201106547 六、發明說明: 【發明所屬之技術領域】 本發明係關於-種包含與對象側連接器之端子構件電性 接觸之接觸部之連接器、及連接器之製造方法。 【先前技術】 該種連接器揭示於專利文獻丨中。該種先前之連接器之 構成為:於舌片狀之保持部之上下兩面上分別包含與對象 側連接器之端子構件接觸之複數之接觸部。又,如此於保 持部之上下兩面上設置有接觸部之先前的連接器之製造方 法揭示於專利文獻2中。該種先前之連接器之製造方法係 於殼艟之壁上以成為上下兩層之方式分別形成複數之壓入 孔,並從上述壓入孔插入與對象側連接器之端子構件接觸 之端子接觸部、即各個接觸部。 [先前技術文獻] [專利文獻] [專利文獻1]日本專利特開2006-33 191 1號公報 [專利文獻2]日本專利特開2006-100230號公報 【發明内容】 [發明所欲解決之問題] 專利文獻2所揭示的先前之連接器之製造方法中,若考 慮保持部之上下兩面上的複數之接觸部各自之窄間距化而 減小形成接觸部之端子構件之寬度尺寸,則會由於壓入孔 間之壁變薄等而難以向接觸部之壓入孔内進行壓入。由 此,專利文獻2所揭示之製造方法難以應對窄間距化。因 147297.doc 201106547 此 藉由插入成形而 考慮替代如上所述之接觸部之壓入 如此藉由插入成形來製造 之端子構件於模具内配置 於無法在模具内按壓上下 將接觸部設置於殼體上。但是, 連接器時,在將分別具有接觸部 為上下兩層且欲注入樹脂時,由 兩層端子構件之雙方,因此容易導致如下情形:端子構件 會因所注入之樹脂之流動而移動,從而難以精度良好地設 置接觸部。 本發明❹於上述先前技術巾之實m而完成者,其 目的在於提供-種可將於保持部之兩面上分別排列之接觸 部在插入成形時不移動而精度良好地設置之連接器、及連 接器之製造方法。 [解決問題之技術手段] 為達成該㈣,本發明之連接器係在絕緣性之殼體 (h〇uslng)上形成有安裝於對象側連接器(⑶耐之保持 部:於該保持部之兩面中之一方之面上排列有與上述對象 :連接器之第i外部連接端子電性接觸之複數之第i接觸 部,且於上述兩面中之另一方之面上排列有與上述對象側 連接器之第2外部連接端子電性接觸之複數之第淡觸部, 乂連接β之特徵在於··以如τ方式設定上述保持部之上述 第1接觸部與上述第2接觸部之配置關係,即,從與上述對 象側連接器之插拔方向正交之剖面進行觀察時,在與相鄰 之上述第1接觸部間之部分相對向之位置上配置有上述第2 接觸部’並在與相鄰之上述第2接觸部間之部分相對向之 位置上配置有上述第1接觸部。 147297.doc 201106547 於如此構成之本發明之連接器t,在從與對象側連接器 之插拔方向正交之剖面進行觀察 鄰之第2接觸部間,第2接邱、 纟觸部係位於相 弟2接觸部係位於相鄰之 間,因此可利用該第i接觸部之配設 ° 設位置之偏差,一邊經由按壓夾 f 2接觸部之配 觸部之第1端子構件、盘形成第2 制形成第1接 成第2接觸部之第2端子構件各 自之移動-邊進行插人成形,於殼體的保持部之兩面中之 一方之面上可設置第1接觸部,並於另-方之面上可設置 第2接觸部。即,可將於彳辛姓 字於保持。卩之^ Φ上分別排列之 部在插入成形時不移動而精度良好地設置。 按 又,本實施形態之連接器之製造方法之特徵在於包括以 下步驟:以央持形成上述第1接觸部之第i端子構 配置第1按壓:^具與第2按壓夾具,並在藉由該等第i按壓 夾具及第2按壓夾具各自夕空两* 穴畀谷自之犬起而按壓上述第丨端子構 狀態下進行插入成形(insert m〇lding),成形出含有上述保 持部之一分割部分與上述第1接觸部之第1殼體部;及於該 步驟中已成形之上述第!般體部上載置形成上述第2接觸部 之第2端子構件,並在藉由第3按壓夾具按壓該第2端子構 件之狀態下進行插人成形,成形出含有上述保持部之另— 分割部分與上述第2接觸部之第2殼體部。 以此製造連接器之本發明係在成形第丨殼體部之步驟 中,可一邊藉由第丨按壓夾具與第2按壓夾具抑制形成第丄 接觸部之第1端子構件之移動—邊進行插人成形,且在成 形第2殼體部之步驟中,可一邊藉由第1殼體部與第3按壓 147297.doc 201106547 失具抑制形成第2接觸部之第2端子構件之移動—邊進行插 入成形。#,可將於保持部之❺面上分別#列之接觸部在 插入成形時不移動而精度良好地設置。 又本叙月之連接器之製造方法如上述發明,其特徵在 於.於上述第1殼體部形成有收容上述第2端子構件之上述 第2接觸部的收容部,且將該收容部之位置設定為:從與 上述對象側連接器之插拔方向正交之剖面進行觀察時在 與上述第1殼體部之形成於上述保持部之第丨接觸部間對應 的位置上配置有上述收容部。 以此製造連接器之本發明係藉由於插入成形時將第2端 子構件之第2接觸部配置於收容部而可將第2端子構件簡單 地定位於第1殼體部上。並且,將第2端子構件之第2接觸 部配置於第1殼體部之收容部而進行插入成形,藉此,從 與對象側連接器之插拔方向正交之剖面進行觀察時,可將 第2接觸部精度良好地配置於第1接觸部間,且可將第丄接 觸部精度良好地配置於第2接觸部間。 又,本發明之連接器之製造方法如上述發明,其特徵在 於:於成形上述第1殼體部之步驟中,在上述第1殼體部上 形成有與上述第2殼體部卡合之卡合部;於成形上述第2殼 體部之步驟中’在上述第2殼體部上形成有與上述第1殼體 部之上述卡合部卡合之卡合部。 以此製造連接器之本發明可使第1殼體部與第2殼體部經 由各自之卡合部而牢固地一體化。藉此,可獲得於保持面 之兩面中之一方之面上具有第1接觸部、且於另一方之面 147297.doc 201106547 上具有第2接觸部之穩定結構的殼體。 又,本發明之連接器之製造方法如上述發明,其特徵在 於:將具有開口部、且隨著上述對象側連接器之插入而可 移動之擋閘裝入框體之開口部,並於該狀態下將包含上述 第1殼體部與上述第2殼體部之殼體收容於上述框體内,上 述擋閘之開口部係使上述殼體之上述保持部、設置於該保 持部之上述一方之面上之上述第丨接觸部、及設置於上述 保持部之上述另一方之面上之上述第2接觸部能突出。 以此製造連接器之本發明係藉由裝入擋閘而可實現對設 置於殼體之保持部上之第丨接觸部及第2接觸部的保護。 又,本發明之連接器之製造方法之特徵在於:將形成上 述第1接觸部之第1端子構件與形成上述第2接觸部之第二端 子構件疊合配置,並以夾持該等第丨端子構 件之方式配置⑽夹具與第則夹具,利用第:述: 按壓夾具之第丨突起來按壓上述第丨端子構件,使上述第i 按壓夾具之第2突起插通於上述第丨端子構件間而利用該第 1按壓夾具之上述第2突起來按壓上述第2端子構件,並且 利用上述第2按壓夾具之第丨突起來按壓上述第2端子構 件,使上述第2按壓夾具之第2突起插通於上 件間而利用該第2按壓失具之上述第2突起來按歷二 端子構件,於該種狀態下進行插入成形,成形出具有設置 有上述第1接觸部與上述第2接觸部之保持部的殼體。 以此製造連接器之本發明係可一邊藉由第}按壓夾具之 第1突起與第2㈣夾具之第2突起來抑制形成第旧觸部之 147297.doc 201106547 第1端子構件之移動’-邊藉由第2按壓夹具之第i突起與 第!按壓炎具之第2突起來抑制形成第2接觸部之第2端子構 件之移動,並與此同時進行插入成形。即,可將於保持部 之兩面上分別排列之接觸部在插入成形時不移動而精度良 好地設置。而且,#由-次插入成形而可成形出於保持部 之兩面上分別具有接觸部之殼體。 又,本發明之連m造方法如上述發明,其特徵在 於:將具有開口部、且隨著上述對象側連接器 移動之擋閘(shutter)裝入框體之開口#,並於該狀態下將 上述殼體收容於框體内’上述擋閘之開口部係使上述殼體 之上述保持部、設置於該保持部之上述一方之面上之上述 第1接觸部、及設置於上述保持部之上述另一方之面上之 上述第2接觸部能突出。 以此製造連接器之本發明係藉由裝入擋閘而可實現對設 置於殼體之保持部上之第丨接觸部及第2接觸部的保護。又 [發明之效果] 根據本發明之連接器及連接器之製造方法,可將於保持 部之兩面上分別排列之接觸部在插入成形時不移動而精度 良好地設置,且可藉由插入成形而實現一直以來所期望的 接觸部之窄間距化。由此,該連接器之寬度方向之小型化 成為可能。 【實施方式】 以下,根據附圖來說明本發明之連接器及連接器之製造 方法的實施形態。 '47297.doc 201106547 [本發明之連接器之製造方法的 第1實施形態] 圖 明圖 1〜9係本發明之連接器 。圖10係表示於圖3所 用之第1按壓夾具及第2按壓夾具的立體圖 之製造方法之第1實施形態的說 示之第1殼體部之成形步驟中使BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connector including a contact portion that is in electrical contact with a terminal member of a connector on a target side, and a method of manufacturing the connector. [Prior Art] This type of connector is disclosed in the patent document. The prior connector is constructed such that a plurality of contact portions that are in contact with the terminal members of the object side connector are respectively provided on the upper and lower surfaces of the tongue-shaped holding portion. Further, a method of manufacturing a conventional connector in which a contact portion is provided on the upper and lower surfaces of the holding portion is disclosed in Patent Document 2. The prior art connector is manufactured by forming a plurality of press-fitting holes in the upper and lower layers on the wall of the casing, and inserting the terminal into contact with the terminal member of the object side connector from the press-in hole. Department, that is, each contact part. [PRIOR ART DOCUMENT] [Patent Document 1] Japanese Patent Laid-Open Publication No. 2006-33 No. 196 1 [Patent Document 2] Japanese Patent Laid-Open Publication No. 2006-100230 (Summary of the Invention) [Problems to be Solved by the Invention] In the method of manufacturing a connector according to the prior art disclosed in Patent Document 2, it is considered that the width dimension of the terminal member forming the contact portion is reduced in consideration of the narrow pitch of the plurality of contact portions on the upper and lower surfaces of the holding portion. The wall between the press-fit holes is thinned or the like, and it is difficult to press the press-fit holes into the contact portions. Therefore, the manufacturing method disclosed in Patent Document 2 is difficult to cope with narrow pitch. 147297.doc 201106547 It is considered that the terminal member manufactured by the insert molding is replaced by the insert molding, and the terminal member manufactured by the insert molding is disposed in the mold so as not to be pressed up and down in the mold, and the contact portion is provided to the casing. on. However, in the case of a connector, when the contact portions are respectively two layers up and down and the resin is to be injected, both of the two terminal members are used, so that it is easy to cause the terminal member to move due to the flow of the injected resin. It is difficult to provide the contact portion with high precision. The present invention has been completed in view of the above-described prior art, and an object of the present invention is to provide a connector which can be accurately placed without being moved during insertion molding, and a contact portion which can be arranged on both sides of the holding portion, and The manufacturing method of the connector. [Means for Solving the Problem] In order to achieve the above (4), the connector of the present invention is formed in an insulating case (m), and is attached to the target side connector ((3) holding portion: in the holding portion a plurality of ith contact portions electrically contacting the ith external connection terminal of the connector: the surface of one of the two faces, and the other side of the two faces are arranged to be connected to the object side The plurality of light touch portions electrically contacting the second external connection terminals of the device, the connection β is characterized in that the arrangement relationship between the first contact portion and the second contact portion of the holding portion is set as τ, In other words, when viewed from a cross section perpendicular to the insertion/removal direction of the object side connector, the second contact portion is disposed at a position facing the portion between the adjacent first contact portions. The first contact portion is disposed at a position opposite to the portion between the adjacent second contact portions. 147297.doc 201106547 The connector t of the present invention thus constructed is inserted and removed from the connector with the object side. Orthogonal section Between the second contact portions in the vicinity of the line, the second connection and the contact portion are located adjacent to each other in the contact portion of the phase 2, so that the deviation of the position of the ith contact portion can be utilized. The first terminal member that presses the contact portion of the contact portion of the clip f 2 and the second terminal member that forms the second contact portion and the second contact portion are formed by the second side of the disk, and are inserted into the housing. The first contact portion may be disposed on one of the two sides of the holding portion, and the second contact portion may be disposed on the other side surface, that is, the 彳 姓 ^ 可 可 可In the method of manufacturing the connector of the present embodiment, the method of manufacturing the connector of the present embodiment includes the step of arranging the first terminal portion of the first contact portion at the center. 