留配置於表面側之面 25 201223015 的複數個連接端子 42、以及开… 配置於是面側之面的接地連接部 以及形成有-對卡合部43及卡合 部分,續望,、,M 對卞5孔之 "荨以外之部分則以覆蓋膜(c〇verfUm)47 圖1 3係表示圖1丨乃_ j ? 40經由板狀®所不之可撓性印刷配線基板 冓件插入部12插入連接器裝置 的狀態。圖13 t,在可撓性印刷配線基板4 ς = 配置設有複數個連接端子…且以覆蓋膜47=: 面側之面。 復盘之表 在可撓性印㈣線基板4Q經由板狀構件插人部 入連接器裝置10中之外播 中之外喊11時,如表示圖3中之Xlv_xiv 線剖面的圖14所示,進供< Φ』、, 、皁備5又置成如下之連接器裝置1〇,亦 即一體地形成於其導電性殼14且具備卡止部21、以 成有窄縮部23之前提下支承卡止部21的彈性支承部。所 構成的鎖止部20,在外殼"内,係配置成卡止部21為使 其所形成之傾斜面21a與設於外殼11之板狀構件插入部12 相對向,並且使其頂點部維持接近外殼u之内面,又,一 體地形成於其導電性殼14且具備操作部31、可動部32、 以及將可動部32連結於鎖止部2〇之彈性支承部U的連壯 部33所構成的鎖止解除部30,係將其操作部31所形成2 傾斜板狀部整體,設置成往導電性殼14之部分i5u=外方 之突出量較大的狀態。 接著,對以此方式所準備之連接器裝置丨〇,首先,如 圖15及圖16所示,在連接器裝置1〇中之外 .^ 巧左惻 粕部,形成鎖止部20之卡止部21中之傾斜面2U的部分, 26 201223015 從覆蓋外殼11中下側端面部之背面側端面部側之部分之導 電性殼14的部分15D(17)側,係抵接於從經由板狀構件插 入部12插入外殼11之可撓性印刷配線基板4〇中之卡合部 43起前端側的前端平板部45。此時,鎖止部2〇之卡I部 21係藉由可撓性印刷配線基板4Q中之前端平板部45而朝 向外殼11之下側端面部,亦即向下按壓,隨著鎖止部2〇 中之彈性支承部22的彈性變形,而使其往外殼u之下側 面部側的位置位移。 又,圖示雖已省略, 之右側端部,形成鎖止部 不過在連接器裝置10中外殼n 2〇之卡止部21中之傾斜面21a 的部分’亦從覆蓋外殼U中下側端面部之背面側端面部側 之部分之導電性殼Η的部分15D(糊,抵接於從經由板 狀構件插人部12插人外殼U之可撓性印刷配線基板40中 之卡合部44起前端側的前端平板部46。此外,鎖止部20 之卡止部21係藉由可撓性印刷配線基板4〇中之前端平板 部46而朝向外殼u之下側端面部按壓,隨著鎖止部2〇中 之彈性支承部22的彈性轡报,& , 坪丨跫形,而使其往外殼11之下側端 面部側的位置位移。 此時,使向下移位之强,14傲女, <评II變形產生之應力雖作用於各 鎖止部20中之彈性支永邱^ , 取Ρ 22,不過由於在彈性支承部22 設有向上隆起般地彎曲之窄_卹八 乍τ田邛分的窄縮部23,因此作用 於彈性支承部22之應力,计τ #丄 ‘ 並不會集中在分別連結於導電性 殼14之部分15D中之左側踹邱β 1 > 调Μ。卩1 7及右側端部1 8之彈性支 承部22的基部,透過剛枓Ρ # & ^ j性已減低之窄縮部23而分散於彈 27 201223015 性支承部22整體。藉此’ 生超過彈性復原極限之情形避免在彈性支承部22之基部產 平板::及式4’分別藉由可撓性印刷配線基板4°中 :=二鎖止部2〇之卡止部21即隨著鎖…。 。"2的彈性變形,使其往外殼1 1之下側端 面::的位置位移’藉此使連結於鎖止部2。之 除部30的連…、可…、以及操作部 f 結果’如圖16所示,形成鎖止解除部30 之邱八:板狀的操作部3 1整體,即處於往導電性殼14 。刀1 5U之外方之突出量較小的狀態。 把丄著’進—步往外殼U之内部插入可撓性印刷配線基 日’ ’如圖17所示,在連接器裝置10中之外殼"的 八側端部,形成鎖止部20之卡止部21中之傾斜面21a的部 :卩從可撓性印刷配線基板40中之前端平板部45脫離, 由鎖止冑20中之彈性支承部22的彈性復原而向上移 ’使其往遠離導電性殼14之部分15D的位置(原位置)位 移,而卡合於可撓性印刷配線基板4〇中之卡合部43,以 可撓性印刷配線基板4〇予以卡止。 · 又圖不雖已省略,不過在連接器裝置1〇中之外殼u 的:側端部,形成鎖止部2〇之卡止部21中之傾斜面仏 的部分,亦從可撓性印刷配線基板4〇中之前端平板部粍 :離’藉由鎖止部20中之彈性支承部22的彈性復原而向 上移動,使其往遠離導電性殼14之部分15D的位置(原位 置)位移,而卡合於可撓性印刷配線基板40中之卡合部44, 28 201223015 以將可撓性印刷配線基板4〇予以卡止。 此時,可撓性印刷配線基板4〇,即完成經由板狀構件 插入部12往外殼11之插人,而形成正常之插人位置,並 藉由形成於導電性殼14之—對鎖止部2〇卡止,而處於可 阻止從外殼之非所欲之抽離的狀態。亦即,可撓性印刷配 線基板40,係僅經由板狀構件插入部12適切地插入外殼 11,藉由形成於導電性殼14之一對鎖止部20,即處於可阻 止從外殼之非所欲之抽離的狀態。 此時,如上述般,藉由鎖止部2〇之彈性支承部22產 生向上之彈性復原,又,藉由鎖止解除部3 〇之操作部Η 所形成之傾斜板狀部的另一端往導電性殼14之外方彈性位 移並復原,而使連結於鎖止部20之彈性支承部22之鎖止 解除部30的連結部33、可動部32、以及操作部31向上位 移。其結果,形成鎖止解除部30中之傾斜板狀部的操作部 3 1整體’如圖9所示,即處於往導電性殼14之部分丨5υ之 外方之突出量較大的狀態。 以此方式,在可撓性印刷配線基板4 〇完成經由板狀構 件插入部12往外殼1 1之插入而形成正常之插入位置的前 提下’排列配置於外殼1 1内之複數個接觸件1 3,即從導電 性殼14之部分15U側,分別彈性抵接並接觸連接於排列配 置在插入外殼1 1後之可撓性印刷配線基板40表面側之面 的複數個連接端子部4 1。藉此,插入外殼1 1後之可撓性印 刷配線基板40中之複數個連接端子部4 1,即透過複數個接 觸件13連結於設在配置有外殼11之主配線基板的配線端 29 201223015 子。 之 入,興此冋时,如圖6及圖7所示般從導電性殼14中 —部分1 5 D延伸至外殼11内之複數個接地用接觸件丨6,係 從導電性殼14之部分1 5D側,彈性抵接並接觸連接於配置 在插入外殼11後之可撓性印刷配線基板4〇背面側之面的 接地連接部42。藉此,插入外殼丨丨後之可撓性印刷配線基 板40中之接地連接部42,即透過複數個接地用接觸件丄6 連結於設在配置有外殼U之主配線基板的接地端子。 然後,在分別於連接器裝置【"之外殼U的左側端 部及右側端部,形成往導電性殼14之部分i5u之外方之突 出量較大的狀態,且構成鎖止解除部3〇中之傾斜板狀部的 刼作部3!,藉由對其之操作,而受到朝向導電性殼μ内之 方:的按壓力時’操作部31便在使形成自由端…之一端 二Π: U中之上側端面部的前提下,產生使其向下位 之彈性變形,構成鎖止解除部30之操作部31、可動部 3 2、以及連結部3 3軟躺 部2。之彈性支承部2的:^ 加,亦即使其向下移動:此?向導電性殼14之部分 連結部33之鎖止部:的彈:此/連結於鎖止解除… 而隨著其所支承之卡止:二支承部22即產生彈性變形, 卜此。I5 2 1向下位移。 向下位移之鎖止部2〇 之卡止部21向下移 彈’[支承部22’係使其所支承 的位置位移。藉此#冑其往外殼11之下側端面部側 秒藉此,鎖止部2〇 傾斜面21a之部分與 卞止# 2〗,即解除形成其 撓性印刷配線基板4〇中之卡合部43 30 201223015 及卡〇 4 44各自的卡合,將可撓性印刷配線基板4〇從鎖 止部20對其之卡止予以釋放。藉此,插人外殼11之可撓 f I5刷配線基板40即處於可從外殼丨丨適切地抽離的狀態。 此時,由於在鎖止部2〇中之彈性支承部22係設有設 成向上隆起般地彎曲之窄幅部分的窄縮部U,因此作用 、;彈I·生支承部22且使其產收向下位移之彈性變形的應力, 2會集中在分別連結於導電性殼14之部分i5D中之左側 端。"7及右側端部i 8之彈性支承部22的基部、或彈性支 ^ P 22之與卡止部21的連結部’而透過剛性已減低之窄 縮=23分散於彈性支承部22整體。藉此,避免在彈性支 承部22之基部或與卡止部21的連結部產生超過彈性復原 極限之情形。 又,此時,藉由鎖止解除部30之操作部31受到朝向 ,電後喊14内之方向的按壓力’設於向下移動之鎖止解除 之可動部32的卡合部36’即從卡合部37所形成之第 ^傾斜面37a側卡合於形成在可動部32所對接之外殼丨丨之 壁狀部35的卡合部37,而處於越過該卡合部37的狀態。 1[匕時,由於卡合部37所形成之第1傾斜面37a具有較大之 ,=度,因此於鎖止解除部30之操作部3丨施加朝向導電 吸14内之方向之按壓力的操作者,在設於可動部32之 卡合部36越過形成於外殼u之壁狀部35的卡合部37時, 即可獲得明確之卡入(click)感。 再者’例# ’在從外㉟u &離可挽性印刷配線基板4〇 後’當構成鎖止解除部30中之傾斜板狀部的操作部Μ, 31 201223015 不再受到朝向導電性殼14内 產生彈性變形之操作部 D的按屢力時,主要藉由 彈性復原力,構成鎖止解除部3〇正部20之彈性支承部22的 以及連結部33整# ' 之操作部3】、可動部32、 亦即使其向上移動導電性殼14之部分加, 分15U之外古* P 31即返回往導電性殼I4之部 之大出量較大的原位置。 於鎖止解除部30之連社 此日寺籍此,連結 即產生彈性變形,而隨V=止Γ的彈性支承部22 “主 者其所支承之卡止部21向上位移。 卡人们6’設於向上移動之鎖止解除部30之可動部32的 卡合部37所形成之第2傾斜…卡合 於❿成在可動部32所對接之外殼u之壁狀部”的卡” 37,而處於越過該卡合部37的狀態。設於此可動部η之 卡合部36越過形成於外殼^壁狀部^之卡合部η的 動作,係藉由卡合部37所形成之第2傾斜面37b具有較小 之傾斜度而可圓滑地進行。 此外,可撓性印刷配線基板4〇中之一對卡合部43及 44 ’在取代一對切口部而設置成形成一對卡合孔的情況 下,亦與上述同樣地,可進行鎖止部2〇對可撓性印刷配線 基板4〇之卡止、以及使用鎖止解除部30來解除鎖止部2〇 之卡止。 在使用上述連接器裝置10並於其之外殼^插入構成 配線板狀構件之可撓性印刷配線基板40的前提下,雖對經 由設於外殼11之板狀構件插入部12插入外殼U的可換性 32 201223015 印刷配線基板40,進行形成於導電性殼14之鎖止部2〇的 卡止、以及透過形成於導電性殼14之鎖止解除部3〇來解 除鎖止部20之卡止,不過亦可藉由在導電性殼14 _體地 形成為此目的之鎖止部20及鎖止解除部3〇,而可謀求零件 數量之減少與連接器裝置10整體更進一步之小型化。 又,在對插入外殼1 1的可撓性印刷配線基板4〇,進行 鎖止部2G的卡止、以及透過鎖止解除部3G解除鎖止部 之卡止時’例如,除了無須設置對外殼"設置成可旋動之 致動器以外,亦無須將導電性殼14設置成可對外殼Η旋 動,而可將對外殼η固定之導電性殼14,㈣作為連接器 裝置10對主配線基板之固定,而無須另外具備用以將連接 器裝置1G固定於主配線基板的構件。其結果,利用連接器 裝置10,即可將零件數量設置成較少以有效地謀求製造成 本之降低。 再者,由於僅將可撓性印刷配線基板40經由設於外殼 11之板狀構件插人部12插人外殼η,即可對可撓性印: 配線基板40進行一體地形成於導電性殼14之鎖止部2〇的 卡止,並且僅將朝向導電性殼14内之方向的按壓力,施加 於一體地形成於導電性殼14且連結於鎖止部2G之鎖 除部30中突出至導電性殼14之外方的操作部3 i,即可進 行鎖止部2G對可撓性印刷配線基板4()之卡止的解除,因 此藉由極為簡單之操作即可解除鎖止部2()對可撓性印刷配 線基板40之卡止’而且於此操作並無須在鎖止解 之周圍設置非所欲之空間。 33 201223015 此外,由於一體地形成於導電性殼14之鎖止部2〇,在 外殼11内,係設置成具備卡止部21、以及彈性支承部U, 其中該卡止部21係卡合於設在經由板狀構件插入部12插 入該外殼11之可撓性印刷配線基板40的卡合部或卡合 部45並形成將可撓性印刷配線基板4〇予以卡止之狀態: 該彈性支承部22係從導電性殼14延伸並將卡止部21支承 成可位移,且在該彈性支承部22連結一體地形成於導電性 殼14之鎖止解除部3〇,因此以較簡單之構成即可確實地進 行鎖止部2G對可撓性印靠線基板4G之卡止及鎖止部^ 之卡止的解除。 又,由於一體地形成於導電性殼14之鎖止解除部3〇, 除了操作部31以外,係設置成具備有可動部32、以及連結 部33者,其中該可動部32係從操作部31往導電性殼^ 内延伸並㈣於外殼u中之壁狀部35,該連結部Μ係將 可動部32連結於鎖止部2G之彈性支承部22,在操作部μ 受到朝向導電性殼14内之方向的按壓力時,隨此可動部Μ 及連結部33即彈性位移,而使具有透過連結部33連結於 可動部32之彈性支承部22的鎖止部2〇,解除對可撓性印 刷配線基板40之卡止,因此以較簡單之構成,即可既容易 又確實地以鎖止解除部3〇中之操作部31的按壓,進行鎖 止部20對可撓性印刷配線基板40之卡止的解除。 再者,一體地形成於導電性殼14之鎖止解除部3〇中 ^操作部31,係形成突出至導電性殼14之外方的傾斜板狀 部,在操作部31並未受到朝向導電性殼14内之方向的按 34 201223015 壓力時,操作部3 1所形成之傾斜板狀部整體,係設置成往 導電性殼14之外方的突出量較大,相對於此,在操作部3ι 受到朝向導電性殼14内之方向的按壓力時,使傾斜板狀部 之另一端往朝向導電性殼14内之方向彈性變形,操作部Η 所形成之傾斜板狀部整體,係設置成往導電性殼Μ之外方 的突出量較小,然後’當操作部31不再受到按壓力時,傾 斜板狀部之另-端即往導電性殼14<外方彈性移位並復 原藉此’在可撓性印刷配線基板4〇經由板狀構件插入部 插入外殼U的前提下,當鎖止解除部中之操作部η 在導電性殼14之外方的突出量設置成較大時,在外殼η 内鎖止部20對可撓性印刷配線基板4()之卡止即已適切地 進行。因此,從導電性殼14之外部藉由目視操作部Μ所 形成之傾斜板狀部,即可既容易又迅速且正確地確認在外 殼11内鎖正部20對可撓性印刷配線基板4〇之卡止已適切 地進行的狀態。 [實施例2] 圖叫從正面側觀看之立體圖)、以及圖19(局部剖面 圖),係表示構成本發明之連接器裝置之第2例(實 女备 卜為了方便,針對連接器裝置50, ’、在圖18從表示於右方側之連接器裝置5〇之正面觀看將 左方稱為左或左側,將# $ $ > 將右方稱為右或右側,將上方稱為上 或上側,將下方稱為下或下側。 ^8及圖19所示之連接器裝置5〇,係具有諸多與構 述本發明之連接器裝置之第1例之連接器裝置10同樣 35 201223015 接’在圖18及圖19中’連接器裝置5。中與連 接器裝置10之各部及各構侔料 1㈣件對應的部分及構件,係以與連 2裝置Π)共通之符號表示,針對該等之重複說明則予以 在連接器裝置50中,在分別形成於導電性殼14之左 ㈣部及右側端部的鎖止解除部3Q,除了操作部Η、可動 U及連結部33以外,係設有具有復位彈簧之作用的 ‘舌片51。此彈性舌片51係在操作部Η所構成之傾斜 板^内,從該傾斜板狀部中連結於可動部U的端部延 伸,並使形成自由端51a之一端抵接於外殼n中之上 面部。 於以此方式設有彈性舌片51之鎖止解除部Μ中構成 傾斜板狀部的操作部31,在其處於往導電性殼Μ之部分 15U之外方之突出量設置成較大之狀態的前提下藉由對其 之操作’當受到朝向導電性殼14内之方向的按壓力時,構 成傾斜板狀部之操作部31,即在使形成自由端仏之一端 抵接於外:又11中之上側端面部的前提下,產生使其向下位 ^彈性變形’隨此彈性舌片51即在使形成自由端51a之 端抵接於外殼1 1中之上側端面部的前提下,產生使其向 了位移之彈性變形。藉此,構成鎖止解除部之操作部3卜 彈性舌片51 '可動部32、以及連結部33整體,即隨著連 結於連結部33之鎖止部2〇之彈性支承部22的擺動,而朝 向導電性殼Μ之部分15D,亦即使其向下移動,連結於鎖 止解除部3〇之連結部33之鎖止部20的彈性支承部22即 36 201223015 產生彈性變形’隨著其所支承之卡止部 然後,當鎖止解除部30之操作部3 向下位移。 電性殼Μ内之方向的㈣力時,主要31〗再受到朝向導 操作部31、彈性舌片5卜以及鎖止心由產生彈性變形之 的彈性復原力,構成鎖止解除部3〇 之彈性支承部22 51、可動部32、以及連結部33整體' =、彈性舌片 33之鎖止部2G之彈性支承部22的卩隨著連結於連結部 14之部分15U,亦即使其θ h # b ,而朝向導電性殼 刀即便其向上移動,操 電性殼14之部分丨5U $ 31即返回往導 ,刀之外方之突出 置。藉此,連結於鎖止解除部3〇之連”成較大的原位 的彈性支承部22即產生彈 ^ 33之鎖止部2〇 部21而向上位移。 ㈣,而隨著其所支承之卡止 以=式在使構成鎖均除部操作… 片51、可動部32、以及連結部3 彈f舌 舌片51係發揮作為對鎖止解除移動時,彈性 月儿肝%邵3 0之復位强葚从七 使構成鎖止解除部30之操作部3 彈二的 32、以及連結部33整體, 1 更迅逮且確實地進行向上移動並 使刼作部31返回往導電性殼 ㈣ # ™ ^ 之邛刀15U之外方之突出 里叹置成較大之原位置的動作。 =本發明之連接器裝置之第2例之連接器裝置心 、車:部’係與構成前述本發明之連接器裝置之第!例之 並發揮同樣之作用。 ⑽地構成,而同樣地動作 [實施例3] 37 201223015 圖20(從背面側觀看之立體圖),係表示構成本發明之 連接器裝置之第3例(實施例3)的連接器裝置6〇。此外,為 了方便,針對連接器裝置60,亦在圖2〇從表示於上方側之 連接器裝置60之正面觀看將左方稱為左或左側,將右方稱 為右或右側’將上方稱為上或上側,將下方稱為下或下侧。 圖20所示之連接器裝置6〇,係具有諸多與構成前述本 發明之連接器裝置之第i例之連接器裝置1〇同樣地構成的 部分’在® 20及圖21〜23巾,連接器裝置6〇巾與連接器 裝置10之各部及各構件對應的部分及構件,係以與連接器 裝置10共通之符號表示,針對該等之重複說明則予以省略。 在連接器裝置60中’係分別在導電性殼14之左側端 部及右側端部,設有從側面部38之背面側部分反折至導電 性殼14之内側並延伸的壁狀部61。設於導電性殼μ之壁 狀部6卜係清楚地表*於表*連接器裝置⑽所具備之導電 性殼14之左側端部的_ 21及圖23、以及包含圖η XXII-XXII線剖面的圖22。 在導電性殼14之左侧端部,從側面部38之背面側部 分反折至導電性殼14所形成的壁狀部61,虫。圖η所示, 係處於以與側面部38夾著外殼"中之壁狀部35的狀:。 此外’鎖止解除部30中形成有卡合部36之 ; 接於壁狀部6 1。 ^ 在此設於導電性殼14 示,在形成於鎖止解除部 動方向’亦即上下方向, 之壁狀部61’如圖22及圖23所 30之可動部32之卡合部36的移 例如形成有沿著正交交叉之方向 38 201223015 形成於可動部32 62 ’係對應可動 36則設置成會越 延伸之構成細長隆起的卡合部62。此外, 之卡合部36與形成於壁狀部61之卡合部 部32之移動形成相互卡合狀態,卡合部 過卡合部62。 此等形成於鎖止解除部30之可動部32的卡合部36及 形成於導電性殼14之壁狀部61的卡合部62所發揮之作 用,係與前述連接器裝置10中形成於鎖止解除部3〇之可 :部32的卡合部36及形成於外殼u之壁狀部35的卡合 部37所發揮之作用相同,例如’設置成將朝向導電性殼二 内之方向之按壓力施加於鎖止解除部3〇之操作部Η的操 1乍者,在形成於可動部32之卡合部36越過形成於導電性 诚14之壁狀部61的卡合部62時,即可獲得明確之卡入 (click)感。 又,雖已省略了圖示,不過在導電性殼14之右側端部, 亦與設於上述導電性殼14之左側端部之壁狀部61同樣地 形成有設於導電性殼14之壁狀部61,鎖止解除部3〇中形 成有卡合部36之可動部32係與其對接,形成於可動部32 =卡合部36與形成於壁狀部61之卡合部62,係對應可動 邛32之移動形成互相卡合狀態,卡合部36則設置成會越 過卡合部62。 構成本發明之連接器裝置之第3例之連接器裝置 其他各部,係與構成前述本發明之連接器裝置之第丨例之 連接器裝置1G中所對應之部分同樣地構成,而同樣地動作 並發揮同樣之作用。 39 201223015 以上本發明之連接器裝置,係一種使用於將形成為可 撓性印刷配線基板等之配線板狀構件安裝於主配線基板的 連接器裝置,具備:外殼,係設有板狀構件插入部;複數 個接觸件,係排列配置設於外殼内;以及導電性殼,係局 部地覆蓋外殼之表面;無須對外殼設置可旋動之致動器 等,亦無須將導電性殼設置成可對外殼旋動,藉此可將零 :數量設置成較少,而可謀求整體更進一步之小型化與製 造成本之降低,此外亦無須將致動器或導電性殼之旋動操 作等所須之非所欲的空間設置在連接器裝置之周圍,而可 廣泛地適用在各種電子機器等。 【圖式簡單說明】 例之正面側 1例之背面側 圖1係從表示本發明之連接器裝置之第 觀看的立體圖。 圖2係從表示本發明之連接器裝置之第 觀看的立體圖。 囡1衫本 月,J规圖 圖4係表示本發明之連接器奘 m丄 接益裝置之第1例的俯視圖 圖5係表不本發明之連接芎梦 圖“主 第1例的仰視圖 圖6係表示圖3中之VI,線剖面的剖面圖。 圖7係表示本發明之連接器裝置之第η列所 電性殼之一部分的局部立體圖。 〃 圖8係包含表示本發明之連接The engaging portion (Fpc locking hole FPC2) of the wiring board member which is inserted after the housing is inserted. Thereby, the wiring board member after the insertion of the outer casing is prevented from being inserted from the outer casing of the outer casing so that the outer casing is arranged to be rotatable, and the outer casing is formed to the position of the outer casing (FPC). a plurality of contacts (the contact member 3) inserted into the outer casing (the contact member 3 (the upper contact member 31 is intended to be pulled away. Then, the locking projection provided on the locking means is engaged after being inserted into the outer casing) On the premise of the engaging portion of the wiring board member, the outer casing is provided with a rotatable conductive shell, and if it is subjected to a swirling operation for forming a position to stand up to the outer casing, the locking means formed on the conductive shell is also When the conductive shell is displaced, the locking projection provided thereon is released from engagement with the engaging portion provided in the wiring board member. Thereby, the wiring board member inserted into the outer casing is separated from the outer casing. Patent Document 1: Japanese Laid-Open Patent Publication No. 2008-52993 (paragraphs 0016, 0017, 0033 to 0043, FIG. 1, FIG. 5, and FIG. 6) Patent Document 2. 