201230517 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種電插頭元件、一種插頭元件之插座模 組、一種插頭元件之安裝模组、一種用於一電插頭元件之 套組及一種將一電裝置與一插頭元件裝配在一起之方法。 【先前技術】 吾人已自先前技術熟知插頭元件及將電裝置中之基板 (例如印刷電路板(PCB))與插頭元件裝配在一起之方法。 插頭元件通常包括由模製塑膠材料製成且具有將插頭元件 女裝至基板之構件之外殼。作為一實例,申請人將微型插 接系統(MQS)提供給包括根據先前技術之插頭元件之一接 頭系列。 通常根據某些客戶要求而調適外殼、外殼内之電接點配 置及安裝外殼之任何構件。 插頭兀件及其内之任何電接點可藉由(例如)通孔技術 (THT)或表面安裝技術(SMT)而安裝至基板。因此,插頭 二件之製造者必須開發插頭元件及其安裝方法之諸多設 。十然而,右僅需要少量之特定插頭元件,則插頭元件之 設計程序、㈣及製造會較麻須且無效率。 【發明内容】 鑒於先前技術之此等缺點, 可滿足市場需要且儘可能多地 要求之一插頭元件。 本發明之一潛在目的為提供 包括市場上出現之新機會及 說明書之開頭部分所提及之 電插頭元件根據本發明而 實 157840.doc 201230517 現此目的,因為該電插頭元件包括:至少一插座模組,其 具有一插口以用於一配合插頭元件,該插口朝向該插頭元 件之一插入方向敞開、形成於基本上平行於該插頭元件之 一長度方向而延伸之該插座模組之至少兩個壁區段之間及 容納沿該長度方向延伸且至少部分面向進入該插入方向之 至少一接點支承區;及至少一安裝模組,其具有附接至該 插座模組之一側面之一固持區段(該側面基本上平行於該 插入方向而延伸)及具有經調適以被緊固至一基板之一安 裝部件之一安裝區段。 說明書之開頭部分所提及之一插座模組實現該目的,因 為該插座模組係經調適以至少部分形成根據本發明之一插 頭元件。 說明書之開頭部分所提及之一安裝模組實現該目的,因 為該安裝模組係經調適以至少部分形成根據本發明之一插 頭元件。 說明書之開頭部分所提及之一套組實現該目的,因為該 套組包括根據本發明之至少一插座模組及至少一安裝模 組。 說明書之開頭部分所提及之一方法實現該目的,因為一 插座模組具有一安裝模組,且因為插頭元件係藉由該安裝 模組之一安裝區段而緊固至電裝置之一基板。 此等解決方案假定電插頭元件可根據客戶對插頭元件之 接點配置及安裝技術之要求而由至少—插座模組及至少一 安裝模組形成。換言之,該插座模組與該安裝模组可經組 157840.doc 201230517 合使得-特定客戶對插頭元件之要求被滿足, 身可因其等可互換而被大量生產。 、'、·且本 本發明提供—㈣於電接頭及由其等所組成之插頭元件 之模組式系統。諸多插座模組及安裝模組可設置在此模组 • 4系統^插座模組可包括不同尺寸及不同接點配置之模 、组°插座模組之《段可將導向部件、編碼部件及問鎖或 鎖疋部件提供給-配合插頭元件。不同安裝模組可具有安 裝部件’該等安裝部件可包括呈—接腳、―閃鎖、一釣、 -鎖扣、一突耳或一夾具形式之安裝元件以實現插頭元件 之一期望安裝方式且無需調適插座模組。側面可為安裝模 組之任何壁區段、側壁及側緣。 因此,根據本發明之插座模組及安裝模組可個別地適應 市場需要及特定客戶要求’且無需重新設計整個插頭元 件。因此,本發明有助於將設計及製造成本降至最低且提 供插頭元件之一多功能系統。 根據本發明之解決方案可根據需要而組合且由自身各具 優點之以下另外實施例進一步改良。 八 根據一第一可能另外實施例,電路模組之插口可通過沿 至少兩個壁區段之間之插座模組之一寬度方向延伸之至少 一凹口而側向敞開,該寬度方向垂直於長度方向及插入方 向而延伸。藉此,插口可根據某些要求而側向封閉或延伸 於該凹口處。因此,在該凹口之區域中,可節省構成插座 模組之材料。 可容易地實現模組之凹口封閉,因為安裝模組之固持區 157840.doc 201230517 丰又包括至少部分封閉插座模組_^凹口之一壁部分。藉此, 女裝模組可實現一雙重功能,因為其封閉凹口且提供安裝 設施。安裝模組可藉由封閉凹口而形成插口之一部分。 根據另一可能實施例,至少一接點支承區可定位在插口 之一底部處,該底部可面向進入插入方向,且凹口可向下 延伸至該底部及/或基本上沿平行於壁區段之間之寬度方 向所量測之一距離而延伸。換言之,插口可側向敞開,似 乎其側壁之一些失蹤了。根據某些要求,失蹤侧壁可由安 裝模組或任何其他模組元件替換。此有助於使插座模組更 具多功能性。 根據另一可能實施例,插座模組之壁區段之各者及/或 一側面之一側緣可具有用於將安裝模組固定在插座模組處 之至少一固定元件。此等固定元件可經標準化使得諸多不 同安裝模組可附接至插座模組。安裝模組可附接至插座模 組且無需任何另外輔助部件。接著,安裝模組之固持區段 可八有與》亥至少一固疋元件相互配合之至少一配對固定元 件。藉此,安裝模組可剛性及牢固地附接至插座模組。 根據另-可能實施例,安裝模組可具有以插座模組相對 於基板之至少兩個不同安裝角而自安裝模組突出之至少兩 個安裝部件。藉此,可沿相對於基板之不同角安裝插頭元 件且無需互換插座模組或安裝模組。因此,可大量生產插 座模組及安裝模組且無需給不时裝角提供不同模組。 根據本發明之插頭元件之另一可能實施例 固持區段之一厚度可低於0.5毫米。因此, ’安裝模組之 可固持尺寸更 157840.doc 201230517 小之其他插頭元件。此促進包括插頭元件之電裝置之小型 化0 可進一步改良根據本發明之插頭元件之多功能性及耐用 性,因為插座模組可由塑膠材料形成及/或安裝模組可由 金屬片材料形成。插座模組可為一塑膠模製部件,而插座 模組可由衝壓板材料製成。藉此,插座模組可為輕質且可 由電絕緣材料組成。形成安裝模組之金屬片材料可提供高 穩定性及彈性。 根據另一可能實施例,至少一接點支承區可包括至少一 列之接點支承件,該至少一列之接點支承件可基本上平行 於長度方向而縱向伸展。因此,可根據所需數量之接點支 承列之一期望長度而選擇插座模組。 不同長度之插座模組可由相同類型之安裝模組侧向終止 且可根據-特定線徑及節距而設計。對於橫截面積為〇22 平方毫米至0.5平方毫米之線徑,—標準節距(配置成列或 數列以形成―網格之若干接點支承件之間之—距離) 2.54毫米X2·54毫米。包括兩列接點支承件(各具有三個接 點支承件,即,共六個接點支承件)之一插頭元件 約_平方毫米之一區心其係微型插接系統 本發明促進使已知插頭元件 為⑶平方毫米至〇_35平方毫…:…橫截面積 十方毫未之線徑,可選擇18 x1.8毫米之—節距H由插m件覆蓋之—區域约' 為548平方毫米,此能夠 ^域可約 夠使由該插頭元件覆蓋之區域比 157840.doc 201230517 2·54毫米x2.54毫米節距減小約桃。可利用根據本發明之 2頭元件來實現-更大程度之小型化,因為在'線徑之橫 截面為=13平方毫米至〇 22平方毫米時選擇i 8毫米U毫 ,之一卽距。此可導致由插頭元件覆蓋之一 ^。平方毫米 ,域’此使由該插頭元件覆蓋之區域比2.54毫米々Μ毫米 節距之一插頭元件減小約47〇/〇。 可進-步改良說明書之開頭部分所提及之一方法因為 插座模組係根據待容納在插頭元件中之電接點之一期望數 量及配置而選自複數個不同插座模組類型,且因為安裝模 組係根據插頭元件至基板之一期望安裝方式而選自複數個 不同類型之安裝模組。不同類型之插座模組及安裝模組可 以可互換方式組合。因此,不同插座模組類型及安裝模組 類型可構成一多功能模組式系統以客製化插頭元件。 【實施方式】 在下文中,將使用有利實施例且參考附圖而以舉例方式 更詳細描述本發明。所述實施例僅為可能組態,然而,如 上所述,組態中之個別特徵可彼此獨立實施或可被省略。 圖式中所繪示之對應元件具有相同元件符號。省略與不同 圖式中所繪示之相同元件有關之描述部分。 如圖1中所示’根據本發明之一插頭元件la可包括一插 座模組2 a及兩個安裝模組3 a。 插座模組2a具有基本上平行於插頭元件la之一插入方向 Z及一長度方向X而伸展之兩個壁區段4、4,。壁區段4、4, 係沿插頭元件之一寬度方向γ而彼此間隔且形成介於其等 157840.doc 201230517 之間之插口 5。寬度方向γ垂直於長度方向χ以及插入方 向Ζ而伸展。 壁區段4具有一導向部件6及—閃鎖部件,該問鎖部件包 括、1調適以卡扣在—配合插頭元件(圖中未顯示)之一配對 閃鎖元件(圖中未顯示)後面之呈—尖端形式之一閃鎖元件7 及呈門鎖凹π形式之-閃鎖元件7,。壁區段4,進一步具 有沿插入方向Ζ而延伸之呈一凹槽形式之一導向部件8。壁 區段4、4·之外緣(时尚未顯示)及插座模組^之一基部 (圖中尚未顯示)分別具有能夠將安裝模組3a附接至插座模 組以之固定元件",,。固定元件咖係形成 為分別與配對固定元件m 1〇c、刚(分別形成於 安裝模組3a之一外_處)接合之突耳。配對固定元件10a 至係形成為凹口。插座模組2a之基部(圖中尚未顯示)之 側緣上之另一固定元件96係形成為一突出物且與形成於安 裝模組3a之-壁部分12處之另—配對固定元件陶目互配 合0 安裝模組3&之壁部分12分別封閉_敞_面,即,插座 模組2a之-凹口(圖_尚未顯示)。安裝模組3&之壁部扣 之上緣13與插座模組2a之壁區段4、4,之各自前緣14、 -起界定-插頭開口15,插口 5易通過插頭開心而取 得。 广卜’安裝模組3a各具有沿插入方向z之反方向自安裝 模組3 a突出且因此自插頭元件i突出之—安裝區段心。一 安裝部件17a係形成於安裝區段16a之各者處。安裝部件 157840.doc -11- 201230517 17a係經調適以與一基板(圖中尚未顯示)接合以將插頭元件 la附接至可為一電子裝置之一pcB之一基板。 圖2顯示插頭元件la之另一示意透視圖。插座模組“之 基部18係在具有沿插入方向z之反方向自背面突出之—突 出部分19之基部背面上。接點支承件2〇延伸穿過突出部分 19。突出部分19有助於形成及加固接點支承件2〇使得其等 可剛性及牢固地固持電接點元件(圖中尚未顯示)。安裝模 組3a處之安裝區段i6a分別與突出部分19之側面(圖中尚未 顯示)相接。此外,在突出部分19之區域中之基部18之背 面處,插座模組2a具有一凹口 21。凹口 21可充當促進插頭 元件處置之一編碼鍵槽以及促進配對固定元件丨〇e自固定 元件9e之一拆卸之一入口。 圖3係圖1及圖2中所示之插座模組2a之一後視圖。此 處,固定元件9a至9e平行於長度方向x而分別自側壁4、4, 及基部18明顯側向突出》 圖4係圖3中所示之插座模組之一示意側視圖。此處,側 壁4、4’上之固定元件9a、9b係分別明顯形成於側壁4、4, 之側緣22、22’處。固定元件9c、9d及9e係形成於一側緣 (即,基部18之側面23)處。 一凹口 26係形成於壁區段4、4,之各自相對内側24、24, 與插口 5之一底部25之間。插座模組2a係通過平行於長度 方向X之凹口 26而側向敞開》換言之,沿長度方向χ封閉 插口 5之側壁失蹤了 °此外’ 一接點支承區27係形成於插 口 5之底部25處。接點支承區27沿插入方向ζ自底部25略微 157840.doc •12- 201230517 突出。 圖5係圖3及圖4中所示之插座模組2a之一示意前視圖。 圖5允許直視形成於壁區段4、4,之相對内側24、24,之間之 插口 5。 接點支承件20係配置成平行於長度方向χ而伸展之兩列 28、28·。接點支承件20之列28、28|之各者具有有助於識 別個別接點支承件20以將接點支承件2〇與電接點(圖中尚 未顯示)正確地裝配在一起之數字識別符29。 類似於圖1及圖2,圖6及圖7顯示根據本發明之一實施例 之一插頭元件ib。與插頭元件la相同,插頭元件lb具有相 對於插座模組2a之沿長度方向χ延長之一插座模組孔。與 插頭元件la—樣’插頭元件^具有安裝模組3a。 類似於圖3至圖5,圖8至圖10分別顯示插座模組2b之一 示意後視圖、側視圖及前視圖。相較於插座模組2a,插座 模組2b係沿長度方向X延長。列28、28,各包括十個接點支 承件20。因此,插座模組沘提供二十個接點支承件2〇。 模組2b之壁區段4具有沿插入方向Z相對於插口 5而中心 伸展之導向部件6。平行於插入方向Z而延伸之呈凹槽形式 之另外導向部件6,係設置在插座模組2b之各自壁區段4、4, 上之側緣2 2、2 2 ’處之侧邊或側面2 3附近。 作為與插座模組2a之另一區別,平行於插入方向z而延 伸之具有一凹槽形式之編碼部件8係以不同於凹槽8之方式 定位在插座模組2b之壁區段4,上。因此,即使插座模組^ 與2b具有接點支承件2〇之一類似配置,其等之插口 $仍將 157840.doc -13- 201230517 提供插座模組2a與2b之間之一適當區別,因為其等具有不 同導向部件6、6'及編碼部件8。 圖11係安裝模組3a之一示意側視圖。安裝模組3a可由可 在一衝壓程序中定形(例如)以獲得期望設計之金屬片材料 形成。 安裝模組3a具有一厚度d。厚度d可經選擇使得其小於沿 長度方向X所量測之固定元件%至9e之一長度。因此,安 裝模組3 a之厚度不增加沿長度方向χ所量測之插頭元件 la、lb之總長。厚度d可小於丨毫米。最佳地,厚度d小於 0.5毫米。例如,厚度d可為〇4毫米或更小。 圖12顯示安裝模組33之一示意前視圖。安裝模組&之一 中間軸W平行於插入方向2而延伸。安裝模組“之安裝區 段16a上之安裝部件丨7a係相對於中間軸w而同轴配置使得 朝向插入方向Z而伸展之一安裝方向M與中間軸w平行伸 展。因此,軸W與安裝方向撾之間之一安裝角〇1為18〇。。藉 此具有女裝部件17a之安裝區段16a係經調適以用於1 8〇〇 THT安裝或被焊接至基板。 此外,安裝模組3a包括包含配對固定元件1〇a至1〇b及壁 區段12之一固持區段3〇。固持區段3〇能夠將安裝模組3&牢 固地貼附至插座模組2a、2b。 圖13係根據本發明之另一實施例之一安裝模組儿之一示 意前視圖。與安裝模組3a不同,安裝模組3b具有一安裝區 段16b,安裝區段16b具有經設計使得其等實現安裝模組儿 之一 9〇。THT安裝或焊接之一安裝部件nb。安裝模組凡之 157840.doc -14- 201230517 中間軸玫平行於插入方向z而伸展。安裝模組31)之安裝方 向Μ平行於寬度方向γ而伸展。因此,安裝模組讣之中間 軸W與安裝方向M之間之一安裝角〇1,為90〇。 以類似於安裝模組3 a之固持區段之方式設計安裝模組3 b 之固持區段30。安裝模組3a及儿可根據插頭元件u、^之 期望安裝角α或α,而可互換地安裝至插座模組2a、2b〇 圖Μ係根據本發明之另一實施例之一安裝模組孔之一示 意引視圖女裝模組3 c之固持區段3 〇係類似於安裝模組3 a 之固持區段3〇。安裝模組介之一安裝區段i6c具有經 疋形使得安裝模組3C係適應於基板上之一丨8〇。壓配合安裝 之一安裝部件17c。安裝模組3(;之中間軸w及安裝方向河平 行於插入方向而伸展且界定彼此之間之一〗8〇。安裝角α。 圖15係根據本發明之另一實施例之一安裝模組3d之一示 意前視圖。類似於安裝模組3a至3c之固持區段30,安裝模 組3d之固持區段30係經調適以被貼附至插座模組2a或213使 知插座模組2a或2b係由固持區段3〇牢牢固持。 一安裝區段16d(其提供安裝模組3d之一安裝部件丨7d)係 經定形使得安裝模組3d係適應於基板上之一 9〇。壓配合安 裝。安裝模組3d之中間軸臂平行於插入方向2而伸展。由 安裝區段16d界定之安裝方向M平行於寬度方向¥而伸展。 因此,中間軸w與安裝方向M界定介於彼此之間之一 9〇。安 裝角α'。 圖16係一安裝區段16e之一示意前視圖,其具有可設置 至根據本發明之一實施例之一安裝模組3a至3d之一安裝部 157840.doc •15- 201230517 件17e。安裝部件17e可(例如)用以沿相對於一基板之一 9〇。 安裝角α而貼附安裝區段16^。 圖17係沿圖16中所繪示之橫截面線α-Α之圖16中所示之 安裝區段16e之一示意橫截面圖。如圖17中可見,安裝部 件17e具有橫截面為弧形之一突耳形狀。藉此,安裝部件 17e可插入至一基板之一通孔中(例如)以便以一主動配合、 形狀配合及/或牽引配合方式緊緊固持安裝區段16e。 圖18係具有一安裝部件17f之一安裝區段16f之一示意前 視圖。可在根據本發明之一實施例之任何安裝模組3a、3b 處實施安裝區段16f。安裝區段16f係適應於沿相對於一基 板之一 180。安裝角該基板上之通孔安裝,因為安裝區 段16f之安裝方向M與中間軸w兩者平行於插入方向而伸 展。 圖19係沿圖18中所繪示之橫截面線Β_Β之圖18中所示之 安裝區段16f之一示意橫戴面圖。如圖19中可見,安裝區 段16f上之安裝部件I7f具有允許以一積極、形狀配合及/或 牵引配合方式將裝配有安裝區段l6f之一安裝模組3a、3b 貼附至一基板之一扭折形狀。 圖20係具有一安裝部件17g之一安裝區段16g之一示意前 視圖。安裝區段16g可形成於根據本發明之一實施例之任 何安裝模組3a、3b處。安裝區段16g之中間軸贾與安裝方 向Μ兩者平行於插入方向而延伸。因此,中間軸琛與安裝 方向Μ界定介於彼此之間之一 9〇。安裝角α。 圖21係圖20中所示之安裝區段16g之一示意側視圓。如 157840.doc _ 16 · 201230517 圖21中可見’安裝區段I6g上之安裝部件i7g係呈鉤狀使得 其可插入至一基板上之一通孔或任何附接設施中以便以一 形狀配合、主動配合及/或牵引配合方式牢牢固持裝配有 安裝區段16g之一安裝模組3a、3b。 圖22係根據本發明之另一實施例之一插頭元件丨c之一示 意透視圖。插頭元件1 c包括一插座模組2c及兩個安裝模組 3e。圖22中繪示處於一預組裝狀態p之插頭元件lc,其中 安裝模組3e係經配置以藉由沿長度方向X將其等推向插座 模組2c而貼附至插座模組2c使得具有圓柱形短軸形狀之固 定元件9f至9h分別凸出至具有通孔形狀之安裝模組36之配 對固定元件10f至l〇h中。固定元件9f至9h係設置在插座模 組2c之一側壁31上。 插座模組lc之兩個側壁31及壁區段4與4'形成插口 5及插 座模組lc之插口 5之插頭開口 15。插口5具有形成於壁區段 4處之閂鎖元件7、7,及導向部件6,以及插座模組lc之壁區 段4上之平行於插入方向而伸展之具有凹槽形狀之一編碼 部件8。 圖23係處於一組裝狀態Q之插頭元件卜之一細節之一示 意透視圖。在該組裝狀態Q中,固定元件%至处分別凸出 穿過配對固定元件1 Of至1 。 配對固定元件l〇f及l〇g各包括一通孔32及一突耳33。配 對固定元件10f之突耳33平行於寬度方向丫而延伸使得固定 兀件9f沿方向γ而被卡住且因此被牢牢固持。配對固定元 件1 〇 g之突耳3 3沿插入方向Z而延伸使得固定元件9 g沿插入 157840.doc •17- 201230517 方向z而被卡住且因此被牢牢固持。 此外,在組裝狀態Q中,具有比配對固定元件l〇h稍小之 一直徑之固定元件9h仍允許安裝模組3e沿長度方向X之一 移動。