M359100 五、新型說明: 【新型所屬之技術領域】 本創作涉及一種電連接器,尤其涉及一種組裝穩固的電連 . 接器。 【先前技術】 按,電連接器是一種應用於電子產品之間或電子產品内 部、藉以完成電訊號連接之功能的電子元件。電連接器通常包 括一絕緣本體、組裝於絕緣本體内的複數個金屬端子、及包覆 於絕緣本體外部的一屏蔽殼體。 ® 隨著電子產品面向體積小型化和功能多樣化發展,其所用 的電連接器也朝著功能集成化之方向發展。如用於轉接音頻/ 視頻訊號的Display Port連接器,即是在絕緣本體内部同時裝 設了音頻端子及視頻端子,從而使該電連接器能同時傳導音頻 訊號及視頻訊號。 惟,電連接器功能的集成化發展必然導致其組成的零部件 增多,從而使電連接器的結構趨於複雜。在這種情況下,如何 保證電連接器能穩定組裝,進而確保電訊號傳導的穩定性,即 • 成為一個業界必須解決的技術問題。 【新型内容】 為克服先前技術中所提及的技術問題,本創作提供了一種 電連接器,該電連接器的組裝穩固,可保證電性連接穩定。 為達成上述目的,本創作提供之電連接器包括一絕緣本 體、一端子模組及一屏蔽殼體。絕緣本體具有相對設置的兩側 . 壁,兩側壁之上端接設有一頂壁,該頂壁之内側面上設置有一 第一導引結構,兩側壁之前端接設有一前壁,至少兩側壁之下 端的前部接設有一連接部,該兩側壁、頂壁、前壁及連接部之 3 M359100 間形成一組裝空間。端子模組組裝在所述組裝空間内,具有一 絕緣材質的基體結構及複數個部分插設於該基體結構中的導 電端子,該基體結構設置有一第二導引結構,與所述絕緣本體 之第一導引結構相配合。該屏蔽殼體包覆於所述絕緣本體外 部。 如上所述,本創作電連接器之端子模組藉由基體結構之第 二導引結構及絕緣本體之第一導引結構相互卡持匹配,可使端 子模組穩定組裝在絕緣本體内部之組裝空間。 【實施方式】 為詳細說明本創作之技術内容、所達成的目的及功效,以 下茲舉實施例並配合圖式詳予說明。 請參閱第一圖至第三圖,本創作之電連接器1包括一絕緣 本體10,絕緣本體10内部設置有一端子模組20,絕緣本體 10外部包覆有一屏蔽殼體30。 請參閱第四圖及第五圖,絕緣本體10係由絕緣材質一體 成型,其具有左右相對設置的兩側壁12、連接於兩側壁12頂 端的頂壁11、設置於兩側壁12前端的前壁13、及接設於兩側 壁12之下端的前部呈階梯狀之連接部14。所述頂壁11、兩側 壁12、前壁13及連接部14共同圍成一容納所述端子模組20 的組裝空間,該組裝空間後端開口,供端子模組20由此裝入。 連接部14上開設有複數個用於節省材料的逃料孔141,且其 底面向下凸設有複數個定位柱142,該等定位柱142用以將本 創作電連接器1組裝於一電路板(圖未示)上。 所述前壁13的上部向前凸設有一凸台131,凸台131之 前端面的大致中部向前凸設有一扁平狀之對接部132,對接部 132之上、下表面分別凹設有一排端子槽133,該等端子槽133 M359100 向後延伸並貫穿絕緣本體10之凸台131及前壁13而與所述組 裝空間連通。前壁13上另開設有一貫穿孔134,該貫穿孔134 開設於所述凸台131的下側,亦與前述組裝空間連通。 所述頂壁11之頂面的後端緣開設有兩固定槽111,該兩固 定槽111的前端向兩側凹入而使固定槽111整體呈凸字形結 構。頂壁11之内側面的中部沿前、後方向凹設有一第一導引 結構,本實施例該第一導引結構為一導引槽112。 請配合參閱第三圖、第四圖及第五圖,所述兩側壁12的 上端於適當位置處分別開設有一卡持槽121,且卡持槽121與 所述組裝空間連通。兩側壁12之前端緣的下部向後側分別凸 設有一固定塊122,且兩固定塊122的後端向外側凸起形成一 卡扣部123。兩側壁12的後側底角處分別向外凸設有一凸塊 124。所述兩側壁12之下端緣分別凹設有一缺槽126,且所述 缺槽126位於同側之凸塊124與固定塊122之間。兩側壁12 之後端緣的下部開設有一凹口 127,該凹口 127在兩凸塊124 之相對的一側上分別切割出一前後延伸的承載部125。兩側壁 12之内側壁中部沿前、後方向相對凸設有兩長形之擋執128。 請參閱第三圖,端子模組20基本包括一絕緣材質的基體 結構及複數個部分地鑲埋成型(Insert Molding )在該基體結構 中的導電端子。具體地說,本實施例中端子模組20由一第一 端子模組21及一第二端子模組22所組成。第一端子模組21 包括一第一基體211及部分地鑲埋成型在第一基體211内的複 數個第一端子212。第二端子模組22包括一第二基體221及 部分地鑲埋成型在第二基體221内的第二端子222。所述第一 基體211與第二基體221配合組裝而構成前述之基體結構,所 述第一端子212及第二端子222組成所述端子模組20之導電 端子。 5 M359100 請配合參閱第三圖及第六圖,第一基體211具有一主體部 2m ’主體部2111之頂面的中部沿前、後方向凸設一第二導 引結構,本實施例該第二導引結構為一導引塊2112,該導引 塊2112的寬度與絕緣本體10之導引槽112相匹配。主體部 2U1之底面的前端凹入形成一厚度較薄的延伸部 2113 ^延伸 部2113的底面上開設有兩個組裝孔2114,延伸部21丨3的左右 兩側分別向外凸設有—第—卡塊2115。第—端子212係由金 屬材質製成,分別具有一水平的接觸部2121及一由接觸部 2121後端向下彎折延伸而形成的插接部2122,插接部2122的 末端向外側彎折形成焊接部2123 ’供焊接於—外部電路(圖 未示)。 由於所述第-端子212的插接部2122較長,為防止在组 裝過程中發生諸如彎折等變形,第—端子212之插接部助 的大致中部被部分地鑲嵌成型在一輔助塊213上。該輔助塊 213為絕緣材質構成,整體呈長形,且其兩侧面分別向外側凸 設有一輔助部2131。 請參閱第三圖及第七圖’第二基體221大致呈長形塊狀, 其左右兩侧面分別向外凸設有—第二卡塊22U,且第二基體 221的頂面凸設有兩個組裝柱2212(>第二端子222分別包括一 水平的接觸部2221及由接觸部2221之後端向下彎折延伸而形 成的插接部2222。該等插接部2222末端供焊接於一外部電路 (圖未不)。為增大該等第二端子222與所述外部電路間的保 持力,其插接部2222分為前後兩排排列。 請續參閱第六圖、第七圖及第人圖,端子模組2()組袭時, 所述第二端子模組22組裝於第一端子模組21的下方,且藉由 其第一基體221頂面的組裝柱2212插設於第一基體21丨底面 之組敦孔2114而實現組裝,其中,第一基體211與第二基體 M359100 221組合形成前述之基體結構,且所述第一卡塊2115與第二 卡塊2211上下對齊而形成一卡塊。組裝完畢後,第一端子212 之接觸部2121及第二端子222之接觸部2221分上下兩排設 置,其插接部2122、2222分三排呈前後排設。 請參閱第九圖,為了進一步防止在組裝過程中,端子模組 2〇之導電端子的插接部2122、2222發生諸如彎折等變形,本 創作另設有一定位座23。對應端子模組20之插接部2122、2222 分三排前後排設的方式’定位座23整體上亦呈前後三部分結 構,且每一部分皆開設有上、下貫穿的複數個插接槽231,分 別供上述端子之插接部2122、2222穿設。為便於組裝’定位 ® 座23的兩側向外凸設有兩個組裝塊232。 請參閱第十、十一及第十二圖’端子模組20組裝於絕緣 本體10内時,首先’將該等導電端子的插接部2122、2222對 麻穿設於定位座23的插接槽231中。然後’將端子模組20由 後向前插設於絕緣本體10之組裝空間内’其中:端子模組20 之導引塊2112對齊絕緣本體1〇之導引槽112插入絕緣本體 1〇中;同時,所述輔助塊213兩側之輔助部2131分別抵靠於 絕緣本體10之兩擋軌128的下側,並沿該兩擋軌128向前滑 φ 動組裝;所述定位座23兩侧之組裝塊232分別設置於絕緣本 體10之後端的兩承載部125上。組裝完畢後’端子模組20的 接觸部212卜2221分別插置於絕緣本體10之對接部132上、 下表面的端子槽133内,導引塊2112收容於所述導引槽U2 内,炎藉由所述第一卡塊2115及第二卡塊2211組成的卡塊卡 固在雨側壁12之卡持槽121内實現固定。輔助塊213被限制 於所述兩擋軌128下側,定位座23設置在絕緣本體1〇後端之 凹口 127處,且其前部設置於兩側壁12下端緣的缺槽126處, . 