M332299 八、新型說明: 【新型所屬之技術領域】 本創作涉及-種電連接器,尤其涉及-種可傳輸高頻訊號的電 器。 【先前技術】 隨著電子產業的迅速發展,各種電子產品之間的訊號傳輸速率也在不 斷增加,其中最主要在於與之對應之電連接器之間訊號的傳輸。其中一般 的電連接器包括有絕緣本體及導電端子。為了適應產業發展趨勢,通常會 增加導電端子來提咼訊號的傳輸速率。然,加以電連接器小 丨勢,導電端子之間的距離在逐漸減小,傳輸不同訊號的兩相鄰端^之間必 然會產生相互干擾,從而造成電連接器訊號傳輸的不穩定或錯誤。 為解決這種問題,業界會採用增大導電端子之間的距離以減小訊號的 串擾,相關技術可參閱於2005年3月11日公告之中華民國新型專利第 M259372號所揭示之一種電連接器,其包括絕緣本體,插接於絕緣本體内之 、複數導電端子及包覆於絕緣本體之遮蔽殼體,其中導電端子設有連接對接 插頭之接觸部,與絕緣本體固持之固持部及連接電路板之焊接部,於固持 部與焊接部之間設有連接部。其中所述連接部沿對接插頭插入方向成兩排 設置,即包括位於前排之第一排及靠後之第二排。其中導電端子固持部通 .過設置倒刺與絕緣本體相固持。為了導電端子與絕緣本體之間較好的固 、持,通常固持部需設置適當的長度,然,電連接器小型化發展的趨勢又不 月色使端子長度增加,因而導電端子前後方向之長度很難增加,從而使導電 端子之前後兩排連接部之間的距離很難增大,進而導電端子之間的串擾問 題很難解決。 因此,有必要對習知的電連接器進行改進以克服上述缺陷。 【新型内容】 馨於上述内容,有必要提供一種可減小導電端子之間串擾的電連接 器。 為達成前述目的,本創作電連接器係包括絕緣本體,固定於絕緣本體 内之複數導電端子及包覆絕緣本體之遮蔽殼體,所述導電端子設有本體 6 M332299 部,自本體部向前延伸之接觸部及自本體部向後延伸之焊接部,所述本體 部設有連接接觸部之第一彎折部及連接焊接部之第二彎折部,所述導電端 子包括弟一、弟二導電端子,其中第一、弟一導電端子之第一彎折部均位 於絕緣本體内,並且第二導電端子之第一、第二彎折部之間沿絕緣本體前 後方向上的距離大於第一導電端子之第一、第二彎折部之間沿絕緣本體前 後方向上的距離。 相較於習知技術,本創作電連接器第二導電端子之第一、第二彎折部 之間沿絕緣本體前後方向上的距離大於第一導電端子之第一、第二彎折部 之間沿絕緣本體前後方向上的距離;又第一、第二導電端子之第一彎折部 均設置於絕緣本體内,使第一彎折部也可與絕緣本體相固持,由此第一、 第二導電端子之第一彎折部於絕緣本體内可分別適當向後或向前設置;使 第二導電端子第一、第二彎折部之間的距離可進一步增大,從而使第一、 弟二導電端子本體部之間的距離增大,進而減小第一、第二導電端子之間 的訊號串擾。 【實施方式】 請參閱第-圖至第九圖所示,本創作電連接器!包括絕緣本體2,以埋 入的方式成型於絕緣本體2内之複數導電端子3及包覆於絕緣本體2之遮 蔽殼體4。 所述絕緣本體2射出成型於導電端子3上,其包括前端面2〇、後端面 2卜兩側壁22、頂面23及底面24。該前端面20之中央向前突伸出一舌板 201,該舌板201包括有上下相對之上表面2〇11和下表面2〇12。該舌板2〇1 之兩侧分別向下垂直脊折延伸出一擔止壁2〇13,從而形成一呈倒u形之構 造。所述絕緣本體2之頂面23及後端面21兩侧分別設有兩個卡塊25用以 與遮蔽碰4械持,#,所述頂面23、底面%及兩繼22上分別設有 較小的凸肋26以與遮蔽殼體4之間產生過盈配合,而使遮蔽殼體4與絕緣 本體2之間S1持穩固。自所述底面24後端向下延伸触—肋部241,所述 肋部241刖端' 自底面24向下延伸有兩個定位柱撕,從而將電連接器i 定位於電路板(未圖示)上。 所述導電知子3由-金屬料帶沖製而成並以埋入的方式固定於絕緣本 體2内,其包括具有不同形狀之第一端子⑽及第二端子組32,所述第一 M332299 端子組31包括複數第-導電端子311及連接於第一導電端子3ιι兩端之料 帶312,所述第二端子組32包括複數第二導電端子奶及連接於第 端子321兩端之料帶322。所述料帶312、322上分別設有將導電端子3定 位於模具(未圖示)中之定位孔迎、逝。每一第一、第二導電端子犯、 321均.又有本體口p 313 ’自該本體部313之一端向前彎折延伸的用以連接 對接插頭(未圖示)之接觸部314,該本體部313之另一端繼續向後彎折延 伸的用以連接電路板(未圖示)的焊接部315;其中所述本體部313設有與 接觸部314相連之第-彎折部3131及與焊接部315相連之第二彎折^ 3132,所述本體部313上靠近於第二彎折部迎還設有第三彎折部迎。 ’其中第-導電端子311之接觸部314均勻分部於舌板2〇1之上表面期, > f二導電端子321之接觸部314均勻分部於舌板2〇1之下表面2〇12並與第 -導電端子311之接觸部3M呈上下交錯設置,而第一、第二導電端子3ιι、 321之最前端成-排設置並镶埋於舌板2〇1内使導電端子3前端也盘絕緣本 體2相固持’增加了導電端子3接觸部314的強度使其於裁切料帶312、322 -時導電端子3不會產生變形,且能確保凸伸出舌板2〇1之接觸部314的平 、 聽;將導電端子3前端固定也可使填充高溫齡的絕緣材料過程中保證 導電端子3之正位度,提高導電端子3之精密度。第二導電端子切與第 -導電端子311之本體部313沿絕緣本體2前後方向交錯設置為兩排,即設 置於前排之第二導電端子321之本體部313及設置於後排之第一導電端子 , 311之本體部313,並且第二導電端子321本體部313自第一彎折部3131 處之彎折角度大於第一導電端子311第一彎折部3131之彎折角度,且第二 導電端子321之第一彎折部3131與第二彎折部3132之間沿絕緣本體2前 後方向上之距離大於第一導電端子311之第一、第二彎折部3131、3132 之間沿絕緣本體2前後方向上之距離。所述第一、第二導電端子311、321 之焊接部315呈一排位於同一水平面上,且兩排導電端子311、321之焊接 部315長度相同以有利於焊接。 於絕緣本體2成型前,先藉由定位孔3121、3221將第一端子組31與 第二端子組32固定於模具(未圖示)中,然後向模具(未圖示)中進行填 充咼溫融化的絕緣材料,待絕緣材料硬固後形成一將所述端子組31、32固 定於其中的絕緣本體2 ;然後將端子組31、32兩端之多餘料帶312、322切 8 M332299 除;所述絕緣本體2頂面23及底面24上分別交錯設置有複數逃料孔27以 利於絕緣材料的流動,從而促進絕緣本體2的成型;另,所述絕緣本體2 之=板201上下對應每一導電端子3交錯設置有複數貫穿舌板2〇1上下之 固定孔2014,於絕緣本體2成型過程中,藉連接於導電端子3兩端之料帶 312、322及於所述固定孔2014位置處將各導電端子3上下固定,從而可= ^電端子3穩定固持於模具(未圖示)帽而於填充絕緣材料的過程中,、 高溫材料的衝擊不會造餅電端子3 _形,又能制更好的定位效果, 可提高導電端子3之正位度。絕緣本體2成型後,所述第―、第二導電端 子311、321之本體部313均鑲埋固持於絕緣本體2内,即設於導電端子3 接觸部314與焊接部315之間之第一彎折部3131及與第三彎折部Μ%之 間的部分均與可絕緣本體2相崎,從而魏端子3與絕緣本體2之間固 持穩固,進而設於第二導電端子321本體部313之第一彎折部3i3i可更加 靠近於接觸部3U前端設置,設於第一導電端子311本體部313之第一彎折 部犯1可更加雜於接觸部則前端設置,則第二導電端子切之第一、 第二彎折部3131、3121之_距離可進一步增大,從而使第一、第二導電 3二啼3L本體部313之間的距離增大,進而可減小前後兩排導電端ί 之間的虎串擾。 所述遮蔽殼體4有-金屬板材一體衝壓弯折卡合而成,其包括左侧壁 41右似42、上頂面43及下底面44,該遮蔽殼體4之兩端彎折後於該 Γ卡接於—起形成—卡接部441,並包圍形成-中空的用以收容絕 ί^47 ίΓ/所述上躺43及下底面44分舰钱伸續體内之抵 “聰41與上頂面43和下底面44於前開口處之過渡連接處 411.412 , 42 ^τΙφ ^ ^ 口處之k渡連接處也細_弧過渡面42卜其巾左嫩Μ *上頂面Μ之 與其處於相對位置之右側壁42與下底面44之間的圓孤 過渡面421構成-組圓弧過渡面4U、421;而位於左側壁41盘下底面44 ,間_弧過渡面412與其處於相對位置的右側壁42與上頂面Μ之間的 412、42卜這,_賴圓弧過渡 徑至对―組係不相同的,因而其形狀係不對稱的。 