1280694 八 發明說明: 【發明所屬之技術領域】 本發明涉及一種電連接器,尤其指一種應用於移動電話或其他電子設 備上的電連接器。 【先前技術】 隨著無線通信技術的發展及高科技的日新月異,移動電話、PDA或其 他通彳a電子設備越來越趨向於小型化發展,功能也趨於豐富、多樣化,以 滿足人們的需求。如在鑛電話、PDA上增設_祕等,在這些電子設備 中不可避免的要用到支援此功能的相關電連接器。 2第-圖所不的電連接器蕭,用以收容相麵組5,,該電連接器蕭 ^括絕緣本體1,、收容目定於絕緣本體端子2,及遮蔽殼體3,,其中絕緣 一體1卡持於遮蔽殼體3,的底部。相機模址5,的底部53,設有導電路徑(未圖 二)山相栈核,组5自上方收容於遮蔽殼體3,所圍設之空間内,導電路徑則位 被dl:部23,之正上方且與其接觸。在此種情況下,端子2,之活動空間 能在與相機歡5,搭接之方向上做上下魏,相機模組 的斷列、:、Λ"Τ力易集中於某""區域内,發生應力集中的現象,引起端子 方法可以是增加作用力臂(端子的尺寸)以改變應 以匕的要求。因此,有必要設計—種新型的電連接器以解決上述問題。 【發明内容】 要求的目的在於提供—難有良好機械性能且献小型化 路板二S3疋現的:-種安裝在電侧的電 包括相對的上下絲、射絕緣本體 一左右延伸的主體部、位於主了 -土母v电端子分別包括 接主體部與接觸部之彈性部、麵;^電子元件電性連接之接觸部、連 和焊接腳之卡持部,前述卡持部^絕接腳以及連接主體部 、、本體干^配&。端子收容腔與絕緣 5 1280694 ί體係底壁,底壁上設有凹孔分別與相應的端子收容腔相連 二知子收谷腔及凹孔各包括-左右觀,該物孔的縱向尺寸小於端子 ΐ:=Γ二’故而,在凹孔的縱向側壁與端子收容腔的縱向側壁之 間刀別軸-讀部,舒收容㈣子餘㈣時 底壁之支撑部相抵接。 王體。陶巴緣本體 本發明電連接魏過在絕緣本體的錢上設置凹孔與端子收容腔相連 縱向尺寸小於端子收容腔的縱向尺寸,這樣在凹孔的縱向側 壁與女而子收谷㈣縱向纖之間就分卿成了—支撐部。 子收容腔時,端子的主體部與絕緣本體底壁的續部相接觸,電子元件愈 端子的接觸部f性連接時,電子元件對端子有—向下的力,不接 觸部及彈性部產生向下雜移,位於凹孔輯的端子社體部也有一向下 的位移,從而避免了端子受力後因應力集巾縣而發生永久變形或斷裂等 情況’有效改善了端子受力時的機械性能且無f增加端子或連接哭的尺 寸,滿足了此類連接器小型化的要求。 【實施方式】 參閱第二®至第五圖所*,本發明電連接器⑽,其絲於電子設備的 電路板上,肋收容電子播(在本實财式巾,該電子元件仙機模組 5),該電連接器腦主要包括絕緣本體i、收容於絕緣本體i内的複數導電 端子2、遮蔽模組3及遮蔽座體4。 如第四圖至第九®所示,絕緣本體丨呈長方體結構,其包括上下表面 10、12、則後側壁π、13、左右側壁14、16以及底壁17,絕緣本體1設 有若干收谷腔101用以收容導電端子2,這些收容腔1〇1自上表面1〇向下 凹設形成,其呈”魚骨狀”,即分為左右兩列对對背對稱排列。在收容腔 ιοί與絕緣本體1的下表面12之間係絕緣本體的底壁17。每一收容腔ι〇ι 與下表面12之間的底壁17上均設有凹孔m,該等凹孔m貫穿絕緣本體 1的底壁17。另外,凹孔171之縱向(左右方向)尺寸小於相應的收容腔 101之縱向尺寸。因收容腔101與凹孔171均左右兩列對稱排列,下面僅以 位於左側的收容腔101與凹孔171為例加以說明。收容腔1〇1與凹孔171 各疋義了左側壁102、172及右侧壁1〇3、173,由於凹孔171之縱向尺寸 小於相應的收容腔101之縱向尺寸,這樣在收容腔之左側壁1〇2與凹孔之 1280694 左側壁172之間形成了第一支標部174,在收容腔之右側壁1〇3肖凹孔之右 側壁173之間形成了第二支撐部175。 —在此實施方式中’凹孔171貫穿絕緣本體1的底壁17,當然,在其他 的實施方式巾’凹孔171也可不貫穿絕緣本體丨的底壁17,僅為凹陷。 另’如第五圖及第六圖所示,絕緣本體j的前後、左右四個側壁(n、 13、1^、16)上均設有凹槽18用於與遮蔽模組3相配合,在左右側壁14、 16上還δ又有自上表面1〇向下凹設形成之通道1〇4及位於收容通道正下 方向外犬设之凸塊105,該等凸塊1()5的上表面與相應的通道辦的下表面 共面。在别後側壁11、12的上部也設有複數凸塊19,在底壁17上設有凹 槽176用於與遮蔽座體4相配合。另外,在絕緣本體i左右側壁…仏之 内側,通道KM相交處還設有卡持槽1〇6與導電端子2干涉配合。 ^錄、第八圖所示’導電端子2包括一沿左右方向延伸之縱長主體部21、 =忒主體部21 —端向上彎折傾斜延伸之彈性部22及設於該彈性部22自由 端^位於主體部21上方之接觸部23。該導電端子2還包括自主體部21另 碥丑直向上考折5又置之卡持部24、自卡持部24向外水平延伸之焊接腳 26,其中卡持部24上設有複數倒刺28。 閱弟四圖至第六圖所示,遮蔽模組3包括兩片第—遮蔽體31、一片 第二遮蔽體33及-片第三遮蔽體35,遮蔽體3卜%%分別由一金屬片 一體^型而成。第-遮蔽體31係縱長設置,其包括内外兩側面3ι〇、3ιι 在k蔽體31的上部位於縱長方向的中^處設有—向内彎曲設置的卡持苟 =3 =於卡持部313兩側對稱設置有接地片314,位於接地片似外側: 對於卡持部313對稱分佈有卡持部315。接地片314、卡持片315均係自主 ^片上邊緣向内、向下f曲延伸形成的彈性臂,且接抵片314的長度大灰 、片的長度在遮蔽體31下部設有複數向内突出的插入部316及g /iH17用於與絕緣本體1的凹槽18干涉配合。固持部317為兩片,其仓 = 下部兩端衝壓及向内f曲形成。插入部則沿遮蔽體31的飞 ,、_Γ"排列。固持部317上還設有倒刺(未標示)。在插入部316上方言; f複數矩形狀通孔319,其中,三個矩形狀通孔319的上邊緣的中央= 设有焊接腳321,其延伸方向與主體片318垂直。 、 第二遮蔽體33的主體片338上部於其縱長方向的中心處係一防呆細 7 1280694 333,缺口 333的兩側對稱設置有接地片334,係左右各兩片,且其長声盘 324的長度相同。第二遮蔽體33的插入部336、固持部337、通孔娜= 焊接腳321與第-遮蔽體31的該等結構大致相同。考慮到受力平衡等因 素,插入部、通孔及焊接腳的數量有所不同。另,第二遮蔽體^位於縱向 兩端的焊接腳341是從對應通孔339的下邊緣的中央處向外延設而成 對焊接腳341與位於中間部位的焊接腳341處於同一平面上。 第二遮蔽體35與第二遮蔽體33結構基本相同,唯—不同之處在於· 第三遮蔽體35在其與第二遮蔽體33的缺口 333對應位置設置有一向内彎 曲設置的卡持部353,該卡持部353與第一遮蔽體31的卡持部313位置、 形狀及功效完全相同。 遮蔽座體4包括-底壁41及自底壁41四個側邊垂直向上延伸之 侧壁42、左右讎43。於紐41上靠近前後側壁42處各設有複數插入部 似1 ’插入部411係垂直於底壁41向上延伸,其邊緣設有倒刺(未標示)。前 後,土 42及左右側壁43的上邊緣分別向外延設有複數焊接腳421、, 該等焊接腳421、431垂直於底壁且位於同一平面上。 如第四圖所示’相機模組5包括—基部51、位於基部51上面的柱狀部 52及位於基部51下面的底部53。所述基部51包括上表面5ιι、左側面512、 右側面513及後側面514。基部51的左右兩側面512、513上各設有一肋條 516,與左右側面512、513垂直的後側面514上設有一凸塊518。底部53 之底面531上設有複數與導電端子2的接觸部23相接觸導通的導電路徑 請參照第二圖至第四圖及第九_示,組料,首先將導電端子2從 絶緣本體1的上表面1〇自上而下插入到端子收容腔ι〇ι内。所述導電端子 2的主體部21與絕緣本體i的底壁17的第一支撑部173、第二支撐部μ 水平接觸’卡持部24收容於絕緣本體i之卡持槽内,該卡持部%的 倒刺28與卡持槽相卡持固定,而彈性部22及接觸部23則向上延伸而 突出於絕緣本體i之上表面1G,又,所述焊接腳26通過絕緣本體丨的左右 側壁14、16上凹設形成之通道1〇4而延伸出絕緣本體i的左右側壁外,用 以與電路板(未圖示)或其他外接雛相焊接導通。