旅藉由該兩側壁12之夾持及該兩承載部125的承载而得以固 7 M359100 定。 請參閱第三圖及第十三圖,屏蔽般體30由第—殼體μ、 第二殼體32、及第三殼體33三個金屬屏蔽件所組成。 、 ' 第一殼體31組裝在絕緣本體10的後端的開口處,其具有 一矩形之基板部311,用以封閉該絕緣本體1〇之内部的組裝 空間。基板部311之上緣分別向前延伸有一固持部312,固持 部312的前端呈凸字形,用於固定於絕緣本體1〇之固定槽^ 中。基板部311的兩側緣下端分別向前延伸有一掛持部3i3, 掛持部313的前端向下彎折呈鉤狀,用於掛持於所述絕緣本體 10之兩側壁I2的凸塊124上。 第二殼體32包括套設於絕緣本體1〇前端的框體部321 , 框體部321的側壁及頂壁上分別向其内部沖切形成有複數個 彈片322,以彈性夾持外部插入的配對連接器(圖未示)的至 少一部分。框體部321之頂壁後端緣向後延伸以包覆絕緣本體 10之頂壁11,框體部321之頂壁後部的兩侧緣分別向下彎折 形成包覆於絕緣本體1〇之側壁12上部的擋板323。兩擋板323 的下端緣與所述第一殼體31之掛持部313的上端緣抵接,第 φ 二殼體32的後端緣抵接於第一殼體31的邊緣上。 第三殼體33呈條形彎折,包括一覆蓋於絕緣本體1〇之前 壁13下部的前板體331,該前板體331的左右兩側緣分別向 後彎折延伸形成覆蓋於絕緣本體1〇之兩側壁12下部的側板體 332,且兩側板體332包覆於所述第一殼體31與第二殼體32 之連接處的外側,以達成較佳之屏蔽效果。前板體33丨的上端 緣中部向後凸伸有一固定片333,該固定片333插入絕緣本體 1〇之貫穿孔134 ’從而固定所述第三殼體33。兩側板體332 上分別開設有兩個用以卡持於絕緣本體1〇之固定塊122上的 固定孔334。第三殼體33的下端緣向下凸設有兩接地腳335, M359100 以與外部之接地電路(圖未不)連接。 當上述之第一殼體3卜第二殼體32、第三殼體33裝配完 畢之後,其相互抵接處藉由超音波技術焊接,從而實現較佳之 電磁屏蔽效果。M359100 V. New description: [New technical field] The present invention relates to an electrical connector, and more particularly to an assembled electrical connector. [Prior Art] Press, an electrical connector is an electronic component that is applied between electronic products or within an electronic product to perform a function of electrical signal connection. The electrical connector generally includes an insulative housing, a plurality of metal terminals assembled in the insulative housing, and a shielded housing encased on the exterior of the insulative housing. ® As electronic products are geared toward miniaturization and versatility, the electrical connectors used are also moving toward functional integration. For example, the Display Port connector for transferring audio/video signals has both an audio terminal and a video terminal installed inside the insulative housing, so that the electrical connector can simultaneously transmit audio signals and video signals. However, the integrated development of the electrical connector function inevitably leads to an increase in the number of components that make up the electrical connector, which complicates the structure of the electrical connector. In this case, how to ensure the stable assembly of the electrical connector, and thus ensure the stability of the electrical signal transmission, that is, become a technical problem that must be solved in the industry. [New Content] In order to overcome the technical problems mentioned in the prior art, the present invention provides an electrical connector which is assembled stably to ensure stable electrical connection. In order to achieve the above object, the electrical connector provided by the present invention comprises an insulating body, a terminal module and a shielding case. The insulating body has two opposite sides. The wall is terminated with a top wall on the inner side of the top wall, and a first guiding structure is disposed on the inner side of the top wall. The front side of the two side walls is provided with a front wall, at least two side walls. A connecting portion is connected to the front portion of the lower end, and an assembly space is formed between the two side walls, the top wall, the front wall and the connecting portion 3 M359100. The terminal module is assembled in the assembly space, and has a base structure of an insulating material and a plurality of conductive terminals partially inserted into the base structure, the base structure is provided with a second guiding structure, and the insulating body The first guiding structure cooperates. The shield case is wrapped around the outside of the insulating body. As