藉此’可補償插座模組2c與安裝模組3e之任何生產 容限。 圖24係處於一接合狀態R之圖22及圖23中所示之插頭元 件lc之一示意透視圖。在該接合狀態r中,固定元件处已 經處理使得其以一形狀配合方式安置在配對固定元件1 〇h 内。例如’可(例如)在一超音波或雷射焊接程序中處理固 定元件9h。固定元件9h亦可被設計為一鉚釘。在該接合狀 態R中,固定元件9h可自配對固定元件j 〇h突出使得其與安 裝模組3e部分重疊以防止安裝模組36相對於插座模組以之 沿長度方向X之任何移動。因此,在該接合狀態R中,安 裝模組3e與插座模組2C係接合在一起使得其等係牢牢安裝 至彼此且形成插頭元件lc。 圖25係包括插座模組2C及安裝模組3e之插頭元件丨c之一 示意側視圖。如圖25中可見,安裝模組3e具有兩個分支 33。在此等分支33’上,配對固定元件丨时至丨仙係經配置 使得其等形成具有邊3之間之一直角之一等腰三角形。分 支33具有一寬度E。配對固定元件10f至l〇h具有一直徑 ^在各匱況中,提供一超距〇,安裝模組3e可超出插座 模、、且2c之側i 3 1之邊緣—超距。使得插座模組&可固持在 距離基板之—適當位置以實現SMT、THT壓配合及/或焊接 之足夠自由度。 157840.doc 201230517 圖2 6係根據本發明之另一實施例之一插頭元件丨^之一示 意透視圖之一細節。插座模組2d之側壁3 1具有平行於長度 方向X而自側壁3 1側向突出之呈短軸形狀之固定元件处至 9k。 固疋元件9h至9k凸出穿過形成於安裝模組處之配對固 定元件10h至10k。固定元件9h及9k具有比固定元件%大之 一直徑。分別容納固定元件处及处之配對固定元件1〇}1及 l〇k各包括一通孔32及一突耳33。配對固定元件1〇h與l〇k 之大耳3 3沿寬度方向γ與插入方向z之一平面而沿相對方 向指向。藉此,配對固定元件10h及1〇k之突耳33充當分別 戳進固定元件9h及9k以將包括配對固定元件1〇h至1〇k之安 裝模組3f之固持區段30預固定在插座模組2d處之金屬爪。 固定元件9i具有比固定元件9h及9k小之一直徑且配置在 固定τι:件9h與9k之間之一直線之一中點上使得其構成固持 區段30之一樞軸點。固定元件9i可經超音波或雷射焊接處 理以使其變形,使得其沿長度方向X而與安裝模組3f部分 重疊以將安裝模組3f緊密結合至插座模組2d使得其等不可 分割地彼此連結。 安裝模組3£具有分別包括安裝部件17f及17f,之兩個安裝 區段16f、l6f。安裝區段16f及16f,沿彼此成9〇。角之不同 方向自安裝模組3f之固持區段30突出。因此,藉由圍繞固 定元件9i樞轉安裝模組3£及/或翻轉安裝模組3f,可沿播頭 元件id與一基板之間之一期望安裝角以插頭元件u至基板 之一期望安裝方式以及一期望安裝技術而選擇不同安裝區 157840.doc -19· 201230517 段16f、16f。 安裝區段16f具有可用於(例如)通孔安裝或焊接之呈一突 耳形狀之一安裝部件17f。安裝區段16fl之兩個安裝部件 17f係定形為彼此相對且藉此能夠將安裝區段l6f卡扣至一 基板上之一通孔中之彈性可移位鉤以實現一形狀配合及/ 或牽引配合。 此外,插座模組2d具有可指示根據安裝模組灯之旋轉位 置而選擇之插頭元件ld之安裝方向M之呈一箭頭形狀之一 標記34。如圖26中可見,安裝模組3f之選擇旋轉位置係一 90°安裝,因為當使用安裝部件17f時安裝方向]^與插入方 向Z界定一 90。安裝角α。 圖27係圖26中所示之插頭元件ld之一示意透視圖。與圖 26中所不之插座模組2d及安裝模組3f之配置不同,圖27中 所繪不之插座模組2d及安裝模組3〖係經配置使得安裝區段 16f之安裝部件i7f’允許在相對於基板之一 18〇。安裝角以下 安裝插頭兀件lc。換言之,由插口5預界定之插入方向2與 由安裝區段16f,給出之安裝方向]^之間之安裝角〇1為18〇0。 圖28係根據本發明之另一實施例之一安裝模組3g之一示 意前視圖。安裝模組3g具有呈通孔形式之配對固定元件 l〇k至l〇p。配對固定元件1〇卜1〇m、1〇n及1〇〇係圍繞可用 作為一樞軸點以將安裝模組3g樞轉之配對固定元件丨〇卩而 配置在經調適以將安裝模組3g貼附在不同旋轉位置以實現 不同安裝角α、α’之一各自固定元件(圖中未顯示)上。 女裝模組3g具有包括呈一狹縫形式之一安裝部件}^之 157840.doc •20· 201230517 -安裝區段16g ’安裝區段16g可用以(例如)藉由使基板(圖 中未顯示)之-托架與安裝部件17g接合而將安裝模組城 接至基板。 圖29係圖28中所示之安裝模組3g之-示意側視圖。安裝 模組3g具有可經選擇使得其不增加一插頭元件Uld之長 度之一厚度d’如上所解釋。 圖3〇係組合為一捲軸50之若干安裝模組3g之-示意前視 圖。可藉由將安裝模組3g附接至彼此以形成捲軸5〇而將安 裝核組3g容易地供給至藉由將插座模組。至2d與安裝模組 3a至3g接合而組裝插頭元件^至此—自動製造或組裝裝 置。 圖3 1係根據本發明之一實施例之一插頭元件卜之一示意 透視圖。插頭元件le包括一插座模組。及兩個安裝模組 3h在插座模組2e之基部18之背面中,突出部分19中之接 點支承件20各裝配有壓配合至各自接點支承件2〇中之呈一 壓配合接腳形式之一電接點3 5。 插座模組2e裝配有分別在壁區段4、4,之側向側面22、 22上之固定元件叫至%。固定元件叫及h係形成為托架, 該等托架之末端平行於寬度方向γ而指向彼此。在壁區段 4、4’之各自前緣14、14,附近,固定元件9s具有橫跨壁區 段4、4’之間之一距離之一夾具或保護環形狀。 安裝模組3h係在固定元件9q至9s之下方沿插入方向2滑 動使得固定元件9q及9r與安裝模組3h之側面上之呈凹槽形 式之各自配對固定元件10(1及10r接合。安裝模組3h之前緣 157840.doc -21 - 201230517 係在固定元件9 s之下太.,典么 m /月動。因此’安裝模組311係藉由插 座模組2e而牢牢固持在其固持區段30處。 此外,安裝模組3h具有一安裝區段16h,安裝區段⑽包 括沿與插入方向2相反之安裝方向Μ自安裝模組3h突出之 呈接腳形式之一安裝部件j 7h及自安裝模組向突出 之呈一閃鎖形式之—輔助安裝部件17h·使得安裝區段16h允 許將插頭元件㈣鎖在一基板或固持器處。安裝部件Μ 係經配置使得其允許插入方向2與安裝方向m之間之一安 裝角α為180。。 圖32係圖31中所繪示之插頭元件le之另—示意透視圖。 圖32允許通過插頭元件le之插頭開口 15而檢查插座5。在 插口 5内,電接點35沿插入方向z自插座模組之基部1 8突 出。插座模組2e之壁區段4具有平行於插入方向2而伸展之 呈一凹槽形式之一導向部件6及呈一鎖扣形式之一閂鎖部 件7以及呈-通孔形式之-⑽部件7,,其等係經調適以與 一配合插頭元件(圖中未顯示)接合。在壁區段4及4,之各自 側緣22及22’附近,插座模組2e之壁區段4,具有沿插入方向 z而伸展之呈凹槽形式之導向部件6,。沿插入方向z而伸展 之呈一凹槽形式之一編碼部件8亦係設置在壁區段4,上。 此外’壁區段4及4,以及安裝模組3h之部分12界定插口5 之一輪廟。插座模組2e不具有側向側壁,安裝模組处封閉 沿長度方向X之於插座模組2e之側面處向左敞開之各自凹 D 〇 圖33係根據本發明之另一實施例之插頭元件卜之一示意 157840.doc •22· 201230517 透視圖。插頭元件1e包括先前自圖3 1及圖32已知之插座模 組2e及一安裝模組3i。與安裝模組3h不同,安裝模組3i具 有包括一安裝部件17i及一安裝部件17Γ之一安裝區段16i。 女裝部件17l’係類似於安裝模組3h之安裝部件17h·。 呈一接腳形式之安裝部件17i係經配置使得其垂直於插 入方向Z而自安裝模組3i突出且藉此界定允許插頭元件le 相對於基板之一 90。安裝之插頭元件丨e之一安裝方向μ。換 e之’插入方向ζ與安裝方向μ之間之安裝角α為90。。 圖34係圖30中所繪示之插頭元件le之另一示意透視圖。 圖34允許至插頭元件16之插口 5中之一觀看。在插口 5内, 電接點元件35係配置成在插頭元件le之插口 5之底部25上 之電接點元件35之接點支承區27中之兩列28、28,。 圖35係穿過分別在列28及28ι之其等各自接點支承件2〇 中之電接點35之沿平行於寬度方向γ及插入方向z擴展之 一平面而取得之一示意橫截面圖。插座模組2e之壁區段 4、4之各自内側24、24'與安裝模組3 i之壁部分12界定介 於其等自身之間之插口 5。因此,安裝模組3i之固持區段 3 0形成插口 5之一部分。 此外,在圖35中,由安裝部件17i界定之安裝方向厘與插 入方向z之間之安裝角α·明顯允許插頭元件le相對於基板 之一 90°安裝。 圖36係安裝至呈一PCB形式之一基板1〇〇之插頭元件ie 之一示意透視圖。插頭元件16係經由一 9〇。安裝角α,而安裝 至基板100。安裝模組3i之安裝部件17i凸出至基板1〇〇中之 157840.doc •23· 201230517 呈孔穴形式之各自安裝元件丨0丨中。此外,沿插入方向z之 反方向自插頭元件le突出之電接點35係成一角度使得平行 於安裝方向Μ而伸展之其等後端安置在呈通孔形式之各自 配合接點支承件1 02内以壓配合在基板1 〇〇中。 可在本發明範圍内使根據本發明之插頭元件1&至le之上 述實施例發生偏離。 插座模組2a至2e可具有:壁區段4、4',然而,其等根據 需要而裝配有導向部件6、6·、閂鎖元件7、7,、編碼部件 8、固定元件9a至9s、前緣14、14,、基部18、突出部分 19、接點支承件20、凹口 21、側緣22、22'、側面23、内側 24、24’、插口5之底部25、壁區段4、4,之間之凹口20、接 點支承區27、接點支承列28、28,、識別符29及標記34以根 據需要而形成一插口 5;插口之一開口 15;及用於將安裝 模組3a至3i之至少一者附接至插座模組2a至2e之期望可能 物。 安裝模組3a至3i可根據需要而定形以具有可以使得安裝 模組3a至3i形成插口 5之一部分之一互補方式附接至插座 模組2a至2e之固持區段30。為將安裝模組3a至3i貼附至插 座模組2a至2e ’安裝模組3a至3i可具有任何期望形狀及形 式之配對固定元件10a至l〇s、外緣11、壁部分12、上緣 13、安裝區段16a至16i、安裝部件i7a至17i、通孔32、鎖 33及分支33'以將安裝模組3a至3i附接至插座模組2a至2e且 使插頭元件la至le能夠以一期望方式及角α、α,安裝至基板 100 ° 157840.doc -24- 201230517 應瞭解,角α、α,不限於180。及90。之安裝角且可為任何 期望角。此外,安裝模組3a至3i可具有儘可能多之配對固 定兀件10a至10s及安裝區段i6a至16i以實現具有一類型之 選擇插座模組2a至2e與一類型安裝模組3&至3i之一單一組 合之插頭元件1 a至1 e之多種安裝方式。 【圖式簡單說明】 圖1係根據本發明之一實施例之一插頭元件之一示音透 視圖; 圖2係圖1中所示之插頭元件之另一示意透視圖; 圖3係根據本發明之一實施例之一插座模組之一示意後 視圖; 圖4係圖3中所示之插座模組之一示意側視圖; 圖5係圖3及圖4中所示之插座模組之一示意前視圖; 圖6係根據本發明之另一實施例之一插頭元件之一示意 透視圖; ’ 圖7係圖6中所示之插頭元件之另一示意透視圖; 圖8係根據本發明之另—實施狀_插㈣組之一示意 後視圖; 圖9係圖8中所示之插座模組之—示意側視圖; 圖10係圖8及圖9中所示之插座模組之一示意前視圖; 圖11係根據本發明之另—實施例之—安裝模組之一示意 側視圖; 圖12係圖11中所示之安裝模組之—示意前視圖; 圖13係根據本發明之另—實施例之—安裝模組之一示意 157840.doc -25· 201230517 前視圖; 圖14係根據本發明之另一實施例之一安裝模組之一示意 前視圖; 圖15係根據本發明之另一實施例之一安裝模組之一示意 前視圖; 圖16係根據本發明之一實施例之一安裝模組之一安裴部 件之一示意前視圖; 圖17係沿圖16中所繪示之橫截面線A-A之圖16中所示之 安裝部件之一橫截面圖; 圖1 8顯不根據本發明之一實施例之一安裝模組之一安裝 部件; 圖19係沿圖18中所繪示之橫截面線B-B之圖18中所示之 安裝部件之一示意橫截面圖; 圖20係根據本發明之另一實施例之一安裝模組之一安裝 部件之一示意前視圖; 圖21係圖2G中所示之安裝部件之—示意側視圖; 圖22係根據本發明之另一實施例之一插座模組及經配置 以被貼附至該插座模組之一安裝模組之一示意透視圖; 圖23係經組裝之圖22中所示之插座模組與安裝模組之一 細節之一示意透視圖; 圖24係圖22及圖23中所示之插座模組及安裝模組之一細 節之另一示意透視圖’安裝模組與插座模組係接合在一 起; 圖25係® 22至圖24中所示之插座模組及安裝模組之一示 157840.doc -26 - 201230517 意側視圖; 圖26係處於一 9〇。安裝位置之根據本發明之另—實施例 之一插頭元件之一示意透視圖; 圖27係處於一 18〇。安裝位置之圖26中所示之插頭元件之 一示意透視圖; 圖28係根據本發明之另一實施例之一安裝模組之—示竟 前視圖; ~ 圖29係圖28中所示之一安裝模組之一示意側視圖; 圖3 0係接合在一起使得安裝模組係封裝在一捲軸上之圖 28及圖29中所示之若干安裝模組之一示意前視圖; 圖3 1係根據本發明之另一實施例之一插頭元件之—示音201230517 VI. Description of the Invention: The present invention relates to an electrical plug component, a socket module of a plug component, a mounting module of a plug component, a kit for an electrical plug component, and a A method of assembling an electrical device with a plug component. [Prior Art] We have known from the prior art that the plug component and the substrate (e.g., printed circuit board (PCB)) in the electrical device are assembled with the plug component. The plug member typically includes an outer casing made of a molded plastic material and having a member for attaching the plug member to the base member. As an example, Applicants have provided a miniature plug-in system (MQS) to a series of connectors that include a plug element according to the prior art. The housing, the electrical contact configuration within the housing, and any components of the mounting housing are typically adapted to certain customer requirements. The plug member and any electrical contacts therein can be mounted to the substrate by, for example, through hole technology (THT) or surface mount technology (SMT). Therefore, the manufacturer of the plug two must develop a variety of plug components and their mounting methods. However, only a small number of specific plug components are required on the right, and the design procedure, (4) and manufacturing of the plug components are more numb and inefficient. SUMMARY OF THE INVENTION In view of these shortcomings of the prior art, one of the plug components is required to meet market needs and as much as possible. One of the potential objects of the present invention is to provide an electrical plug component as mentioned in the opening paragraph, including new opportunities emerging on the market and in accordance with the present invention. Doc 201230517 for this purpose, since the electrical plug element comprises: at least one socket module having a socket for a mating plug element, the socket being open towards one of the plug elements in the insertion direction, formed substantially parallel to the Between at least two wall sections of the socket module extending in a length direction of the plug element and accommodating at least one contact support area extending along the length direction and at least partially facing the insertion direction; and at least