1 pressing: the second pressing jig and the second pressing jig, and the insertion molding is performed by pressing the second terminal structure from the dog by the i-th pressing jig and the second pressing jig; Insert m〇lding), forming a segment containing one of the above holding portions a first case portion that is divided into the first contact portion; and a second terminal member that forms the second contact portion is placed on the first body portion that has been formed in the step, and is formed by the third pressing jig When the second terminal member is pressed, insert molding is performed to form a second housing portion including the other divided portion of the holding portion and the second contact portion. The present invention for manufacturing the connector is formed. In the step of the casing portion, the second casing portion can be formed by inserting the second terminal portion while suppressing the movement of the first terminal member forming the second contact portion by the second pressing jig and the second pressing jig. In the step, insert molding can be performed while the first housing portion and the third pressing portion 147297.doc 201106547 are prevented from being displaced by the movement of the second terminal member forming the second contact portion. #, The contact portions of the respective #columns on the top surface of the holding portion can be accurately set without being moved during insert molding. According to the invention of the present invention, in the first housing portion, the accommodating portion that accommodates the second contact portion of the second terminal member is formed, and the position of the accommodating portion is formed. The accommodating portion is disposed at a position corresponding to a second contact portion formed between the first housing portion and the first housing portion when viewed from a cross section orthogonal to the insertion/removal direction of the target side connector. . According to the invention of the present invention, the second terminal member can be easily positioned on the first casing portion by arranging the second contact portion of the second terminal member in the accommodating portion during insert molding. In addition, when the second contact portion of the second terminal member is placed in the accommodating portion of the first case portion and is inserted into the accommodating portion, the second terminal portion can be inserted and formed from the cross section perpendicular to the insertion/removal direction of the target side connector. The second contact portion is accurately placed between the first contact portions, and the second contact portion can be accurately placed between the second contact portions. Further, in the method of manufacturing a connector according to the present invention, in the step of molding the first casing portion, the first casing portion is formed to be engaged with the second casing portion. The engaging portion is configured to form an engaging portion that engages with the engaging portion of the first casing portion in the step of molding the second casing portion. According to the invention for manufacturing the connector, the first casing portion and the second casing portion can be firmly integrated by the respective engaging portions. Thereby, a casing having a first contact portion on one of the two faces of the holding surface and a stable structure of the second contact portion on the other surface 147297.doc 201106547 can be obtained. Further, in the method of manufacturing a connector according to the present invention, the shutter having the opening and being movable in accordance with the insertion of the target side connector is inserted into the opening of the casing, and The housing including the first housing portion and the second housing portion is housed in the housing, and the opening of the shutter is configured by the holding portion of the housing and the holding portion. The second contact portion on the one surface and the second contact portion provided on the other surface of the holding portion can protrude. The present invention for manufacturing a connector achieves protection of the second contact portion and the second contact portion provided on the holding portion of the casing by the installation of the shutter. Further, in the method of manufacturing a connector according to the present invention, the first terminal member forming the first contact portion and the second terminal member forming the second contact portion are overlapped with each other, and the third terminal member is sandwiched Arrangement (10) of the terminal member and the first jig, the second terminal of the ith pressing member is inserted between the second terminal member by pressing the second terminal of the pressing jig The second terminal member is pressed by the second projection of the first pressing jig, and the second terminal member is pressed by the second projection of the second pressing jig to insert the second projection of the second pressing jig The second terminal member is used to perform the insertion molding by the second terminal member of the second pressing member, and the first contact portion and the second contact portion are formed by the second terminal member. The housing of the holding portion. According to the invention of the present invention, the first projection of the first pressing member and the second projection of the second (four) clamp can be used to suppress the movement of the first terminal member by the first projection of the 147297.doc 201106547. With the ith protrusion and the second of the second pressing jig! The second projection of the medicinal device is pressed to suppress the movement of the second terminal member forming the second contact portion, and the insertion molding is performed at the same time. In other words, the contact portions which are arranged on both sides of the holding portion can be accurately placed without being moved during the insertion molding. Further, # can be formed by the insert molding to form a casing having contact portions on both faces of the holding portion. Further, in the above-described invention, the shutter according to the invention is characterized in that a shutter having an opening and moving with the object side connector is inserted into the opening # of the casing, and in this state. The housing is housed in the housing; the opening of the shutter is such that the holding portion of the housing, the first contact portion provided on the one surface of the holding portion, and the holding portion are provided The second contact portion on the other surface of the other side can protrude. The present invention for manufacturing a connector achieves protection of the second contact portion and the second contact portion provided on the holding portion of the casing by the installation of the shutter. Further, according to the method of manufacturing the connector and the connector of the present invention, the contact portions respectively arranged on both surfaces of the holding portion can be accurately placed without being moved during the insertion molding, and can be formed by insert molding. The narrow spacing of the contact portions that have been desired has been achieved. Thereby, miniaturization of the width direction of the connector is possible. [Embodiment] Hereinafter, embodiments of a connector and a method of manufacturing a connector according to the present invention will be described with reference to the accompanying drawings. [47297.doc 201106547 [First Embodiment of Manufacturing Method of Connector of the Present Invention] Figs. 1 to 9 show a connector of the present invention. Fig. 10 is a view showing a step of forming a first casing portion in the first embodiment of the first embodiment of the manufacturing method of the first pressing jig and the second pressing jig used in Fig. 3;
下述本發明之連接器之第i實施形態係於上下層配置有 端子構件,圖1表示配置於下層之第W子構件,該第㈣ 子構件1係藉由對金屬板之沖裁加工而形成。複數之第W 子構件1之第i外部連接部3各自係藉由連接橫桿ia而連 結。 圖1所示之第1 it而子構件1如圖2所示被彎曲加工,明破地 刀為與下述對象側連接器3〇之第】外部連接端子Μ電性 接觸之第1接觸部2、及與該第丨接觸部2相連設置且與外部 配線連接之第1外部連接部3。 圖3表不成形下述絕緣性之殼體丨5之分割部分即第1殼體 部6的步驟。如圖2所示,於經彎曲加工之第〗端子構件丨之 下側配置有按壓該第1端子構件丨下表面之第丨按壓夾具4, 於第1端子構件1之上側配置有按壓第丨端子構件!上表面之 第2按壓夾具5 ^如此一來,在以第丨按壓夾具4與第2按壓 夹具5阻止第1端子構件丨上下移動之狀態下,向未圖示之 模具中注入樹脂以實施第i次的插入成形。如圖丨〇所示, 於第1按麼夾具4之上表面設置有可抵接於第1端子構件1之 第1接觸部2各自之下表面的複數之突起乜。而且,於第2 按壓夾具5之下表面,亦設置有可抵接於第1端子構件1之 第1接觸部2各自之上表面的複數之突起5a。藉由該等第1 147297.doc 201106547 按慶夹具4之突起4a與第2按壓夾具5之突起5a而夹持第1端 子構件1 ’進行第1次的插入成形。 於該第1次的插入成形之後,將連結複數之第1端子構件 1之第1外部連接部3之連接橫桿la之位於第1外部連接部3 間的部分切斷,且將第〗端子構件丨之兩端部分連接而成為 圖4所不之狀態。藉此,成形出於下側設置有上述第1接觸 部2之第1殼體部6,其係下述殼體15之具有保持部16下側 部分之分割部分。於該第丨殼體部6中,在兩側部分別形成 有卡合部、即與下述之第2殼體部13之卡合部卡合之複數 之凹陷部7。又,於第丨殼體部6之上表面,形成有收容下 述第2端子構件9之第2接觸部1〇之複數之收容部8。 然後’如圖5所示,將另外沖裁形成、其後經彎曲加工 而具有第2接觸部10及與該第2接觸部1〇相連設置之第2外 部連接部η、且配置於第i端子構们上方的複數之第2端 子構件9各自收容於如圖4所示形成之第丨殼體部6之各個收 谷。卩8。再者,與第丨端子構件丨之情形相同 谷部8。再者, 第2端子構件In the eleventh embodiment of the connector of the present invention described below, the terminal member is disposed on the upper and lower layers, and FIG. 1 shows the W sub-member disposed in the lower layer, and the fourth sub-member 1 is processed by punching the metal plate. form. The i-th external connecting portions 3 of the plurality of W sub-members 1 are each connected by a connecting crossbar ia. The first member shown in FIG. 1 and the sub-member 1 are bent as shown in FIG. 2, and the open-breaking blade is the first contact portion that is in electrical contact with the external connection terminal of the object-side connector 3 described below. 