位於收料道1〇4正 下方向之凸塊1G5與%子2之焊接腳26相接觸,藉此,凸塊⑽即可支撐 1280694 焊接腳26,增強其機械性能。 其-人’第-、第二及第三遮蔽體3卜33、35分別組裝到絕緣本體工的 四個側,上形成-收容空間3〇,該等遮蔽體與絕緣本體2配合的方式相同, 下僅以第-遮蔽體31為例加以說明。第一遮蔽體31之插入部316及固持 部317分別插入到絕緣本體!左、右側壁14、16之收容槽ΐ8 μ,固持部 317上的倒刺與收容槽132卡持固定。端子2之焊接腳%穿過第一遮蔽體 31之通孔319與第-遮蔽體31之焊接腳321位於同一平面上,前後側壁 11、12的上之凸塊19也伸入到相應的遮蔽體之通孔3別、内。遮蔽^ 體4包覆於絕緣本體!的下表面12上,插入部411收容於絕緣本體i底壁 I7之凹槽Γ76内,且插入部扣的倒刺與凹槽1?6卡持固定。此時,端子 之焊接腳26、遮蔽模組之焊接腳321、341、361及遮蔽座體4之焊接腳仍、 431位於fg]平面上’且同一側的焊接腳的尾端相平齊。同時,端子之焊接 腳26與—第-遮蔽體31之焊接腳321及遮蔽座體4之焊接腳饥相互間隔 三碰體33、35之焊接腳341、361亦分別與遮蔽座體; I卩被間隔制。藉此,同-元件的焊接腳被間隔開來,焊接強 度仵以增強,電連接器可牢固地焊接導電路板6上 的干擾,保證整健品的正常卫作。 ^了^子間域 使用時,將相機模組5自上而下插入到電連接器励的收容空間 插入時,需將相機模組5的凸塊518對準第二遮蔽體%的缺口知 過程中,相機模組5與遮蔽體模組3的卡持片314、接地 ^接^接,卡持片314、接地片315、335及355均為彈性f,_及: #_壓而產生向遮蔽體模組3的内側面⑽、33〇及35〇的—彈性2, =令相機顯5收容於舰體3内。插人後,遮題模組3的彈性 從而315、335及355)因彈性力的作用朝原來的位置恢復, 上表面片314的下緣正好抵接在相機模組5基部51的肋條516的 j面上’卡持部313、353卡持在相機模組5的柱狀部52上, 力作用下相機模組5從遮蔽體3中滑出及前後、 Ϊϋ 都得以很好的固定。同時,接地片阳、335及355 ^相機松組5之底部53相抵接而達到接地的目的。此 纽上的導電路徑532與設置在絕緣本體i内的導電端子2 1280694 性連接。另,導電端子2之彈性部22更可 面531,從而使得相機模組5的肋條516的上表=面=目機模組5的底 更加穩固的置於電連接器卿内,達到理想的固持效氏果面。531均受抵持力而 H寺別指出的是’在相機模組5插入到電連接 %,其底面纽上的導電路徑532與端子H 30内 組5對端子2右一 Απγλαα文 J按觸# 23電性連接,相機模 及彈性部22均有子彈性部22的彈性變形,接觸部23 鱗W 22均有-向下的位移。同時,作用於端子 端子的主體部21在絕緣本體!的底壁17上的凹孔⑺ 域有一向下的位移,相當於增加了端子的 奴端圖9所=2 空間。藉此,可使端子2在說子的活動 發生X 錢減生局部應力集巾而造成端子2 戍連=,有效改善了端子的機械性能且無需增加端子 次連接為的尺寸,滿足了此類連接器小型化的要求。 如=、查Ϊ發日月電連接器騰的電子元件並不局限為相機模組5,也可為 …電連接益配接的插入模組或卡類元件等。相應的,本發明電連接器 1也不局_長方體結構’也可為圓柱體等結構,遮蔽模組 3及遮敝座體4則與其相對應。 综上所述,本發明確已符合發明專利之要件,菱依法提出專利申請。 ^以上·鶴本μ讀佳魏对,自不能减蚊树明之權利 =圍。舉凡所;I技術領域巾具有通常知識者爰依本發明之精神所作之等效 伶飾或變化,皆仍涵蓋於後附之申請專利範圍内。 【圖式簡單說明】 第i係習知電連接n與收容於其中的城模組的立體示意圖。 第-圖係本發明電連接n與—相機模組組合後的立體示意圖。 第二圖係本發明電連接H與—相機模組組合後另_角度的立體示意 圖。 第四圖係本發明電連接器與相機模組分解後的立體示意圖。 第五圖係本發明電連接器的分解示意圖。 第六圖係第五圖所示的本發明電連接器的絕緣本體另一角度的立體放 大圖。 第七圖係第五圖所示的本發明電連接器的絕緣本體的俯視圖。 1280694 第八圖係本發明電連接器的端子的立體放大圖。 第九圖係本發明電連接器沿第四圖所示κ_κ線的剖視圖。 【主要元件符號說明】 26、321、341、361、421、431 28 3 333 314、334、354 通孔 316、 336、411遮蔽座體 317、 337、357 底壁 電連接器 上表面 收容腔左側壁 通道 凸塊 後側壁 右側壁 凹孔 凹孔右側壁 第二支撐部 導電端子 彈性部 卡持部 焊接腳 倒刺 遮蔽模組 第一遮蔽體 第三遮蔽體 外側面 缺口 接地片 插入部 固持部 前後側壁 相機模組 上表面 100、100丨 10 102 104 105、19、518 13 16 171 173 175 2、2, 22 24 31 35 311 絕緣殼體 收容腔 收容腔右側壁 下表面 前側壁 左側壁 底壁 凹孔左側壁 第一支撐部 凹槽 主體部 接觸部 連接部 遮蔽體 收容空間 第二遮蔽體 内側面 卡持部 卡持片 42 左右側壁 5、5, 基部 511 左側面 101 103 12 11 14 17 172 18、176 21 23、23, 25、27、29 3, 30 33 310 313 、 353 315 319 4 41 43 51 512 11 1280694 右側面 513 後側面 514 肋條 516 柱狀部 52 底部 53、53’ 底面 531 導電路徑 532 121280694 VIII Description of the Invention: [Technical Field] The present invention relates to an electrical connector, and more particularly to an electrical connector for use in a mobile phone or other electronic device. [Prior Art] With the development of wireless communication technology and the rapid development of high technology, mobile phones, PDAs or other electronic devices are becoming more and more compact, and their functions are becoming more and more diverse to meet people's needs. demand. For example, if you add _ secrets to mine phones and PDAs, it is inevitable to use related electrical connectors that support this function in these electronic devices. 