TW202121775A - Bidirectional double-sided electrical connector - Google Patents

Abstract

The present invention provides a two-way double-sided electrical connector, which includes: two buckles, the two buckles are separately arranged and each provided with a metal material, a concave bottom surface and a locking surface; an inner insulator, the inner insulator The two buckles are covered and combined with a plastic injection molding structure. The inner insulator is provided with an upper support surface and a lower support surface. The upper and lower support surfaces are each provided with a row of terminal positioning grooves; two rows of terminals, each terminal Front and rear are integrally provided with a contact portion and an extension portion. The two rows of contact portions abut on the upper and lower supporting surfaces of the inner insulator to isolate the two buckles. The two rows of terminals are positioned on the two rows of terminals of the inner insulator. Slot; and an insulating seat body, the insulating seat body and the two rows of terminals, the internal insulation system adopts a plastic injection molding structure that is embedded once, the insulating seat body is provided with a base and a tongue plate, the tongue plate is provided with upper and lower Two connecting surfaces, the two rows of contact parts are flat against the tongue plate and exposed on the two connecting surfaces, and the concave bottom surface and the locking surface of the two buckles expose the left and right sides of the tongue plate.

Description

雙向雙面電連接器 Bidirectional double-sided electrical connector

本發明系有關於一種電連接器，特別系指一種雙向雙面電連接器。 The present invention relates to an electrical connector, in particular to a two-way double-sided electrical connector.

由於目前各種電子產品的功能越來越強大，且掌上型裝置亦逐漸盛行，故各種產品或裝置間的信號傳輸需求也越來越多，其中，該些裝置間的信號傳輸系藉由信號介面而進行之。該信號介面例如為電連接器或與其對接之互補電連接器，其中，電連接器系為電連接插座(Electrical receptacle)，而互補電連接器則為電連接插頭(Electrical plug)。 As the functions of various electronic products are becoming more and more powerful, and palm-sized devices are becoming more and more popular, the signal transmission requirements between various products or devices are also increasing. Among them, the signal transmission between these devices is through the signal interface. And proceed. The signal interface is, for example, an electrical connector or a complementary electrical connector mated with it. The electrical connector is an electrical receptacle, and the complementary electrical connector is an electrical plug.

於電連接插頭與電連接插座對接之前，必須以正確的方向讓電連接插頭朝向電連接插座，才可使兩者對接，亦即，電連接插座具有插接方向性，其為俗稱的防呆功能，此功能系為了確保電連接插頭上的連接介面可與電連接插座上的接觸端子接觸。然而，多數使用者沒有將電連接插頭以正確的方向朝向電連接插座的習慣，此防呆功能造成電連接插頭與電連接插座的對接失敗，之後使用者再翻轉電連接插頭，才得以正確對接。換言之，此防呆功能反而造成用戶的困擾。 Before the electrical connection plug and the electrical connection socket are docked, the electrical connection plug must face the electrical connection socket in the correct direction, so that the two can be docked. That is, the electrical connection socket has the directionality of plugging, which is commonly known as foolproof Function, this function is to ensure that the connection interface on the electrical connection plug can contact the contact terminals on the electrical connection socket. However, most users do not have the habit of facing the electrical connection plug in the correct direction to the electrical connection socket. This foolproof function causes the electrical connection plug to fail to connect with the electrical connection socket. After that, the user turns the electrical connection plug over to get the correct connection. . In other words, this foolproof function causes users' confusion.

因此，市面上提供一種具有雙面對接功能之雙向電連接器，其設置有二組接觸端子，以排除雙向電連接器的插接方向性。使用者可以任一方向 進行雙向電連接器與互補電連接器之間的對接。然而，習知雙向電連接器的製造成本高，且其功能的可靠度低。基此，如何使雙向電連接器具有穩定的可靠度以及降低電連接器之成本即成為業界共同努力的目標。 Therefore, a two-way electrical connector with a double-sided butting function is provided on the market, which is provided with two sets of contact terminals to eliminate the insertion directionality of the two-way electrical connector. The user can be in either direction Perform the butt connection between the bidirectional electrical connector and the complementary electrical connector. However, the conventional two-way electrical connector has a high manufacturing cost, and its function reliability is low. Based on this, how to make the two-way electrical connector have stable reliability and reduce the cost of the electrical connector has become the goal of the joint efforts of the industry.