曰本特开2008-192574 (paragraph 0026 ' 0027, 0031 ~ 0034 'Figure 1~6) In the above, the connector device for attaching the wiring board member such as a flexible printed wiring board to the main wiring board is provided as a device for preventing the insertion of the wiring board member in the housing from the housing. The card to be detached 201223015 2 = to the proposed connector device _, the locking means is corresponding to the rotation operation of the smashing action of the smashing, or is set to be set to be rotatable to the outer casing a conductive shell, and a locking means is formed on a part of the conductive shell. The latching means is provided in accordance with a conventional connector in which the housing is displaced by a rotary operation of a rotatable actuator. In the case of a device, it is necessary to provide an actuator that is rotatably provided to the outer casing, which may become an obstacle to further miniaturization of the entire connector device, and further becomes a main cause of the manufacturing cost of the device. When the locking means forms a locked state or a released state of the wiring board member, the operation of rotating the actuator to the outer casing is indispensable" and must be disposed around the connector device. The undesired space for performing the operation. Further, the conductive shell is disposed to cover only the upper surface of the outer casing (the other surface opposite to the surface of the main wiring substrate) and the arrangement direction of the plurality of contacts The side end face, and it is difficult to effectively obtain the shielding effect on the electromagnetic wave noise from the outside. Further, there is a conductive shell which is set to be rotatable, and a card is formed in the portion of the conductive shell. In the case of the connector device proposed in the prior art, since the conductive shell is rotatably provided to the outer casing, the connector device cannot be fixed to the main wiring substrate by the conductive shell, and must be additionally provided for Fixing the connector device to the member of the main wiring substrate (hooking member) may become an obstacle to further miniaturization of the connector device, which in turn increases the manufacturing cost of the connector device. Main cause. Furthermore, in the remote technology connection device, the conductive shell is also disposed to cover only the upper surface of the outer casing (opposite the surface opposite to the main wiring substrate - 201223015 surface) and the arrangement of the plurality of contacts The side end faces in the direction, and it is difficult to effectively obtain the shielding effect on the electromagnetic wave noise from the outside. In the invention described in the patent application scope of the present invention, a wiring plate member for connecting a flexible printed wiring board or a flexible flat board i (four) to another wiring board is provided. The outer casing ' is provided with a plate-shaped member insertion portion; a plurality of contact members are arranged in the outer casing; and the conductive shell covers the outer casing; and the outer layer is not required to be set to be falsified_$ Λ , from Guanlan < Level Jinyi, etc., there is no need to set the conductive shell to the outer casing so that the number of parts can be set to be small, and the overall miniaturization and manufacturing cost can be reduced. An undesired space required for the actuator or the rotating operation of the conductive case is disposed around the connector device. The connector device of the invention described in any one of the above-mentioned claims (hereinafter referred to as the present invention) is provided in the present invention, and the outer casing is provided with a plate-shaped member insertion portion. Disposed on the wiring board; a plurality of contacts 'are arranged in the outer casing so as to be connected to the wiring terminals provided on the wiring substrate, and when the wiring board-shaped member is inserted into the outer casing via the plate-shaped member insertion portion, the contact is connected to the insertion a plurality of connection terminal portions of the wiring board member of the outer casing; and a conductive shell disposed to partially cover the surface of the outer casing to be connected to the ground terminal provided on the wiring substrate; 5 the conductive shell is integrally formed a locking portion extending in the outer casing and forming a state in which the wiring board member inserted into the outer casing via the plate-shaped member insertion portion is locked, and a portion connected to the locking portion and abutting the wiring substrate with the outer casing One end of the opposite side faces the other side of the face to form a protrusion to 10 201223015 outside the conductive shell, but the bamboo is * μ, staying. In the lock release portion, the lock portion locks the wiring board member inserted into the casing, and the lock portion constitutes the wiring board member, and in the locked state, the operation portion of the lock release portion is applied toward the conductive portion. When the pressing force is applied in the direction of the inside, the lock releasing portion causes the locking portion to release the locking of the plate member. In the case of the invention of the present invention, in the case of the invention, the locking device integrally formed in the conductive casing is provided with a card in the casing. And a locking portion provided in a state in which the slab-shaped member is locked by the plate-shaped member insertion portion, and a locking portion in a state in which the squeaking member is locked, and extending from the conductive case and engaging the locking portion The elastic support portion that is supported to be displaceable is coupled to the elastic support portion and has a lock release portion integrally formed with the conductive case. Further, in the connector device of the present invention described in the fifth aspect of the patent application scope of the present invention, the lock releasing portion "integrally formed in the conductive case" is provided with the operation portion from the operation portion. a movable portion extending in the conductive shell and abutting the wall portion of the outer casing or the conductive shell, and a connecting portion connecting the movable portion to the elastic supporting portion of the locking portion, and applying the direction toward the inner portion of the conductive shell to the operating portion When the pressing force is applied, the movable portion and the connecting portion move, and the locking portion releases the locking of the wiring board member. Further, in the connector device of the present invention described in the scope of the patent application of the present application, the operation portion integrally formed in the lock releasing portion of the conductive case is formed to be freely set. One end of the end abuts against the inclined plate portion which is opposite to the other end surface of the outer surface of the outer surface of the wiring substrate and which is elastically displaceable at the other end. 201223015 In the connector device of the present invention, when the wiring board-shaped member is placed outside the wiring board via the board-shaped member insertion portion provided in the casing, a plurality of contacts #, that is, contacts are arranged in the casing. A plurality of connection terminal portions connected to the inserted wiring board member are integrally formed in the locking portion of the conductive case, and the wiring board member to be inserted is locked in the case. Thereby, yang, *_丨A ▲" (4) a, the wiring board-like member inserted into the outer casing is undesirably extracted from the peripheral. Ifq rr , the body is formed in the conductive case and is connected to the lock releasing portion of the locking portion, and is opposite to the end face of the wiring substrate in the outer casing. The other end surface side protrudes to the operation portion other than the conductive case, and is in a state in which a force is applied to the direction in the conductive case. In the winter, the lock release portion is moved to release the wiring plate in the lock portion. The component is locked. As a result, by pressing the operation portion of the lock release portion toward the conductive housing & π direction, the state in which the lock portion is released from the wiring board member is formed in the casing, and the wiring board member is made available. The state in which the outer casing is pulled away. In this case, the locking portion of the conductive case is integrally formed, for example, as in the case of the connector device of the present invention as recited in claim 2 of the patent application of the present application. : a card: a portion that is engaged in an outer portion of the outer casing + that is engaged with the wiring plate-like member that is inserted into the outer casing via the plate-like member insertion portion to form a state in which the wiring-like member is locked; The support 系's electrical shell extends and supports the latch to be displaceable. Further, the elastic support portion of the lock portion is coupled to the lock release portion that is formed in two layers on the conductive case to form a connection with the lock release portion and the 12 201223015 lock portion. Further, in the case of the connector device of the present invention described in the fifth aspect of the patent application scope of the present application, the operation portion is provided, in addition to the operation portion, in the case of the connector device of the present invention. In addition, the movable portion is provided with a movable portion that extends from the operation portion into the conductive case and is connected to the wall portion of the outer casing or the conductive case, and the connecting portion that connects the movable portion to the elastic portion of the locking portion. Supporting portion. Further, when a pressing force is applied to the operation portion in the direction toward the inside of the conductive case, the movable portion and the connecting portion move, and the locking portion that has the elastic connecting portion that is connected to the movable portion through the transmitting portion is released from the wiring board. The locking of the member. Further, in the case of the connector device of the present invention described in claim 6 in the patent application scope of the present application, the operation portion is formed in the same manner as in the case of the connector device of the present invention. One end of the free end is disposed to abut against the other end portion of the outer casing that faces the one end surface of the wiring substrate, and the other end is elastically displaceable toward the one end. When a pressing force is applied to the operation portion in the direction of the inside of the conductive shell, the other end of the inclined plate portion is elastically displaced in the direction toward the inside of the conductive case, whereby the entire inclined plate portion formed by the operation portion is Close to the other end face in the outer casing, and the amount of protrusion provided to the outside of the conductive shell is smaller. 