2, the electrical connector of the first figure is not used to accommodate the face group 5, the electrical connector includes the insulative housing 1, the receiving body is targeted to the insulative housing terminal 2, and the shielding housing 3, wherein The insulating unit 1 is held at the bottom of the shielding case 3. The bottom 53 of the camera module 5 is provided with a conductive path (not shown in FIG. 2), and the group 5 is housed in the shielding housing 3 from above, and the conductive path is located by the dl: part 23 , directly above and in contact with it. In this case, the active space of the terminal 2 can be up and down in the direction of the camera, and the camera module is broken, and the 相机" Τ力 is concentrated in a "" Inside, a phenomenon of stress concentration occurs, and the method of causing the terminal may be to increase the force arm (the size of the terminal) to change the requirement of the terminal. Therefore, it is necessary to design a new type of electrical connector to solve the above problems. SUMMARY OF THE INVENTION The purpose of the request is to provide a hard-to-have good mechanical performance and to provide miniaturized road board two S3: - the electric power installed on the electric side includes a relatively upper and lower wire, and the main body of the insulative body extends left and right. The main terminal-mother electric terminal includes an elastic portion and a surface of the main body portion and the contact portion respectively; a contact portion of the electronic component electrically connected, and a clamping portion of the soldering leg, and the latching portion is completely connected The foot and the connecting body portion, and the body dry matching & The terminal receiving cavity and the insulating 5 1280694 ί system bottom wall, the bottom wall is provided with a recessed hole respectively connected with the corresponding terminal receiving cavity, and the digestor receiving cavity and the recessed hole respectively comprise a left-right view, the longitudinal dimension of the object hole is smaller than the terminal ΐ Therefore, the support portion of the bottom wall is abutted between the longitudinal side wall of the recessed hole and the longitudinal side wall of the terminal receiving cavity. The king body. The body of the toba edge of the present invention is electrically connected to the insulating body, and the recessed hole is connected with the terminal receiving cavity to have a longitudinal dimension smaller than the longitudinal dimension of the terminal receiving cavity, so that the longitudinal side wall of the concave hole and the female side receive the grain (four) longitudinal fiber The division became a support department. When the sub-accommodating cavity is received, the main body portion of the terminal is in contact with the continuation of the bottom wall of the insulating body, and when the electronic component is connected to the contact portion of the terminal f, the electronic component has a downward force to the terminal, and the non-contact portion and the elastic portion are generated. Downward miscellaneous movement, the body part of the terminal in the concave hole series also has a downward displacement, thereby avoiding the permanent deformation or breakage of the terminal after the force is applied to the stress collecting towel county, which effectively improves the mechanical force of the terminal. Performance and no increase in the size of the terminal or connection crying meets the requirements for miniaturization of such connectors. [Embodiment] Referring to the second to fifth figures, the electrical connector (10) of the present invention is wired on a circuit board of an electronic device, and the rib is accommodated in the electronic broadcast (in the real money towel, the electronic component fairy model) In