本發明之主要目的在於提供一種雙向雙面電連接器，可達到降低製造成本，且具有雙面對接功能之雙向電連接器。 The main purpose of the present invention is to provide a two-way double-sided electrical connector, which can reduce the manufacturing cost and has a double-sided butting function.

為達上述目的本發明提供一種正反雙面電連接器，其包括有：二卡扣，該二卡扣分開設置且各設有金屬材質之一凹陷底面及一卡定面；一內絕緣體，該內絕緣體系採用塑膠射出成型之構造包覆結合該二卡扣，該內絕緣體設有上支撐面及下支撐面，該上、下支撐面各設有一排端子定位槽，且該二卡扣之凹陷底面及卡定面露出該內絕緣體之左右二側邊；二排端子，每一端子由前而後一體設有一接觸部及一延伸部，該二排接觸部抵接於該內絕緣體之上、下支撐面藉以隔離該二卡扣，該每排端子未結合一絕緣體藉以連結該每一端子，該二排端子定位於該內絕緣體之上、下支撐面之二排端子定位槽；及一絕緣座體，該絕緣座體與該二排端子、該內絕緣體系採用一次埋入塑膠射出成型構造，該絕緣座體設有將該二排端子和該內絕緣體同時埋入且一次塑膠射出成型的一體成型構造，該絕緣座體設有一基座及一舌板，該基座的一前端凸出設有該舌板，該舌板設有上下二連接面，該二排接觸部平貼該舌板且外露於該兩連接面，該二卡扣之凹陷底面及卡定面露出該舌板之左右二側邊，該舌板可與一對接之電連接器正反雙向對接定位。 To achieve the above objective, the present invention provides a front and back double-sided electrical connector, which includes: two buckles, the two buckles are separately arranged and each is provided with a metal material, a concave bottom surface and a locking surface; an inner insulator , The inner insulation system adopts a plastic injection molding structure to cover and combine the two buckles. The inner insulator is provided with an upper supporting surface and a lower supporting surface. The upper and lower supporting surfaces are each provided with a row of terminal positioning grooves, and the two clips The recessed bottom surface and the locking surface of the buckle expose the left and right sides of the inner insulator; two rows of terminals, each terminal is integrally provided with a contact part and an extension part from front to back, the two rows of contact parts abut on the inner insulator The upper and lower supporting surfaces are used to isolate the two buckles, each row of terminals is not combined with an insulator to connect each terminal, and the two rows of terminals are positioned in the two rows of terminal positioning grooves on the upper and lower supporting surfaces of the inner insulator; and An insulating base body, the insulating base body and the two rows of terminals, the inner insulation system adopts a one-time embedding plastic injection molding structure, and the insulating base body is provided with the two rows of terminals and the inner insulator being simultaneously embedded and one time plastic injection The molded one-piece structure, the insulating base body is provided with a base and a tongue plate, a front end of the base is protrudingly provided with the tongue plate, the tongue plate is provided with two upper and lower connecting surfaces, and the two rows of contact parts are flat The tongue plate is exposed on the two connecting surfaces. The concave bottom surface and the locking surface of the two buckles expose the left and right sides of the tongue plate. The tongue plate can be mated with the mating electrical connector in both front and back directions.

本發明之上述及其他目的、優點和特色由以下較佳實施例之詳細說明中並參考圖式當可更加明白。 The above and other objectives, advantages and features of the present invention will be more apparent from the detailed description of the following preferred embodiments with reference to the drawings.