所述遮蔽殼體4上頂面43後端對應於絕緣本體2頂面23後端之卡塊 M332299 25設置有扣持孔431並與之相扣持,所述下底面44後端抵持於絕緣本體2 底面24向下延伸的肋部241 ;所述左側壁41和右侧壁42分別向外彎折 伸出兩個固持腳45,及向後延伸出一扣片46,該向後延伸出之扣片你與 絕緣本體2後端面21兩侧之卡塊25相扣持,該兩側之固持 = 路板(未圖示)上以將電連接器丨固定。 ~接於電 請參閱第十圖及第十一圖所示為本創作電連接器丨導電端子3,之另一 種實施例,其與上述第一實補中導電端子3之結構大致相同,導電端子 也以埋入的方式成型於絕緣本體2中,其也設有第一、第二導電端子3^,、 32=,第一、第二導電端子311,、321,分別設有本體部313,、自本體部阳 向前延伸之接觸部3M,、自本體部3丨3,騎向接觸部3M,之第—彎折部 3131’、自本體部313’向後延伸之焊接部315,及自本體部313,彎折向焊接 仍’之第二彎折部3132’。其不同之處在於··第一導電端子311,本體部313, 第一彎折部3131’處之彎折角度與第二導電端子321,第一彎折部3ΐ3ι,之 折角度相同’即第-、第二導電端子311,、321,之本體部313,相互平行 而防串擾效果更好。 本創作電連接H 1將絕緣本體2採用射出細的方法成型於導電端子 3、3,上並將其固定於其中,從而導電端子3、3,之本體部313、313,大部分 位於絕緣本體2内並與之姻持,又本體部313、313,彎折向接觸部叫、 314’之第-彎折部3131、3131’也位於絕緣本體2内並與之相固持,另導電 端子3、3’之本體部313、313’沿絕緣本體2前後方向呈兩排設置,從而可 將前排第二導電端子32卜321,第-彎折部313卜迎,更加靠近於接觸部 314、3M’前端設置,位於後排之第一導電端子31卜311,之第一彎折部3⑶、 3131,更加雜於接觸部31心314,前端,使第二導電端子32卜321,之第一、 第二彎折部313卜3132、3131,、3132,之間的距離進一步增大,則第一 '第 二導電端子31卜32卜311,、321,本體部313、313,之間的距離可進一步增 大,進而減小兩排導電端子之間的信號串擾。 綜上所述,本創作符合新型專利要件,爰依法提出專利申請。惟,以 上所述者僅為本創作之較佳實施例,本創作之範圍並不以上述實施例為 限’舉凡《本案技藝之人士援依本創作之精神所作之等效修飾或變化, 皆應涵蓋於以下申請專利範圍内。M332299 VIII. New description: [New technical field] This creation involves a kind of electrical connector, especially related to a kind of electrician that can transmit high frequency signals. [Prior Art] With the rapid development of the electronics industry, the signal transmission rate between various electronic products is also increasing, the most important of which is the transmission of signals between the corresponding electrical connectors. The general electrical connector includes an insulative body and a conductive terminal. In order to adapt to the development trend of the industry, conductive terminals are usually added to increase the transmission rate of the signal. However, with the electrical connector being small, the distance between the conductive terminals is gradually decreasing, and the two adjacent terminals transmitting different signals will inevitably interfere with each other, thereby causing instability or error in the transmission of the electrical connector signals. . In order to solve this problem, the industry will increase the distance between the conductive terminals to reduce the crosstalk of the signal. The related art can be referred to an electrical connection disclosed in the Republic of China, New Patent No. M259372, published on March 11, 2005. The device includes an insulative housing, a plurality of conductive terminals and a shielding shell covering the insulative housing, wherein the conductive terminal is provided with a contact portion for connecting the mating plug, and a holding portion and a connection for holding the insulative housing The welded portion of the circuit board is provided with a connecting portion between the holding portion and the welded portion. The connecting portions are arranged in two rows along the mating plug insertion direction, that is, including the first row in the front row and the second row in the back row. The conductive terminal holding portion is connected to the insulating body by the set barb. In order to better solidify and hold between the conductive terminal and the insulating body, usually the retaining portion needs to be set to an appropriate length. However, the trend of miniaturization of the electrical connector does not increase the length of the terminal, and thus the length of the conductive terminal in the front-rear direction. It is difficult to increase, so that the distance between the front and rear connecting portions of the conductive terminals is difficult to increase, and the crosstalk problem between the conductive terminals is difficult to