the group 5), the electrical connector brain mainly comprises an insulative housing i, a plurality of conductive terminals 2, a shielding module 3 and a shielding base 4 housed in the insulative housing i. As shown in the fourth to ninth editions, the insulating body 丨 has a rectangular parallelepiped structure including upper and lower surfaces 10, 12, rear side walls π, 13, left and right side walls 14, 16 and a bottom wall 17, and the insulating body 1 is provided with a plurality of The valley chamber 101 is for accommodating the conductive terminals 2, and the receiving chambers 1〇1 are formed downwardly from the upper surface 1〇, and are formed in a “fishbone shape”, that is, the left and right columns are arranged symmetrically opposite to each other. A bottom wall 17 of the insulating body is interposed between the receiving cavity ιοί and the lower surface 12 of the insulative housing 1. A recessed hole m is formed in the bottom wall 17 between each of the receiving chambers ιι and the lower surface 12, and the recessed holes m extend through the bottom wall 17 of the insulative housing 1. Further, the longitudinal (left-right direction) dimension of the recessed hole 171 is smaller than the longitudinal dimension of the corresponding receiving cavity 101. Since both the housing chamber 101 and the recessed hole 171 are symmetrically arranged in the left and right rows, the housing cavity 101 and the recessed hole 171 located on the left side will be described below as an example. The receiving cavity 1〇1 and the recessed hole 171 respectively define the left side wall 102, 172 and the right side wall 1〇3, 173. Since the longitudinal dimension of the recessed hole 171 is smaller than the longitudinal dimension of the corresponding receiving cavity 101, the receiving cavity is A first branch portion 174 is formed between the left side wall 1〇2 and the left side wall 172 of the recessed hole 1280694, and a second support portion 175 is formed between the right side wall 173 of the right side wall 1〇3 of the receiving cavity. - In this embodiment, the recess 171 extends through the bottom wall 17 of the insulative housing 1. Of course, in other embodiments, the recess 171 may not extend through the bottom wall 17 of the insulative housing, but is only a recess. In addition, as shown in the fifth and sixth figures, the front and rear sides, the left and right four side walls (n, 13, 11 and 16) of the insulating body j are provided with grooves 18 for cooperating with the shielding module 3. The left and right side walls 14 and 16 further have a channel 1〇4 formed downwardly from the upper surface 1〇 and a protrusion 105 disposed outwardly of the receiving channel, and the bumps 1() 5 The upper surface is coplanar with the lower surface of the corresponding channel. A plurality of bumps 19 are also provided on the upper portions of the rear side walls 11, 12, and recesses 176 are provided in the bottom wall 17 for mating with the shield body 4. In addition, on the inner side of the left and right side walls of the insulative housing i, the intersection of the passage KM is further provided with a holding groove 1〇6 and an interference fit with the conductive terminal 2. The recording terminal 2 includes a longitudinal body portion 21 extending in the left-right direction, a body portion 21, and an elastic portion 22 which is bent upwardly and obliquely and is provided at the free end of the elastic portion 