請參閱圖1至圖3，系為本發明第一實施例，本實施例為一沉板型之雙向雙面USB TYPE-C 2.0電連接插座，其設有一絕緣座體70、二排端子80、一金屬隔板90、及一金屬外殼340，其中： Please refer to Figures 1 to 3, which are the first embodiment of the present invention. This embodiment is a sinking plate type two-way double-sided USB TYPE-C 2.0 electrical connection socket, which is provided with an insulating base body 70 and two rows of terminals 80 , A metal partition 90, and a metal shell 340, in which:

該絕緣座體70為塑膠材質二次注塑形成有一外絕緣體77及一內絕緣體300，外絕緣體77包覆結結合固定於該內絕緣體300外，該絕緣座體70一體成型設有一基座71及一舌板72，該基座71前端凸出設有該舌板72，該舌板72內端連接該基座122，該基座71之厚度較舌板72為大，該舌板72之上下面為板面較大之兩連接面，該舌板72之厚度為後段較前段厚而使該兩連接面後段722較兩連接面前段721凸出，該基座71設有一凹環712，該凹環712套合一防水圈750。 The insulating seat body 70 is made of plastic material by over-injection molding to form an outer insulator 77 and an inner insulator 300. The outer insulator 77 is covered and fixed on the inner insulator 300 by bonding and bonding. The insulating seat 70 is integrally formed with a base 71 and A tongue plate 72, the front end of the base 71 protrudes with the tongue plate 72, the inner end of the tongue plate 72 is connected to the base 122, the thickness of the base 71 is larger than that of the tongue plate 72, and the tongue plate 72 is above the tongue plate 72. Below are the two larger connecting surfaces. The thickness of the tongue 72 is that the rear section is thicker than the front section so that the rear section 722 of the two connecting surfaces protrudes from the front section 721 of the two connecting surfaces. The base 71 is provided with a concave ring 712. The concave ring 712 is sleeved into a waterproof ring 750.

該二排端子80、一金屬隔板90與該絕緣座體70采埋入塑膠射出一體成型構造，該二排端子20各為8個，如圖37所示，上排端子以A表示，接點電路序號由左至右排列依序為A1、A4、A5、A6、A7、A8、A9、12，下排端子以B表示，接點電路序號由左至右排列依序為B12、B9、B8、B7、B6、B5、B4、B1，該二排端子80皆缺少接點電路序號2,3,10,11等4個端子，每一端子80由前而後一體設有一連接料橋81、一接觸部82、一延伸部83及一接腳 84，該接觸部82平貼該舌板72不彈動且外露稍凸出於該兩連接面前段721，該接腳84伸出該基座71之後端且末段呈水準，該延伸部83設於接腳84和接觸部82之間，該連接料橋81與接觸部82之間形成有一彎折段差而使該連接料橋81整體埋入舌板72內，該連接料橋81之前端為無電鍍層斷面85，該二排端子80之接觸部82分別外露於該舌板72之兩連接面前段721且上下對齊，且二排接觸部82之相同接點電路序號相互為反向排列，另外該二排端子之接觸部82各呈二排不同長度，即兩側4個接觸部82較中間4個接觸部82為長，該二排端子之二排接腳84左右錯開且每一接腳的末段呈同一高度。 The two rows of terminals 80, a metal partition 90 and the insulating base body 70 are embedded in a plastic injection integrated molding structure. Each of the two rows of terminals 20 has 8 terminals. As shown in FIG. 37, the upper row of terminals is denoted by A, The sequence numbers of the point circuits are arranged from left to right as A1, A4, A5, A6, A7, A8, A9, 12. The lower row of terminals is represented by B, and the sequence numbers of the contact circuits are arranged from left to right as B12, B9, B8, B7, B6, B5, B4, B1, the two rows of terminals 80 all lack 4 terminals of contact circuit number 2, 3, 10, 11, etc. Each terminal 80 is integrated with a connecting bridge 81 from front to back. A contact portion 82, an extension portion 83 and a pin 84. The contact portion 82 is flat against the tongue plate 72 without springing and is exposed slightly protruding from the two connecting front sections 721, the pin 84 extends out of the rear end of the base 71 and the end section is level, the extension portion 83 It is arranged between the pin 84 and the contact portion 82. A bending section difference is formed between the connecting material bridge 81 and the contact portion 82 so that the connecting material bridge 81 is entirely embedded in the tongue 72. The front end of the connecting material bridge 81 It is an electroless plating section 85. The contact portions 82 of the two rows of terminals 80 are respectively exposed on the two connecting front sections 721 of the tongue plate 72 and aligned up and down, and the same contact circuit numbers of the two rows of contact portions 82 are opposite to each other In addition, the contact portions 82 of the two rows of terminals each have two rows of different lengths, that is, the four contact portions 82 on both sides are longer than the four contact portions 82 in the middle. The two rows of pins 84 of the two rows of terminals are staggered left and right and each The end section of a pin is at the same height.