'When the operating portion is no longer subjected to the pressing force in the direction toward the inside of the conductive shell, the other end of the inclined plate portion That is, the outer portion of the conductive shell is elastically displaced and restored, whereby the entire inclined plate portion formed by the operation portion is isolated from the other end surface portion of the outer casing, and the amount of protrusion of the conductive shell to the outer side is set to be 13 201223015 In the connector device of the present invention, as described above, the wiring board-shaped member inserted into the outer casing through the plate-shaped member provided in the outer casing can be locked to the locking portion of the conductive casing. And the locking of the locking portion is released by the lock releasing portion formed in the conductive case. By integrally forming the locking portion and the lock releasing portion for this purpose in the conductive case, the number of parts can be obtained. Reduce and connect The overall size of the connector device is further reduced. Further, when the wiring board-shaped member inserted into the casing is locked by the lock portion and the lock is released by the lock release portion, for example, it is not necessary to provide the housing with a rotatable actuator. It is also not necessary to provide the conductive shell to the outer casing so as to be rotatable, and the connector device can be fixed to the wiring substrate by using the conductive shell fixed to the outer casing, and a need not be additionally provided for fixing the connector device to the wiring substrate. member. As a result, with the connector device 'of the present invention, the number of parts can be set to be small to effectively reduce the manufacturing cost. Further, since only the wiring board-shaped member is inserted into the outer casing via the plate-shaped member insertion portion provided in the outer casing, the wiring-like member can be integrally formed on the locking portion of the conductive casing, and only the orientation The pressing force in the direction in the conductive case is applied to the operation portion integrally formed in the conductive case and connected to the unlocking portion of the lock portion and protruding outside the conductive case, so that the lock portion can be engaged. Since the locking of the wiring board member is released, the locking of the wiring board member by the locking portion can be released by an extremely simple operation, and the operation does not require an undesired arrangement around the locking releasing portion. space. In particular, in the connector device of the present invention described in the scope of the patent application of the present application, the second aspect of the application of the present invention, the lock portion of the conductive case is provided with: a locking #, is engaged in a casing, and is engaged in a bayonet provided in a wiring board-like member in which the casing is inserted through a plate-shaped member insertion portion. That is, a state in which the wiring board member is locked is formed, and the elastic supporting portion is extended from the conductive case and the locking portion is supported to be displaceable, and the elastic support is supported. In other words, the connection is integrally formed in the conductive case and the lock release is performed. Therefore, the lock of the lock portion and the release of the lock of the lock portion can be surely performed. In addition, in the scope of the patent application of the present application, the connector device of the present invention has the following: The movable portion is an i-shaped weir that extends from the operation portion into the conductive case and is connected to the outer casing or the conductive case, and the connecting portion that elastically supports the movable portion to the locking portion. The pressing force in the direction in which the operation portion is applied to the inside of the conductive case is accompanied by the elastic displacement of the movable portion and the connecting portion, and has a transmission connection. The 邛 is coupled to the locking portion of the elastic support portion of the movable portion to release the locking of the wiring board member. Therefore, the shackle can be easily and reliably released, and the operation of the operation unit can be easily and surely released. The release of the locking of the wiring board member by the lock portion is performed. Furthermore, in the connector device of the sixth aspect of the patent application scope of the present invention, the connector device of the sixth aspect of the invention is integrally formed in the conductive state. The operation portion of the shell is formed to protrude beyond the conductive shell, and the operation portion is no longer subjected to the entire inclined plate portion formed by the operation portion toward the inside of the conductive shell, and the other from the outer 15 201223015 shell The one end surface is isolated, and the conductive shell is provided to protrude outwardly. In contrast, when the operation portion receives a pressing force in a direction toward the inside of the conductive shell, the other end of the inclined plate portion faces the conductivity. The direction in the shell is elastically displaced, so that the entire inclined plate portion formed by the operating portion is close to the other end surface portion of the outer shell, and is disposed to be smaller than the outer side of the conductive shell, and then When the operation portion is no longer subjected to the pressing force, the other end of the inclined plate portion, that is, the outer side of the conductive case is elastically displaced and restored. Thereby, the protruding portion of the operating portion in the winter lock releasing portion to the outside of the conductive case is set on the premise that the wiring board-shaped member is inserted into the outer casing via the plate-shaped member insertion portion: when it is large, it is locked in the outer casing The locking of the stopper to the wiring board member is appropriately performed. Therefore, it is easy, quick, and accurate to confirm that the locking of the wiring board-shaped member in the outer casing is properly performed from the outside of the conductive casing by the inclined plate-like portion formed by the visual operation portion. status. [Embodiment] The embodiments for carrying out the invention are described with reference to the first to third embodiments of the invention described below. [Embodiment 1] FIG. 2 (perspective view from the front side), FIG. 2 (perspective view from the back side), FIG. 3 (front view), FIG. 4 (a top view), and FIG. 5 (bottom view) show The connector device 10 of the first example (Embodiment 1) constituting the connector mounting device of the present invention. In addition, for convenience, the slanting material and the squirting are made for the connector device 10, as viewed from the connector device shown in FIG. 3, the left side is referred to as the left or left side, and the right side is referred to as the right or right side. , will be down or underside. The upper or upper side is referred to as 8 201223015. In Figs. 1 to 5, the connector device 1G' constituting an example of the connector device of the present invention is provided with an outer bite formed of an insulating material such as synthetic resin. )11. As shown in Figs. 1 and 3, the outer casing is provided with a plate-like member insertion portion 12 extending from the plate-like member insertion portion 12 to the inside of the outer casing. The external component 11 is disposed, for example, on a main wiring substrate (not shown), and the connector device 10 is entirely mounted on the main wiring substrate. At this time, one of the pair of facing end faces f, that is, the lower end face portion, which is sandwiched between the front side end face portion and the back side end face portion, is the end face that is butted to the main wiring substrate, and the other side is the upper end face portion. For example, a flexible printed wiring board to be described later is inserted into the casing 丨i as a wiring board-shaped member, that is, via the plate-shaped member insertion portion 12. The outer casing 11 is arranged in the longitudinal direction of the outer casing 11 (the direction indicated by the arrow L (hereinafter referred to as the L direction) in the left-right direction), and is formed in plural in each of the elastic conductive materials. Contacts 13. The plurality of contacts 13 are provided as signal contacts that are in contact with a plurality of connection terminal portions of the flexible printed wiring board constituting the wiring board member, but may be used as the flexible printed wiring board. A plurality of signal connection terminal portions and a ground connection portion are in contact with the connected signal and ground contact members. As shown in FIG. 2, the plurality of contacts 13 are respectively provided with connection terminal portions 13a which are led out from the back side end surface portion of the casing 11 to the outside thereof, and the connection terminal portions 13a are connected to each other by, for example, soldering. A wiring terminal of a main wiring substrate having a case. Then, a plurality of contact members 3 are, for example, pressed from the back side end face side of the outer casing 1 of FIG. 2, and are inserted into the outer cover 2012 201223015. When the flexible printed wiring board of the wiring board member is inserted into the outer casing 1 through the plate-shaped member insertion portion 12, the plurality of connections connected to the flexible printed wiring board inserted into the outer casing are respectively contacted in the outer casing 11. Terminal section. Thereby, a plurality of connection terminal portions of the flexible printed wiring board inserted into the outer casing are inserted through the plurality of contact members 13 to the wiring terminals provided on the main wiring substrate on which the outer casing n is placed . Further, the connector device 10 is provided with a conductive shell partially covering the surface thereof. The conductive shell M-based