solve. Therefore, it is necessary to improve the conventional electrical connector to overcome the above drawbacks. [New content] In the above, it is necessary to provide an electrical connector that can reduce crosstalk between conductive terminals. In order to achieve the foregoing objective, the present invention includes an insulative housing, a plurality of conductive terminals fixed in the insulating body, and a shielding case covering the insulative housing, wherein the conductive terminal is provided with a body portion M332299, forward from the body portion An extended contact portion and a welded portion extending rearward from the body portion, wherein the body portion is provided with a first bent portion connecting the contact portion and a second bent portion connecting the welded portion, wherein the conductive terminal comprises a brother, a second brother a conductive terminal, wherein the first bent portion of the first conductive terminal is located in the insulating body, and the distance between the first and second bent portions of the second conductive terminal in the front-rear direction of the insulating body is greater than the first A distance between the first and second bent portions of the conductive terminal in the front-rear direction of the insulating body. Compared with the prior art, the distance between the first and second bent portions of the second conductive terminal of the present electrical connector in the front-rear direction of the insulating body is greater than the first and second bent portions of the first conductive terminal. The distance between the first and second conductive terminals is disposed in the insulating body, so that the first bent portion can also be held by the insulating body, thereby The first bent portion of the second conductive terminal may be appropriately disposed backward or forward in the insulating body; the distance between the first and second bent portions of the second conductive terminal may be further increased, thereby enabling the first The distance between the body portions of the second conductive terminals is increased, thereby reducing the signal crosstalk between the first and second conductive terminals. [Embodiment] Please refer to the first to the ninth figure, the original electrical connector! The insulating body 2 includes a plurality of conductive terminals 3 that are embedded in the insulating body 2 and a shielding case 4 that is wrapped around the insulating body 2. The insulative housing 2 is injection molded on the conductive terminal 3, and includes a front end surface 2, a rear end surface 2, two side walls 22, a top surface 23, and a bottom surface 24. A tongue 201 protrudes from the center of the front end face 20, and the tongue plate 201 includes upper and lower opposing upper surfaces 2〇11 and a lower surface 2〇12. The two sides of the tongue plate 2〇1 respectively extend downwardly from the lower ridges to form a supporting wall 2〇13, thereby forming an inverted u-shaped configuration. The two sides of the top surface 23 and the rear end surface 21 of the insulative housing 2 are respectively provided with two latching blocks 25 for shielding with the shielding surface, #, the top surface 23, the bottom surface % and the two succeeding 22 are respectively provided The smaller ribs 26 create an interference fit with the shield housing 4 to stabilize the S1 between the shield housing 4 and the insulative housing 2. The rib 241 extends downward from the rear end of the bottom surface 24, and the rib end 241 extends downward from the bottom surface 24 with two positioning posts