該金屬隔板90呈水準埋入固定於該絕緣座體70之中心高度，其設有上下二板面91且左右側前段各設有一凹陷之卡扣93，其板面設有透空區94，其前端設有一凹部95，該凹部95兩側設有凸部97凸出該凹部95的底部96。 The metal partition 90 is horizontally embedded and fixed at the center height of the insulating base 70. It is provided with two upper and lower plate surfaces 91, and a recessed buckle 93 is provided in the front section of the left and right sides. The plate surface is provided with a transparent area 94 , The front end is provided with a concave portion 95, and two sides of the concave portion 95 are provided with convex portions 97 protruding from the bottom 96 of the concave portion 95.

該內絕緣體300設有上下二支撐面301及上下二凹面307，該二支撐面301分別凸出於該金屬隔板90之上下二板面91，該二凹面307位於該金屬隔板90之凹部95，該二排端子80之接觸部82平貼於該二支撐面301，該二排端子80各中間的4個端子之連接料橋81平貼於該二凹面307。 The inner insulator 300 is provided with two upper and lower supporting surfaces 301 and two upper and lower concave surfaces 307. The two supporting surfaces 301 respectively protrude from the upper and lower plate surfaces 91 of the metal partition 90, and the two concave surfaces 307 are located in the recesses of the metal partition 90. 95. The contact portions 82 of the two rows of terminals 80 are flatly attached to the two supporting surfaces 301, and the connecting material bridges 81 of the four terminals in the middle of each of the two rows of terminals 80 are flatly attached to the two concave surfaces 307.

該金屬外殼340包覆該絕緣座體70且與基座71抵接並卡定，該金屬外殼340設有一四面包主殼體341，該四面包主殼體341設有上下左右四個板面四個包覆該舌板72，該四面包主殼體341內與基座71前端形成一連接槽345，該舌板72呈水準懸空位於該連接槽345之中心高度且向前延伸，該連接槽345之***口朝前，該連接槽345與該舌板72形成一對接構造，該對接構造可供一電連接公頭正反雙面***電連接並定位，該舌板72前端接近該連接槽345之***口，該舌板72之兩連接面形成對稱空間，該連接槽55之形狀呈 上下對稱且左右對稱且呈兩側圓弧形而接近長方形。 The metal shell 340 covers the insulating base body 70 and abuts against and locks the base 71. The metal shell 340 is provided with a four-bread main shell 341, and the four-bread main shell 341 is provided with four plates up, down, left, and right. The tongue plate 72 is covered with four sides. The four-bread main housing 341 forms a connecting groove 345 with the front end of the base 71. The tongue plate 72 is horizontally suspended at the center height of the connecting groove 345 and extends forward. The insertion port of the connecting groove 345 faces forward, and the connecting groove 345 forms a mating structure with the tongue plate 72. The mating structure allows an electrical connection male connector to be inserted into and electrically connected and positioned on both sides. The front end of the tongue plate 72 is close to the tongue plate 72. The insertion port of the connecting groove 345, the two connecting surfaces of the tongue plate 72 form a symmetrical space, and the shape of the connecting groove 55 is It is symmetrical from top to bottom and from left to right, and is in the shape of arcs on both sides close to a rectangle.