one mounting die a set having a retaining section attached to one of the sides of the socket module (the side extending substantially parallel to the insertion direction) and having one of the mounting components adapted to be fastened to a substrate Section. One of the socket modules mentioned in the opening paragraph of the specification achieves this object, since the socket module is adapted to at least partially form a plug element in accordance with the present invention. One of the mounting modules mentioned in the opening paragraph of the specification achieves this object, since the mounting module is adapted to at least partially form a plug element according to the invention. The set of groups mentioned in the opening paragraph of the specification achieves this object, since the kit comprises at least one socket module and at least one mounting module according to the invention. One of the methods mentioned in the opening paragraph of the specification achieves this purpose because a socket module has a mounting module and because the plug element is fastened to one of the substrates of the electrical device by one of the mounting sections of the mounting module . These solutions assume that the electrical plug component can be formed from at least a socket module and at least one mounting module in accordance with customer contact configuration and mounting techniques for the plug component. In other words, the socket module and the mounting module can be grouped 157840. Doc 201230517 The requirements for plug components are met by specific customers, and they can be mass produced because they are interchangeable. And, the present invention provides - (d) a modular system of electrical connectors and plug components consisting of the same. A variety of socket modules and mounting modules can be installed in the module. • 4 system ^ socket module can include different size and different contact configuration of the mold, group ° socket module "segment can guide parts, coding parts and ask A lock or lock member is provided to the mating plug member. Different mounting modules may have mounting components 'The mounting components may include mounting elements in the form of a pin, a flash lock, a fishing, a latch, a lug or a clamp to achieve a desired mounting of one of the plug components There is no need to adapt the socket module. The sides can be any wall section, side wall and side edges of the mounting mold set. Thus, the socket module and mounting module in accordance with the present invention can be individually adapted to market needs and specific customer requirements' without the need to redesign the entire plug component. Thus, the present invention helps to minimize design and manufacturing costs and provides a versatile system for plug components. The solution according to the invention can be combined as needed and further improved by the following additional embodiments which have their own advantages. According to a first possible additional embodiment, the socket of the circuit module can be laterally opened by at least one recess extending in a width direction of one of the socket modules between the at least two wall sections, the width direction being perpendicular to Extends in the length direction and the insertion direction. Thereby, the socket can be laterally closed or extended at the recess according to certain requirements. Therefore, in the region of the recess, the material constituting the socket module can be saved. The notch closure of the module can be easily achieved because of the mounting area of the mounting module 157840. Doc 201230517 Feng also includes at least partially closed socket module _^ one of the wall portions of the recess. Thereby, the women's wear module can achieve a dual function because it closes the recess and provides installation facilities. The mounting module can form a portion of the socket by closing the recess. According to another possible embodiment, at least one contact support region can be positioned at the bottom of one of the sockets, the bottom portion can face the entry insertion direction, and the recess can extend down to the bottom and/or substantially parallel to the wall region The width direction between the segments is measured by one distance and extends. In other words, the socket can be opened laterally, as if some of its side walls were missing. According to some requirements, the missing side wall can be replaced by a mounting module or any other modular component. This helps make the socket module more versatile. According to another possible embodiment, each of the wall sections of the socket module and/or one of the side edges of the side panel may have at least one securing element for securing the mounting module to the socket module. These fixed components can be standardized such that many different mounting modules can be attached to the socket module. The mounting module can be attached to the socket module without any additional accessories. Then, the holding section of the mounting module can have at least one pair of fixed components that cooperate with at least one solid component of the hai. Thereby, the mounting module can be rigidly and securely attached to the socket module. According to another possible embodiment, the mounting module can have at least two mounting members that protrude from the mounting module with at least two different mounting angles of the socket module relative to the substrate. Thereby, the plug elements can be mounted at different angles relative to the substrate without the need to interchange socket modules or mounting modules. Therefore, the socket module and the mounting module can be mass-produced without providing different modules for the non-fashion corner. According to another possible embodiment of the plug component according to the present invention, one of the holding sections may have a thickness of less than 0. 5 mm. Therefore, the mounting module can be held at a fixed size of 157,840. Doc 201230517 Other plug components. This facilitating miniaturization of the electrical device including the plug member 0 further improves the versatility and durability of the plug member in accordance with the present invention because the socket module can be formed from a plastic material and/or the mounting module can be formed from a sheet metal material. The socket module can be a plastic molded part, and the socket module can be made of a stamped sheet material. Thereby, the socket module can be lightweight and can be composed of an electrically insulating material. The sheet metal material that forms the mounting module provides high stability and flexibility. According to another possible embodiment, the at least one contact support region can include at least one row of contact supports that can extend longitudinally substantially parallel to the lengthwise direction. Therefore, the socket module can be selected based on the desired length of one of the desired number of contact support columns. Socket modules of different lengths can be terminated laterally by the same type of mounting module and can be designed according to the specific wire diameter and pitch. For a cross-sectional area of 〇22 mm 2 to 0. 5 mm2 wire diameter—standard pitch (configured in columns or columns to form the distance between several joint supports of the mesh). 54 mm X 2. 54 mm. Included in two rows of contact supports (each having three contact supports, i.e., a total of six contact supports), one of the plug members, about one square millimeter of the core, is a micro-plugging system. Know the plug component is (3) square millimeter to 〇 _35 square millimeter...: ... cross-sectional area of ten square millimeters of wire diameter, you can choose 18 x1. 