metal sheet material is formed by processing, mainly for facilitating the contact with a plurality of contacts. The characteristic impedance adjustment of 13 is also used as a countermeasure against the external electromagnetic wave noise of the connector device, that is, in order to obtain the shielding effect of the connector device 1 from the external electromagnetic wave noise. Therefore, the conductivity is The case 14 is also provided with a plurality of ground connection terminal portions 14a, and the ground connection terminal portions 14a are respectively connected to the ground terminals provided on the main wiring substrate on which the casing 11 is disposed, for example, as shown in Fig. 1 to 5. As shown in the figure, the conductive shell 14 is provided for a part of the boundary portion between the front side end surface portion and the peripheral portion thereof, the upper side end surface portion and the back side end surface portion, and the plurality of contact members 13 in the back side end surface portion. The part of the front side and the side of the front side of the lower end face does not cover the surface, but the knife other than these parts is also The portion other than the portion y knife, the left end surface portion, the right end surface portion, and the lower end surface 8 of the boundary portion between the end surface portion and the back side end surface portion are substantially the entire portion of the back side end surface portion side of the 201223015 portion. In addition, the plurality of ground connection terminal portions i4a provided in the conductive case 14 are connected to the grounding material provided on the main wiring substrate on which the casing u is disposed by, for example, soldering, and the electric property# 14 is also used as a member for fixing the connection to the main wiring substrate by using 卩. Further, in the conductive case 14, as shown in Fig. 6 showing a line cross section in Fig. 3, and showing the left end of the conductive case 14 As shown in Fig. 7, a plurality of grounding contact members 16 are provided so as to face the plate-like member insertion portion 12 from a portion 15 覆盖 covering a portion on the back side end surface side of the lower end surface portion of the outer casing 1 并. The plurality of grounding contacts 16 are disposed in the outer casing U and are disposed to face one of the plurality of contact members 13 respectively, and the flexible printed wiring substrate constituting the wiring plate member passes through the plate member. Insert When the housing 12 is inserted into the housing n, the contact portion is connected to the ground connection portion provided on the flexible printed wiring board. Further, the conductive housing 14 is attached to the lower end surface portion of the cover housing i as shown in FIG. The left end portion 17 and the right end portion 18' of the portion 丨5D of the portion on the back side end surface side are respectively formed with the locking portions 2'' to be inserted into the outer casing u via the plate-like member insertion portion 12 and constitute a wiring board shape. The state in which the flexible printed wiring board of the member is locked. As shown in FIG. 8 showing the left end portion of the conductive case 14, the locking portion 20 formed on the left end portion 17 of the portion 15D of the conductive case 14 The locking portion 21 is provided in the outer casing 11 and is inserted into the outer casing 11 via the plate-like member insertion portion 2 to form a wiring board. Engagement of the flexible printed wiring board of the member 19 201223015 "To maintain the shape of the flexible printed wiring board, the elastic support portion 22 is from the left side of the portion 15 5 of the conductive shell 14 The end portion 17 extends toward the plate-like member insertion portion 12 and is locked 21 bits supported to be shifted. In this manner, the locking portion 20' including the locking portion 21 and the elastic supporting portion 22 is integrally formed with the conductive case 14. The locking portion 21 in the locking portion 20 is formed with a projection that rises from the elastic supporting portion 22 toward the upper side, and the end surface portion thereof is provided to form an inclined surface, and the inclined surface 2 1 a is formed along the wiring board shape. The flexible printed wiring board of the member is inserted and tilted in the direction of the outer casing 经由 via the plate-shaped member insertion portion 丨2. In addition, the locking portion 2 is engaged with the portion of the inclined surface 2丨a that is engaged with the flexible printed wiring board that is inserted into the casing via the plate-shaped member insertion portion 12 and that constitutes the wiring board member. unit. Further, the elastic support portion 22 of the lock portion 2 is formed with an elastically extending arm portion from the left end portion 17 of the portion 丨 5D of the conductive case 14 and is connected to the conductive case 14 A portion between the base portion of the left end portion 17 of the 15D and the locking portion 21 is provided with a narrowed portion 23 provided in a narrow portion, and the narrowed portion 23 is curved to be slightly raised upward. The locking portion 20' formed on the right end portion 8 of the portion 丨 5 D of the conductive case 14 is also formed in the same manner as the locking portion 20 formed on the left end portion 17 of the portion 15D of the conductive case 14 The operation is performed in the same manner as the locking portion 2A formed on the left end portion 丨7 of the first and second ridges of the conductive case 14. Further, in the conductive case 14, as shown in Figs. 1 to 4, a displaceable lock releasing portion 30 is formed at the left end portion and the right end portion, respectively. The lock release portion 3 is for operating to cancel the card formed by the lock portion 20 and inserted into the casing 11 through the board 20 201223015 m set i insertion portion 12 and constituting the wiring board member. stop. The armor is flexible as shown in Fig. 7 and the lock & release portion 30, and the structure I is formed on the left end of the conductive shell 14 and the joint portion 33, and the operation portion & the movable portion 32 is provided. The operation portion 31 of the above-mentioned side end protrudes to the outer side of the cover 11 which is exposed to the conductive housing 14 of the conductive housing 2, so as to be pressed from the direction inside the operation portion 3 'this movable The portion 32 of the movable portion 2 is internally extended. The connecting portion 33 is provided with an elastic support portion 22 which is provided with a spot. In this manner, the locking portion 31, the movable portion 32, and the connecting portion 33 are locked. The releasing portion is integrally formed with the conductive case 14 by the locking portion 2, and when the pressure is pressed toward the inside of the conductive case 14, the movable portion 32 is moved to In the downward direction, the connecting portion 33 is also moved to the movable portion 使 锁 承 承 ρ 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 The locking portion of the printed wiring board is locked. The operation portion 3 of the lock release σρ 3〇 is such that one end of the self-end 3U is abutted as shown in FIG. The upper end surface portion of the shell u is formed with the other end of the joint P32 as an elastically displaceable inclined plate portion. 1 When the operation portion 31 is pressed 2 in the direction toward the inside of the conductive shell, the operation portion The other end of the inclined plate-like portion formed by 31, that is, the portion 32, is elastically displaced to the direction toward the conductive core, thereby snagging the portion 3! The upper part of the outer casing u (four) face 'and the part of the f-shaped shell 14 (10) protrudes outwards 21 201223015 The second wide part 3i is no longer subjected to the direction toward the inside of the conductive shell i4: The other end of the inclined plate-like portion formed by the portion 31 is elastically displaced and restored to the outside of the conductive shell 14 with the movable portion 32, whereby the entire inclined plate portion is entirely from the upper end surface portion of the outer casing u. The amount of protrusion of the portion of the insulating case 14 to the outside is large. The movable portion 32' extending from the operating portion 31 of the lock releasing portion 30 to the conductive case (4) is as shown in Fig. 9 showing a cross section of the Ιχ_Ιχ line in Fig. 4 . , in the state in which the wall portion 35 in the left end portion of the outer shouting n is docked, as follows, The upper and lower θ VII ith and the lower direction are formed. Further, the movable portion 32 is formed with the merging portion 36, and the wall portion 35 of the outer casing u is formed with the engaging portion θ corresponding to the movement of the movable portion 32 to form the engaging portion %. In a state in which the engagement is engaged with each other, the engagement portion 36 is disposed so as to pass over the engagement portion 37. As shown in FIG. 1A in an enlarged manner in the frame p in FIG. 9, the engagement portion is formed in the engagement portion of the movable portion 32. 36 is provided to form a protrusion, and the engaging portion 37 formed in the wall portion 35 of the outer casing U is provided to move the movable portion 32: that is, an elongated ridge is formed in the up and down direction 'the elongated ridge For example, the i-th inclined surface 37a and the second inclined surface 37 which sandwich the angular direction extending in the orthogonal direction are formed. Further, the first tilting of the engaging portion 37, the surface 37a' is formed when the pressing portion of the locking portion 3 is biased toward the inside of the conductive shout 14, and is formed to move downward thereto. The engaging portion 36 of the movable portion 32 in the direction is a rising inclined surface, and the second inclined surface 37b of the engaging portion" is no longer subjected to the conductive housing 14 at the operating portion η of the unlocking portion 3 In the pressing force in the inner direction, the card 22 201223015 joint portion 36 formed in the movable portion 32 that moves in the upward direction with the elastic recovery operation portion 31 is a rising slope. Under the premise, the engaging portion 37 The inclination of the first inclined surface 37a of the middle arm is set to be larger than the inclination of the second inclined surface 37b of the flute in the engaging portion 37. That is, the first inclined surface 37a has a large inclination. The second inclined surface 37b has a small inclination. Thereby, the shape # is also wrong, and the engaging portion 36 formed in the movable portion 32 is moved in the movable portion 32, and the bottom portion is moved downward. When the direction is over the engaging portion 37, the resistance received from the engaging portion 37 is six, and the resistance of (2) is more than _32 (four) to upward. In the case of crossing the engaging portion 37, when the person is over, the resistance received from the engaging portion 37 is large. As a result, the pressing force in the direction toward the conductive J is provided. When the operation portion 31 of the unlocking portion 30 is locked, when the engaging portion 36 formed in the movable portion 32 that moves in the downward direction passes over the engaging portion 37 formed in the wall portion 35 of the outer casing n, π is also... a clear click feeling is obtained in the daytime, and the operation of the lock release portion 30 is performed. 