依USB協會所規範之USB TYPE-C之接點電路序號說明如下：1和12為一對接地端子呈左右對稱排列，4和9為一對電源端子呈左右對稱排列，2,3為一對高分差訊號端子(TX+,TX-)，10,11為另一對高分差訊號端子(RX+,RX-)，6,7為一對低分差訊號端子(D+,D-)，5,8為偵測端子，在設計上，上下對齊之接地端子和電源端子是可以搭接的，上下之一對低分差訊號端子(D+,D-)亦可以搭接的。 According to the USB TYPE-C standard of the USB Association, the contact circuit number description is as follows: 1 and 12 are a pair of ground terminals arranged symmetrically, 4 and 9 are a pair of power terminals arranged symmetrically, and 2, 3 is a pair High-differential signal terminals (TX+, TX-), 10, 11 are another pair of high-differential signal terminals (RX+, RX-), 6, 7 are a pair of low-differential signal terminals (D+, D-), 5 ,8 is the detection terminal. In the design, the ground terminal and the power terminal aligned up and down can be overlapped, and the upper and lower pair of low-differential signal terminals (D+, D-) can also be overlapped.

上下二排端子之接點電路序號，其中相同接點電路序號系為相同的電路信號抑或為相類似的電路信號。 The contact circuit numbers of the upper and lower rows of terminals, where the same contact circuit number is the same circuit signal or similar circuit signal.

本實施例在製造上如下： The manufacturing of this embodiment is as follows:

1.提供一金屬隔板90，請參閱圖3，該金屬隔板90在衝壓製造上系以金屬料片連續衝壓，該金屬隔板90衝壓完成時連接於一料帶900上，該金屬隔板90之構造如前述，該料帶900系設有一左右向延伸的後主料帶905及連接於該後主料帶905之副料帶903，該副料帶903呈ㄩ形且兩端連接於後主料帶905，該副料帶903彎折一階差902而與該後主料帶905形成一高度差，該金屬隔板90的前端左右側及接近後端的左右側側各連接一料橋907，該多數之料橋907連接於該副料帶903，該副料帶903和該後主料帶904前後對齊各設有一定位孔901，該後主料帶905之定位孔901左右側各設有一穿孔908。 1. Provide a metal partition 90, please refer to FIG. 3. The metal partition 90 is continuously stamped with metal sheets in the stamping manufacturing process. The metal partition 90 is connected to a strip 900 when the stamping is completed. The structure of the plate 90 is as described above. The material belt 900 is provided with a rear main material belt 905 extending from left to right and a subsidiary material belt 903 connected to the rear main material belt 905. The subsidiary material belt 903 is in the shape of a ㄩ and connected at both ends. On the rear main material belt 905, the secondary material belt 903 is bent by a step difference 902 to form a height difference with the rear main material belt 905. The left and right sides of the front end of the metal partition 90 and the left and right sides close to the rear end are respectively connected to one Material bridge 907, the plurality of material bridges 907 are connected to the auxiliary material belt 903, the auxiliary material belt 903 and the rear main material belt 904 are aligned front and rear with a positioning hole 901 respectively, and the positioning hole 901 of the rear main material belt 905 is about Each side is provided with a perforation 908.