8 mm - the pitch H is covered by the inserting member - the area is about 548 square millimeters, which enables the area to be covered by the plug element to be more than 157,840. Doc 201230517 2·54 mmx2. The 54 mm pitch is reduced by about peach. It is possible to achieve a greater degree of miniaturization by using the two-head element according to the present invention because i 8 mm U millimeter, one of the lay lengths, is selected when the cross section of the wire diameter is = 13 mm 2 to 22 mm 2 . This can result in one of the ^ being covered by the plug element. Square millimeters, the domain 'this makes the area covered by the plug element more than 2. One of the 54 mm 々Μ mm pitch plug elements is reduced by approximately 47 〇 / 。. One of the methods mentioned in the opening paragraph of the advancement specification is that the socket module is selected from a plurality of different socket module types depending on the desired number and configuration of one of the electrical contacts to be received in the plug component, and because The mounting module is selected from a plurality of different types of mounting modules depending on how the plug component is to be mounted to one of the substrates. Different types of socket modules and mounting modules can be combined in an interchangeable manner. Therefore, different socket module types and mounting module types can form a multi-functional modular system to customize the plug components. [Embodiment] Hereinafter, the present invention will be described in more detail by way of examples with reference to the accompanying drawings. The described embodiments are only possible configurations, however, as described above, individual features in the configuration may be implemented independently of one another or may be omitted. Corresponding elements shown in the drawings have the same element symbols. Descriptions relating to the same elements as those shown in the different figures are omitted. As shown in Fig. 1, a plug element 1a according to the present invention may include a socket module 2a and two mounting modules 3a. The socket module 2a has two wall sections 4, 4 extending substantially parallel to one of the insertion direction Z of the plug element 1a and a lengthwise direction X. The wall sections 4, 4 are spaced apart from each other along the width direction γ of the plug element and formed between them 157840. Doc 201230517 between the sockets 5. The width direction γ is extended perpendicular to the longitudinal direction χ and the insertion direction Ζ. The wall section 4 has a guiding member 6 and a flash lock member, and the question locking member includes, 1 is adapted to be snapped onto one of the mating plug members (not shown) to be paired with the flash lock member (not shown) One of the tip-type flash lock elements 7 and a flash lock element 7 in the form of a door lock recess π. The wall section 4 further has a guide member 8 in the form of a groove extending in the insertion direction. The outer wall of the wall section 4, 4· (not shown) and the base of the socket module (not shown) respectively have a fixing component capable of attaching the mounting module 3a to the socket module, ,. The fixing member is formed as a lug that is engaged with the mating fixing member m 1〇c and the pair (formed at a position outside the mounting module 3a, respectively). The mating fixing member 10a is formed as a notch. The other fixing member 96 on the side edge of the base portion (not shown) of the socket module 2a is formed as a protrusion and is paired with the other pair of fixing members formed at the wall portion 12 of the mounting module 3a. The wall portion 12 of the mating 0 mounting module 3& respectively closes the _open_face, that is, the notch of the socket module 2a (not shown). The upper edge 13 of the mounting module 3& and the wall sections 4, 4 of the socket module 2a, the respective leading edges 14, define a plug opening 15, and the socket 5 is easily obtained by the plug. The mounting modules 3a each have a mounting section core projecting from the mounting module 3a in the opposite direction of the insertion direction z and thus protruding from the plug element i. A mounting member 17a is formed at each of the mounting sections 16a. Mounting parts 157840. Doc -11-201230517 17a is adapted to engage a substrate (not shown) to attach the plug element la to a substrate that can be one of the pcs of an electronic device. Figure 2 shows another schematic perspective view of the plug element 1a. The base portion 18 of the socket module is attached to the back surface of the base portion of the protruding portion 19 which protrudes from the back surface in the opposite direction of the insertion direction z. The contact support member 2 extends through the protruding portion 19. The protruding portion 19 contributes to the formation And the reinforcing contact support member 2 is configured such that it can rigidly and securely hold the electrical contact member (not shown). The mounting portion i6a at the mounting module 3a and the side of the protruding portion 19 are respectively not shown. In addition, at the back of the base 18 in the region of the projection 19, the socket module 2a has a recess 21. The recess 21 can serve as a coding keyway for facilitating the handling of the plug element and facilitate the mating of the fastening element. e. One of the inlets is removed from one of the fixing members 9e. Fig. 3 is a rear view of the socket module 2a shown in Fig. 1 and Fig. 2. Here, the fixing members 9a to 9e are parallel to the length direction x and respectively from the side walls. 4, 4, and the base 18 is obviously laterally protruded. Figure 4 is a schematic side view of one of the socket modules shown in Figure 3. Here, the fixing elements 9a, 9b on the side walls 4, 4' are respectively formed clearly The side walls 4, 4 are at the side edges 22, 22'. The fixed elements 9c, 9d and 9e are formed at one side edge (i.e., the side 23 of the base portion 18). A notch 26 is formed in the wall sections 4, 4, respectively opposite the inner sides 24, 24, and the socket 5 Between a bottom portion 25. The socket module 2a is laterally opened by a notch 26 parallel to the length direction X. In other words, the side wall of the closed socket 5 is missing along the length direction. Further, a contact support region 27 is formed. At the bottom 25 of the socket 5, the contact support area 27 is slightly 157840 from the bottom 25 in the insertion direction. Doc •12- 201230517 Highlights. Figure 5 is a schematic front elevational view of one of the socket modules 2a shown in Figures 3 and 4. Figure 5 allows for a direct view of the socket 5 formed between the wall sections 4, 4, opposite the inner sides 24, 24. The contact support member 20 is configured to be arranged in two rows 28, 28· extending parallel to the longitudinal direction. Each of the arrays 28, 28| of the contact supports 20 has a number that facilitates identification of the individual contact supports 20 to properly assemble the contact supports 2 电 with electrical contacts (not shown). Identifier 29. Similar to Figures 1 and 2, Figures 6 and 7 show a plug element ib in accordance with an embodiment of the present invention. Like the plug element 1a, the plug element 1b has one of the socket module holes extending in the length direction relative to the socket module 2a. The plug element 1 has a mounting module 3a. Similar to Figs. 3 to 5, Figs. 8 to 10 respectively show a rear view, a side view and a front view of one of the socket modules 2b. The socket module 2b is elongated in the longitudinal direction X compared to the socket module 2a. Columns 28, 28 each include ten contact supports 20. Therefore, the socket module 沘 provides twenty contact supports 2 〇. The wall section 4 of the module 2b has a guide member 6 extending centrally with respect to the socket 5 in the insertion direction Z. Further guide members 6 in the form of grooves extending parallel to the insertion direction Z are provided on the sides or sides of the respective edge sections 2, 2 2 ' of the respective wall sections 4, 4 of the socket module 2b 2 3 nearby. As another difference from the socket module 2a, the coding member 8 having a groove shape extending parallel to the insertion direction z is positioned on the wall section 4 of the socket module 2b in a manner different from the groove 8 . Therefore, even if the socket modules 2 and 2b have a similar configuration of the contact support 2, the socket $ will still be 157,840. Doc -13- 201230517 provides a suitable distinction between one of the socket modules 2a and 2b because they have different guiding members 6, 6' and encoding members 8. Figure 11 is a schematic side view of one of the mounting modules 3a. The mounting module 3a can be formed from a sheet metal material that can be shaped, for example, in a stamping process to achieve the desired design. The mounting module 3a has a thickness d. The thickness d can be selected such that it is smaller than one of the fixed elements % to 9e measured along the length direction X. Therefore, the thickness of the mounting module 3a does not increase the total length of the plug members la, lb measured in the longitudinal direction. The thickness d can be less than 丨 mm. Optimally, the thickness d is less than 0. 