22. ^ The contact portion 23 located above the main body portion 21. The conductive terminal 2 further includes a soldering leg 26 extending from the main body portion 21 to the occupant portion 5 and the latching portion 24 extending horizontally from the latching portion 24, wherein the latching portion 24 is provided with a plurality of soldering portions 24 Thorn 28. As shown in the fourth to sixth figures, the shielding module 3 includes two first shielding bodies 31, one second shielding body 33 and a third shielding body 35. The shielding body 3% is respectively made of a metal piece. One piece is formed. The first shielding body 31 is longitudinally disposed, and includes inner and outer sides 3 〇 , 3 ιι. The upper portion of the k-shaped body 31 is located at the middle of the longitudinal direction - the locking of the inward bending is set = 3 = the card The grounding piece 314 is symmetrically disposed on both sides of the holding portion 313, and is located on the outer side of the grounding piece. The holding portion 315 is symmetrically distributed to the holding portion 313. The grounding piece 314 and the holding piece 315 are elastic arms which are formed by extending the upper edge of the abutting piece inwardly and downwardly, and the length of the abutting piece 314 is large gray, and the length of the piece is provided in the lower part of the shielding body 31. The protruding insertion portions 316 and g /iH17 are used for interference fit with the grooves 18 of the insulative housing 1. The holding portion 317 is two pieces, and the lower part of the lower part is punched and formed inwardly. The insertion portion is arranged along the flying, _Γ" of the shielding body 31. Barbs (not labeled) are also provided on the holding portion 317. Above the insertion portion 316, a plurality of rectangular through holes 319 are formed, wherein the center of the upper edges of the three rectangular through holes 319 is provided with soldering legs 321 extending in a direction perpendicular to the main body piece 318. The upper portion of the main body piece 338 of the second shielding body 33 is at the center of the longitudinal direction thereof, and is provided with a guarding strip 7 1280694 333. The two sides of the notch 333 are symmetrically disposed with a grounding piece 334, two sides of the left and right sides, and the long sound thereof The length of the disk 324 is the same. The insertion portion 336 of the second shielding body 33, the holding portion 337, the through-holes = the welding legs 321 and the first shielding body 31 are substantially the same. The number of insertion parts, through holes, and soldering feet varies depending on factors such as force balance. Further, the welding legs 341 of the second shielding body at the longitudinal ends are extended from the center of the lower edge of the corresponding through hole 339, and the pair of welding legs 341 and the welding legs 341 at the intermediate portion are on the same plane. The second shielding body 35 is substantially identical in structure to the second shielding body 33, except that the third shielding body 35 is provided with an inwardly bent holding portion at a position corresponding to the notch 333 of the second shielding body 33. 