to tear the electrical connector i to the circuit board (not shown) Show). The conductive electrons 3 are punched from a metal strip and are fixed in the insulative housing 2 in a buried manner, and include a first terminal (10) and a second terminal group 32 having different shapes, the first M332299 terminal The group 31 includes a plurality of first conductive terminals 311 and a strip 312 connected to both ends of the first conductive terminals 3 ι. The second terminal set 32 includes a plurality of second conductive terminal milks and a strip 322 connected to the ends of the first terminals 321 . . The strips 312 and 322 are respectively provided with positioning holes for positioning the conductive terminals 3 in a mold (not shown). Each of the first and second conductive terminals 321 has a body port p 313 ′ that is bent forward from one end of the body portion 313 to connect a contact portion 314 of a mating plug (not shown). The other end of the main body portion 313 continues to be bent backward to connect a soldering portion 315 of a circuit board (not shown); wherein the main body portion 313 is provided with a first bent portion 3131 connected to the contact portion 314 and soldered The second bending portion 3132 is connected to the portion 315. The body portion 313 is adjacent to the second bending portion and is provided with a third bending portion. The contact portion 314 of the first conductive terminal 311 is evenly divided on the upper surface of the tongue plate 2〇1, and the contact portion 314 of the second conductive terminal 321 is evenly divided on the lower surface 2 of the tongue plate 2〇1. 12 and the contact portion 3M of the first conductive terminal 311 is vertically staggered, and the front ends of the first and second conductive terminals 3, 321 are arranged in a row and embedded in the tongue plate 2〇1 to make the front end of the conductive terminal 3 Also, the disk insulative housing 2 is held in phase to increase the strength of the contact portion 314 of the conductive terminal 3 so that the conductive terminal 3 is not deformed when the tape 312, 322 is cut, and the tongue plate 2 〇 1 can be secured. The flat portion of the contact portion 314 is fixed; the fixing of the front end of the conductive terminal 3 can also ensure the positive position of the conductive terminal 3 during the process of filling the insulating material of a high temperature, and improve the precision of the conductive terminal 3. The second conductive terminal is cut and the body portion 313 of the first conductive terminal 311 is alternately arranged in two rows along the front and rear direction of the insulating body 2, that is, the body portion 313 of the second conductive terminal 321 disposed in the front row and the first portion disposed in the rear row. The conductive terminal, the body portion 313 of the 311, and the bending angle of the body portion 313 of the second conductive terminal 321 from the first bending portion 3131 is greater than the bending angle of the first bending portion 3131 of the first conductive terminal 311, and the second The distance between the first bent portion 3131 and the second bent portion 3132 of the conductive terminal 321 in the front-rear direction of the insulating body 2 is greater than the distance between the first and second bent portions 3131, 3132 of the first conductive terminal 311. The distance between the body 2 in the front and rear direction. The soldering portions 315 of the first and second conductive terminals 311, 321 are in the same horizontal plane, and the soldering portions 315 of the two rows of