2. The first external connection portion 3 that is connected to the second contact portion 2 and that is connected to the external wiring. Fig. 3 shows the step of forming the first casing portion 6 which is a divided portion of the insulating casing 5 described below. As shown in FIG. 2, a second pressing jig 4 that presses the lower surface of the first terminal member is disposed on the lower side of the bent terminal member ,, and a pressing yoke is disposed on the upper side of the first terminal member 1. Terminal components! In the second pressing jig 5 of the upper surface, the first pressing member 4 and the second pressing jig 5 prevent the first terminal member 丨 from moving up and down, and the resin is injected into a mold (not shown) to perform the first Insertion molding i times. As shown in Fig. 2, a plurality of protrusions 可 which are abuttable on the lower surface of each of the first contact portions 2 of the first terminal member 1 are provided on the upper surface of the first pressing member 4. Further, on the lower surface of the second pressing jig 5, a plurality of projections 5a which can abut against the upper surfaces of the first contact portions 2 of the first terminal member 1 are provided. The first terminal member 1' is held by the projection 4a of the cleaning jig 4 and the projection 5a of the second pressing jig 5 by the first 147297.doc 201106547, and the first insertion molding is performed. After the first insertion molding, the portion of the first outer connecting portion 3 of the first terminal member 1 that connects the plurality of first terminal members 1 is located between the first outer connecting portions 3, and the first terminal is cut. The two ends of the member are connected to each other to be in a state not shown in FIG. Thereby, the first casing portion 6 provided with the first contact portion 2 on the lower side is formed, and the divided portion of the casing 15 having the lower portion of the holding portion 16 is formed. In the second casing portion 6, a plurality of recessed portions 7 that engage with the engaging portions of the second casing portion 13 to be described later are formed on both side portions. Further, on the upper surface of the second casing portion 6, a plurality of accommodating portions 8 for accommodating the second contact portions 1 of the second terminal members 9 are formed. Then, as shown in FIG. 5, the second external contact portion 10 and the second external connection portion η which are provided adjacent to the second contact portion 1A are formed by being separately punched and then bent. The plurality of second terminal members 9 above the terminal structure are accommodated in respective valleys of the second casing portion 6 formed as shown in FIG.卩 8. Further, it is the same as the case of the second terminal member . Furthermore, the second terminal member
如圖7所示,於第丨殼體部6上, 成形出具有第2接 I47297.doc 201106547 觸部10之第2殼體部13,其係下述殼體15之形成有保持部 16上側之分割部分。於第2次的插入成形之後,將連結複 數之第2端子構件9之第2外部連接部丨丨的連接橫桿之位於 第2外部連接部U間的部分切斷,且將第2端子構件9之兩 端部分切斷而成為圖8所示之狀態。 如该圖8所不,由第丨殼體部6與第2殼體部13而形成殼體 1 5。在設置於第丨殼體部6之凹陷部7上,配置有第2殼體部 13之卡合部即突起部丨4,因此,利用第丨殼體部6與第2殼 體部13而形成安裝於下述對象側連接器3〇上之保持部16 , 於該保持部16之兩面十之一方之面即下表面上,排列有複 數之第1端子構件1之第1接觸部2,於另一方之面即上表面 上,排列有複數之第2端子構件9之第2接觸部1〇。對於該 保持邛16中之第1接觸部2與第2接觸部丨〇之配置關係,將 於下述連接器之第1實施形態中說明。 在位於保持部16前側之上下端部分別設置有槽部17,第 1立而子構件1之第丨接觸部2之切斷端部、與第2端子構件9之 第2接觸部10之切斷端部分別被收容於該槽部17中。 然後,於殼體15上,設置有分別收容下述施力構件例如 螺旋彈簧23的-對彈簧收容部2()、及分別形成於設置在裝 置内側之左右之突出壁21上且與彈簧收容部2〇連通的貫通 孔22。 後,如圖9所示,於金屬製之框體18内裝入擋閘25及 :8所示之殼體15,完成連接器之裝配。即,將具有開口 部25a、且隨著下述對象側連接器3〇向框體此開口部μ 147297.doc 201106547 插入而可移動的擋閘25,裝入框體1 8之開口部24中,並於 該狀態下將包含第1殼體部6與第2殼體部13之殼體15收容 於框體18内,上述開口部25a係使殼體15之保持部16、設 置於該保持部16下表面之第1接觸部2、及設置於該保持部 16上表面之第2接觸部10能突出,由此完成本發明之連接 器之製造方法的第1實施形態。 [本發明之連接器之第i實施形態] 圖11〜15係圖8所示之殼體之說明圖,圖丨丨係俯視圖,圖 12係仰視圖,圖13係側視圖,圖14係從背面側觀察之立體 圖,圖15係端子構件之要部放大圖。圖16〜19係本發明之 連接器之第1實施形態的說明圖,圖16係分解立體圖,圖 17係前視圖,圖18係後視圖,圖19係俯視圖。圖2〇係表示 本發月之連接器之第1實施形態中含有之框體的立體圖, 圖21係表示本發明之連接器之第丨實施形態中含有之擋閘 的立體圖。利用該等圖〜21及上述圖4、8、9來說明本發 明之連接器之第1實施形態。 如圖17所示,本發明之連接器之第丨實施形態係以如下 方式設定保持部16之第1接觸部2與第2接觸部10之配置關 係,即,從與下述對象側連接器3〇之插拔方向正交之剖面 進行觀察時,在與相鄰之第丨接觸部2間之部分相對向之位 置上配置有第2接觸部10,並在與相鄰之第2接觸部1〇間之 部分相對向之位置上配置有第丨接觸部2。為了實現該種構 成,對於收容有上述圖4所示之第2端子構件9之收容部8, 將該收容部8之位置設定為:從與對象側連接器3〇之插拔 147297.doc -12- 201106547 方向正交之剖面進行觀察時,在與第丨殼體部6之形成於保 持部16上之第1接觸部2間對應的位置上配置有收容部8。 又’如圖15所示’該第1施形態之連接器係以如下方 式使複數之第1端子構件〗排列於保持部16上’即與相鄰 之第1端子構件1之第1接觸部2間的間隔相比,相鄰之第^ 外部連接部3間的間隔更寬。對於第2端子構件9,亦同樣 地以如下方式使複數之第2端子構件9排列於保持部16上, 即,與相鄰之第2端子構件9之第2接觸部1〇間的間隔相 比,相鄰之第2外部連接部〗丨間之間隔更寬。 即,將帛1外部連接部3之寬度尺寸設定為小於第i端子 構件1之第1接觸部2之寬度尺寸,並以樹脂埋設第i接觸部 2之側部、及與第!接觸部2相連設置之第i外部連接部3之 一部分側部。同樣地,將第2外部連接部u之寬度尺寸設 定為小於第2端子構件9之第2接觸部10之寬度上寸,並以 樹脂埋設第2接觸部10之侧部、及與第2接觸部叫目連設置 之第2外部連接部U之一部分側部。 另卜々圖11、12、14、18等所示’該第1實施形態之 連接器係將從殼體15突出之第1端子構件以請部連接 部^部分、及第2端子構件9之第2外部連接部U之部分各 \斤而幵v成U如下方式構成:各個第^端子構件丄係在 媒^成體Μ之位置使第1外部連接部3彎折,各個第2端子 =件9係在遠離殼體15之位置使第2外部連接部u彎折。例As shown in FIG. 7, the second casing portion 13 having the second contact I47297.doc 201106547 contact portion 10 is formed on the second casing portion 6, and the upper casing 15 is formed with the upper portion of the holding portion 16 The divided part. After the second insertion molding, the portion of the connecting crossbar of the second external connecting portion 连结 of the second terminal member 9 that connects the plurality of second terminal members 9 is cut between the second external connecting portions U, and the second terminal member is cut. The both end portions of 9 are cut and become the state shown in Fig. 8. As shown in Fig. 8, the casing 15 is formed by the second casing portion 6 and the second casing portion 13. Since the protrusion portion 4 which is the engagement portion of the second case portion 13 is disposed in the recess portion 7 provided in the second case portion 6, the second case portion 6 and the second case portion 13 are used. The holding portion 16 attached to the object-side connector 3 is formed, and the first contact portion 2 of the plurality of first terminal members 1 is arranged on the lower surface of the two sides of the holding portion 16 On the other surface, that is, the upper surface, the second contact portion 1 of the plurality of second terminal members 9 is arranged. The arrangement relationship between the first contact portion 2 and the second contact portion 中 in the holding crucible 16 will be described in the first embodiment of the connector described below. The groove portion 17 is provided at the lower end portion of the front side of the holding portion 16, and the cut end portion of the second contact portion 2 of the first vertical member 1 and the second contact portion 10 of the second terminal member 9 are cut. The broken ends are housed in the groove portions 17, respectively. Then, the housing 15 is provided with a pair of spring accommodating portions 2 () for accommodating the following urging members, for example, the coil springs 23, and the left and right projecting walls 21 provided on the inner side of the device, respectively, and are accommodated with the springs. The through hole 22 that is connected to the second portion. Thereafter, as shown in Fig. 9, the housing 15 shown by the shutters 25 and 8 is placed in the metal frame 18 to complete the assembly of the connector. In other words, the shutter 25 having the opening 25a and being movable in accordance with the opening of the frame-side opening portion 147297.doc 201106547 is inserted into the opening portion 24 of the frame body 18. In this state, the casing 15 including the first casing portion 6 and the second casing portion 13 is housed in the casing 18, and the opening portion 25a holds the holding portion 16 of the casing 15 in the holding portion. The first contact portion 2 on the lower surface of the portion 16 and the second contact portion 10 provided on the upper surface of the holding portion 16 can protrude, thereby completing the first embodiment of the method for manufacturing the connector of the present invention. [Embodiment 1] FIG. 11 to FIG. A perspective view of the rear side view, and Fig. 15 is an enlarged view of an essential part of the terminal member. Figs. 16 to 19 are explanatory views of the first embodiment of the connector of the present invention, Fig. 16 is an exploded perspective view, Fig. 17 is a front view, Fig. 18 is a rear view, and Fig. 19 is a plan view. Fig. 2 is a perspective view showing a casing included in the first embodiment of the connector of the present month, and Fig. 21 is a perspective view showing a shutter included in the third embodiment of the connector of the present invention. The first embodiment of the connector of the present invention will be described with reference to Figs. 21 and 21 and Figs. 4, 8 and 9. As shown in Fig. 17, in the second embodiment of the connector of the present invention, the arrangement relationship between the first contact portion 2 and the second contact portion 10 of the holding portion 16 is set as follows, that is, from the following object side connector When the cross section orthogonal to the insertion and removal direction is observed, the second contact portion 10 is disposed at a position opposed to the adjacent second contact portion 2, and the adjacent second contact portion is disposed. The second contact portion 2 is disposed at a position opposite to one of the turns. In order to realize such a configuration, the position of the accommodating portion 8 is set to the accommodating portion 8 in which the second terminal member 9 shown in Fig. 4 is accommodated, and is inserted and removed from the target side connector 3 147297.doc - 12-201106547 When observing the cross section orthogonal to the direction, the accommodating portion 8 is disposed at a position corresponding to the first contact portion 2 formed on the holding portion 16 of the second casing portion 6. Further, the connector of the first embodiment is arranged such that the plurality of first terminal members are arranged on the holding portion 16, that is, the first contact portion of the adjacent first terminal member 1 as follows. The interval between the adjacent second external connecting portions 3 is wider than the interval between the two. Similarly, in the second terminal member 9, the plurality of second terminal members 9 are arranged on the holding portion 16, that is, the interval between the second contact portions 1 of the adjacent second terminal members 9 The interval between the adjacent second external connection portions is wider. In other words, the width dimension of the outer connecting portion 3 of the crucible 1 is set smaller than the width dimension of the first contact portion 2 of the i-th terminal member 1, and the side portion of the i-th contact portion 2 is embedded in the resin, and the first! The contact portion 2 is connected to a part of the side portion of the i-th external connection portion 3. Similarly, the width of the second external connection portion u is set smaller than the width of the second contact portion 10 of the second terminal member 9, and the side portion of the second contact portion 10 is embedded with the resin, and the second contact is made. The part is called a side portion of the second external connection portion U. In addition, the connector of the first embodiment is a first terminal member that protrudes from the casing 15 with a part connecting portion and a second terminal member 9 as shown in Figs. 11, 12, 14, and 18. Each of the second external connection portions U is configured such that each of the second terminal members is bent at the position of the dielectric member, and the first external connection portion 3 is bent, and each of the second terminals = The member 9 bends the second outer connecting portion u at a position away from the casing 15. example