353, the holding portion 353 and the holding portion 313 of the first shielding body 31 have the same position, shape and function. The shielding base 4 includes a bottom wall 41 and side walls 42 extending vertically upward from four sides of the bottom wall 41, and left and right turns 43. A plurality of insertion portions are formed on the front and rear side walls 42 of the button 41. The insertion portion 411 extends upwardly perpendicular to the bottom wall 41, and the edge thereof is barbed (not shown). Front and rear, the upper edges of the soil 42 and the left and right side walls 43 are respectively provided with a plurality of welded legs 421 which are perpendicular to the bottom wall and are located on the same plane. As shown in the fourth figure, the camera module 5 includes a base portion 51, a columnar portion 52 located above the base portion 51, and a bottom portion 53 located below the base portion 51. The base portion 51 includes an upper surface 5 ιι, a left side surface 512, a right side surface 513, and a rear side surface 514. A rib 516 is disposed on each of the left and right side surfaces 512, 513 of the base portion 51, and a protrusion 518 is disposed on the rear side surface 514 perpendicular to the left and right side surfaces 512, 513. The bottom surface 531 of the bottom portion 53 is provided with a plurality of conductive paths that are in contact with the contact portions 23 of the conductive terminals 2. Referring to FIGS. 2 to 4 and ninth, the assembly, firstly, the conductive terminals 2 are from the insulating body 1 The upper surface 1〇 is inserted into the terminal receiving chamber ι〇ι from top to bottom. The main body portion 21 of the conductive terminal 2 and the first support portion 173 and the second support portion μ of the bottom wall 17 of the insulative housing 1 are in horizontal contact with the latching portion 24 in the latching slot of the insulative housing i. The portion of the barbs 28 is fixedly engaged with the retaining groove, and the elastic portion 22 and the contact portion 23 extend upward to protrude from the upper surface 1G of the insulating body i. Further, the soldering legs 26 pass through the left and right sides of the insulating body The sidewalls 14 and 16 are recessed to form channels 1〇4 extending outside the left and right side walls of the insulative housing i for conducting conduction with a circuit board (not shown) or other external connectors. The bump 1G5 located in the downward direction of the receiving passage 1〇4 is in contact with the soldering leg 26 of the %2, whereby the bump (10) can support the 1280694 soldering leg 26 to enhance its mechanical properties. The human-first, second and third shielding bodies 3, 33, 35 are respectively assembled to the four sides of the insulating body, and the upper receiving space 3 is formed in the same manner as the insulating body 2 Only the first shielding body 31 will be described as an example. The insertion portion 316 and the holding portion 317 of the first shielding body 31 are respectively inserted into the insulating body! The storage grooves ΐ 8 μ of the left and right side walls 14 and 16 and the barbs on the holding portion 317 are fixed to the receiving groove 132. The soldering pin % of the terminal 2 passes through the through hole 319 of the first shielding body 31 and is located on the same plane as the soldering leg 321 of the first shielding body 31, and the upper bump 19 of the front and rear side walls 11, 12 also protrudes into the corresponding shielding. The through hole 3 of the body is inside and inside. The shielding body 4 is covered