described above, the terminal module of the present invention is matched by the second guiding structure of the base structure and the first guiding structure of the insulating body, so that the terminal module can be stably assembled in the inner part of the insulating body. space. [Embodiment] The technical contents, the objects and effects achieved by the present invention will be described in detail below with reference to the embodiments. Referring to the first to third figures, the electrical connector 1 of the present invention includes an insulative housing 10. The insulative housing 10 is internally provided with a terminal module 20, and the insulative housing 10 is externally covered with a shielding housing 30. Referring to the fourth and fifth figures, the insulative housing 10 is integrally formed of an insulating material, and has two side walls 12 disposed opposite to each other, a top wall 11 connected to the top ends of the two side walls 12, and a front wall disposed at the front ends of the two side walls 12. 13. A connecting portion 14 having a stepped shape at a front portion of the lower end of the two side walls 12. The top wall 11, the two side walls 12, the front wall 13 and the connecting portion 14 together form an assembly space for accommodating the terminal module 20. The rear end of the assembly space is open for the terminal module 20 to be mounted therein. The connecting portion 14 is provided with a plurality of escape holes 141 for material saving, and a plurality of positioning posts 142 are protruded downwardly from the bottom surface thereof, and the positioning posts 142 are used for assembling the present electrical connector 1 to a circuit. Board (not shown). A convex portion 131 is protruded from the upper portion of the front wall 13 , and a flat abutting portion 132 is protruded forwardly from a substantially central portion of the front end surface of the protruding portion 131 . The upper and lower surfaces of the abutting portion 132 are respectively recessed with a row of terminals. The slot 133, the terminal slots 133 M359100 extend rearwardly and through the boss 131 and the front wall 13 of the insulative housing 10 to communicate with the assembly space. A uniform through hole 134 is defined in the front wall 13 . The through hole 134 is defined in the lower side of the boss 131 and is also in communication with the assembly space. Two fixing grooves 111 are defined in the rear end edge of the top surface of the top wall 11. The front ends of the fixing grooves 111 are recessed toward both sides to make the fixing groove 111 have a convex structure as a whole. A first guiding structure is recessed in the front and rear directions of the inner side surface of the top wall 11. In the embodiment, the first guiding structure is a guiding slot 112. Referring to the third, fourth, and fifth figures, the upper ends of the two side walls 12 respectively have a holding groove 121 at an appropriate position, and the holding groove 121 communicates with the assembly space. A fixing block 122 is respectively protruded from the lower end of the front end of the two side walls 12, and a rear end of the two fixing blocks 122 protrudes outward to form a latching portion 123. A bump 124 is protruded outwardly from the bottom corner of the rear side of each of the side walls 12. The lower end edges of the two side walls 12 are respectively recessed with a notch 126, and the notch 126 is located between the bumps 124 on the same side and the fixing block 122. A recess 127 is defined