沾具備將第2外部連接部u連結成_體之包含絕緣性樹 月曰的連接部1 9,名^個笛,L 連接部11係經由該連接部19 147297.doc •13· 201106547 而同時彎折。 又’如圖9、16、21等所示,該第i實施形態之連接器係 包含:擋閘25 ’其配置於框體丨8之插入有下述對象側連接 器3 0之開口部24,且在對象側連接器3〇之插拔方向上可移 動,及施力構件、例如螺旋彈簧23,其對該擋閘25向框體 18之開口部24方向施力。另外包含導引部,其係於下述對 象側連接器30之插拔方向上導引擋閘25。如圖9、丨6所 示’該導引部包含:設置於擋閘25上之突起25c ;及設置 於框體18上且於對象側連接器3〇之插拔方向上導引突起 25c之導引孔26。如圖20等所示,在較導引孔26之終端部 26a更近前之位置處,向該第1實施形態之連接器之厚度方 向彎折而形成框體18 ’擋閘25之突起25c之一部分係可從 該彎折形成之框體1 8部分之導引孔26突出。上述導引孔26 之終端部26a、及包含該終端部26a附近部分之框體18部分 例如包含突出部27,該突出部27係在較導引孔26之終端部 26a更近前之位置處彎折而形成。突出部27之下端部27&位 於導引孔26之終端部26a之下方。即,導引孔26之終端部 26a係藉由突出部27之下端部27a而閉合。如圖19、2〇所 示,在框體18上,設置有與殼體15卡合之安裝用的一對卡 合部28。 如圖16等所示,除殼體15之保持部16所插通之開口部 25a、及構成導引部之突起25c之外,擋閘以還包含分別在 兩側部保持螺旋彈簧23之棒狀部25b,該等棒狀部25b之各 個4部隨著擋閘2 5向裝置内側移動而可插入圖18等所示之 147297.doc • 14· 201106547 设體15之突出壁21之對應的各個貫通孔22中。 [對象側連接器] 圖22係表不本發明之連接器之第^實施形態中安裝之對 象側連接器的要部立體圖,圖23係圖22所示之對象側連接 器之前視圖。 —如°亥等圖22、23所示,上述第1實施形態之連接器上所 安裝之對象側連接器30係包含插人至第i實施形態之連接 器之框體18之開口部24中的突出部3卜於該突出部3ι内, 。又置有嵌入有第1實施形態之連接器之保持部16的開口部 32如圖23所不,在形成有對象側連接器30之開口部32之 y表面側,設置有可與設在第丨實施形態之連接器之保持 部16之下表面的各個第丨接觸部2電性接觸的複數之第^外 邛連接端子33。又,在形成有對象側連接器3〇之開口部 之上表面側,設置有可與設在第丨實施形態之保持部“之 上表面的各個第2接觸部10電性接觸的複數之第2外部連接 端子34。 [第1實施形態之連接器之動作] 大在將圖22所示之對象側連接器3()之突出部職入至圖9 等所示之第1實施形態之連接器之框體18的開口部24中, 並將一對象側連接器30安裳於^實施形態之連接器上時, 第1實施形態之連接器令包含之擋間25會隨著對象側連接 器30之插入而抵抗螺旋彈簧23之力,向裝置之内側移動。 隨此,第i實施形態之連接器之殼體15之保持部16開始從 擋間25之開口部25a顯著露出,該保持部16嵌入至對象側 147297.doc 201106547 連接器30之開口部32中。 於此期間,擋閘25之突起25c受到框體18之導引孔26之 導引而向裝置之内側移動’擋閘25之一對棒狀部25b亦壓 縮螺旋彈簧23而進入至殼體1 5之彈簧收容部20。在擋閘25 移動到使保持部16之第1接觸部2及第2接觸部1〇完全露出 之裝置之最内侧位置為止的期間,擋閘25之突起25c在圖2 所示之導引孔26之終端部26a之上側行進,一部分從導引 孔26向外部空間突出。並且,檔閘25之棒狀部25b各自之 端部進入至殼體15之各個突出壁21之貫通孔22内。 在擋閘25移動至裝置之最内側位置為止的狀態下,對象 側連接器30之第1外部連接端子33與設置於第1實施形態之 連接器之保持部16上的第1端子構件1之第1接觸部2接觸, 對象側連接器30之第2外部連接端子34與第1實施形態之連 接器之保持部16的第2端子構件9之第2接觸部1 〇接觸。藉 此’第1實施形態之連接器與對象側連接器3 〇間的信號收 發成為可能。 在從第1貫施形態之連接器上拔下對象側連接器3 〇時, 擋閘25之突起25c藉由圖9等所示之一對螺旋彈簧23而受到 框體18之導引孔26之導引,擋閘25向框體18之開口部24之 方向移動。隨此,擋閘25之棒狀部25b從殼體15之突出壁 21之貫通孔22及彈簧收容部20退出。如圖9所示,在擋閘 25之突起25c與框體18之導引孔26之始端部卡合時,擋閘 25之移動停止,恢復到初始狀態。此時,設置於殼體丨$之 保持部16上的第丨接觸部2及第2接觸部1〇成為被保持於由 147297.doc •16· 201106547 框體18及擋閘25圍成之閉合空間内的狀態。 [第1實施形態之連接器之效果] 根據第1實施形態之連接器,在從與對象側連接器3 〇之 插拔方向正交之剖面進行觀察時’如圖17所示,第1接觸 部2係位於相鄰之第2接觸部1 〇間’第2接觸部丨〇係位於相 鄰之第1接觸部2間’因此可利用該第1接觸部2之配設位置 與第2接觸部1 〇之配設位置之偏差,一邊經由第j按壓夾具 4及第2按壓夾具5或經由第3按壓夾具12而分別個別抑制形 成第1接觸部2之第1端子構件丨、與形成第2接觸部1〇之第2 知子構件9各自之移動一邊進行插入成形,於殼體丨〗之下 表面可設置第1接觸部2,並於上表面上可設置第2接觸部 10即,可將於保持部16之兩面上分別配設之第i接觸部2 與第2接觸部10在插入成形時不移動而精度良好地設置。 因此,以插入成形而可實現第1接觸部2及第2接觸部10之 窄間距化。藉此,該第i實施形態之連接器之寬度方向之 小型化成為可能。 又,於第1次的插入成形之後,將連結複數之第丨端子構 件1之第1外部連接部3各自的連接橫桿la之位於第丨外部連 接部3間的部分切斷,且於第2次的插入成形之後,將連結 複數之第2端子構件9之第2外部連接㈣各自的連接橫桿 之位於第2外部連接部u間的部分切斷,此時,使第1端子 構件1間之間隔及第2端子構件9間之間隔較窄,藉此,即 便將相鄰之第1端子構件1之第1接觸部2間的間隔、及相鄰 之第2端子構件9之第2接觸部1〇間的間隔設定為較窄,亦 147297.doc -17· 201106547 會由於相鄰之第丨外部連接部3間的間隔及相鄰之第2外部 連接部11間的間隔寬於上述第i接觸部2、第2接觸部1〇間 的間隔,從而可將切斷連結第丨外部連接部3、第2外部連 接部11之連接橫桿la等之加工工具之刃製作成與相鄰之第 1外4連接部3間的間隔、第2外部連接部丨丨間之較寬的間 隔對應之刃。即,可使第丨接觸部2間之間隔及第2接觸部 10間之間隔較窄,且可使切斷連結各個第丨外部連接部3及 第2外部連接部u之連接橫桿“等之加工工具之刃比較 厚。由此,可實現第丨接觸部2及第2接觸部1〇之窄間距 化,從而該第1實施形態之連接器之寬度方向之小型化成 為可能。此外,可延長加工工具之壽命,將加工工具之維 護抑制得很少。藉此’可提高該第1實施形態之連接器之 生產效率。 又,該第1實施形態之連接器中,與第i端子構们之第 接觸部2之寬度尺寸相比,將第i外部連接部仏寬度尺^ 設定為較小,且與第2端子構件9之第2接觸部⑺之寬度只 寸相比,將第2外部連接部u之寬度尺寸設定為較小,^ 以樹脂埋設第i接觸部2之側部與第!外部連接部3之一部分 側部’以樹脂埋設第2接觸部1〇之側部與第2外部連接部二 之-部分側部。根據如此之構成’在隨著安裝而施加從對 Π接器3〇向第1端子構件1之第1接觸部2或第2端子構 牛之第2接觸部之㈣力時,係由圖_示之連 =與广外部連接部3之縮頸部分1b、連結第2接觸部 ”第外部連接部11之縮頸部分之樹脂來承受該按遷 147297.doc -18- 201106547 力因此’在安裝對象側連接器3〇時,能夠防止第工端子 構件1、第2端子構件9在對象側連接器3〇之插拔方向上移 動。藉此,可獲得更穩定且可靠性高的結構。 此外,第1實施形態之連接器係將從殼體15突出之第1端 子構件1之第1外部連接部3之部分、及第2端子構件9之第2 外。P連接。卩11之部分各自脊折而形成,且成為設置有絕緣 性之連結部19的構成,該連結部19係將從殼體⑽出之第 2端子構件9之第2外部連接部11連結成一體。由此,經由 連、。。卩19而可同時精度良好地彎折複數之第2端子構件9之 第2外。p連接部u之部分,有助於該第}實施形態之製造效 率的提高。 另外,使第1端子構件丨之第丨外部連接部3在殼體15附近 *位置4.折,將上述連結部丨9設置於在遠離殼體丨5之位置 ^折之第2端?構件9之第2外部連接部11上,因此可將第! 構件1之第i外部連接部3、第2端子構件9之第2外部連 P 11互不干涉地配置。藉此,可獲得穩定且具有可靠性 之結構。 又,如圖8所示,在殼體15之保持部16上設置有槽部 17,第1端子構件丨之第丨接觸部2之切斷端部、第2端子構 第2接觸部10之切斷端部分別被收容於該槽部1 7中, 第可防止该等第1端子構件1之第1接觸部2之切斷端部、 扣而子構件9之第2接觸部10之切斷端部向對象側連接器 ^滑,面突出而導致第1接觸部2或第2接觸部1〇破損之 態。藉此,可獲得穩定且具有可靠性之結構。 ^7297^0, •19· 201106547 此外’該第1實施形態之連接器中,在將對象側連接器 30插入至框體18之開口部24而使擋閘25移動至裝置之最内 側位置為止時,擋閉25之突起25c成為從彎折形成之框體 18部分之導引孔26向外部空間突出之狀態。即,在擋閘以 移動至裝置之最内側位置為止時,突起25c可不受導引孔 26限制而在外部空間内移動。藉由如此將突起設置於 擋閘25上而可消除對於對象側連接器3〇之外形形狀的制 約,且可實現該連接器之寬度方向的小型化,同時能夠確 保擋閘25之必要的移動量。又,由於在較導引孔26之終端 部26a更近前之位置處,向該連接器之厚度方向彎折而形 成框體18,因此可使裝置整體之長度尺寸較小,亦可抑制 長度方向之大型化。即,能確保高可靠性之功能及實現裝 置整體之小型化。 又’上述彎折形成之框體18部分係包含突出部27,將該 突出部27彎折即可,故彎折加工簡單,有助於提高製造效 率。此外’由於突出部27之周圍無需框體18部分,故可將 形成框體18之材料費抑制為較便宜,從而富有實用性。 又,經由框體18之卡合部28可將框體18與殼體15固定成 一體’故可實現牢固且穩定之結構。 另外’在擋閘25移動至裝置之内側位置附近為止時,將 擔問25之棒狀部25b之端部插入至殼體15之貫通孔22中, 因此’可容易地確保擋閘25之必要的移動量。 此外’導引擋閘25之突起25c之導引孔26的終端部26a成 為藉由框體18之突出部27之下端部27a而閉合的結構,因 147297.doc 201106547 此’可確保導引孔26之強度,有助於實現穩定之結構。 [第1實施形態之連接器之製造方法的效果] 又’在第1實施形態之連接器之製造方法中,於成形第i 殼體部6之步驟中,可一邊藉由第1按壓夾具4與第2按壓失 具5而抑制形成第丨接觸部2之第1端子構件1的移動,一邊 進行插入成形。又,於成形第2殼體部13之步驟中,可一 邊藉由第1殼體部6與第3按壓夾具12而抑制形成第2接觸部 10之第2端子構件9的移動’一邊進行插入成形。即,可將 於保持部16之兩面上分別排列之第1接觸部2及第2接觸部 1〇在插入成形時不移動而精度良好地設置,藉由插入成形 而可實現第1接觸部2、第2接觸部1〇之窄間距化。由此, 可貫現該連接器之寬度方向之小型化。 又,在插入成形時將第2端子構件9之第2接觸部1〇配置 於形成在保持部16上之收容部8中,藉此可將第2端子構件 9簡單地定位於第1殼體部6上。並且,將第2端子構件$之 第2接觸部1〇配置於第1殼體部6之收容部8中而進行插入成 形,藉此,從與對象側連接器3〇之插拔方向正交之剖面進 行觀察時,可蔣第2接觸部1〇精度良好地配置於相鄰之第i 接觸部2間’且可將第1接觸部2精度良好地配置於相鄰之 第2接觸部1〇間。The connection portion 1 9 including the insulating tree can be connected to the second external connection portion u, and the name is a flute, and the L connection portion 11 is simultaneously connected via the connection portion 19 147297.doc •13·201106547 Bend. Further, as shown in Figs. 9, 16, and 21, the connector of the i-th embodiment includes a shutter 25' which is disposed in the opening 248 of the frame 丨8 into which the object-side connector 30 is inserted. Further, the object side connector 3 is movable in the insertion/removal direction, and a biasing member such as a coil spring 23 that urges the shutter 25 in the direction of the opening portion 24 of the casing 18. Further, a guide portion is provided which guides the shutter 25 in the insertion and removal direction of the object side connector 30 described later. As shown in FIG. 9 and FIG. 6, the guide portion includes: a projection 25c provided on the shutter 25; and a projection 25c provided on the frame 18 and guiding the projection 25c in the insertion and removal direction of the object side connector 3A. Guide hole 26. As shown in Fig. 20 and the like, at a position closer to the end portion 26a of the guide hole 26, the connector 18c of the first embodiment is bent in the thickness direction to form the projection 25c of the frame 18' the shutter 25. A portion can protrude from the guide hole 26 of the frame portion 18 formed by the bending. The terminal portion 26a of the guide hole 26 and the frame 18 portion including the portion near the terminal portion 26a include, for example, a projection 27 which is bent at a position closer to the end portion 26a of the guide hole 26. Folded to form. The lower end portion 27& of the protruding portion 27 is located below the terminal portion 26a of the guide hole 26. That is, the end portion 26a of the guide hole 26 is closed by the lower end portion 27a of the protruding portion 27. As shown in Figs. 19 and 2B, the frame body 18 is provided with a pair of engaging portions 28 for attachment to the casing 15. As shown in FIG. 16 and the like, in addition to the opening portion 25a through which the holding portion 16 of the casing 15 is inserted, and the projection 25c constituting the guiding portion, the shutter further includes a rod which respectively holds the coil spring 23 at both side portions. Each of the four portions of the rod-shaped portions 25b can be inserted into the corresponding 147297.doc of the apparatus 15 and the corresponding wall 21 of the body 15 as the shutter 25 moves toward the inside of the apparatus. In each of the through holes 22. [Object-side connector] Fig. 22 is a perspective view of an essential part of the object-side connector mounted in the second embodiment of the connector of the present invention, and Fig. 23 is a front view of the object-side connector shown in Fig. 22. The object side connector 30 attached to the connector of the first embodiment includes the opening portion 24 of the frame body 18 of the connector of the i-th embodiment, as shown in Figs. The protruding portion 3 is included in the protruding portion 3i. Further, as shown in FIG. 23, the opening 32 in which the holding portion 16 of the connector of the first embodiment is placed is provided on the y-surface side of the opening 32 on which the target-side connector 30 is formed. The plurality of outer connecting terminals 33 electrically contacting the respective second contact portions 2 on the lower surface of the holding portion 16 of the connector of the embodiment. Further, on the upper surface side of the opening portion on which the target side connector 3 is formed, a plurality of the second contact portions 10 which are provided in the upper surface of the holding portion of the second embodiment are electrically provided. 