on the insulating body! On the lower surface 12, the insertion portion 411 is received in the recess 76 of the bottom wall I7 of the insulative housing i, and the barb of the insertion portion buckle is fixedly engaged with the recess 1?6. At this time, the soldering legs 26 of the terminals, the soldering legs 321 , 341 , 361 of the shielding module and the soldering legs of the shielding body 4 are still 431 on the fg] plane and the tail ends of the soldering legs on the same side are flush. At the same time, the soldering leg 26 of the terminal and the soldering leg 321 of the first shielding body 31 and the soldering foot of the shielding body 4 are spaced apart from each other by the soldering legs 341 and 361 of the three contact bodies 33 and 35 respectively; Be separated. Thereby, the soldering legs of the same-element are spaced apart, the soldering strength is increased, and the electrical connector can firmly solder the interference on the conductive circuit board 6, thereby ensuring the normal maintenance of the whole health product. When the inter-sub-domain is used, when the camera module 5 is inserted from the top to the bottom into the receiving space of the electrical connector, the protrusion 518 of the camera module 5 needs to be aligned with the notch of the second shielding body. In the process, the camera module 5 is connected to the holding piece 314 of the shielding body module 3, the grounding piece, the holding piece 314, the grounding pieces 315, 335 and 355 are elastic f, _ and: #_压The elasticity 2, = to the inner side faces (10), 33 〇 and 35 遮蔽 of the shielding body module 3 causes the camera display 5 to be housed in the hull 3. After the insertion, the elasticity of the mask module 3, 315, 335 and 355) is restored to the original position due to the elastic force, and the lower edge of the upper surface sheet 314 abuts against the rib 516 of the base 51 of the camera module 5. The engaging portions 313 and 353 of the j-face are held by the columnar portion 52 of the camera module 5, and the camera module 5 is slid out from the shielding body 3 by the force, and the front and rear sides and the cymbal are well fixed. At the same time, the grounding piece yang, 335 and 355 ^ camera loose group 5 bottom 53 abut to reach the purpose of grounding. The conductive path 532 on the button is connected to the conductive terminal 2 1280694 disposed in the insulative housing i. In addition, the elastic portion 22 of the conductive terminal 2 can be further 531, so that the upper surface of the rib 516 of the camera module 5 = the bottom of the camera module 5 is more stably placed in the electrical connector, which is ideal. Retaining the fruit surface. 531 are all resisted and H Temple pointed out that 'the camera module 5 is inserted into the electrical connection %, the conductive path 532 on the bottom surface of the bridge and the terminal H 30 in the group 5 to the terminal 2 right Απγλαα text J touch # 23 Electrical connection, the camera mold and the elastic portion 22 have elastic deformation of the sub-elastic portion 22, and the contact portion 23 scale W 22 has a downward displacement. At the same time, the main body portion 21 acting on the terminal terminal is in the insulating body! The recessed hole (7) in the bottom wall 17 has a downward displacement, which is equivalent to increasing the terminal of the terminal as shown in Fig. 9 = 2 space. Thereby, the terminal 2 can cause