conductive terminals 311, 321 have the same length to facilitate soldering. Before the insulating body 2 is molded, the first terminal group 31 and the second terminal group 32 are fixed in a mold (not shown) by positioning holes 3121 and 3221, and then filled into a mold (not shown). a molten insulating material, after the insulating material is hardened, forming an insulating body 2 in which the terminal groups 31, 32 are fixed; and then removing the excess strips 312, 322 at both ends of the terminal groups 31, 32 by 8 M332299; A plurality of escape holes 27 are staggered on the top surface 23 and the bottom surface 24 of the insulating body 2 to facilitate the flow of the insulating material, thereby facilitating the molding of the insulating body 2; A conductive terminal 3 is staggered with a plurality of fixing holes 2014 extending through the top and bottom of the tongue plate 2〇1. During the molding process of the insulating body 2, the strips 312 and 322 connected to the two ends of the conductive terminal 3 and the fixing hole 2014 are disposed. The conductive terminals 3 are fixed up and down, so that the electric terminal 3 can be stably held in the mold (not shown), and in the process of filling the insulating material, the impact of the high-temperature material does not form the electrical terminal 3 _ shape. Can also make better positioning effects, The conductive terminals 3 to improve the degree of anteroposterior. After the insulative housing 2 is formed, the main portions 313 of the first and second conductive terminals 311 and 321 are embedded and held in the insulative housing 2, that is, first between the contact portion 314 of the conductive terminal 3 and the soldering portion 315. The portion between the bent portion 3131 and the third bent portion Μ% is in phase with the insulative body 2, so that the Wei terminal 3 and the insulating body 2 are stably held together, and further disposed on the body portion 313 of the second conductive terminal 321 The first bent portion 3i3i can be disposed closer to the front end of the contact portion 3U, and the first bent portion of the first conductive terminal 311 body portion 313 can be made more complicated than the contact portion, and the second conductive terminal is cut. The distance between the first and second bent portions 3131 and 3121 can be further increased, so that the distance between the first and second conductive 3 啼 3L body portions 313 is increased, thereby reducing the front and rear two rows of conductive Tiger crosstalk between the ends ί. The shielding shell 4 is formed by integrally stamping and bending a metal sheet, and includes a right side wall 41, a right side surface 42, and a lower bottom surface 44. The two ends of the shielding shell 4 are bent and then The Γ 接 接 接 接 接 接 接 接 接 接 接 接 接 接 — 聪 441 441 441 441 441 441 441 441 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪 聪The transition joints of the upper top surface 43 and the lower bottom surface 44 at the front opening are 411.412, 42 ^τΙφ ^ ^, and the k-junction is also thin _ arc transition surface 42 卜 巾 左 Μ Μ * top top surface The circular orbital transition surface 421 between the right side wall 42 and the lower bottom surface 44 opposite thereto constitutes a set of circular arc transition surfaces 4U, 421; and the left side wall 41 has a lower bottom surface 44, and the intermediate-arc transition surface 412 is opposite thereto 412, 42 between the right side wall 42 of the position and the upper top surface 卜, the _ 圆弧 圆弧 arc transition path is not the same as the pair, and thus the shape is asymmetrical. The