2 External connection terminal 34. [Operation of the connector of the first embodiment] The connection of the target side connector 3 () shown in Fig. 22 is greatly increased to the connection of the first embodiment shown in Fig. 9 and the like. When the one-side connector 30 is attached to the connector of the embodiment in the opening portion 24 of the casing 18 of the apparatus, the connector 25 of the first embodiment is connected to the object side. The insertion of the device 30 against the force of the coil spring 23 moves toward the inside of the device. Accordingly, the holding portion 16 of the housing 15 of the connector of the i-th embodiment begins to be significantly exposed from the opening portion 25a of the stopper 25, and the holding is performed. The portion 16 is embedded in the opening portion 32 of the connector 30 of the object side 147297.doc 201106547. During this period, the projection 25c of the shutter 25 is guided by the guide hole 26 of the frame 18 to move toward the inside of the device. 25 one of the pair of bars 25b also compresses the coil spring 23 and enters the spring of the housing 15 The receiving portion 25c of the shutter 25 is shown in FIG. 2 while the shutter 25 is moved to the innermost position of the device for completely exposing the first contact portion 2 and the second contact portion 1 of the holding portion 16. The terminal portion 26a of the guide hole 26 travels on the upper side, and a part thereof protrudes from the guide hole 26 toward the external space. Further, the respective end portions of the rod-shaped portion 25b of the shutter 25 enter the respective protruding walls 21 of the casing 15. In the hole 22, the first external connection terminal 33 of the target side connector 30 and the first external connection terminal 33 of the connector of the first embodiment are placed in the state in which the shutter 25 is moved to the innermost position of the device. The first contact portion 2 of the terminal member 1 is in contact with each other, and the second external connection terminal 34 of the target side connector 30 is in contact with the second contact portion 1 of the second terminal member 9 of the holding portion 16 of the connector of the first embodiment. By this, it is possible to transmit and receive signals between the connector of the first embodiment and the target side connector 3. When the target side connector 3 is removed from the connector of the first embodiment, the protrusion of the shutter 25 is formed. 25c is guided by the frame 18 by the pair of coil springs 23 shown in FIG. Guided by the hole 26, the shutter 25 is moved in the direction of the opening portion 24 of the frame 18. Accordingly, the rod portion 25b of the shutter 25 is withdrawn from the through hole 22 and the spring receiving portion 20 of the protruding wall 21 of the housing 15. As shown in Fig. 9, when the projection 25c of the shutter 25 is engaged with the beginning end of the guide hole 26 of the frame body 18, the movement of the shutter 25 is stopped and returns to the initial state. At this time, it is set in the casing 丨The second contact portion 2 and the second contact portion 1 in the holding portion 16 of the holding portion 16 are held in a closed space surrounded by the frame body 18 and the shutter 25 of 147297.doc •16·201106547. [Effect of the connector of the first embodiment] When the connector of the first embodiment is viewed from a cross section orthogonal to the insertion/removal direction of the target side connector 3, as shown in Fig. 17, the first contact is shown. The second portion is located between the adjacent second contact portions 1 and the second contact portion is located between the adjacent first contact portions 2. Therefore, the arrangement position of the first contact portion 2 and the second contact can be utilized. The first terminal member 形成 and the formation of the first contact portion 2 are individually suppressed by the j-pressing jig 4 and the second pressing jig 5 or via the third pressing jig 12, respectively, by the deviation of the arrangement position of the portion 1 2, the second contact element 9 of the contact portion 1 is inserted and molded, and the first contact portion 2 can be disposed on the lower surface of the casing, and the second contact portion 10 can be disposed on the upper surface. The i-th contact portion 2 and the second contact portion 10 which are disposed on both surfaces of the holding portion 16 are accurately placed without being moved during insertion molding. Therefore, the narrowing of the first contact portion 2 and the second contact portion 10 can be achieved by insert molding. Thereby, the connector of the i-th embodiment can be miniaturized in the width direction. In addition, after the first insertion molding, the portion of the first outer connecting portion 3 of the plurality of second terminal members 1 that connects the plurality of second connecting portions 3 is cut between the second outer connecting portions 3, and After the second insertion molding, the second external connection (four) of the second terminal member 9 that connects the plurality of second terminal members 9 is cut between the second external connection portions u, and the first terminal member 1 is cut. The interval between the second terminal members 9 and the interval between the second terminal members 9 is narrowed, so that the interval between the first contact portions 2 of the adjacent first terminal members 1 and the second of the adjacent second terminal members 9 The interval between the contact portions 1 is set to be narrower, and 147297.doc -17·201106547 is wider than the interval between the adjacent second external connection portions 3 and the interval between the adjacent second external connection portions 11 The distance between the i-th contact portion 2 and the second contact portion 1 is such that the blade of the processing tool that cuts the connection between the second external connection portion 3 and the second external connection portion 11 can be formed and phased. The interval between the adjacent first and fourth connecting portions 3 and the wider interval between the second external connecting portions are corresponding to each other. . In other words, the interval between the second contact portions 2 and the interval between the second contact portions 10 can be narrowed, and the connecting rails of the respective second external connection portions 3 and the second external connection portions u can be cut and disconnected. The edge of the processing tool is relatively thick, whereby the narrow pitch of the second contact portion 2 and the second contact portion 1 can be achieved, and the connector in the first embodiment can be miniaturized in the width direction. The life of the processing tool can be extended, and the maintenance of the processing tool can be suppressed to a small extent. This improves the production efficiency of the connector of the first embodiment. Further, in the connector of the first embodiment, the i-th terminal The width of the first outer connecting portion 仏 is smaller than the width of the first contact portion 2, and is smaller than the width of the second contact portion (7) of the second terminal member 9 (2) The width of the outer connecting portion u is set to be small, and the side portion of the i-th contact portion 2 and the side portion of the second outer connecting portion 3 are embedded with a resin, and the side portion of the second contact portion 1 is embedded with resin. Part 2 of the second external connection part - part of the side. When the (four) force from the splicer 3 to the first contact portion 2 of the first terminal member 1 or the second contact portion of the second terminal constituting the horn is attached, the connection is shown in FIG. The neck portion 1b of the portion 3 and the resin that joins the neck portion of the second contact portion "the outer connecting portion 11" are subjected to the force 147297.doc -18-201106547, so when the connector side connector 3 is mounted, It is possible to prevent the second terminal member 1 and the second terminal member 9 from moving in the insertion/removal direction of the object side connector 3A. Thereby, a more stable and highly reliable structure can be obtained. Further, the connector of the first embodiment is a portion of the first external connection portion 3 of the first terminal member 1 that protrudes from the casing 15, and a second portion of the second terminal member 9. P connection. The portion of the crucible 11 is formed by folding each of the ridges 11 and is provided with an insulating connecting portion 19 which is integrally connected to the second external connecting portion 11 of the second terminal member 9 which is discharged from the casing (10). . Thus, via the connection. . In the meantime, the second outer portion of the plurality of second terminal members 9 can be bent with high precision at the same time. The portion of the p-joining portion u contributes to the improvement of the manufacturing efficiency of the first embodiment. Further, the second outer connecting portion 3 of the first terminal member 折 is folded at the position 4 of the casing 15 at the position 4. The connecting portion 丨9 is provided at the second end which is folded away from the casing 丨5. The second external connection portion 11 of the member 9 is therefore able to be the first! The i-th external connection portion 3 of the member 1 and the second external connection P 11 of the second terminal member 9 are disposed without interfering with each other. Thereby, a stable and reliable structure can be obtained. Further, as shown in FIG. 8, the groove portion 17 is provided in the holding portion 16 of the casing 15, the cut end portion of the second contact portion 2 of the first terminal member, and the second contact portion 2 of the second terminal portion. The cut ends