in a lower portion of the rear edge of the two side walls 12, and the recess 127 cuts a front and rear extending bearing portion 125 on opposite sides of the two projections 124, respectively. The middle of the inner side wall of the two side walls 12 is oppositely convexly provided with two elongated stoppers 128 in the front and rear directions. Referring to the third figure, the terminal module 20 basically comprises a base structure of an insulating material and a plurality of conductive terminals partially embedded in the base structure. Specifically, the terminal module 20 of the present embodiment is composed of a first terminal module 21 and a second terminal module 22. The first terminal module 21 includes a first substrate 211 and a plurality of first terminals 212 partially embedded in the first substrate 211. The second terminal module 22 includes a second base 221 and a second terminal 222 partially embedded in the second base 221 . The first base body 211 and the second base body 221 are assembled to form the base structure, and the first terminal 212 and the second terminal 222 constitute the conductive terminals of the terminal module 20. 5 M359100 Please refer to the third and sixth figures. The first base 211 has a main body portion 2m. The middle portion of the top surface of the main body portion 2111 has a second guiding structure protruding in the front and rear directions. The guiding structure is a guiding block 2112. The width of the guiding block 2112 matches the guiding slot 112 of the insulative housing 10. The front end of the bottom surface of the main body portion 2U1 is recessed to form a thin portion of the extending portion 2113. The bottom surface of the extending portion 2113 is provided with two assembling holes 2114, and the left and right sides of the extending portion 21丨3 are respectively convex outwardly. - Block 2115. The first terminal 212 is made of a metal material, and has a horizontal contact portion 2121 and a plug portion 2122 formed by bending a rear end of the contact portion 2121. The end of the plug portion 2122 is bent outward. The folded-formed welded portion 2123' is soldered to an external circuit (not shown). Since the insertion portion 2122 of the first terminal 212 is long, in order to prevent deformation such as bending during the assembly process, the substantially central portion of the plug portion of the first terminal 212 is partially mosaic-molded in an auxiliary block. 213. The auxiliary block 213 is made of an insulating material and has an elongated shape as a whole, and an auxiliary portion 2131 is protruded outwardly from both sides thereof. Referring to the third and seventh figures, the second base body 221 is substantially in the shape of a long block, and the left and right sides are respectively outwardly convexly provided with a second block 22U, and the top surface of the second base body 221 is convexly provided with two The assembly posts 2212 (> the second terminals 222 respectively include a horizontal contact portion 2221 and a plug portion 2222 formed by bending the rear end of the contact portion 2221 downwardly. The ends of the plug portions 2222 are soldered to one. The external circuit (not shown). In order to increase the holding force between the second terminal 222 and the external circuit, the plug portion 2222 is divided into two rows of front and rear. Please refer to the sixth and seventh figures. The first terminal module 22 is assembled under the first terminal module 21 and is assembled by the assembly post 