shielding shell 4 is topped. The rear end of the surface 43 corresponding to the rear end of the top surface 23 of the insulative housing 2 is provided with a latching hole 431 and is fastened thereto. The rear end of the lower bottom surface 44 is abutted against the insulating book. 2 ribs 241 extending downwardly from the bottom surface 24; the left side wall 41 and the right side wall 42 are respectively bent outwardly to protrude from the two holding legs 45, and a rear piece 46 is extended backward, and the rearward extending buckle piece You hold the card block 25 on both sides of the rear end surface 21 of the insulative housing 2, and the two sides are fixed on the board (not shown) to fix the electrical connector. ~ Please refer to the tenth figure for the power supply. The eleventh figure shows another embodiment of the electrical connector 丨 conductive terminal 3, which is substantially the same as the first practical complement of the conductive terminal 3, and the conductive terminal is also embedded in the insulating manner. The body 2 is also provided with first and second conductive terminals 3^, 32=, first and second conductive terminals 311, 321 respectively provided with a body portion 313 extending forward from the body portion The contact portion 3M, from the body portion 3丨3, the riding portion 3M, the first bent portion 3131', the welded portion 315 extending rearward from the body portion 313', and the body portion 313, bent to the weld 'The second bent portion 3132'. The difference is that the first conductive terminal 311, the body portion 313, and the first bent portion 3131' The bending angle is the same as the second conductive terminal 321 and the first bending portion 3ΐ3ι, and the body portions 313 of the first and second conductive terminals 311, 321 are parallel to each other and the crosstalk prevention effect is better. The electrical connection H 1 is formed by forming the insulating body 2 on the conductive terminals 3, 3 by means of injection thinning, and fixing the same in the conductive terminals 3, 3, so that the conductive portions 3, 3, the body portions 313, 313 are mostly located in the insulating body 2 Inside and in the same manner, the body portions 313, 313, the bending-to-contact portion, the first bent portion 3131, 3131' of the 314' is also located in and held by the insulative housing 2, and the conductive terminal 3, The main body portions 313 and 313' of the 3' are disposed in two rows along the front and rear direction of the insulative housing 2, so that the front second conductive terminals 32, 321 and the first bent portions 313 can be brought closer to the contact portions 314, 3M. 'The front end is disposed, the first conductive terminal 31 311 in the rear row, the first bending portion 3 (3), 3131, is more complicated than the core 314 of the contact portion 31, the front end, so that the second conductive terminal 32 321 is the first, The distance between the second bent portion 313, 3132, 3131, and 3132 is further increased, and the first ' Two conductive terminal 31 Bu Bu 32 311, the distance 321 between the body portion 313, 313, may be further increases, thereby reducing signal crosstalk between the two rows of contacts. In summary, this creation is in line with the new patent requirements, and the patent application is filed according to law. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and the equivalent modifications or changes made by the person skilled in the present invention in accordance with the spirit of the present invention are all It should be covered by the following patent application.