are accommodated in the groove portion 17 respectively, and the cut end portion of the first contact portion 2 of the first terminal member 1 and the second contact portion 10 of the sub-member 9 are prevented from being cut. The broken end portion is slipped to the target side connector, and the surface is protruded to cause the first contact portion 2 or the second contact portion 1 to be broken. Thereby, a stable and reliable structure can be obtained. In the connector of the first embodiment, the target side connector 30 is inserted into the opening 24 of the casing 18 to move the shutter 25 to the innermost position of the apparatus. At this time, the projection 25c of the shutter 25 is in a state of protruding from the guide hole 26 of the frame 18 formed by bending to the external space. That is, when the shutter is moved to the innermost position of the apparatus, the projection 25c can be moved in the external space without being restricted by the guide hole 26. By disposing the projections on the shutter 25 in this way, it is possible to eliminate the restriction on the shape of the object-side connector 3, and it is possible to achieve miniaturization in the width direction of the connector while ensuring the necessary movement of the shutter 25. the amount. Further, since the frame 18 is formed by bending in the thickness direction of the connector at a position closer to the end portion 26a of the guide hole 26, the length of the entire device can be made smaller, and the length direction can be suppressed. The size is large. In other words, the function of high reliability and the miniaturization of the entire device can be ensured. Further, the portion of the frame 18 formed by the above-described bending includes the protruding portion 27, and the protruding portion 27 can be bent, so that the bending process is simple and the manufacturing efficiency is improved. Further, since the portion of the frame 18 is not required around the protruding portion 27, the material cost for forming the frame 18 can be suppressed to be relatively inexpensive, which is practical. Further, the frame 18 and the casing 15 can be integrally fixed via the engaging portion 28 of the casing 18, so that a firm and stable structure can be realized. Further, when the shutter 25 is moved to the vicinity of the inner position of the apparatus, the end portion of the rod portion 25b of the question 25 is inserted into the through hole 22 of the casing 15, so that the necessity of the shutter 25 can be easily ensured. The amount of movement. Further, the end portion 26a of the guide hole 26 of the projection 25c of the guide shutter 25 is closed by the lower end portion 27a of the projection 27 of the frame body 18, as this ensures the guide hole by 147297.doc 201106547 The strength of 26 helps to achieve a stable structure. [Effect of the method of manufacturing the connector of the first embodiment] In the method of manufacturing the connector of the first embodiment, in the step of molding the i-th casing portion 6, the first pressing jig 4 can be used. Insertion molding is performed while suppressing the movement of the first terminal member 1 forming the second contact portion 2 with the second pressing of the dislocation 5 . Further, in the step of molding the second case portion 13, the first case portion 6 and the third pressing jig 12 can be inserted while suppressing the movement of the second terminal member 9 forming the second contact portion 10 Forming. In other words, the first contact portion 2 and the second contact portion 1 that are arranged on both surfaces of the holding portion 16 can be accurately placed without being moved during the insertion molding, and the first contact portion 2 can be realized by insert molding. The second contact portion 1 has a narrow pitch. Thereby, the size of the connector in the width direction can be reduced. Further, at the time of insert molding, the second contact portion 1 of the second terminal member 9 is placed in the accommodating portion 8 formed in the holding portion 16, whereby the second terminal member 9 can be easily positioned in the first housing. On the 6th. In addition, the second contact portion 1 of the second terminal member $ is placed in the accommodating portion 8 of the first case portion 6 to be inserted and formed, and is orthogonal to the insertion/removal direction of the target side connector 3A. When the cross section is observed, the second contact portion 1 can be disposed between the adjacent i-contact portions 2 with high precision, and the first contact portion 2 can be accurately placed in the adjacent second contact portion 1 In the daytime.
6與第2殼體部13牢固地一體化。由此 14,可使第1殼體部 可獲得於保持部16 147297.doc -21 · 201106547 之下表面具有第1接觸部2、於上表面具有第2接觸部1〇之 穩定結構的殼體15。 又,於框體18内裝入擋閘25,藉此可實現對設置於殼體 1 5之保持部16上之第1接觸部2及第2接觸部丨〇的保護可 獲得高可靠性之連接器。 [本發明之連接器之製造方法的第2實施形態] 圖24〜3 1係本發明之連接器之製造方法之第2實施形態的 說明圖。圖32係表示於圖29中戶斤示之殼體之成形步驟中使 用之第1按壓夾具及第2按壓夾具的立體圖。 首先,藉由對金屬板之沖裁加工而形成圖Μ所示之配置 於下層的第1端子構件40、及圖25所示之配置於上層的第2 縞子構件41。複數之第1端子構件4〇之第丨外部連接部係 藉由連接橫桿40a而連結。同樣地,複數之第2端子構件“ 之第2外部連接部45係藉由連接橫桿41 a而連結。 圖24所示之配置於下層之第丄端子構件4〇如圖26所示被 彎曲加工,明確地劃分為與上述對象側連接器3 〇之第】外 部連接端子33電性接觸之第i接觸部42、及與該第i接觸部 42相連設置且與外部配線連接之第}外部連接部43。同樣 地’圖25所示之配置於上層之第2端子構件41如圖27所示 被彎曲加工’劃分為與對象侧連接器3〇之第2外部連接端 子34電性接觸之第2接觸部44、及與該第2接觸部钧相連設 置且與外部配線連接之第2外部連接部45。 接下來’如圖28所示,以疊合的方式將圖26所示之 端子構件4〇之第1接觸部42配置於下層,且將圖27所示第2 147297.doc • 22· 201106547 端子構件41之弟2接觸部44配置於上層。此時,並排設置 之複數之第1端子構件40與並排設置之複數之第2連接端子 41係以彼此錯開之方式分別配置。 其次’如圖29所示’將第1按!夾具46配置於第1端子構 件40之下側,將第2按壓夾具47配置於第2端子構件41之上 側,並在藉由該等第1按壓夾具46及第2按壓夹具47按壓第 1端子構件40及第2端子構件4 1之狀態下進行插入成形。此 處,如圖32所示,於第1按壓夾具46之上表面,形成有高 度較低之第1突起46a、及比該第1突起46a高的第2突起 46b,於第2按壓夾具47之下表面,形成有高度較低之第工 突起47a、及比該第1突起47a高的第2突起47b *如上所 述,在藉由第1按壓夾具46與第2按壓夾具47按壓第1端子 構件40及第2端子構件41時,利用第!按壓夾具46之第1突 起46a來按壓第1端子構件40之下表面,使第1按壓夾具^ 之第2突起46b插通於第i端子構件4〇間而利用該第2突起 46b來按壓第2端子構件41之下表面。複數之第丨端子構件 40中之相鄰的第1端子構件40間之間隙係被設定成可插通 第1按壓夾具46之第2突起46b的尺寸。另外,利肖第2按壓 夾具47之第1突起473來按壓第2端子構件41之上表面,使 第2按麼夾具47之第2突起47b插通於第2端子構_間而利 用該第2突起47b來按壓第1端子構件4〇之上表面。複數之 第2端子構件41中之相鄰的第2端子構件_之間隙 定成可插通第2按壓夾具47之第2突起47b的尺寸。’ ’、又 於上述插入成形後,將連結複數之第1端子構件40之第1 147297.doc -23- 201106547 外邛連接部43的連接橫桿40a之位於第1外部連接部43間的 部分切斷。同樣地,將連結複數之第2端子構件41之第2外 連接。卩4 5的連接橫桿41 a之位於第2外部連接部4 5間的部 分切斷。而且,將第1端子構件40及第2端子構件41之兩端 部分切斷。以此成形出圖30所示之殼體48。即,成形出於 保持部49之下表面設有第1接觸部42、於上表面設有第2接 觸部44的殼體48,該殼體48具有收容第1端子構件4〇之第i 接觸部42之切斷端部、及第2端子構件41之第2接觸部44之 切斷端部的槽部5 0。 再者,如同圖30所示,於殼體48上,設置有與上述第j 實施形態等同之—對彈簧收容部51、及分別形成於設置在 裝置内側位置之左右之突出壁52上且與彈簧收容部Η連通 的貫通孔5 3。 並且,如圖31所示,在金屬製之框體54内裝入有擋閘 56、及圖30所示之殼體48。然後,將框體54之突出部59及 卡合部60向下方彎折,完成連接器之製造。 [本發明之連接器之第2實施形態] 圖33係本發明之連接器之第2實施形態的分解立體圖。 圖34〜37係殼體之說明圖,圖34係前視圖圖35係側視 圖圖36係後視圖,圖37係從下方觀察之立體圖。 士》亥等圖33〜圖37及圖30、31所示,本發明之連接器之 第2實施形態亦與上述連接器之第1實施形態形成為大致等 同之結構。即,如圖34等所示,於殼體48之保持部49之下 表面设置有第1接觸部42 ’於上表面設置有第2接觸部料。 147297.doc -24· 201106547 又,以如下方式設定保持部49中之第i接觸部42與第2 部44之配置關係’ V,從與對象側連接器3Q之插拔方向正 交之剖面進行觀察時’在與相鄰之^接觸部仰相對向 之位置上配置有第2接觸部44 ’並在與相鄰之第2接觸部料 間相對向之位置上配置有第i接觸部42。 失T,保持部49 包含-結構體’其並未如上述連接器之第!實施形態般形 成形成有凹陷部7及突起部14。 擋閘56係與連接器之第1實施形態等同,其包含·保持 部49所插通之開口部56a、保持螺旋彈簧刃之棒狀部5化、 及構成導引部之突起56c。如圖31等所示,於框體“上, 设置有構成導引擋閘56之突起56c之導引部的導引孔58。 又,如圖37等所示,第1端子構件4〇之第i外部連接部43 及第2端子構件41之第2外部連接部44之配置關係亦與上述 第1實施形態等同,包含可同時彎折第2外部連接部45之絕 緣性的連結部62。 第1端子構件40之第1接觸部42與第1外部連接部43之寬 度尺寸的大小關係、及第2端子構件41之第2接觸部44與第 2外部連接部45之寬度尺寸的大小關係亦與上述圖丨5所示 之連接器之第1實施形態的情形相同。 圖38係表示本發明之連接器之第2實施形態之動作的立 體圖’圖3 9係從背面側觀察圖3 8所示之連接器之第2實施 形態的立體圖。 如該等圖38、39所示,該連接器之第2實施形態亦與上 述連接器之第1實施形態同樣地,在較導引孔5 8之終端部 147297.doc -25- 201106547 58a更近前之位置處,向該連接器之厚度方向彎折而形成 框體54,擋閘56之突起56c之一部分係可從該彎折形成之 框體54部分、即突出部59之導引孔58突出。 [第2實施形態之連接器、及第2實施形態之連接器之製造 方法的效果] 第2實施形態之連接器亦與上述第1實施形態之連接器同 樣地,可利用第1端子構件40之第1接觸部42之配設位置、 與第2端子構件41之第2接觸部44之配設位置的偏差,一邊 經由第1按壓夾具46及第2按壓夾具47而個別抑制第i端子 構件40及第2端子構件41之移動一邊進行插入成形,於殼 體48之保持部49之下表面可設置第i接觸部42,並於上表 面可設置第2接觸部44。即,與上述第i實施形態之連接器 同樣地,在第2實施形態之連接器中,亦可將於保持部49 之兩面上排列之第1接觸部42及第2接觸部44在插入成形時 不移動而精度良好地設置。其他作用效果與第丨實施形態 等同。 又,於如上所述製造連接器之第2實施形態之製造方法 中,在形成殼體48之步驟中,可一邊藉由第丨按壓夾具牝 與第2按壓夾具47而抑制第㈣子構件4〇及第2端子構件“ 之移動-邊進行插人成形。gp ’與上述^實施形態之連 接器同樣地,,玄第2實施形態之連接器之製造方法亦可將 於保持部49之兩面上分別排列之第旧觸部42及第2接觸部 44在插人成形料移動而精度良好地設置,從而可與上述 第1實施形態之連接器之製造方法取得等同之作用效果。 I47297.doc • 26· 201106547 以而^尤其該第2實施形態之連接器之製造方法係能夠 二--人插入成形而成形出於保持部49之兩面具有第【接觸 42、第2接觸部44的殼體48。藉此 效率。 稭此,可提高製造作業之 【圖式簡單說明】 圖!係本發明之連接器之製造方法之第1施形態的說明 圖八係表不配置於下層之第丄端子構件之立體圖。 圖2係本發明之連接器之製造方法之第㉖施形態的說明 圖:其係表示將圖i所示之第【端子構件進行彎曲加工後之 狀態之立體圖。 圖3係本發明之連接器之製造方法之第1施形態的說明 圖,其係表示成形第丨殼體部之步驟之立體圖。 圖4係本發明之連接器之製造方法之第i實施形態的說明 圖’其係表示圖3所示之步驟後之第i端子構件之切斷步驟 的立體圖。 圖5係本發明之連接器之製造方法之第1實施形態的說明 圖,其係表示在第丨殼體部上載置有配置於上層之第2端子 構件之狀態的立體圖。 圖6係本發明之連接器之製造方法之第1實施形態的說明 圖,其係表示藉由插入成形而成形第2殼體部之步驟之立 體圖。 圖7係本發明之連接器之製造方法之第丨實施形態的說明 圖,其係表示第2殼體部成形後之狀態之立體圖。 圖8係本發明之連接器之製造方法之第1實施形態的說明 147297.doc • 27- 201106547 圖,其係表示由圖7所示之狀態進行切斷及彎曲加工而形 成殼體之狀態之立體圖。 圖9係本發明之連接器之製造方法之第i實施形態的說明 圖,其係表示裝配結束後之狀態之立體圖。 圖10係表示於圖3所示之第丨殼體部之成形步驟中使用之 第1知:壓夾具及第2按壓炎具的立體圖。 圖11係圖8所示之殼體之俯視圖。 圖12係圖8所示之殼體之仰視圖。 圖13係圖8所示之殼體之側視圖。 圖14係從背面側觀察圖8所示之殼體之立體圖。 圖Μ'設置於圖8所示之保持部上之端子構件的要部放 大俯視圖。 圖16係本發明之連接器之第1實施形態的分解立體圖。 圖1 7係本發明之連接器之第i實施形態的前視圖。 圖18係本發明之連接器之第1實施形態的後視圖。 圖19係本發明之連接器之第1實施形態的俯視圖。 圖2〇係表示本發明之連接器之第i實施形態中含有之框 體的立體圖。 圖係表示本發明之連接器之第ι實施形態中含有之播 閘的立體圖。 圖22係表不本發明之連接器之第1實施形態中安裝之對 象側連接器的要部立體圖。 圖23係圖22所示之對象側連接器之前視圖。 圖24係本發明之連接器之製造方法之第2實施形態的說 147297.doc -28· 201106547 明圖,其係表示配置於下層之第丨端子構件之立體圖。 圖25係本發明之連接器之製造方法之第2實施形態的說 明圖’其係表示配置於上層之第2端子構件之立體圖。 ' 圖%係本發明之連接器之製造方法之第2實施形態的說 - 明圖,其係表示將圖24所示之第1端子構件進行彎曲加工 後之狀態之立體圖。 圖2 7係本發明之連接器之製造方法之第2實施形態的說 明圖,其係表示將圖25所示之第2端子構件進行彎曲加工 後之狀態之立體圖。 圖28係本發明之連接器之製造方法之第2實施形態的說 明圖’其係表示於第丨端子構件上配置有第2端子構件之狀 態之立體圖。 圖29係本發明之連接器之製造方法之第2實施形態的說 明圖’其係表示藉由插入成形而成形殼體之步驟之立體 圖。 圖30係本發明之連接器之製造方法之第2實施形態的説 明圖’其係表示由圖29所示之狀態進行切斷及彎曲加工而 成形出殼體之狀態之立體圖。 ' 圖31係本發明之連接器之製造方法之第2實施形態的説 明圖’其係表示裝配即將結束前之狀態之立體圖。 圖32係表示於圖29中所示之殼體之成形步驟中使用之第 1按壓夾具及第2按壓夾具的立體圖。 圖3 3係本發明之連接器之第2實施形態的分解立體圖。 圖34係本發明之連接器之第2實施形態中含有之殼體的 147297.doc •29· 201106547 前視圖。 圖3 5係本發明之連接器 之第2實施形態中含有之殼體的 側視圖。 圖3 6係本發明之連接器 之第2實施形態中含有之殼體的 後視圖。 圖37係從下方觀察本發 明之連接器之第2實施形態中含 有之殼體的立體圖。 圖38係表示本發明之連接器之第2實施形態之動作的立 體圖。 圖3 9係從背面側觀察圖 38所示之連接器之第2實施形態 的立體圖。 