卩3 1 is no longer subjected to the pressing force in the direction toward the inside of the conductive device 14, and the operation is performed. When the gentleman 铞1乍邛31 is restored, the engaging portion 36 formed on the moving σρ 32 with the movement to the downward direction can be obtained, and smoothly formed over the wall of the outer casing U. In the state of the engaging portion 37 of the shape ο| ί 35, as shown in Fig. 17 which will be described later, the movable portion of the lock releasing portion 30 is two in the outer casing η, that is, the outer casing side, that is, the outer casing In the u, the plate-shaped member insertion portion 12 is provided, and the 端& Αιτ, the face-side side surface portion 32a is disposed close to the front surface of the casing 11. The position of the back surface portion of the end surface portion is "a". Therefore, when an external force to be moved to the front side end surface side of the outer casing 11 acts on the movable portion 32 in the lock releasing portion 30, the end surface portion thereof is Abutting against the front side end surface of the outer casing, the rear surface portion of the p is positioned to restrict the position of the movable portion η. As a result, the movable portion η, 23 201223015 or the lock release in the lock release portion 3 can be released. The entire portion 30, even the locking portion 20' coupled to the lock releasing portion 3', prevents undesired displacement or deformation (for example, has been inserted into the outer casing via the plate-like member insertion portion 12 by the locking portion 2' In the state in which the flexible printed wiring board constituting the wiring board member is locked, the force is applied to the flexible printed wiring board in the direction in which the outer casing is pulled away. At the left end portion of the conductive case 14 at the side surface portion 38 of the conductive case 14 covering the left end surface portion of the outer casing u, an insertion engaging projection portion 39 into which the slit is inserted is formed, wherein the slit is formed in the outer casing The part of the front side of the face. This punching, as shown in Fig. 7, is a portion 丨5D of the conductive shell 14 covering a portion on the back side end surface side of the lower end surface portion of the outer casing n, and a conductive portion covering most of the upper end surface portion of the outer cymbal 11 Portions of the case 14 are also respectively formed with insertion engaging projections 15a and 15b which protrude from the slits and are inserted into the slits of the front surface j of the outer casing u. Formed on the conductive shell 14 <The lock releasing portion 3 of the right end portion is also formed in the same manner as the lock releasing portion formed on the left end portion of the conductive crucible 14 and is locked to the left end portion of the conductive case 14 The neighbor 30 is released in the same manner. Further, although the illustration has been omitted, the wall portion 35 in the right end surface portion of the outer casing U formed by the movable portion h in the lock releasing portion 3 () formed at the right end portion of the = casing 14 is also formed. : The engaging portion of the engaging portion 36 of the portion 32 is the same as that of the engaging portion 36 of the portion 32. However, the drawing is omitted, but at the right end of the conductive shell 14, on the right side of the covering of the 24th 201223015 side end face &; i < The side surface portion 38' of the conductive case 14 is also formed with an insertion engaging projection portion 39 which is inserted into the slit, and the slit is provided at a portion which forms the front end side surface portion of the outer casing 11. As described above, in the connector device 10, both end portions of the conductive shell 14 partially covering the surface of the outer casing 11 in the L· direction are integrally formed on the conductive shell 14, and are respectively provided. The lock portion 2G and the lock release are shown in FIG. 12, which is a flexible example of a flexible printed wiring board constituting the wiring board member, which is inserted into the outer casing 11' of the connection device 1 via the plate-like member insertion portion 12. The printed wiring board 4〇. On the surface of the surface side of the flexible printed wiring board 4 shown in FIG. 11, a plurality of connection terminal portions 4 each formed of a conductive plate material and arranged in a strip shape are arranged in line at the end portion thereof. The surface on the back side of the flexible printed wiring board 40 shown in FIG. 12 is provided with a ground connection portion 42 at its end. The flexible printed wiring board 40 having the surface on the front side and the back side is respectively disposed on the opposite side edge portion of the plurality of connection terminal portions 41 which are arranged on the surface side. The portion where the engaging portion 43 and the engaging portion 44' are formed from the engaging portion 43 of the pair of side edge portions from the front end side is provided so that the front end is flat (four) 45' and is from the other side of the pair of side edge portions. The portion of the engaging portion 44 that is on the front end side is provided as a front end flat plate portion 46. In addition to the flexible printed wiring board 40, the pair of engaging portions 43 and the engaging portions may be provided with slits in the flexible printed wiring boards 4 to 44, respectively. A pair of engaging holes each having a pair of side edge portions are formed. In this case, a plurality of connection terminals 42 disposed on the surface side of the surface 25 201223015, and a ground connection portion disposed on the surface on the surface side, and the paired engagement portion 43 and the engagement portion are formed, and the connection is continued. , M is a cover film (c〇verfUm) for the other part of the 孔5 hole. Fig. 1 3 shows the flexible printed wiring board which is not covered by the slab. The state in which the element insertion portion 12 is inserted into the connector device. Fig. 13 t shows that a plurality of connection terminals are disposed on the flexible printed wiring board 4 且 = a cover film 47 =: surface side. The table of the multiple disk is shouted 11 when the flexible printed (four) wire substrate 4Q is externally inserted into the connector device 10 via the plate member insertion portion, as shown in FIG. 14 showing the Xlv_xiv line profile in FIG. , feeding < Φ』, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The elastic support portion of the locking portion 21. The locking portion 20 is configured such that the locking portion 21 is disposed such that the inclined surface 21a formed therebetween faces the plate-shaped member insertion portion 12 provided in the outer casing 11 and has its apex portion. The inner surface of the outer casing u is maintained, and the conductive shell 14 is integrally formed, and the operation portion 31, the movable portion 32, and the continuous portion 33 that connects the movable portion 32 to the elastic support portion U of the lock portion 2A are provided. In the lock release portion 30, the entire inclined plate-like portion formed by the operation portion 31 is provided so that the portion i5u of the conductive case 14 is large in the outward direction. Next, for the connector device 准备 prepared in this manner, first, as shown in FIGS. 15 and 16, the card is formed in the left side of the connector device 1 ,, and the card of the locking portion 20 is formed. A portion of the inclined surface 2U in the stopper portion 21, 26 201223015 is abutted from the side of the portion 15D (17) of the conductive shell 14 covering a portion on the back side end surface side of the lower end surface portion of the outer casing 11 The engaging member insertion portion 12 is inserted into the front end flat plate portion 45 of the distal end side of the engaging portion 43 of the flexible printed wiring board 4 of the casing 11. At this time, the card portion 21 of the locking portion 2 is directed toward the lower end surface portion of the outer casing 11 by the front end flat portion 45 of the flexible printed wiring substrate 4Q, that is, pressed downward, with the locking portion The elastic support portion 22 of the second crucible is elastically deformed to be displaced toward the position on the side of the side surface of the outer casing u. Further, although the illustration has been omitted, the right end portion forms a locking portion, but the portion of the inclined surface 21a of the locking portion 21 of the outer casing n 2 in the connector device 10 also covers the lower end surface of the casing U. A portion 15D of the conductive case portion of the portion on the back side end surface side of the portion (the paste abuts on the engaging portion 44 in the flexible printed wiring substrate 40 inserted into the case U via the plate member insertion portion 12 The front end flat portion 46 of the front end side is provided. The locking portion 21 of the locking portion 20 is pressed toward the lower end surface portion of the outer casing u by the front end flat plate portion 46 of the flexible printed wiring board 4, as The elastic portion of the elastic supporting portion 22 in the locking portion 2 is, in the shape of a flat, displaced to the position on the lower side end surface side of the outer casing 11. At this time, the downward displacement is strong. , 14 proud women, <The stress generated by the deformation of the II is applied to the elastic branch of each