M395948 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種電連接器。 【先前技術】 由於數位相機的小型化,使得數位相機可配置於手持 式之電子裝置中,例如筆記型電腦、個人數位助理(pers〇nal digital assistant)或手機等。—般而言,將數位相機裝配在 電子裝置内之作法為:把電荷耦合元件(Charge c〇upled Device ; CCD)或互補式金氧半導體(c〇mplementary Metal Oxide Semiconductor ; CMOS)等之影像擷取元件與鏡 頭組合成一數位相機模組,然後將數位相機模組裝配於電 子裝置上之模組插座上。通常,模組插座需配置鎖固構件 ’以牢固數位相機模組。 如圖1所示,美國專利第7,699,619號揭露一用於固定相 機模組之模組插座1,其包含一殼體u及形成於殼體u上之 複數個鎖固部12。複數個鎖固部12被形成以卡合相機模組 上之凹部,以使相機模組被固定。又如圖2所示,美國專利 第7,255,600號揭示另一模組插座2,其包含殼體21。殼體2ι 包含複數側邊部22,而側邊部22上形成有鎖固部22卜模組 插座2藉由鎖固部221將相機模組鎖固。再如圖3所示,美國 專利第7,232,3 16號揭示一模組插座3,模組插座3包含一殼 體3 1,殼體31包含兩側牆3〗丨,各側牆3 !具有一對之彈性指 部32,彈性指部32向内凸出,以壓抵一相機模組。 上述之鎖固部(12和221)以及彈性指部32均具懸臂結構 -4- M395948 ,因此其皆可被自由地被扳開,使其彎折,讓相機模組可 被取出H上述之鎖固部(12和221)以及彈性指部32被 過度扳開’可能造成上述之鎖固部(12和221)以及彈性指部 32永久變形。 有鑑於前述習知相機模組之模組插座之缺失,有必要 提出一種新的相機模組之模組插座。 【新型内容】 本創作揭示一種電連接器,其包含一絕緣槽體、複數 端子以及一殼體。絕緣槽體被建構以容置一電子元件。絕 緣槽體之侧壁部包含複數個開口,且其底部朝上表面上形 成有複數溝槽。端子包含—接觸部,而各接觸部於相應之 溝槽内延伸,並電性㈣該電子元件。殼體沿絕緣槽體之 侧壁部環繞,並包含複數個框口及複數個彈扣部。該些框 口相應於該㈣口設置β彈扣部連接相應之框口之上邊緣 且具-末料,其巾各彈扣部延伸通過相應之開口,使得 彈扣部之末端部可抵接電子元件。此外,彈扣部之末端部 與相應之開口下方之開口邊緣部相配合,使該末端部能被 開口邊緣部止擋。 由於開口邊緣部可止擋彈扣部之末端部,因此可避免 彈扣部因被過度扳開而損壞。 【實施方式】 圖4係本創作_實施例之設置於電路板々上及收容一電 子元件5之電連接器6之立體示意圖。圖5係圖4之電連接器6 之一立體分解圖。圖6顯示另-角度之圖5電連接器6之立體 M395948 分解圖。參照圖4至6所示,本創作一實施例揭示一種電連 接器6 ’ g電連接器6包絕緣槽體61、複數個端子咖 及一殼體63。絕緣槽體61包括一側壁部612及一底部“斗, 側壁部612及一底部614形成一容置空間611,其中容置空間 611被建構以收容電子元件5。在本案實施例中,電子元件5 可為但不限於數位相機模組。複數個端子62設置於絕緣槽 體61,可位於容置空間611周邊,其係用於電連接收容之電 子元件5及電路板4。殼體21沿絕緣槽體61之側壁部612外環 繞,以遮蔽電磁干擾。 參h圖5、6及9所示’端子62包含一接觸部621、一連 接部622、一固持部623以及一焊接部624 ^接觸部621被建 構以電性連接電子元件5之底部上相應之電接墊5 1 ;固持部 623係用於將端子62固定;連接部622連接接觸部621與固 持部623,而焊接部624自固持部623延伸,並被建構以焊接 至電路板4上。在本實施例中,焊接部624係平行絕緣槽體 61之底部614’以表面焊接(surface mount)於電路板4上之焊 墊41。 參照圖5、7及9所示,絕緣槽體61之底部614之朝上表 面6141上形成有複數溝槽6142;而相應地,絕緣槽體61之 側壁部612上形成有複數個容置槽6143。如圖9所示,端子 62之接觸部621於相應之溝槽6142内斜向延伸,使其部分凸 出絕緣槽體61之底部614,以耦接電子元件5上相應之電接 墊51。容置槽6143收容連接部622及固持部623,且被建構 以與固持部623干涉配合,以固定端子62。焊接部624相對 -6- 於固持部623橫向延伸,且略微凸出絕緣槽體“之底部6i4 之下表面6144,以利焊接。 參知圖4至圖6所示,絕緣槽體6丨之側壁部6丨2環繞以形 成容置空間611 ’且側壁部612上可形成有複數開口 613。相 應地,设體63包含複數個框口 631及彈扣部632,其中複數 開口 613、複數個框口 631以及彈扣部632係相應設置。參照 圖4至8所不,框口 631為一上邊緣6311及相對於該上邊緣 6311之一下邊緣6312所定義。彈扣部ό32具一末端部6321。 彈扣部632係連接相應之框口 63 1之上邊緣63丨丨,並以斜下 延伸之方式通過相應之開口 613,以讓其末端部6321可抵接 電子元件5 ’使電子元件5插入絕緣槽體61内後能被固持。 在本實施例中,電子元件5包含複數凸塊52,該些凸塊52 與殼體63之彈扣部632配合設置,彈扣部632之末端部6321 抵接相應之凸塊52之上表面後,可使電子元件5被固持。此 外’在本貫施例中’電子元件5之凸塊5 2被建構以可凸伸入 絕緣槽體61上相應之開口 613内,如此電子元件5之本體與 絕緣槽體61之容置空間611之間可設計成小間隙之活動配 合。另,絕緣槽體61之開口 613可自絕緣槽體61之上邊緣下 凹形成,使得當電子元件5在被安裝或被移除時,電子元件 5之凸塊52可無阻礙地於相應之開口 613内移動。 參照圖8、11及12所示’彈扣部632之末端部6321可斜 下延伸超越相應框口 631之下邊緣6312,使得當彈扣部632 被往外扳開時,開口邊緣部6131可止擋末端部6321,如此 可避免彈扣部632被過度外扳,超越相應框口 631而造成永 久變形。 再者,參照圖8與12所示,電子元件5之凸塊52具一平 側面521,該側面521可平行於電子元件5之插置或移除方向 。各彈扣部632可包含一第一彎折段6322及一第二彎折段 6323,其中第一彎折段6322連接第二彎折段6323與框口 631 之上邊緣6311。第一彎折段6322向内彎折,而第二彎折段 6323則與第一彎折段6322之彎折方向.相反,使得彈扣部632 呈現向内凹折。即,第一彎折段6322與第二彎折段6323間 朝框口 631之彎折角0小於180度。又,第二彎折段6323可被 ^折成當電子元件5之凸塊側面521與該第二彎折段6323接 觸時,第二彎折段6323可幾乎平行電子元件5之插入方向, 並與凸塊52之側面521滑接。如此,可有效降低凸塊52與彈 扣部632間之接觸阻力’讓電子元件5被更為平順地插入。 參照圖11所示,彈扣部632向末端部6321漸細,如此可 避免彈扣部632上連接框口 631上邊緣6311之根部6324產生 應力集中現象,且較細之末端部6321有助於電子元件5之組 裝。 參照圖6與圖8所示,絕緣槽體61之侧壁部612可另包含 複數個凸部615»凸部615相應於殼體63之框口 631設置,且 被建構以插入卡合(snap in)於相應之框口 631内,並抵靠在 框口 631之下邊緣6312。