【主要元件符號說明】 1、40 第1端子構件 la' 40a > 41a 連接橫桿 lb 縮頸部分 2 ' 42 第1接觸部 3、43 第1外部連接部 4 ' 46 第1按壓夾具 4a、5a 突起 5 ' 47 第2按壓夾具 6 第1殼體部 7 凹陷部(卡合部) 8 收容部 9、41 第2端子構件 I47297.doc •30. 201106547 10 ' 44 11、45 12 13 14 15、48 16 ' 49 17、 50 18、 54 19、 62 20、 51 21 ' 52 22 ' 53 、 61 23 ' 57 24、25a、32、55、56a 25 ' 56 25b ' 56b 25c 、 56c 26 ' 58 26a ' 5 8a 27 、 31 、 59 27a、59a 28 ' 60 30 第2接觸部 第2外部連接部 第3按壓夾具 第2殼體部 突起部(卡合部) 殼體 保持部 槽部 框體 連結部 彈簧收容部 突出壁 貫通孔 螺旋彈簧(施力構件) 開口部 擋閘 棒狀部 突起(導引部) 導引孔(導引部) 終端部 突出部 下端部 卡合部 對象側連接器 147297.doc -31 - 201106547 33 34 46a ' 47a 46b ' 47b 第1外部連接端子 第2外部連接端子 第1突起 第2突起 147297.doc -32-6 is firmly integrated with the second casing portion 13. Thereby, the first casing portion can be obtained in the casing having the first contact portion 2 on the lower surface of the holding portion 16 147297.doc -21 · 201106547 and having the stable structure of the second contact portion 1 on the upper surface. 15. Further, the shutter 25 is incorporated in the casing 18, whereby the first contact portion 2 and the second contact portion 设置 provided on the holding portion 16 of the casing 15 can be protected from high reliability. Connector. [Second Embodiment of Manufacturing Method of Connector of the Present Invention] Figs. 24 to 3 are explanatory views of a second embodiment of the method of manufacturing the connector of the present invention. Fig. 32 is a perspective view showing the first pressing jig and the second pressing jig used in the molding step of the casing shown in Fig. 29; First, the first terminal member 40 disposed on the lower layer and the second member 41 disposed on the upper layer shown in Fig. 25 are formed by punching a metal plate. The second outer connecting portions of the plurality of first terminal members 4'' are connected by the connecting crossbar 40a. Similarly, the second external connection portions 45 of the plurality of second terminal members are connected by the connecting rails 41 a. The second terminal members 4 arranged in the lower layer shown in Fig. 24 are bent as shown in Fig. 26 . The processing is clearly divided into an ith contact portion 42 that is in electrical contact with the external connection terminal 33 of the target-side connector 3, and an ith contact portion 42 that is connected to the ith contact portion 42 and is connected to the external wiring. Similarly, the second terminal member 41 disposed on the upper layer shown in FIG. 25 is bent and cut into a second contact with the second external connection terminal 34 of the target side connector 3 as shown in FIG. The second contact portion 44 and the second external connection portion 45 connected to the second contact portion 且 and connected to the external wiring. Next, as shown in FIG. 28, the terminals shown in FIG. 26 are stacked. The first contact portion 42 of the member 4A is disposed on the lower layer, and the second contact portion 44 of the second member 147297.doc • 22·201106547 terminal member 41 shown in Fig. 27 is disposed on the upper layer. The 1 terminal member 40 is connected to the plurality of second connection terminals 41 arranged side by side In the second embodiment, the first pressing member 46 is disposed on the lower side of the first terminal member 40, and the second pressing jig 47 is disposed on the upper side of the second terminal member 41. Insertion molding is performed in a state where the first terminal member 40 and the second terminal member 41 are pressed by the first pressing jig 46 and the second pressing jig 47. Here, as shown in Fig. 32, the first pressing jig 46 is used. On the upper surface, a first protrusion 46a having a lower height and a second protrusion 46b higher than the first protrusion 46a are formed, and a lower working protrusion 47a is formed on a lower surface of the second pressing jig 47, As described above, when the first terminal member 40 and the second terminal member 41 are pressed by the first pressing jig 46 and the second pressing jig 47, the second protrusion 47b is higher than the first protrusion 47a. The first projection 46a of the jig 46 presses the lower surface of the first terminal member 40, and the second projection 46b of the first pressing jig is inserted between the i-th terminal member 4, and the second projection 46b is pressed by the second projection 46b. The lower surface of the terminal member 41. Between the adjacent first terminal members 40 of the plurality of second terminal members 40 The size of the second protrusion 46b of the first pressing jig 46 can be inserted. The first protrusion 473 of the second pressing jig 47 presses the upper surface of the second terminal member 41 to make the second pressing. The second projection 47b of the jig 47 is inserted into the second terminal structure, and the upper surface of the first terminal member 4 is pressed by the second projection 47b. The second terminal of the plurality of second terminal members 41 is adjacent. The gap of the member is set to be the size of the second projection 47b that can be inserted into the second pressing jig 47. '', and after the insert molding, the first 147297.doc -23- of the first terminal member 40 is connected. 201106547 The portion of the connecting crossbar 40a of the outer middle connecting portion 43 located between the first outer connecting portions 43 is cut. Similarly, the second outer connection of the plurality of second terminal members 41 is connected. The portion of the connecting crossbar 41a of the crucible 4a located between the second outer connecting portions 45 is cut. Further, both end portions of the first terminal member 40 and the second terminal member 41 are cut. Thereby, the casing 48 shown in Fig. 30 is formed. That is, the case 48 in which the first contact portion 42 is provided on the lower surface of the holding portion 49 and the second contact portion 44 is provided on the upper surface is formed, and the case 48 has the i-th contact for accommodating the first terminal member 4? The cut end portion of the portion 42 and the groove portion 50 of the cut end portion of the second contact portion 44 of the second terminal member 41. Further, as shown in Fig. 30, the casing 48 is provided with the spring receiving portion 51 and the left and right protruding walls 52 which are respectively formed at the inner side of the device, and are provided in the same manner as the above-described jth embodiment. A through hole 53 that communicates with the spring receiving portion. Further, as shown in Fig. 31, a shutter 56 and a casing 48 shown in Fig. 30 are housed in a metal casing 54. Then, the protruding portion 59 and the engaging portion 60 of the frame 54 are bent downward to complete the manufacture of the connector. [Second Embodiment of Connector of the Present Invention] Fig. 33 is an exploded perspective view showing a second embodiment of the connector of the present invention. Figs. 34 to 37 are explanatory views of the casing, Fig. 34 is a front view, Fig. 35 is a side view, Fig. 36 is a rear view, and Fig. 37 is a perspective view as seen from below. As shown in Figs. 33 to 37 and Figs. 30 and 31, the second embodiment of the connector of the present invention is also formed in substantially the same configuration as the first embodiment of the connector. That is, as shown in Fig. 34 and the like, the first contact portion 42' is provided on the lower surface of the holding portion 49 of the casing 48, and the second contact portion is provided on the upper surface. 147297.doc -24·201106547 Further, the arrangement relationship 'V of the i-th contact portion 42 and the second portion 44 in the holding portion 49 is set as follows from the cross section orthogonal to the insertion/removal direction of the target side connector 3Q. At the time of observation, the second contact portion 44' is disposed at a position facing the adjacent contact portion, and the i-th contact portion 42 is disposed at a position opposed to the adjacent second contact portion. The T is lost, and the holding portion 49 includes the - structure. The recessed portion 7 and the protruding portion 14 are not formed as in the above embodiment of the connector. The shutter 56 is equivalent to the first embodiment of the connector, and includes an opening portion 56a through which the holding portion 49 is inserted, a rod portion that holds the coil spring blade, and a projection 56c that constitutes the guide portion. As shown in Fig. 31 and the like, the guide hole 58 constituting the guide portion of the projection 56c of the guide shutter 56 is provided on the casing. Further, as shown in Fig. 37 and the like, the first terminal member 4 The arrangement relationship between the i-th external connection portion 43 and the second external connection portion 44 of the second terminal member 41 is also equivalent to that of the above-described first embodiment, and includes a connection portion 62 that can simultaneously bend the insulation of the second external connection portion 45. The magnitude relationship between the width dimension of the first contact portion 42 of the first terminal member 40 and the first external connection portion 43 and the relationship between the width dimension of the second contact portion 44 of the second terminal member 41 and the second external connection portion 45 It is also the same as the case of the first embodiment of the connector shown in Fig. 5. Fig. 38 is a perspective view showing the operation of the second embodiment of the connector of the present invention. Fig. 39 is a view from the back side. A perspective view of the second embodiment of the connector shown. As shown in Figs. 38 and 39, the second embodiment of the connector is also similar to the guide hole 5 in the second embodiment of the connector. 