of the lock portions 20, and the ridge 22 is taken, but since the elastic support portion 22 is provided with a narrow bulge which is bent upwards, the shirt is bent. The narrowed portion 23 of the minute portion is thus subjected to the stress acting on the elastic supporting portion 22, and the τ #丄' is not concentrated on the left side of the portion 15D of the conductive shell 14 respectively. The base portion of the elastic support portion 22 of the 卩1 7 and the right end portion 18 is dispersed in the entire elastic support portion 22 of the elastic support portion 22 through the narrowed portion 23 having the reduced 枓Ρ # & Therefore, the occurrence of the elastic restoring limit is avoided. The base plate of the elastic support portion 22 is prevented from being formed: and the type 4' is respectively printed by the flexible printed wiring board 4°:= the locking portion of the second locking portion 2〇 21 is with the lock... . The elastic deformation of "2 is displaced to the position of the lower end surface of the outer casing 1: ', thereby being coupled to the lock portion 2. As shown in Fig. 16, the interlocking portion 30 is formed as shown in Fig. 16. The entire operation portion 31 of the plate-shaped locking portion 30 is formed in the conductive casing 14. The state where the protrusion of the knife 1 5U is small is small. Inserting the inside of the outer casing U into the flexible printed wiring base day as shown in FIG. 17, the locking portion 20 is formed at the eight-side end portion of the outer casing in the connector device 10. The portion of the inclined surface 21a of the locking portion 21 is detached from the front end flat plate portion 45 of the flexible printed wiring board 40, and is moved upward by the elastic recovery of the elastic support portion 22 in the lock cymbal 20 The position (original position) away from the portion 15D of the conductive case 14 is displaced, and the engaging portion 43 that is engaged with the flexible printed wiring board 4 is locked by the flexible printed wiring board 4 . Further, although not shown, the portion of the side portion of the outer casing u of the connector device 1 that forms the inclined surface of the locking portion 21 of the locking portion 2 is also printed from the flexible side. The front end flat plate portion 〇 of the wiring board 4 粍 is displaced upward by the elastic recovery of the elastic support portion 22 in the lock portion 20 to be displaced to a position (original position) away from the portion 15D of the conductive case 14 The engaging portion 44, 28 201223015, which is engaged with the flexible printed wiring board 40, locks the flexible printed wiring board 4A. At this time, the flexible printed wiring board 4 is completed, that is, the insertion of the board-shaped member insertion portion 12 into the outer casing 11 is completed, and a normal insertion position is formed, and the pair is locked by the conductive shell 14 The part 2 is locked and is in a state that prevents undesired withdrawal from the outer casing. In other words, the flexible printed wiring board 40 is appropriately inserted into the casing 11 only via the plate-like member insertion portion 12, and is formed on the locking portion 20 of the conductive casing 14, that is, it can prevent the non-detachment from the casing. The state of desire to withdraw. At this time, as described above, the elastic support portion 22 of the lock portion 2 is elastically restored upward, and the other end of the inclined plate portion formed by the operation portion 锁 of the lock release portion 3 is The outer side of the conductive case 14 is elastically displaced and restored, and the connecting portion 33, the movable portion 32, and the operation portion 31 of the lock releasing portion 30 coupled to the elastic support portion 22 of the lock portion 20 are displaced upward. As a result, as shown in Fig. 9, the entire operating portion 31 of the inclined plate-like portion in the lock releasing portion 30 is in a state in which the amount of protrusion outside the portion 丨5 of the conductive case 14 is large. In this manner, the plurality of contacts 1 arranged in the outer casing 1 are arranged on the premise that the flexible printed wiring board 4 is inserted into the outer casing 11 by the insertion of the plate-shaped member insertion portion 12 to form a normal insertion position. 3, that is, from the portion 15U side of the conductive case 14, respectively, elastically abuts and contacts a plurality of connection terminal portions 41 connected to the surface of the surface of the flexible printed wiring board 40 which is disposed after being inserted into the casing 11. Thereby, a plurality of connection terminal portions 4 1 of the flexible printed wiring board 40 inserted into the outer casing 1 are connected to the wiring end 29 provided on the main wiring substrate on which the casing 11 is disposed through a plurality of contacts 13 201223015 child. In the case of this, as shown in FIGS. 6 and 7, a plurality of grounding contacts 丨6 extending from the portion 15b of the conductive shell 14 into the outer casing 11 are formed from the conductive shell 14. The portion 1 5D side elastically abuts and contacts the ground connection portion 42 that is connected to the surface of the back side of the flexible printed wiring board 4 that is inserted into the casing 11. Thereby, the ground connection portion 42 of the flexible printed wiring board 40 inserted into the casing is connected to the ground terminal provided on the main wiring substrate on which the casing U is disposed, through a plurality of grounding contacts 丄6. Then, the left side end portion and the right end portion of the outer casing U of the connector device are formed in a state in which the amount of protrusion outside the portion i5u of the conductive case 14 is large, and the lock releasing portion 3 is configured. When the pressing portion 3! of the inclined plate portion of the crucible is subjected to the pressing force toward the side of the conductive shell μ, the operation portion 31 is at the end of forming the free end... Π: Under the premise of the upper end surface portion of the U, the elastic deformation of the lower end portion is caused, and the operation portion 31, the movable portion 32, and the soft portion 2 of the joint portion 33 of the lock release portion 30 are formed. The elastic support portion 2: ^ plus, even if it moves downward: this? The portion of the conductive case 14 is locked by the locking portion of the connecting portion 33: this is connected to the lock release device. With the support of the lock, the two support portions 22 are elastically deformed. I5 2 1 is displaced downward. The locking portion 21 of the downwardly displaced locking portion 2A is moved downward [the support portion 22' is displaced by the position supported thereby. By this, the lower side of the outer surface of the outer casing 11 is second, whereby the portion of the locking portion 2 〇 the inclined surface 21a and the shackle #2 are released, that is, the engagement in the flexible printed wiring substrate 4 is released. The engagement of each of the portions 43 30 201223015 and the cassette 4 44 releases the flexible printed wiring board 4 卡 from the locking portion 20 . Thereby, the flexible f I5 brush wiring substrate 40 inserted into the casing 11 is in a state of being detachable from the casing 丨丨. At this time, since the elastic support portion 22 in the lock portion 2 is provided with a narrowed portion U which is formed in a narrow portion which is curved upward, it acts, and the support portion 22 is made The stress of the elastic deformation of the downward displacement is concentrated on the left end of the portion i5D which is respectively coupled to the conductive shell 14. "7 and the base portion of the elastic support portion 22 of the right end portion i8, or the connection portion of the elastic support member 22 and the locking portion 21, and the narrowing of the transmission rigidity reduction 23 is dispersed in the entire elastic support portion 22 . Thereby, it is avoided that the elastic restoring limit is exceeded at the joint portion of the elastic support portion 22 or the joint portion with the locking portion 21. Further, at this time, the operation portion 31 of the lock release portion 30 receives the orientation, and the pressing force in the direction of the inner call 14 is set to the engagement portion 36' of the movable portion 32 that is unlocked by the downward movement. The side of the inclined surface 37a formed by the engaging portion 37 is engaged with the engaging portion 37 formed in the wall portion 35 of the outer casing that the movable portion 32 abuts, and is in a state of passing over the engaging portion 37. 1 [匕], since the first inclined surface 37a formed by the engaging portion 37 has a large degree and a degree, the pressing force in the direction toward the inside of the conductive suction 14 is applied to the operating portion 3 of the lock releasing portion 30. When the engaging portion 36 provided in the movable portion 32 passes over the engaging portion 37 formed in the wall portion 35 of the outer casing u, the operator can obtain a clear click feeling. Furthermore, the 'example #' is no longer subjected to the conductive shell when the operating portion 构成, 31 201223015, which constitutes the inclined plate portion in the lock releasing portion 30, is removed from the outer 35u & When the operation portion D in which the elastic deformation is generated in the 14 is repeatedly applied, the elastic restoring force of the lock releasing portion 3 and the elastic portion 22 of the positive portion 20 and the operation portion 3 of the connecting portion 33 are formed mainly by the elastic restoring force. The movable portion 32, even if it is moved upward by the portion of the conductive shell 14, is divided into 15U and the original *P 31 returns to the original position where the large amount of the conductive shell I4 is large. On the same day, the temple of the lock release unit 30 is elastically deformed by the connection, and the elastic support portion 22 with the V=stop is displaced upward by the locking portion 21 supported by the main body. The second inclination formed by the engagement portion 37 of the movable portion 32 of the lock release releasing portion 30 that is moved upward is engaged with the card "37" that is formed in the wall portion of the outer casing u that the movable portion 32 abuts. The engagement portion 36 of the movable portion η is placed over the engagement portion η formed in the outer wall portion of the outer casing, and is formed by the engagement portion 37. The inclined