5 mm. For example, the thickness d can be 〇4 mm or less. Figure 12 shows a schematic front view of one of the mounting modules 33. One of the mounting modules & the intermediate shaft W extends parallel to the insertion direction 2. The mounting member 丨7a on the mounting section 16a of the mounting module is coaxially disposed with respect to the intermediate shaft w such that one of the mounting directions M extends parallel to the intermediate shaft w toward the insertion direction Z. Therefore, the shaft W and the mounting One of the installation angles 1 between the directions is 18 〇. The mounting section 16a having the women's wear component 17a is adapted for 18 〇〇 THT mounting or soldered to the substrate. 3a includes a pair of fixing members 1a to 1b and a holding portion 3 of the wall portion 12. The holding portion 3 can securely attach the mounting module 3& to the socket modules 2a, 2b. Figure 13 is a schematic front elevational view of one of the mounting modules in accordance with another embodiment of the present invention. Unlike the mounting module 3a, the mounting module 3b has a mounting section 16b that is designed such that it One of the installation modules is 9〇. THT is installed or welded one of the mounting parts nb. Install the module 157840. Doc -14- 201230517 The intermediate shaft is extended parallel to the insertion direction z. The mounting direction of the mounting module 31) extends parallel to the width direction γ. Therefore, the mounting angle 〇1 between the intermediate shaft W of the mounting module 与 and the mounting direction M is 90 〇. The holding section 30 of the mounting module 3b is designed in a manner similar to the holding section of the mounting module 3a. The mounting module 3a can be interchangeably mounted to the socket module 2a, 2b according to the desired mounting angle α or α of the plug components u, ^, and is a mounting module according to another embodiment of the present invention. One of the holes is shown in the holding section 3 of the women's wear module 3 c. The tether is similar to the holding section 3 of the mounting module 3 a . The mounting module one of the mounting sections i6c has a meandering shape so that the mounting module 3C is adapted to one of the substrates. One of the mounting members 17c is press fitted. The mounting module 3 (the intermediate shaft w and the mounting direction river extend parallel to the insertion direction and define one of them). The mounting angle α. Figure 15 is a mounting mold according to another embodiment of the present invention. One of the groups 3d is a front view. Similar to the holding sections 30 of the mounting modules 3a to 3c, the holding section 30 of the mounting module 3d is adapted to be attached to the socket module 2a or 213 to make the socket module 2a or 2b is firmly held by the holding section 3. A mounting section 16d (which provides a mounting part 丨7d of the mounting module 3d) is shaped such that the mounting module 3d is adapted to one of the substrates. Press-fit mounting. The intermediate shaft arm of the mounting module 3d extends parallel to the insertion direction 2. The mounting direction M defined by the mounting section 16d extends parallel to the width direction ¥. Therefore, the intermediate shaft w and the mounting direction M are defined. Between one another, the mounting angle α'. Figure 16 is a schematic front view of one of the mounting sections 16e having one of the mounting modules 3a to 3d that can be provided to one of the embodiments according to the present invention. Installation part 157840. Doc •15- 201230517 piece 17e. Mounting member 17e can, for example, be used along one of the substrates relative to one of the substrates. The mounting angle 16 is attached with the mounting angle α. Figure 17 is a schematic cross-sectional view of one of the mounting sections 16e shown in Figure 16 along the cross-sectional line α-Α illustrated in Figure 16 . As seen in Fig. 17, the mounting member 17e has a lug shape in which the cross section is curved. Thereby, the mounting member 17e can be inserted into a through hole of one of the substrates (for example) to tightly fasten the mounting portion 16e in an active fit, form fit and/or traction fit. Figure 18 is a schematic front elevational view of one of the mounting sections 16f having a mounting member 17f. The mounting section 16f can be implemented at any of the mounting modules 3a, 3b according to an embodiment of the present invention. Mounting section 16f is adapted to be along one of 180 relative to a substrate. The mounting angle is installed in the through hole on the substrate because both the mounting direction M and the intermediate shaft w of the mounting portion 16f extend parallel to the insertion direction. Figure 19 is a schematic cross-sectional view of one of the mounting sections 16f shown in Figure 18 of the cross-sectional line Β_Β illustrated in Figure 18. As can be seen in Figure 19, the mounting member I7f on the mounting section 16f has the ability to attach a mounting module 3a, 3b fitted with a mounting section 16f to a substrate in a positive, form fit and/or traction fit. A twisted shape. Figure 20 is a schematic front view of one of the mounting sections 16g having a mounting member 17g. Mounting section 16g can be formed at any of the mounting modules 3a, 3b in accordance with an embodiment of the present invention. The intermediate shaft of the mounting section 16g and the mounting direction extend parallel to the insertion direction. Therefore, the intermediate shaft 琛 and the mounting direction Μ are defined to be one another between each other. Mounting angle α. Figure 21 is a schematic side view of one of the mounting sections 16g shown in Figure 20. Such as 157840. Doc _ 16 · 201230517 It can be seen in Figure 21 that the mounting part i7g on the mounting section I6g is hook-shaped such that it can be inserted into one of the through holes or any attachment means on a substrate for a form fit, active fit and / Or the traction matching method firmly holds the mounting modules 3a, 3b equipped with one of the mounting sections 16g. Figure 22 is a perspective view of one of the plug members 丨c according to another embodiment of the present invention. The plug component 1c includes a socket module 2c and two mounting modules 3e. The plug component lc in a pre-assembled state p is shown in FIG. 22, wherein the mounting module 3e is configured to be attached to the socket module 2c by pushing it in the length direction X to the socket module 2c so as to have The cylindrical short-axis-shaped fixing members 9f to 9h are respectively projected into the mating fixing members 10f to 10h of the mounting module 36 having a through-hole shape. The fixing members 9f to 9h are provided on one side wall 31 of the socket module 2c. The two side walls 31 and the wall sections 4 and 4' of the socket module lc form the socket 5 and the plug opening 15 of the socket 