2212 of the top surface of the first base 221. The first base body 211 is combined with the second base body M359100 221 to form the aforementioned base structure, and the first block 2115 is aligned with the second block 2211. A card block is formed. After the assembly is completed, the contact portion 2121 and the second terminal 222 of the first terminal 212 are formed. The contact portion 2221 is arranged in two rows, and the plug portions 2122 and 2222 are arranged in three rows in front and rear. Referring to the ninth figure, in order to further prevent the insertion portion of the conductive terminal of the terminal module 2 in the assembly process. 2122, 2222 deformation such as bending, the present invention is further provided with a positioning seat 23. The plugging portions 2122, 2222 of the corresponding terminal module 20 are arranged in three rows before and after. The positioning seat 23 is also in front and rear three parts as a whole. The structure, and each part is provided with a plurality of insertion slots 231 extending through the upper and lower portions, respectively for the insertion portions 2122 and 2222 of the terminals. For the convenience of assembly, the two sides of the positioning® seat 23 are outwardly convex. Two assembly blocks 232. Referring to the tenth, eleventh and twelfth drawings, when the terminal module 20 is assembled in the insulative housing 10, first, the plug portions 2122 and 2222 of the conductive terminals are placed on the same. The positioning block 23 is inserted into the insertion slot 231. Then, the terminal module 20 is inserted from the rear to the front in the assembly space of the insulative housing 10, wherein the guiding block 2112 of the terminal module 20 is aligned with the guiding body of the insulating body 1 The slot 112 is inserted into the insulative housing 1; meanwhile, the The auxiliary portions 2131 on both sides of the auxiliary block 213 abut against the lower sides of the two rails 128 of the insulative housing 10, and are slidably assembled along the two rails 128; the assembly blocks 232 on both sides of the positioning block 23 The two end portions of the insulative housing 10 are respectively disposed on the two end portions of the insulative housing 10. After the assembly is completed, the contact portions 212 of the terminal module 20 are respectively inserted into the mating portions 132 of the insulative housing 10 and the terminal slots 133 of the lower surface. The lead block 2112 is received in the guiding groove U2, and the card block formed by the first card block 2115 and the second card block 2211 is fixed in the holding groove 121 of the rain sidewall 12 for fixing. The auxiliary block 213 is limited to the lower side of the two rails 128. The positioning seat 23 is disposed at the recess 127 of the rear end of the insulating body 1 and the front portion thereof is disposed at the notch 126 of the lower end edge of the two side walls 12. The brigade is fixed by the clamping of the two side walls 12 and the bearing of the two carrying portions 125. Referring to the third and thirteenth drawings, the shield body 30 is composed of three metal shields of a first housing μ, a second housing 32, and a third housing 33. The first housing 31 is assembled at the opening of the rear end of the insulative housing 10 and has a rectangular substrate portion 311 for closing the assembly space inside the insulating body 1 . The upper edge of the substrate portion 311 extends forwardly with a retaining portion 312. The front end of