如此,可避免殼體63與絕緣槽體61 組合後,因彈扣部632被扳動,而使殼體63脫離絕緣槽體61 另’凸部615係相應絕緣槽體6 i之開口 6丨3設置,並靠 近開口邊緣部6131,如此可增強開口邊緣部6131之強度, 使彈扣部632被過度扳開時,開口邊緣部6丨3丨不致於損壞。 參照圖5與9所示’殼體63另包含複數個接地端子633 。接地端子633係連接殼體63之上邊緣634,並向殼體63或 絕緣槽體61内彎折,以接觸電子元件5。絕緣槽體61上可相 對應地形成收容槽616,接地端子633於相應之收容槽616 内f折,然後往絕緣槽體61内斜向延伸,使接地端子633 之部分端部633 1可接觸電子元件$。 參照圖5與13所示,殼體63可另包含複數固定鉤635。 該些固定鉤635連接殼體63之上邊緣634,且被建構以鉤持 於絕緣槽體61之側壁部612之上邊緣61八固定鉤635可避免 絕緣槽體61自殼體21往上分離。 參照圖7、10與14所示,絕緣槽體61之侧壁部612上可 另形成有一定向槽618。定向槽618用於與電子元件5之定向 肋53配合,以固定電子元件5插置之方位。 參照圖6與1〇所示,殼體63之下邊緣咖另凸出複數個 凸出部637 »凸出部637可焊接於電路板4上之相應接墊42 上,藉此將殼體63固定,接墊42可為接地接墊,如此電子 元件5可透過殼體63之接地端子633與接墊42,連接電路板4 之接地電路》 綜上’本創作揭*一種電連接器6,纟包含一絕緣槽體 61及-殼體63。絕緣槽體61包含複數個開口 613,各開口之 下方為-開口邊緣部6131所界I殼體㈣含複數個彈扣 -9· M395948 部632 ’其係自殼體壁形成且與開口 613相應設置。各彈扣 部632被建構延伸通過相應之該開口 613,以使其末端部 6321抵接插入電子元件。末端部6321延伸超越開口邊緣部 6131彈扣部632,使得當彈扣部632被過度扳開時,開口邊 緣部6131可止擋,以避免彈扣部632造成永久變形。彈扣部 63 2可向内形成第一彎折段63 22後,再略微反向形成第.二彎 折段6323。如此當電子元件5在插入時,第二彎折段6323 可幾乎平行電子元件5之插入方向,並使其與電子元件5之 間形成滑接,讓電子元件5被更為平順地插入。此外,絕緣 槽體61之側壁部612可另包含複數個凸部6丨5。殼體63具有 複數個框口 631。凸部615相應於殼體63之框口 631設置,且 被建構以插入卡合(snap in)於相應之框口 631内,並抵靠在 框口 631之下邊緣6312。 本創作之技術内容及技術特點已揭示如上,然而熟悉本 項技術之人士仍可能基於本創作之教示及揭示而作種種不 者離本創作精神之替換及修飾。因此,本創作之保護範圍 應不限於實施例所揭示者,而應包括各種不背離本創作之 替換及修飾,並為以下之申請專利範圍所涵蓋。 【圖式簡單說明】 圖1顯示一習知固定相機模組之模組插座之部份; 圖2顯示另一習知固定相機模組之模組插座之部份; 圖3顯示再一習知固定相機模組之模組插座之部份; 圖4係本創作一實施例之設置於電路板上及收容一電 子元件之電連接器之立體示意圖; •10· 明 5948 圖5係圖4之電連接器之一立體分解圖; 圖6顯示另—角度之圖5電連接器之立體分解圖; 圖7係圖4之電連接器之俯視圖; 圖8係圖7沿A-A剖面線之剖示圖; 圖9係圖7沿B -B剖面線之剖示圖; 圖1 〇係根據本創作一實施例例示一電子元 接器; 件插入電連M395948 V. New description: [New technical field] This creation is about an electrical connector. [Prior Art] Due to the miniaturization of the digital camera, the digital camera can be configured in a handheld electronic device such as a notebook computer, a personal digital assistant or a mobile phone. In general, the assembly of a digital camera in an electronic device is performed by imaging a charge coupled device (CCD) or a complementary metal oxide semiconductor (CMOS). The component and the lens are combined into a digital camera module, and then the digital camera module is assembled on the module socket on the electronic device. Usually, the module socket needs to be equipped with a locking member ’ to secure the digital camera module. A modular jack 1 for a stationary camera module includes a housing u and a plurality of latches 12 formed on the housing u, as shown in FIG. A plurality of locking portions 12 are formed to engage the recesses on the camera module to secure the camera module. As shown in Fig. 2, another modular jack 2 is disclosed in U.S. Patent No. 7,255,600, which comprises a housing 21. The housing 2i includes a plurality of side portions 22, and the side portions 22 are formed with a locking portion 22. The module socket 2 locks the camera module by the locking portion 221. As shown in FIG. 3, U.S. Patent No. 7,232,316 discloses a module socket 3, the module socket 3 includes a casing 3, and the casing 31 includes two side walls 3, each side wall 3 has A pair of resilient fingers 32, the resilient fingers 32 project inwardly to press against a camera module. The above-mentioned locking portions (12 and 221) and the elastic fingers 32 each have a cantilever structure -4- M395948, so that they can be freely opened to bend, so that the camera module can be taken out. The locking portions (12 and 221) and the resilient fingers 32 are over-wrapped 'may cause the above-described locking portions (12 and 221) and the resilient fingers 32 to be permanently deformed. In view of the lack of the module socket of the aforementioned conventional camera module, it is necessary to propose a new module socket of the camera module. [New content] The present invention discloses an electrical connector comprising an insulating slot, a plurality of terminals, and a housing. The insulating trench is constructed to accommodate an electronic component. The side wall portion of the insulating groove body includes a plurality of openings, and a plurality of grooves are formed on the bottom surface toward the upper surface. The terminal includes a contact portion, and each contact portion extends within the corresponding trench and electrically (four) the electronic component. The housing is surrounded by a side wall portion of the insulating slot and includes a plurality of frame openings and a plurality of latching portions. The frame openings corresponding to the (four) port are provided with a β-elastic portion connected to the upper edge of the corresponding frame opening and have a final material, and the respective buckle portions of the towel extend through the corresponding openings, so that the end portions of the buckle portions can abut Electronic component. Further, the end portion of the buckle portion is engaged with the opening edge portion below the corresponding opening so that the end portion can be stopped by the opening edge portion. Since the edge portion of the opening can stop the end portion of the latch portion, it is possible to prevent the latch portion from being damaged by being excessively opened. [Embodiment] FIG. 4 is a perspective view showing the electrical connector 6 of the present invention, which is disposed on a circuit board and houses an electronic component 5. Figure 5 is an exploded perspective view of one of the electrical connectors 6 of Figure 4. Figure 6 shows an exploded view of the three-dimensional M395948 of the electrical connector 6 of Figure 5 in a different angle. Referring to Figures 4 through 6, an embodiment of the present invention discloses an electrical connector 6'g electrical connector 6 comprising an insulating slot 61, a plurality of terminals, and a housing 63. The insulating tank body 61 includes a side wall portion 612 and a bottom portion. The side wall portion 612 and a bottom portion 614 form an accommodating space 611. The accommodating space 611 is configured to receive the electronic component 5. In the embodiment, the electronic component 5 can be, but is not limited to, a digital camera module. The plurality of terminals 62 are disposed in the insulating slot 61 and can be located around the accommodating space 611 for electrically connecting the received electronic component 5 and the circuit board 4. The side wall portion 612 of the insulating groove body 61 is surrounded by the outer surface to shield electromagnetic interference. The terminal 62 