5 of the socket module lc. The socket 5 has latching elements 7, 7 formed at the wall section 4, and a guiding member 6, and a coding member having a groove shape extending parallel to the insertion direction on the wall section 4 of the socket module 1c 8. Figure 23 is a perspective view showing one of the details of the plug member in an assembled state Q. In this assembled state Q, the fixing elements % are respectively projected through the mating fixing elements 1 Of to 1. The pair of fixing elements l〇f and l〇g each include a through hole 32 and a lug 33. The lugs 33 of the pair of fixing members 10f extend parallel to the width direction so that the fixing jaws 9f are caught in the direction γ and thus are firmly held. The mating fixed element 1 〇 g of the lug 3 3 extends in the insertion direction Z such that the fixing element 9 g is inserted along 157840. Doc •17- 201230517 The direction z is stuck and is therefore firmly held. Further, in the assembled state Q, the fixing member 9h having a diameter slightly smaller than the pair of fixing members 10h still allows the mounting module 3e to move in one of the length directions X. Thereby, any production tolerance of the socket module 2c and the mounting module 3e can be compensated. Figure 24 is a schematic perspective view of the plug element lc shown in Figure 22 and Figure 23 in an engaged state R. In this engaged state r, the fixing element has been treated such that it is placed in the form-fit manner in the mating fixing element 1 〇h. For example, the fixing element 9h can be processed, for example, in an ultrasonic or laser welding procedure. The fixing element 9h can also be designed as a rivet. In the engaged state R, the fixing member 9h can protrude from the mating fixing member j 〇 h such that it partially overlaps the mounting module 3e to prevent any movement of the mounting module 36 relative to the socket module in the longitudinal direction X. Therefore, in the engaged state R, the mounting module 3e is coupled to the socket module 2C such that they are firmly attached to each other and form the plug element lc. Figure 25 is a schematic side view of one of the plug members 丨c including the socket module 2C and the mounting module 3e. As can be seen in Figure 25, the mounting module 3e has two branches 33. On these branches 33', the pairing of the fixing members is configured such that they are formed such that one of the right angles between the sides 3 is an isosceles triangle. The branch 33 has a width E. The mating fixing members 10f to lh have a diameter. In each case, an overrun is provided, and the mounting module 3e can extend beyond the socket die, and the edge of the side 2i, i 3 1 - is oversized. The socket module & can be held in position - from the substrate to achieve sufficient freedom of SMT, THT press fit and/or soldering. 157840. Doc 201230517 Figure 2 6 shows a detail of a perspective view of one of the plug elements in accordance with another embodiment of the present invention. The side wall 31 of the socket module 2d has a short-axis shaped fixing member 9k parallel to the longitudinal direction X and projecting laterally from the side wall 31. The solid elements 9h to 9k project through the mating fixing members 10h to 10k formed at the mounting module. The fixing members 9h and 9k have a diameter larger than % of the fixing member. The mating fixing members 1 〇 1 1 and 1 〇 k respectively accommodating the fixing members and each of the fixing members include a through hole 32 and a lug 33. The large ears 3 3 of the mating fixing elements 1 〇 h and l 〇 k are oriented in opposite directions along one plane of the width direction γ and the insertion direction z. Thereby, the lugs 33 of the mating fixing elements 10h and 1〇k act as pre-fixed into the fixing elements 9h and 9k, respectively, to pre-fix the holding section 30 of the mounting module 3f including the mating fixing elements 1〇h to 1〇k. Metal claw at the socket module 2d. The fixing member 9i has a diameter smaller than that of the fixing members 9h and 9k and is disposed at a midpoint of one of the straight lines between the fixed members 9h and 9k such that it constitutes a pivot point of the holding portion 30. The fixing member 9i may be subjected to ultrasonic or laser welding treatment to deform it so as to partially overlap the mounting module 3f along the length direction X to tightly bond the mounting module 3f to the socket module 2d such that it is inseparably Connect to each other. The mounting module 3 has two mounting sections 16f, 16f including mounting members 17f and 17f, respectively. The mounting sections 16f and 16f are 9 turns along each other. The different angles of the corners protrude from the holding section 30 of the mounting module 3f. Therefore, by pivotally mounting the module 3 and/or flipping the mounting module 3f around the fixing member 9i, a desired mounting angle between one of the head member id and a substrate can be desired to be mounted with one of the plug members u to the substrate. Different installation areas 157840 are selected in a way and a desired installation technique. Doc -19· 201230517 Paragraphs 16f, 16f. The mounting section 16f has a mounting member 17f in the shape of a lug that can be used, for example, for through hole mounting or welding. The two mounting members 17f of the mounting portion 16f are shaped to face each other and thereby enable the mounting portion 16f to be snapped to the resiliently displaceable hook in one of the through holes in a substrate to achieve a form fit and/or traction fit . Further, the socket module 2d has a mark 34 in an arrow shape indicating the mounting direction M of the plug element ld selected in accordance with the rotational position of the mounting module lamp. As can be seen in Fig. 26, the selected rotational position of the mounting module 3f is mounted at 90° because the mounting direction θ and the insertion direction Z define a 90 when the mounting member 17f is used. Mounting angle α. Figure 27 is a schematic perspective view of one of the plug members ld shown in Figure 26. Different from the configuration of the socket module 2d and the mounting module 3f which are not shown in FIG. 26, the socket module 2d and the mounting module 3 which are not shown in FIG. 27 are configured such that the mounting part i7f' of the mounting section 16f Allowed at 18 相对 relative to one of the substrates. Install the plug element lc below the mounting angle. In other words, the mounting angle 〇1 between the insertion direction 2 pre-defined by the socket 5 and the mounting direction given by the mounting section 16f is 18〇0. Figure 28 is a front elevational view of one of the mounting modules 3g in accordance with another embodiment of the present invention. The mounting module 3g has mating fastening elements l〇k to l〇p in the form of through holes. The mating fixing elements 1 〇 1 〇 m, 1 〇 n and 1 配置 are arranged around the pair of fixing elements which can be used as a pivot point to pivot the mounting module 3g, and are adapted to install the module 3g is attached to different rotational positions to achieve a respective fixing element (not shown) of one of the different mounting angles α, α'. The women's wear module 3g has a mounting member including a slit in the form of a slit 157840. Doc • 20· 201230517 - Mounting section 16g The mounting section 16g can be used to connect the mounting module to the substrate, for example, by engaging a bracket (not shown) with the mounting member 17g. Figure 29 is a schematic side view of the mounting module 3g shown in Figure 28. The mounting module 3g has a thickness d' which can be selected such that it does not increase the length of a plug element Uld as explained above. Figure 3 is a schematic front view of a plurality of mounting modules 3g of a reel 50. The mounting core group 3g can be easily supplied to the socket module by attaching the mounting modules 3g to each other to form the reel 5〇. Up to 2d, the plug-in components are assembled