the retaining portion 312 has a convex shape for fixing in the fixing slot of the insulating body 1 . A lower end of the two sides of the substrate portion 311 has a hanging portion 3i3 extending forwardly. The front end of the hanging portion 313 is bent downwardly and has a hook shape for holding the bump 124 of the two side walls I2 of the insulating body 10. on. The second housing 32 includes a frame portion 321 which is sleeved on the front end of the insulating body 1 . The side wall and the top wall of the frame portion 321 are respectively punched and formed with a plurality of elastic pieces 322 respectively for elastically clamping the externally inserted portion. Pairing at least a portion of the connector (not shown). The rear end edge of the top wall of the frame portion 321 extends rearward to cover the top wall 11 of the insulative housing 10, and the two side edges of the rear wall of the top wall of the frame portion 321 are respectively bent downward to form a side wall of the insulative housing 1 12 upper baffle 323. The lower end edge of the two baffles 323 abuts against the upper end edge of the hanging portion 313 of the first casing 31, and the rear end edge of the second φ second casing 32 abuts against the edge of the first casing 31. The third housing 33 is bent in a strip shape, and includes a front plate body 331 covering the lower portion of the front wall 13 of the insulating body 1 . The left and right side edges of the front plate body 331 are respectively bent back and extended to cover the insulating body 1 . The side plate body 332 of the lower side of the two side walls 12 and the two side plate bodies 332 are wrapped on the outer side of the joint between the first housing 31 and the second housing 32 to achieve a better shielding effect. A fixing piece 333 is protruded rearward from a central portion of the upper end edge of the front plate body 33, and the fixing piece 333 is inserted into the through hole 134' of the insulating body 1 to fix the third casing 33. Two fixing holes 334 for holding on the fixing block 122 of the insulating body 1 are respectively disposed on the two side plates 332. The lower end edge of the third casing 33 is convexly provided with two grounding legs 335, and the M359100 is connected to an external grounding circuit (not shown). After the first housing 3 and the third housing 33 and the third housing 33 are assembled, the abutting portions are welded by ultrasonic technology to achieve a better electromagnetic shielding effect.
综上所述,本創作電連接器丨之端子模組2〇藉由其基體 結構上開設之導引塊2112收容於絕緣本體1〇之導引槽土⑴ 中,從而使端子模組20穩㈣定在絕緣本體1()内部之』裝空 間内。此外,端子模組20藉由所述輔助塊213及定位座 防止端子之插接部2121、2221在組裝過程中發生形變,且= 輔助塊213及定位座23亦可藉由絕緣本體1(>之擋執128、承 載部125等結構加簡定,從而達成穩定組裝之效果。 …本創作之「電連接器」藉由上述揭露之構造,可以達到所 =的及功效4本創作之巾請合乎補之要件,故依法提出 ^。惟,以上所揭露者,僅為本創作之較佳實施例,自不能 此^本創作之_。柄作之亦可有其他修飾或變 ,白應涵蓋在以下本案之申請專利範圍内。 【圖式簡單說明】 第一圖係本創作電連接器之_實施例的立體圖。 圖係第一圖所示電連接器之另一角度的立體圖。 二圖係第—圖所示電連接器的立體分解圖。 ^四圖係第—圖所示電連接器之絕緣本體的立體圖。 ::係第四圖所示之絕緣本體另一角度的立體圖。 第七圖^所不電連接器之第—端子模組的立體圖。 第二ΓΓ示電連接器之第二端子模組的卿^ 第九圖⑼子模㈣立體組裝圖° 第一圖所示電連接器之定位座的立體圖。 9 M359100 第十圖係端子模組與絕緣本體組裝時的立體圖。 第十一圖係端子模組與絕緣本體組裝後的立體圖。 第十二圖係沿第十一圖中之A-A線的剖視圖。 第十三圖係第一圖所示電連接器之屏蔽殼體的組裝圖。 