includes a contact portion 621, a connecting portion 622, a holding portion 623 and a soldering portion 624 as shown in FIGS. 5, 6 and 9. The contact portion 621 is configured to electrically connect the corresponding electrical pads 5 1 on the bottom of the electronic component 5; the retaining portion 623 is used to fix the terminal 62; the connecting portion 622 connects the contact portion 621 and the retaining portion 623, and the soldering portion 624 The self-holding portion 623 extends and is soldered to the circuit board 4. In the embodiment, the soldering portion 624 is parallel to the bottom portion 614' of the insulating trench 61 to be surface mounted on the circuit board 4. Pad 41. Referring to Figures 5, 7 and 9, insulation A plurality of grooves 6142 are formed on the upper surface 6141 of the bottom portion 614 of the body 61. Accordingly, a plurality of receiving grooves 6143 are formed on the side wall portion 612 of the insulating groove 61. The contact of the terminal 62 is as shown in FIG. The portion 621 extends obliquely in the corresponding groove 6142 to partially protrude from the bottom 614 of the insulating groove 61 to couple the corresponding electrical pad 51 on the electronic component 5. The receiving groove 6143 accommodates the connecting portion 622 and holds The portion 623 is configured to interfere with the retaining portion 623 to fix the terminal 62. The solder portion 624 extends laterally relative to the retaining portion 623 and slightly protrudes from the bottom surface 6i4 of the insulating groove body 6144 to Lee welding. As shown in Figs. 4 to 6, the side wall portion 6丨2 of the insulating groove body 6 is formed to surround the accommodating space 611', and a plurality of openings 613 are formed in the side wall portion 612. Correspondingly, the body 63 includes a plurality of frame openings 631 and a latching portion 632, wherein the plurality of openings 613, the plurality of frame openings 631, and the latching portions 632 are correspondingly disposed. Referring to Figures 4 through 8, the frame opening 631 is defined by an upper edge 6311 and a lower edge 6312 relative to the upper edge 6311. The latch portion 32 has a distal end portion 6321. The latching portion 632 is connected to the upper edge 63丨丨 of the corresponding frame opening 63 1 and extends through the corresponding opening 613 obliquely downward so that the end portion 6321 can abut the electronic component 5 ′ to insert the electronic component 5 . The inside of the insulating groove 61 can be held behind. In this embodiment, the electronic component 5 includes a plurality of bumps 52. The bumps 52 are disposed in cooperation with the latching portions 632 of the housing 63. The end portions 6321 of the latching portions 632 abut the upper surface of the corresponding bumps 52. Thereafter, the electronic component 5 can be held. In addition, in the present embodiment, the bumps 52 of the electronic component 5 are configured to protrude into the corresponding openings 613 of the insulating slot 61, such that the body of the electronic component 5 and the insulating slot 61 accommodate the space. 