by engaging the mounting modules 3a to 3g to this point - an automatic manufacturing or assembling device. Figure 3 is a schematic perspective view of one of the plug members in accordance with one embodiment of the present invention. The plug element le includes a socket module. And two mounting modules 3h are in the back surface of the base portion 18 of the socket module 2e, and the contact supporting members 20 in the protruding portion 19 are respectively fitted with a press-fit pin which is press-fitted into the respective contact supporting members 2? One of the forms of electrical contacts 3 5 . The socket module 2e is fitted with fixing elements on the lateral sides 22, 22 of the wall sections 4, 4, respectively, to %. The fixing members and h are formed as brackets, and the ends of the brackets are directed to each other in parallel with the width direction γ. In the vicinity of the respective leading edges 14, 14 of the wall sections 4, 4', the fixing element 9s has a shape of a clamp or guard ring which is one of the distances between the wall sections 4, 4'. The mounting module 3h is slid in the insertion direction 2 below the fixing members 9q to 9s such that the fixing members 9q and 9r are engaged with the respective mating fixing members 10 (1 and 10r) in the form of grooves on the side of the mounting module 3h. Module 3h front edge 157840. Doc -21 - 201230517 is under the fixed element 9 s too. , code m / month move. Therefore, the mounting module 311 is firmly held at its holding section 30 by the socket module 2e. In addition, the mounting module 3h has a mounting section 16h, and the mounting section (10) includes a mounting part j 7h and a self-mounting module in the form of a pin protruding from the mounting module 3h in a mounting direction opposite to the insertion direction 2. In the form of a flash lock, the auxiliary mounting part 17h is made such that the mounting section 16h allows the plug element (4) to be locked at a substrate or holder. The mounting member Μ is configured such that it allows an installation angle α of 180 between the insertion direction 2 and the mounting direction m. . Figure 32 is another schematic perspective view of the plug member le illustrated in Figure 31. Figure 32 allows the socket 5 to be inspected by the plug opening 15 of the plug element le. In the socket 5, the electrical contact 35 protrudes from the base portion 18 of the socket module in the insertion direction z. The wall section 4 of the socket module 2e has a guiding member 6 in the form of a groove extending parallel to the insertion direction 2, and a latching member 7 in the form of a latch and a - (10) component in the form of a through hole 7, which are adapted to engage a mating plug member (not shown). In the vicinity of the respective side edges 22 and 22' of the wall sections 4 and 4, the wall section 4 of the socket module 2e has a guide member 6 in the form of a groove extending in the insertion direction z. One of the coding elements 8 in the form of a groove extending in the insertion direction z is also disposed on the wall section 4. In addition, the wall sections 4 and 4, and the portion 12 of the mounting module 3h define a wheel temple. The socket module 2e does not have a lateral side wall, and the mounting module closes the respective recesses D which are open to the left at the side of the socket module 2e along the length direction X. FIG. 33 is a plug element according to another embodiment of the present invention. One of the notes 157840. Doc •22· 201230517 Perspective. The plug element 1e comprises a socket module 2e and a mounting module 3i previously known from Figures 31 and 32. Unlike the mounting module 3h, the mounting module 3i has a mounting section 16i including a mounting part 17i and a mounting part 17Γ. The women's wear component 17l' is similar to the mounting component 17h. of the mounting module 3h. The mounting member 17i in the form of a pin is configured such that it protrudes from the mounting module 3i perpendicular to the insertion direction Z and thereby defines the allowable plug element le relative to one of the substrates 90. One of the plug elements 丨e installed is mounted in the direction μ. The mounting angle α between the insertion direction ζ and the mounting direction μ of e is 90. . Figure 34 is another schematic perspective view of the plug member le illustrated in Figure 30. Figure 34 allows viewing to one of the sockets 5 of the plug member 16. In the socket 5, the electrical contact elements 35 are arranged in two rows 28, 28 of the contact bearing areas 27 of the electrical contact elements 35 on the bottom 25 of the socket 5 of the plug element le. Figure 35 is a schematic cross-sectional view taken through one of the planes 35 extending parallel to the width direction γ and the insertion direction z of the electrical contacts 35 in the respective contact supports 2 of the columns 28 and 28, respectively. . The respective inner sides 24, 24' of the wall sections 4, 4 of the socket module 2e and the wall portion 12 of the mounting module 3i define a socket 5 between itself. Therefore, the holding section 30 of the mounting module 3i forms a part of the socket 5. Further, in Fig. 35, the mounting angle α between the mounting direction PCT defined by the mounting member 17i and the insertion direction z significantly allows the plug member le to be mounted at 90° with respect to one of the substrates. Figure 36 is a schematic perspective view of one of the plug members ie mounted to a substrate 1 in the form of a PCB. The plug element 16 is via a 9 turns. The mounting angle α is mounted to the substrate 100. The mounting member 17i of the mounting module 3i protrudes into the substrate 1 157840. Doc •23· 201230517 The mounting elements are in the form of holes 丨0丨. Furthermore, the electrical contacts 35 projecting from the plug element le in the opposite direction of the insertion direction z are angled such that their rear ends extending parallel to the mounting direction are disposed in the respective mating contact supports in the form of through holes. The inside is press-fitted in the substrate 1 〇〇. It is within the scope of the invention to deviate from the above described embodiment of the plug elements 1& to le according to the invention. The socket modules 2a to 2e may have: wall sections 4, 4', however, they are equipped with guide members 6, 6·, latching elements 7, 7, as needed, coding members 8, fixing elements 9a to 9s, as needed , leading edge 14, 14 , base 18 , protruding portion 19 , contact support 20 , recess 21 , side edges 22 , 22 ′, side 23 , inner side 24 , 24 ′, bottom 25 of socket 5 , wall section 4, 4, between the notch 20, the contact support area 27, the contact support columns 28, 28, the identifier 29 and the mark 34 to form a socket 5 as needed; one of the openings 15 of the socket; Attaching at least one of the mounting modules 3a to 3i to the desired possibilities of the socket modules 2a to 2e. The mounting modules 3a to 3i can be shaped as needed to have a holding section 30 that allows the mounting modules 3a to 3i to form one of the portions of the socket 5 in a complementary manner to the socket modules 2a to 2e. In order to attach the mounting modules 3a to 3i to the socket modules 2a to 2e, the mounting modules 3a to 3i may have paired fixing members 10a to 10s, an outer edge 11, a wall portion 12, and any desired shape and form. Edge 13, mounting sections 16a to 16i, mounting members i7a to 17i, through holes 32, locks 33 and branches 33' to attach the mounting modules 3a to 3i to the socket modules 2a to 2e and to cause the plug elements la to le Can be mounted to the substrate 100 ° 157840 in a desired manner and angle α, α. Doc -24- 201230517 It should be understood that the angles α, α are not limited to 180. And 90. The mounting angle can be any desired angle. In addition, the mounting modules 3a to 3i can have as many pairs of fixed components 10a to 10s and mounting sections i6a to 16i as possible to realize a type of selected socket modules 2a to 2e and a type of mounting module 3& A single combination of the plug components 1 a to 1 e of one of the 3i. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of one of the plug members according to an embodiment of the present invention; FIG. 2 is another schematic perspective view of the plug member shown in FIG. 1. FIG. 1 is a schematic rear view of one of the socket modules; FIG. 4 is a schematic side view of one of the socket modules shown in FIG. 3; FIG. 5 is a socket module shown in FIG. 3 and FIG. Figure 6 is a schematic perspective view of one of the plug members according to another embodiment of the present invention; Figure 7 is another schematic perspective view of the plug member shown in Figure 6; Figure 8 is based on this The invention is another embodiment of the embodiment of the socket module shown in Fig. 8; Fig. 9 is a schematic side view of the socket module shown in Fig. 8. Fig. 10 is the socket module shown in Fig. 8 and Fig. 9. 1 is a schematic side view of a mounting module according to another embodiment of the present invention; FIG. 12 is a schematic front view of the mounting module shown in FIG. 11; Another embodiment of the invention - one of the mounting modules is illustrated 157840. Doc -25· 201230517 front view; FIG. 14 is a schematic front view of one of the mounting modules according to another embodiment of the present invention; FIG. 15 is a schematic front view of one of the mounting modules according to another embodiment of the present invention; Figure 16 is a schematic front elevational view of one of the mounting members of one of the mounting modules in accordance with one embodiment of the present invention; Figure 17 is shown in Figure 16 along the cross-sectional line AA of Figure 16; A cross-sectional view of one of the mounting components; FIG. 1 shows a mounting component of one of the mounting modules in accordance with one of the embodiments of the present invention; FIG. 19 is in FIG. 18 along the cross-sectional line BB illustrated in FIG. 1 is a schematic cross-sectional view of one of the mounting members; FIG. 20 is a schematic front view of one of the mounting members of one of the mounting modules in accordance with another embodiment of the present invention; FIG. 21 is a mounting member shown in FIG. Figure 22 is a schematic perspective view of one of the socket module and one of the mounting modules configured to be attached to the socket module in accordance with another embodiment of the present invention; Figure 23 is an assembled view A schematic view of one of the details of the socket module and the mounting module shown in FIG. Figure 24 is another schematic perspective view of the detail of one of the socket module and the mounting module shown in Figures 22 and 23. The mounting module and the socket module are joined together; Figure 25 is a series of 22 to 24 One of the socket modules and mounting modules shown in Figure 157840. Doc -26 - 201230517 is a side view; Figure 26 is at 9 〇. A perspective view of one of the plug elements in accordance with another embodiment of the present invention is shown in Fig. 27; Fig. 27 is at 18 〇. Figure 28 is a schematic perspective view of one of the plug members shown in Figure 26; Figure 28 is a front view of the mounting module according to another embodiment of the present invention; ~ Figure 29 is shown in Figure 28. One of the mounting modules is a schematic side view; FIG. 3 is a schematic front view of one of the mounting modules shown in FIGS. 28 and 29 in which the mounting module is packaged on a reel; FIG. A sound component of a plug element according to another embodiment of the present invention
透視圖; I 圖32係圖31中所示之插頭元件之另一示意透視圖; 圖33係根據本發明之另一實施例之一插頭元件之—示音 透視圖; & 圖34係圖33中所示之插頭元件之另一示意透視圖; 圖35係圖33及圖34中所示之插頭元件之—丼 Τ ^ 杈戴面側視 圖;及 圖36係安裝至一基板之圖33至圖35中所 τ岍不之插碩元件之 一示意透視圖。 【主要元件符號說明】 la 插頭元件 lb 插頭元件 1 c 插頭元件 157840.doc 27· 201230517Fig. 32 is another schematic perspective view of the plug member shown in Fig. 31; Fig. 33 is a perspective view of a plug member according to another embodiment of the present invention; & Another schematic perspective view of the plug member shown in Fig. 33; Fig. 35 is a side view of the plug member shown in Figs. 33 and 34; and Fig. 36 is attached to a substrate. To Fig. 35, a schematic perspective view of one of the elements is shown. [Main component symbol description] la plug component lb plug component 1 c plug component 157840.doc 27· 201230517
Id 插頭元件 1 e 插頭元件 2a 插座模組 2b 插座模組 2c 插座模組 2d 插座模組 2e 插座模組 3a 安裝模組 3b 安裝模組 3c 安裝模組 3d 安裝模組 3e 安裝模組 3f 安裝模組 3g 安裝模組 3h 安裝模組 3i 安裝模組 4 壁區段 4, 壁區段 5 插口 6 導向部件 6, 導向部件 7 閂鎖部件 7' 閂鎖部件 8 導向部件/編碼部件 157840.doc -28- 201230517 9a 固定元件 9b 固定元件 9c 固定元件 9d 固定元件 9e 固定元件 9f 固定元件 9g 固定元件 9h 固定元件 9i 固定元件 9k 固定元件 9p 固定元件 9q 固定元件 9r 固定元件 9s 固定元件 10a 配對固定元件 10b 配對固定元件 10c 配對固定元件 lOd 配對固定元件 lOe 配對固定元件 lOf 配對固定元件 l〇g 配對固定元件 lOh 配對固定元件 lOi 配對固定元件 10k 配對固定元件 157840.doc 29- 201230517 101 配對固定元件 10m 配對固定元件 10η 配對固定元件 10ο 配對固定元件 lOp 配對固定元件 lOq 配對固定元件 11 外緣 12 壁部分 13 上緣 14 前緣 14' 前緣 15 插頭開口 16a 安裝區段 16b 安裝區段 16c 安裝區段 16d 安裝區段 16e 安裝區段 16f 安裝區段 16f' 安裝區段 16g 安裝區段 16h 安裝區段 16i 安裝區段 17a 安裝部件 17b 安裝部件 157840.doc -30- 201230517 17c 安裝部件 17d 安裝部件 17e 安裝部件 17f 安裝部件 17f 安裝部件 17g 安裝部件 17h 安裝部件 17h' 安裝部件 17i 安裝部件 17i' 安裝部件 18 基部 19 突出部分 20 接點支承件 21 凹口 22 側緣 22' 側緣 23 側面 24 内側 24' 内側 25 底部 26 凹口 27 接點支承區 28 接點支承列 28' 接點支承列 157840.doc -31 201230517 29 識別符 30 固持區段 31 側壁 32 通孔 33 突耳 33' 分支 34 標記 35 電接點 50 捲轴 100 基板 101 安裝元件 102 配合接點支承件 a 邊 d 厚度 X 長度方向 Y 寬度方向 Z 插入方向 W 中間軸 M 安裝方向 a 安裝角 a' 安裝角 〇 超出量 D 直徑 E 寬度 157840.doc -32- 201230517 P 預組裝狀態 Q 組裝狀態 R 接合狀態 157840.doc -33Id plug component 1 e plug component 2a socket module 2b socket module 2c socket module 2d socket module 2e socket module 3a mounting module 3b mounting module 3c mounting module 3d mounting module 3e mounting module 3f mounting module Group 3g Mounting module 3h Mounting module 3i Mounting module 4 Wall section 4, Wall section 5 Socket 6 Guide part 6, Guide part 7 Latch part 7' Latch part 8 Guide part / coding part 157840.doc - 28- 201230517 9a fixing element 9b fixing element 9c fixing element 9d fixing element 9e fixing element 9f fixing element 9g fixing element 9h fixing element 9i fixing element 9k fixing element 9p fixing element 9q fixing element 9r fixing element 9s fixing element 10a mating fixing element 10b Pairing fixing element 10c Pairing fixing element lOd Pairing fixing element lOe Pairing fixing element lOf Pairing fixing element l〇g Pairing fixing element lOh Pairing fixing element lOi Pairing fixing element 10k Pairing fixing element 157840.doc 29- 201230517 101 Pairing fixing element 10m Pairing fixed Component 10n paired and fixed Element 10o mating fixing element lOp mating fixing element lOq mating fixing element 11 outer edge 12 wall portion 13 upper edge 14 leading edge 14' leading edge 15 plug opening 16a mounting section 16b mounting section 16c mounting section 16d mounting section 16e mounting Section 16f Mounting section 16f' Mounting section 16g Mounting section 16h Mounting section 16i Mounting section 17a Mounting part 17b Mounting part 157840.doc -30- 201230517 17c Mounting part 17d Mounting part 17e Mounting part 17f Mounting part 17f Mounting Component 17g Mounting part 17h Mounting part 17h' Mounting part 17i Mounting part 17i' Mounting part 18 Base 19 Projection part 20 Contact support 21 Notch 22 Side edge 22' Side edge 23 Side 24 Inner side 24' Inner side 25 Bottom part 26 Notch 27 Contact support area 28 Contact support column 28' Contact support column 157840.doc -31 201230517 29 Identifier 30 Holding section 31 Side wall 32 Through hole 33 Lug 33' Branch 34 Mark 35 Electrical contact 50 Reel 100 Substrate 101 mounting component 102 mating contact support a side d thickness X length Z insertion mounting direction of the intermediate shaft M W Y widthwise direction a mounting angle a 'square mounting angle exceeds the amount of the diameter D E width 157840.doc -32- 201230517 P Q assembled state pre-assembled state engaged state 157840.doc -33 R