【主要元件符號說明】In summary, the terminal module 2 of the present invention is housed in the guiding groove (1) of the insulating body 1 by the guiding block 2112 formed on the base structure, thereby making the terminal module 20 stable. (4) It is placed in the "installation space" inside the insulating body 1 (). In addition, the terminal module 20 is deformed during the assembly process by the auxiliary block 213 and the positioning block preventing terminal insertion portions 2121, 2221, and the auxiliary block 213 and the positioning block 23 can also be insulated by the body 1 (> The structure of the stopper 128, the bearing portion 125, and the like are simplified, thereby achieving the effect of stable assembly. The "electric connector" of the present invention can achieve the effect and the effect of the four creations by the above-mentioned disclosed structure. Please comply with the requirements, so it is proposed according to law. However, the above disclosed are only the preferred embodiment of this creation, and can not be used for this creation. The handle can also have other modifications or changes, Bai Ying The invention is within the scope of the following patent application. [Simplified illustration of the drawings] The first figure is a perspective view of an embodiment of the present invention. The figure is a perspective view of another angle of the electrical connector shown in the first figure. Fig. is a perspective exploded view of the electrical connector shown in Fig. - Fig. 4 is a perspective view of the insulative housing of the electrical connector shown in Fig. - Fig.: is a perspective view of the insulating body shown in Fig. 4 at another angle. Figure 7 - No. of the connector of the electrical connector The second view shows the second terminal module of the electrical connector. The ninth figure (9) sub-module (four) three-dimensional assembly view. The first figure shows the perspective view of the positioning seat of the electrical connector. 9 M359100 Fig. 11 is a perspective view of the assembled terminal module and the insulative housing. Fig. 11 is a perspective view of the terminal module assembled with the insulative housing. Fig. 12 is a cross-sectional view taken along line AA of Fig. 11. The assembly diagram of the shield case of the electrical connector shown in the first figure. [Main component symbol description]
電連接器 1 絕緣本體 10 頂壁 11 固定槽 111 導引槽 112 側壁 12 卡持槽 121 固定塊 122 卡扣部 123 凸塊 124 承載部 125 缺槽 126 凹口 127 擋執 128 前壁 13 凸台 131 對接部 132 端子槽 133 貫穿孔 134 連接部 14 逃料孔 141 定位柱 142 端子模組 20 第一端子模組 21 第一基體 211 主體部 2111 導引塊 2112 延伸部 2113 組裝孔 2114 第·—Μ鬼 2115 第一端子 212 接觸部 2121 插接部 2122 焊接部 2123 輔助塊 213 輔助部 2131 第二端子模組 22 第二基體 221 第二卡塊 2211 組裝柱 2212 第二端子 222 接觸部 2221 M359100 插接部 2222 定位座 23 插接槽 231 組裝塊 232 屏蔽殼體 30 第一殼體 31 基板部 311 固持部 312 掛持部 313 第二殼體 32 框體部 321 彈片 322 擋板 323 第三殼體 33 前板體 331 側板體 332 固定片 333 固定孔 334 接地腳 335 11Electrical connector 1 Insulating body 10 Top wall 11 Fixing groove 111 Guide groove 112 Side wall 12 Holding groove 121 Fixing block 122 Buckle 123 Bump 124 Bearing part 125 Notch 126 Notch 127 Block 128 Front wall 13 Stud 131 docking part 132 terminal slot 133 through hole 134 connecting part 14 escape hole 141 positioning post 142 terminal module 20 first terminal module 21 first base 211 main body part 2111 guide block 2112 extension part 2113 assembly hole 2114 Μ 2151 first terminal 212 contact portion 2121 plug portion 2122 soldering portion 2123 auxiliary block 213 auxiliary portion 2131 second terminal module 22 second base 221 second card block 2211 assembly column 2212 second terminal 222 contact portion 2221 M359100 plug Connector 2222 Positioning seat 23 Inserting slot 231 Assembly block 232 Shielding housing 30 First housing 31 Base plate portion 311 Holding portion 312 Holding portion 313 Second housing 32 Frame portion 321 Spring 322 Shield 323 Third housing 33 Front plate body 331 Side plate body 332 Fixing plate 333 Fixing hole 334 Grounding leg 335 11