surface 37b has a small inclination and can be smoothly formed. Further, one of the pair of flexible printed wiring boards 4'' is folded to form a pair of cards instead of the pair of notched portions. In the case of the merging, the locking portion 2 卡 can be locked to the flexible printed wiring board 4 、 and the lock releasing portion 30 can be used to cancel the locking of the locking portion 2 与. The flexible printed wiring board 40 constituting the wiring board member is inserted into the housing 10 using the above connector device 10 In the meantime, the printed circuit board 40 is printed by the interchangeability 32 201223015 inserted into the outer casing U through the plate-shaped member insertion portion 12 provided in the outer casing 11, and the locking portion 2 is formed in the conductive case 14 to be locked and transmitted. The lock releasing portion 3 is formed in the conductive case 14 to release the locking of the locking portion 20, but the locking portion 20 and the lock releasing portion 3 for this purpose can be formed in the conductive case 14 In other words, the number of parts can be reduced and the overall size of the connector device 10 can be further reduced. Further, the flexible printed wiring board 4 inserted into the casing 1 is locked and permeable to the lock portion 2G. When the lock release portion 3G releases the lock of the lock portion, for example, it is not necessary to provide the conductive case 14 to be slidable to the outer casing, except that it is not necessary to provide an actuator that is provided to be rotatable. Further, the conductive case 14 to which the case η is fixed, and (4) can be fixed to the main wiring board as the connector device 10, and it is not necessary to separately provide a member for fixing the connector device 1G to the main wiring board. As a result, the connection is utilized. Device 10, that is, the parts The amount is set to be small to effectively reduce the manufacturing cost. Further, since only the flexible printed wiring board 40 is inserted into the casing η via the plate-shaped member insertion portion 12 provided in the casing 11, the flexible printed wiring board 40 can be flexibly The printed circuit board 40 is integrally formed on the locking portion 2 of the conductive case 14 and is applied to the conductive case 14 only by pressing force in the direction toward the inside of the conductive case 14 . Further, the operation portion 3 i that is connected to the outside of the conductive case 14 in the lock portion 30 of the lock portion 2G can be released from the lock portion 2G to the flexible printed circuit board 4 (). Therefore, the locking of the flexible printed wiring board 40 by the locking portion 2 can be released by an extremely simple operation, and there is no need to provide an undesired space around the locking solution for this operation. 33 201223015 Further, since the locking portion 2 is integrally formed in the conductive case 14, the housing 11 is provided with a locking portion 21 and an elastic supporting portion U, wherein the locking portion 21 is engaged with The engaging portion or the engaging portion 45 of the flexible printed wiring board 40 in which the outer casing 11 is inserted through the plate-like member insertion portion 12 is formed in a state in which the flexible printed wiring board 4 is locked: the elastic support The portion 22 extends from the conductive case 14 and supports the locking portion 21 so as to be displaceable, and the elastic support portion 22 is integrally formed in the lock releasing portion 3 of the conductive case 14 so as to be relatively simple. The locking of the flexible printed circuit board 4G and the release of the locking of the locking portion 2 by the locking portion 2G can be surely performed. In addition, the lock releasing portion 3 that is integrally formed in the conductive case 14 is provided with the movable portion 32 and the connecting portion 33 in addition to the operation portion 31, wherein the movable portion 32 is from the operating portion 31. a wall portion 35 extending into the conductive housing and (4) in the outer casing u, the connecting portion 连结 connecting the movable portion 32 to the elastic supporting portion 22 of the locking portion 2G, and being received toward the conductive shell 14 at the operating portion μ When the pressing force in the inner direction is elastically displaced, the movable portion Μ and the connecting portion 33 are elastically displaced, and the locking portion 2 具有 having the transmission connecting portion 33 coupled to the elastic supporting portion 22 of the movable portion 32 releases the flexibility. Since the printed wiring board 40 is locked, the lock portion 20 can be easily and surely pressed by the operation portion 31 in the lock release portion 3 to perform the flexible printed wiring board 40 on the flexible printed wiring board 40. The release of the card. Further, the operation portion 31 is integrally formed in the lock releasing portion 3 of the conductive case 14 to form an inclined plate-like portion that protrudes beyond the conductive case 14, and the operation portion 31 is not exposed to the conductive portion. When the pressure in the direction of the inside of the shell 14 is 34 201223015, the entire inclined plate-like portion formed by the operation portion 31 is provided so that the amount of protrusion outside the conductive shell 14 is large, and in the operation portion. When the pressing force in the direction toward the inside of the conductive casing 14 is received, the other end of the inclined plate portion is elastically deformed in the direction toward the inside of the conductive casing 14, and the entire inclined plate portion formed by the operating portion , is set to The amount of protrusion to the outside of the conductive shell is small, and then 'when the operating portion 31 is no longer subjected to the pressing force, the other end of the inclined plate portion is toward the conductive shell 14 <The outer side is elastically displaced and restored, whereby the operation portion η in the lock release portion is in the conductive case 14 on the premise that the flexible printed wiring board 4 is inserted into the case U via the plate-like member insertion portion When the amount of protrusion of the outer side is set to be large, the locking of the flexible printed wiring board 4 () by the lock portion 20 in the casing η is appropriately performed. Therefore, the slanted plate-like portion formed by the visual operation portion 从 from the outside of the conductive casing 14 can easily and quickly and accurately confirm that the locking portion 20 is in the outer casing 11 to the flexible printed wiring substrate 4 The state in which the card has been properly carried out. [Embodiment 2] FIG. 19 is a perspective view showing a connector device of the present invention, and FIG. 19 (partial cross-sectional view) showing a second example of a connector device of the present invention. ', in the front view of the connector device 5 shown on the right side in Fig. 18, the left side is referred to as the left or left side, and #$ $ > the right side is referred to as the right or right side, and the upper side is referred to as the upper side. Or the upper side, the lower side is referred to as the lower or lower side. ^8 and the connector device 5' shown in Fig. 19 have the same number of connector devices 10 as the first example of the connector device of the present invention. 35 201223015 In the connector device 5 of Fig. 18 and Fig. 19, the parts and members corresponding to the respective portions of the connector device 10 and the respective materials 1 (four) are denoted by the same symbols as those of the device 2, for In the connector device 50, the lock release portion 3Q formed on the left (four) portion and the right end portion of the conductive case 14 is provided in addition to the operation portion Η, the movable U, and the connection portion 33, A tongue piece 51 having a return spring function is provided. The elastic tongue piece 51 is formed in the inclined plate formed by the operation portion, extends from the end portion of the inclined plate portion connected to the movable portion U, and abuts one end of the free end 51a in the outer casing n. Upper face. In this manner, the operation portion 31 constituting the inclined plate portion of the lock releasing portion 弹性 of the elastic tongue 51 is provided in a state in which the amount of protrusion outside the portion 15U toward the conductive case is set to be large. On the premise of the operation, when the pressing force is applied to the direction toward the inside of the conductive casing 14, the operating portion 31 of the inclined plate portion is formed, that is, one end of the forming free end is abutted to the outside: On the premise of the upper side end surface of the upper surface portion 11 , the elastic tongue piece 51 is elastically deformed downwardly, and the elastic tongue piece 51 is formed on the premise that the end forming the free end 51 a abuts against the upper side end surface of the outer casing 1 1 It is elastically deformed toward the displacement. Thereby, the operation portion 3 constituting the lock release portion, the elastic tongue piece 51' movable portion 32, and the entire joint portion 33, that is, the swing of the elastic support portion 22 connected to the lock portion 2 of the joint portion 33, The portion 15D facing the conductive case 亦, even if it moves downward, the elastic support portion 22 of the lock portion 20 connected to the joint portion 33 of the lock release portion 3 is elastically deformed by the same. The locking portion of the support is then displaced downward when the operating portion 3 of the lock releasing portion 30 is downward. In the case of the (four) force in the direction of the inner casing, the main force 31 is again subjected to an elastic restoring force which is elastically deformed toward the guide portion 31, the elastic tongue 5, and the lock core, and constitutes the lock releasing portion 3 The elastic support portion 22 51, the movable portion 32, and the joint portion 33 as a whole, and the elastic support portion 22 of the lock portion 2G of the elastic tongue piece 33 are connected to the portion 15U of the joint portion 14, even if its θ h # b , and facing the conductive shell knife, even if it moves upward, part of the electric housing 14 丨 5U $ 31 returns to the guide, and the outside of the knife protrudes. Thereby, the elastic support portion 22 which is connected to the lock release portion 3 is formed into a large in-situ elastic support portion 22, that is, the lock portion 2 of the elastic member 33 is displaced upward. (4), and with the support thereof When the card is locked, the piece 51, the movable portion 32, and the connecting portion 3 are used to release the lock tongue 51, and the elastic month liver is 30%. The reset force is strong, and the third portion 32 of the operation portion 3 constituting the lock release portion 30 and the entire joint portion 33 are moved more quickly and surely, and the twisting portion 31 is returned to the conductive shell (4). # TM ^ The action of the outer edge of the 15U 邛 成 成 较大 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = The third embodiment of the connector device of the present invention performs the same function. (10) The same structure is used, and the same operation is performed. [Embodiment 3] 37 201223015 FIG. 20 (a perspective view seen from the back side) shows a connector constituting the present invention. The connector device 6 of the third example (Example 3) of the device. Further, for convenience, the needle The connector device 60 is also referred to as the left or left side from the front side of the connector device 60 shown in the upper side of FIG. 2, and the right side is referred to as the right or right side, and the upper side is referred to as the upper or upper side. The lower side is referred to as the lower or lower side. The connector device 6A shown in Fig. 20 has a plurality of parts which are configured in the same manner as the connector device 1 of the first example of the connector device of the present invention. 