611 can be designed as a small gap between the active fit. In addition, the opening 613 of the insulating groove body 61 may be concavely formed from the upper edge of the insulating groove body 61, so that when the electronic component 5 is mounted or removed, the bump 52 of the electronic component 5 can be unimpeded The inside of the opening 613 moves. Referring to Figures 8, 11 and 12, the end portion 6321 of the latch portion 632 can extend obliquely downward beyond the lower edge 6312 of the corresponding frame opening 631, so that when the latch portion 632 is pulled outward, the opening edge portion 6131 can be stopped. The end portion 6321 can prevent the latch portion 632 from being excessively pulled out and beyond the corresponding frame opening 631 to cause permanent deformation. Further, referring to Figs. 8 and 12, the bump 52 of the electronic component 5 has a flat side 521 which can be parallel to the insertion or removal direction of the electronic component 5. Each of the latching portions 632 can include a first bent portion 6322 and a second bent portion 6323, wherein the first bent portion 6322 connects the second bent portion 6323 and the upper edge 6311 of the frame opening 631. The first bending section 6322 is bent inwardly, and the second bending section 6323 is opposite to the bending direction of the first bending section 6322, so that the buckle portion 632 is inwardly concave. That is, the bending angle 0 between the first bending section 6322 and the second bending section 6323 toward the frame opening 631 is less than 180 degrees. Moreover, the second bending section 6323 can be folded into a direction in which the second bending section 6323 can be almost parallel to the insertion direction of the electronic component 5 when the bump side surface 521 of the electronic component 5 is in contact with the second bending section 6323, and Sliding with the side 521 of the bump 52. Thus, the contact resistance between the bump 52 and the latch portion 632 can be effectively reduced, and the electronic component 5 can be inserted more smoothly. Referring to FIG. 11, the latch portion 632 is tapered toward the distal end portion 6321, so that stress concentration on the root portion 6324 of the upper edge 6311 of the frame opening 631 on the latch portion 632 can be prevented, and the thinner end portion 6321 contributes. Assembly of the electronic component 5. Referring to FIG. 6 and FIG. 8, the side wall portion 612 of the insulating groove body 61 may further include a plurality of convex portions 615»the convex portions 615 are disposed corresponding to the frame opening 631 of the housing 63, and are configured to be inserted and snapped (snap) In) is in the corresponding frame opening 631 and abuts against the lower edge 6312 of the frame opening 631. In this way, after the casing 63 and the insulating groove 61 are combined, the casing 63 is disengaged from the insulating groove 61 by the latching portion 632, and the convex portion 615 is the opening 6 of the corresponding insulating groove 6 i. 3 is disposed close to the opening edge portion 6131, so that the strength of the opening edge portion 6131 can be enhanced, so