8 terminal part 147297.doc -25- 201106547 58a more recent position, thick to the connector The frame 54 is bent in the direction, and a part of the projection 56c of the shutter 56 is protruded from the portion of the frame 54 formed by the bending, that is, the guide hole 58 of the projection 59. [The connector of the second embodiment, In the same manner as the connector of the first embodiment, the connector of the second embodiment can be configured by the first contact portion 42 of the first terminal member 40. When the position and the position of the second contact portion 44 of the second terminal member 41 are different from each other, the movement of the i-th terminal member 40 and the second terminal member 41 is individually suppressed by the first pressing jig 46 and the second pressing jig 47. The inserting is performed, and the i-th contact portion 42 may be provided on the lower surface of the holding portion 49 of the casing 48, and the second contact portion 44 may be provided on the upper surface. That is, similarly to the connector of the first embodiment, In the connector of the second embodiment, the first contact portion 42 and the second contact portion 44 which are arranged on both surfaces of the holding portion 49 can be accurately placed without being moved during insertion molding. The implementation is equivalent. Again, as described above In the manufacturing method of the second embodiment of the connector, in the step of forming the casing 48, the fourth (fourth) sub-member 4 and the second terminal member can be suppressed by the second pressing jig and the second pressing jig 47. “The movement – the side is shaped. In the same manner as the connector of the above embodiment, the method of manufacturing the connector of the second embodiment may be such that the old contact portion 42 and the second contact portion 44 which are arranged on both surfaces of the holding portion 49 are The insertion molding material is moved and accurately provided, and the same effects as those of the connector manufacturing method according to the first embodiment described above can be obtained. I47297.doc • 26·201106547 In particular, the manufacturing method of the connector of the second embodiment can be formed by two-person insertion molding, and the two sides of the holding portion 49 have the first contact 42 and the second contact portion 44. Housing 48. Use this efficiency. [Brief Description of the Drawings] FIG. 8 is a perspective view showing the first embodiment of the manufacturing method of the connector of the present invention. FIG. Fig. 2 is an explanatory view showing a twenty-sixth embodiment of the method of manufacturing the connector of the present invention. Fig. 2 is a perspective view showing a state in which the terminal member shown in Fig. i is bent. Fig. 3 is an explanatory view showing a first embodiment of a method of manufacturing a connector according to the present invention, showing a step of forming a second casing portion. Fig. 4 is an explanatory view showing an i-th embodiment of the method of manufacturing the connector of the present invention. Fig. 4 is a perspective view showing a cutting step of the i-th terminal member after the step shown in Fig. 3. Fig. 5 is a perspective view showing a first embodiment of a method of manufacturing a connector according to the present invention, showing a state in which a second terminal member disposed on an upper layer is placed on a second casing portion. Fig. 6 is an explanatory view showing a first embodiment of a method of manufacturing a connector according to the present invention, which is a perspective view showing a step of molding a second casing portion by insert molding. Fig. 7 is an explanatory view showing a third embodiment of the method of manufacturing the connector of the present invention, showing a state in which the second casing portion is formed. Fig. 8 is a view showing a first embodiment of the method for manufacturing a connector according to the present invention. 147297.doc • 27-201106547, which is a state in which the casing is formed by cutting and bending in the state shown in Fig. 7 . Stereo picture. Fig. 9 is an explanatory view showing an i-th embodiment of a method of manufacturing a connector of the present invention, which is a perspective view showing a state after completion of assembly. Fig. 10 is a perspective view showing the first known use of the pressing jig and the second pressing device in the forming step of the second casing portion shown in Fig. 3 . Figure 11 is a plan view of the housing shown in Figure 8. Figure 12 is a bottom plan view of the housing shown in Figure 8. Figure 13 is a side elevational view of the housing of Figure 8. Fig. 14 is a perspective view of the casing shown in Fig. 8 as seen from the back side. The top view of the main part of the terminal member provided on the holding portion shown in Fig. 8 is enlarged. Fig. 16 is an exploded perspective view showing the first embodiment of the connector of the present invention. Fig. 1 is a front view showing an i-th embodiment of the connector of the present invention. Figure 18 is a rear elevational view of the first embodiment of the connector of the present invention. Fig. 19 is a plan view showing a first embodiment of the connector of the present invention. Fig. 2 is a perspective view showing a casing included in the i-th embodiment of the connector of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. is a perspective view showing a broadcaster included in the first embodiment of the connector of the present invention. Fig. 22 is a perspective view of an essential part of the object side connector mounted in the first embodiment of the connector of the present invention. Figure 23 is a front elevational view of the object side connector shown in Figure 22. Fig. 24 is a perspective view showing a second embodiment of the method for manufacturing a connector according to the present invention. 147297.doc -28·201106547 is a perspective view showing a second terminal member disposed in the lower layer. Fig. 25 is a perspective view showing a second embodiment of a method of manufacturing a connector according to the present invention, showing a second terminal member disposed on the upper layer. In the second embodiment of the method for manufacturing the connector of the present invention, the present invention is a perspective view showing a state in which the first terminal member shown in Fig. 24 is bent. Fig. 2 is a perspective view showing a second embodiment of the method of manufacturing the connector of the present invention, showing a state in which the second terminal member shown in Fig. 25 is bent. Fig. 28 is a perspective view showing a state in which the second terminal member is disposed on the second terminal member in the second embodiment of the method for manufacturing the connector of the present invention. Fig. 29 is a perspective view showing a second embodiment of a method of manufacturing a connector according to the present invention, which is a perspective view showing a step of molding a casing by insert molding. Fig. 30 is a perspective view showing a state in which the second embodiment of the method for manufacturing the connector of the present invention is shown in the state shown in Fig. 29, in which the casing is formed by cutting and bending. Fig. 31 is a perspective view showing a second embodiment of the method for manufacturing a connector according to the present invention, which is a perspective view showing a state immediately before the end of assembly. Fig. 32 is a perspective view showing the first pressing jig and the second pressing jig used in the molding step of the casing shown in Fig. 29. Fig. 3 is an exploded perspective view showing a second embodiment of the connector of the present invention. Fig. 34 is a front elevational view of the casing 147297.doc • 29· 201106547 contained in the second embodiment of the connector of the present invention. Fig. 3 is a side view of the casing included in the second embodiment of the connector of the present invention. Fig. 3 is a rear elevational view of the casing included in the second embodiment of the connector of the present invention. Fig. 37 is a perspective view of the casing included in the second embodiment of the connector of the present invention as seen from below. Fig. 38 is a perspective view showing the operation of the second embodiment of the connector of the present invention. Fig. 3 is a perspective view of the second embodiment of the connector shown in Fig. 38 as seen from the back side. [Description of main component symbols] 1. 40 First terminal member la' 40a > 41a Connecting crossbar lb Constricted portion 2' 42 First contact portion 3, 43 First external connection portion 4' 46 First pressing jig 4a, 5a projection 5' 47 second pressing jig 6 first housing portion 7 recessed portion (engaging portion) 8 housing portion 9, 41 second terminal member I47297.doc • 30. 201106547 10 ' 44 11, 45 12 13 14 15 48 16 ' 49 17 , 50 18 , 54 19 , 62 20 , 51 21 ' 52 22 ' 53 , 61 23 ' 57 24 , 25a , 32 , 55 , 56a 25 ' 56 25b ' 56b 25c , 56c 26 ' 58 26a ' 5 8a 27 , 31 , 59 27a , 59a 28 ' 60 30 2nd contact part 2nd external connection part 3rd press clamp 2nd case part protrusion part (engagement part) case holding part groove part frame connection part Spring accommodating portion protruding wall through-hole coil spring (urging member) opening portion damper-shaped portion protrusion (guide portion) guide hole (guide portion) terminal portion projecting portion lower end portion engaging portion object side connector 147297. Doc -31 - 201106547 33 34 46a ' 47a 46b ' 47b 1st external connection terminal 2nd external connection terminal 1st protrusion 2nd protrusion From 147297.doc -32-