the X-money to reduce the local stress gathers in the activity of the speaker, thereby causing the terminal 2 to be connected, effectively improving the mechanical properties of the terminal and increasing the size of the terminal connection, which satisfies this type. Connector miniaturization requirements. For example, the electronic components of the 日 Ϊ 日 日 日 连接 并不 并不 并不 并不 并不 并不 并不 并不 并不 并不 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机 相机Correspondingly, the electrical connector 1 of the present invention may also be a cylindrical structure or the like, and the shielding module 3 and the concealing block body 4 correspond thereto. In summary, the present invention has indeed met the requirements of the invention patent, and the patent application is filed according to law. ^ Above · Heben μ read Jia Wei, can not reduce the right of mosquitoes and trees = Wai. The technical field of the invention is equivalent to the equivalents of the invention, and the equivalents of the invention are still covered by the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS The i-th is a schematic perspective view of a conventional electrical connection n and a city module housed therein. The first drawing is a perspective view of the electrical connection n and the camera module of the present invention. The second figure is a perspective view of the angle between the electrical connection H and the camera module of the present invention. The fourth figure is a schematic exploded view of the electrical connector and the camera module of the present invention. Figure 5 is an exploded perspective view of the electrical connector of the present invention. Fig. 6 is a perspective enlarged view showing another angle of the insulating body of the electrical connector of the present invention shown in Fig. 5. Figure 7 is a plan view of the insulative housing of the electrical connector of the present invention shown in Figure 5. 1280694 The eighth drawing is a perspective enlarged view of the terminal of the electrical connector of the present invention. Figure 9 is a cross-sectional view of the electrical connector of the present invention taken along the κ_κ line shown in the fourth figure. [Major component symbol description] 26, 321, 341, 361, 421, 431 28 3 333 314, 334, 354 Through hole 316, 336, 411 shielding seat 317, 337, 357 bottom wall electrical connector upper surface receiving cavity left side Wall channel bump rear side right side wall concave hole concave hole right side wall second support portion conductive terminal elastic portion holding portion soldering foot barb shielding module first shielding body third shielding outer side side notch grounding piece insertion portion holding portion front and rear side wall Camera module upper surface 100, 100丨10 102 104 105, 19, 518 13 16 171 173 175 2, 2, 22 24 31 35 311 Insulating housing receiving cavity receiving cavity right side wall front side front side left side wall bottom wall recess hole Left side wall first support portion groove main body portion contact portion connection portion shield body accommodating space second shielding body side surface holding portion holding piece 42 left and right side walls 5, 5, base portion 511 left side surface 101 103 12 11 14 17 172 18, 176 21 23,23, 25,27,29 3, 30 33 310 313 , 353 315 319 4 41 43 51 512 11 1280694 right side 513 rear side 514 rib 516 column 52 bottom 53 , 53 ′ bottom 531 conductive Path 532 12