that the opening edge portion 6丨3丨 is not damaged when the buckle portion 632 is excessively opened. Referring to Figures 5 and 9, the housing 63 further includes a plurality of ground terminals 633. The ground terminal 633 is connected to the upper edge 634 of the casing 63 and bent into the casing 63 or the insulating groove 61 to contact the electronic component 5. The receiving groove 616 is formed in the corresponding groove 616, and the grounding terminal 633 is folded in the corresponding receiving groove 616, and then extends obliquely into the insulating groove 61 so that part of the end portion 633 1 of the grounding terminal 633 can be contacted. Electronic component $. Referring to Figures 5 and 13, the housing 63 can additionally include a plurality of retaining hooks 635. The fixing hooks 635 are connected to the upper edge 634 of the casing 63 and are configured to be hooked on the upper edge 61 of the side wall portion 612 of the insulating groove 61. The fixing hook 635 prevents the insulating groove 61 from separating upward from the casing 21. . Referring to Figures 7, 10 and 14, an orientation groove 618 may be formed in the side wall portion 612 of the insulating groove 61. The orientation groove 618 is for engaging with the orientation rib 53 of the electronic component 5 to fix the orientation in which the electronic component 5 is inserted. Referring to FIGS. 6 and 1B, a plurality of projections 637 are protruded from the lower edge of the housing 63. The projections 637 can be soldered to the corresponding pads 42 on the circuit board 4, thereby housing 63. Fixed, the pad 42 can be a grounding pad, such that the electronic component 5 can pass through the grounding terminal 633 of the housing 63 and the pad 42 to connect the grounding circuit of the circuit board 4, which is an electrical connector 6, The crucible includes an insulating trough 61 and a casing 63. The insulating groove body 61 includes a plurality of openings 613, and the lower side of each opening is - the opening edge portion 6131 is bounded by the I housing (4) including a plurality of snap fasteners - 9 M395948 portion 632 ' is formed from the housing wall and corresponds to the opening 613 Settings. Each of the latch portions 632 is configured to extend through the corresponding opening 613 such that its end portion 6321 abuts into the electronic component. The distal end portion 6321 extends beyond the opening edge portion 6131 of the latching portion 632 such that when the latching portion 632 is excessively opened, the opening edge portion 6131 can be stopped to prevent permanent deformation of the latching portion 632. The buckle portion 63 2 can form the first bending portion 63 22 inwardly, and then form the second bending portion 6323 in a slight reverse direction. Thus, when the electronic component 5 is inserted, the second bent section 6323 can be almost parallel to the insertion direction of the electronic component 5, and is brought into sliding contact with the electronic component 5, allowing the electronic component 5 to be inserted more smoothly. Further, the side wall portion 612 of the insulating groove body 61 may