20 and FIGS. 21 to 23, the connector device 6 and the portions and members corresponding to the respective portions and the members of the connector device 10 are denoted by the same reference numerals as the connector device 10, and the repeated descriptions thereof are given. In the connector device 60, the left side end portion and the right end portion of the conductive case 14 are respectively provided with a wall portion which is folded away from the back side portion of the side surface portion 38 to the inside of the conductive case 14 and extends. 61. The wall portion 6 provided in the conductive shell μ is clearly shown in the left end of the conductive shell 14 provided in the table connector device (10) _ 21 and FIG. 23, and includes the figure η XXII-XXII Figure 22 of the line section. At the left end of the conductive shell 14, from the side portion 38 The back side portion is folded back to the wall portion 61 formed by the conductive case 14, and the insect is shown in a shape in which the wall portion 35 in the outer casing is sandwiched by the side surface portion 38. The locking portion 36 is formed with the engaging portion 36; the wall portion is connected to the wall portion 61. ^ Here, the conductive housing 14 is formed in the moving direction of the locking releasing portion, that is, the wall in the vertical direction. The movement of the engaging portion 36 of the movable portion 32 as shown in Fig. 22 and Fig. 23 is formed, for example, in the direction intersecting with the orthogonal intersection 38 201223015. The movable portion 32 62 ' is correspondingly movable 36. The extended portion of the engaging portion 62 constituting the elongated ridge. Further, the engagement portion 36 and the engagement portion 32 formed in the wall portion 61 are engaged with each other, and the engagement portion passes through the engagement portion 62. The engagement portion 36 formed in the movable portion 32 of the lock release portion 30 and the engagement portion 62 formed in the wall portion 61 of the conductive case 14 function as the connector device 10 described above. The lock releasing portion 3 can be configured such that the engaging portion 36 of the portion 32 and the engaging portion 37 formed in the wall portion 35 of the outer casing u perform the same function, for example, 'the direction of the inner portion facing the conductive shell 2 When the pressing force is applied to the operating portion 锁 of the lock releasing portion 3, the engaging portion 36 formed in the movable portion 32 passes over the engaging portion 62 formed in the wall portion 61 of the conductive body 14 , you can get a clear sense of click. Further, although the illustration is omitted, the right end portion of the conductive case 14 is also formed on the wall of the conductive case 14 in the same manner as the wall portion 61 provided on the left end portion of the conductive case 14. The movable portion 32 in which the engaging portion 36 is formed in the lock releasing portion 3 is abutted against the movable portion 32, and the engaging portion 36 and the engaging portion 62 formed in the wall portion 61 correspond to each other. The movement of the movable jaws 32 forms a state of mutual engagement, and the engaging portion 36 is disposed to pass over the engaging portion 62. The other parts of the connector device constituting the third example of the connector device of the present invention are configured in the same manner as the corresponding portions of the connector device 1G of the third example of the connector device of the present invention, and operate in the same manner. And play the same role. 39 201223015 The connector device of the present invention is a connector device for mounting a wiring board member formed as a flexible printed wiring board or the like on a main wiring board, and includes a housing and a plate member insertion. a plurality of contacts arranged in the outer casing; and a conductive shell partially covering the surface of the outer casing; no need to provide a rotatable actuator to the outer casing, and the conductive shell is not required to be disposed By rotating the outer casing, the number of zeros can be set to be small, and further miniaturization and manufacturing cost reduction can be achieved, and there is no need to rotate the actuator or the conductive shell. The undesired space is provided around the connector device, and can be widely applied to various electronic devices and the like. BRIEF DESCRIPTION OF THE DRAWINGS The front side of an example is a back side of one example. Fig. 1 is a perspective view showing a first view of the connector device of the present invention. Fig. 2 is a perspective view showing the connector device of the present invention. Fig. 4 is a plan view showing a first example of the connector 奘m丄 receiving device of the present invention. Fig. 5 is a bottom view showing the connection nightmare of the present invention. Figure 6 is a cross-sectional view showing a portion of the electrical housing of the nth column of the connector device of the present invention. Figure 8 is a partial perspective view showing a portion of the connector of the present invention.
之導電性殼之一部分之— 之第1例所I I刀口ij面的局部立體圖。 圖9係表示圖4中之 之ΙΧ·ΙΧ線剖面的剖面圖。 40 201223015 圖ίο係表示分別設於本發明之連接器裝置之第丨例所 具備之鎖止解除部及外殼之相互卡合部的局部放大剖面 圖。 圖11係從表示插入本發明之連接器裝置之第丨例之可 撓性印刷配線基板之表面側觀看的立體圖。 圖12係表示從插入本發明之連接器裝置之第1例之可 撓性印刷配線基板之背面側觀看的立體圖。 圖13係表示於本發明之連接器裝置之第丨例插入可撓 性印刷配線基板後之狀態的立體圖。 圖 14係表示圖3中之χιν-χιν線剖 面的剖面圖。 圖15係表示處於對本發明之連接器裝置之第 可撓性印刷配線基板途中之狀態的局部剖面圖。 圖16係表示處於對本發明之連接器裴置之第 可撓性印刷配線基板途中之狀態的局部剖面圖。 1例插 1例插 入 入 即圖17係表示完成可撓性印刷配線基板對本發明 例之插入,並藉由該第1例所具備之鎖止部 圖卡止可挽性印刷配線基板後之狀態的局部剖面 圖18係從表示本發明之連接器裝置之第2 觀看的立體圖。 圖19係表示本發明之連接 部剖面圖。 圖2〇係從表示本發明之連接器裝置之第 觀看的立體圖。 例之正面側 器裝置之第2例之局部的局 例之背面側 201223015 圖2 1係表示本發明之連接器裝置之第3例所具備之導 電性殼之一部分的局部立體圖。 圖22係表示包含圖21中之XXII-XXII線剖面之本發 明之連接器裝置之第3例所具備之導電性殼之一部分的局 部立體圖。 圖23係表示包含本發明之連接器裝置之第3例之局部 之一部分剖面的局部前視圖。 【主要元件符號說明】 10, 50, 60 連接器裝置 11 外殼 12 板狀構件插入部 13 接觸件 14 導電性殼 16 接地用接觸件 20 鎖止部 21 卡止部 22 彈性支承部 23 窄縮部 30 鎖止解除部 31 操作部 32 可動部 33 連結部 35, 61 壁狀部 36, 37, 43, 44, 62 卡合部 42 201223015 38 (導電性殼之)側面部 40 可撓性印刷配線基板 41 連接端子部 42 接地連接部 45, 46 前端平板部 47 覆蓋膜 51 彈性舌片 43A partial perspective view of the first imaginary surface of the first example of the conductive shell. Fig. 9 is a cross-sectional view showing a cross section of the ΙΧ·ΙΧ line in Fig. 4; 40 201223015 FIG. 1 is a partially enlarged cross-sectional view showing a lock releasing portion and a mutual engagement portion of a casing provided in a third example of the connector device of the present invention. Fig. 11 is a perspective view, as seen from the front side of the flexible printed wiring board of the third example of the connector device of the present invention. Fig. 12 is a perspective view showing the back side of the flexible printed wiring board of the first example in which the connector device of the present invention is inserted. Fig. 13 is a perspective view showing a state in which the flexible printed wiring board is inserted in the third example of the connector device of the present invention. Figure 14 is a cross-sectional view showing a section of the line χιν-χιν in Figure 3 . Fig. 15 is a partial cross-sectional view showing a state in the middle of the flexible printed wiring board of the connector device of the present invention. Fig. 16 is a partial cross-sectional view showing a state in the middle of the flexible printed wiring board to which the connector of the present invention is placed. FIG. 17 shows the state in which the flexible printed wiring board is inserted into the example of the present invention, and the state in which the printable printed circuit board is printed by the lockable portion shown in the first example is locked. A partial cross-sectional view 18 is a perspective view from the second view showing the connector device of the present invention. Fig. 19 is a cross-sectional view showing the joint portion of the present invention. Fig. 2 is a perspective view showing the connector device of the present invention. The back side of a part of the second example of the front side device of the example 201223015 Fig. 2 is a partial perspective view showing a part of the conductive case provided in the third example of the connector device of the present invention. Fig. 22 is a partial perspective view showing a part of a conductive case provided in a third example of the connector device of the present invention including the XXII-XXII line in Fig. 21; Fig. 23 is a partial front elevational view showing a part of a section of a third example of the connector device of the present invention. [Main component symbol description] 10, 50, 60 Connector device 11 Housing 12 Plate member insertion portion 13 Contact member 14 Conductive case 16 Grounding contact member 20 Locking portion 21 Locking portion 22 Elastic support portion 23 Narrow portion 30 lock release portion 31 operation portion 32 movable portion 33 connection portion 35, 61 wall portion 36, 37, 43, 44, 62 engagement portion 42 201223015 38 (conductive shell) side portion 40 flexible printed wiring substrate 41 connection terminal portion 42 ground connection portion 45, 46 front end flat portion 47 cover film 51 elastic tongue 43