further include a plurality of convex portions 6丨5. The housing 63 has a plurality of frame openings 631. The projection 615 is disposed corresponding to the frame opening 631 of the housing 63 and is configured to be inserted into the corresponding frame opening 631 and abut against the lower edge 6312 of the frame opening 631. The technical content and technical features of the present invention have been disclosed above, but those skilled in the art may still make various substitutions and modifications from the spirit of the present invention based on the teachings and disclosures of the present invention. Therefore, the scope of protection of the present invention should not be limited to the embodiment disclosed, but should include various alternatives and modifications that do not depart from the present invention and are covered by the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a portion of a module socket of a conventional fixed camera module; FIG. 2 shows a portion of a module socket of another conventional fixed camera module; FIG. 3 shows another conventional example. FIG. 4 is a perspective view of an electrical connector disposed on a circuit board and housing an electronic component according to an embodiment of the present invention; • 10· Ming 5948 FIG. 5 FIG. Figure 3 shows an exploded perspective view of the electrical connector of Figure 5; Figure 7 is a top view of the electrical connector of Figure 4; Figure 8 is a cross-sectional view of Figure 7 along the line AA Figure 9 is a cross-sectional view taken along line B - B of Figure 7; Figure 1 is an illustration of an electronic component connector according to an embodiment of the present invention;
圖11係本創作一實施例之電連接器之侧視圖; 圖12係圖1 i沿e_e剖面線之剖示圖; 圖13係圖7沿C-C剖面線之剖示圖;及 圖14係圖7沿D-D剖面線之剖示圖。 【主要元件符號說明】Figure 11 is a side view of the electrical connector of the present embodiment; Figure 12 is a cross-sectional view along line e_e of Figure 1; Figure 13 is a cross-sectional view of Figure 7 taken along line CC; and Figure 14 is a diagram 7 is a cross-sectional view along the DD section line. [Main component symbol description]
1 模組插座 2 模組插座 3 模組插座 4 電路板 5 電子元件 6 電連接器 11 殼體 12 鎖固部 21 殼體 22 侧邊部 31 殼體 32 彈性指部 M395948 焊墊 接墊 電接墊 凸塊 定向肋 絕緣槽體 端子 殼體 鎖固部 側牆 側面 容置空間 側壁部 開口 底部 凸部 ❿ 收容槽 上邊緣 定向槽 限制部 接觸部 連接部 固持部 焊接部 框口 M395948 彈扣部 接地端子 上邊緣 固定釣 下邊緣 凸出部 開口邊緣部 朝上表面 溝槽 容置槽 下表面 上邊緣 下邊緣 末端部 第一彎折段 第二彎折段 根部 端部 -13-1 Module socket 2 Module socket 3 Module socket 4 Circuit board 5 Electronic components 6 Electrical connector 11 Housing 12 Locking part 21 Housing 22 Side part 31 Housing 32 Elastic finger M395948 Solder pad electrical connection Pad bump directional rib insulation groove body terminal housing lock portion side wall side accommodating space side wall opening bottom convex portion 收容 receiving groove upper edge directional groove restriction portion contact portion connection portion holding portion welding portion frame M395948 spring portion Terminal upper edge fixed fishing lower edge projection opening edge portion upward facing surface groove receiving groove lower surface upper edge lower edge end portion first bending section second bending section root end portion - 13-