2.請參閱圖4，該金屬隔板90注塑埋入射出成型一內絕緣體300，該金屬隔板90埋入固定於該內絕緣體300之中間，該內絕緣體300設有上下二支撐面301及上下二凹面307，該二支撐面301分別凸出於該金屬隔板90之上下二板面91，該二凹面307位於該金屬隔板90之凹部95，凹面307較同面的支 撐面301更為凹陷，該二支撐面301各凸出設有一排隔欄303而各分隔成一排端子定位槽305，該二排隔欄303皆為後段較前段凸出。 2. Please refer to Figure 4, the metal partition 90 is injection-embedded to form an inner insulator 300. The metal partition 90 is embedded and fixed in the middle of the inner insulator 300. The inner insulator 300 is provided with two upper and lower support surfaces 301 and There are two upper and lower concave surfaces 307. The two supporting surfaces 301 respectively protrude from the upper and lower plate surfaces 91 of the metal partition 90. The two concave surfaces 307 are located in the recess 95 of the metal partition 90. The supporting surface 301 is more concave. Each of the two supporting surfaces 301 is protruded with a row of partitions 303 and each is divided into a row of terminal positioning grooves 305. The two rows of partitions 303 are both protruding from the rear section to the front section.

3.提供上下二排端子80，該二排端子80在衝壓製造上系各以金屬料片連續衝壓，該二排端子80衝壓完成時各自連接於一料帶910、910’上，該二排端子80之構造如前述，該二料帶910、910’各設有一左右向延伸的後主料帶915及一前子料帶912，每排端子80之一排連接料橋81的前端連接該前子料帶912，每排端子80之一排接腳84各連接一料橋917，該多數之料橋917連接於該後主料帶915，該多數之料橋917彎折一階差而使該一排接腳84與該後主料帶915形成一高度差，其中上排端子之接腳84較低於料帶910，下排端子之接腳84較高於料帶910’，該前子料帶912和該後主料帶915前後對齊各設有一定位孔911，該料帶910之後主料帶915之定位孔901左右側各設有一穿孔921，該料帶910’之後主料帶915之定位孔901左右側各設有一凸柱921。 3. Two rows of upper and lower terminals 80 are provided. The two rows of terminals 80 are each continuously stamped with metal sheets in the stamping manufacturing process. When the stamping is completed, the two rows of terminals 80 are connected to a strip 910, 910' respectively. The structure of the terminal 80 is as described above. Each of the two strips 910, 910' is provided with a rear main strip 915 and a front sub strip 912 extending left and right. One row of each row of terminals 80 is connected to the front end of the bridge 81. The front sub-band 912, one row of pins 84 of each row of terminals 80 are each connected to a material bridge 917, the plurality of material bridges 917 are connected to the rear main material band 915, and the plurality of material bridges 917 are bent by one step. Make the row of pins 84 and the rear main strip 915 form a height difference, wherein the pins 84 of the upper row of terminals are lower than the strip 910, and the pins 84 of the lower row of terminals are higher than the strip 910'. The front sub-belt 912 and the rear main material belt 915 are aligned front and rear with a positioning hole 911, respectively. The main material belt 915 after the material belt 910 is provided with a perforation 921 on the left and right sides of the positioning hole 901. A protruding post 921 is provided on the left and right sides of the positioning hole 901 of the belt 915 respectively.

4.請參閱圖5，將上下二排端子80組裝於該內絕緣體300之上下二支撐面301之二排端子定位槽305，該二排端子80之接觸部82和延伸部83平貼抵接於該二支撐面301，二排端子的中間4個端子之連接料橋81平貼抵接於該二凹面307，如此二排連接料橋81懸空的長度較短，二排端子之多數接腳84的末段呈同一水準高度，三料帶910、900、910’的後主料帶上下平貼接合，二前子料帶912平貼接合於副料帶903的上下面，壓合二凸柱而成二鉚合件918而使三料帶910、900、910’結合固定。 4. Referring to Figure 5, assemble the upper and lower two rows of terminals 80 in the two rows of terminal positioning grooves 305 on the upper and lower supporting surfaces 301 of the inner insulator 300, and the contact portions 82 and the extension portions 83 of the two rows of terminals 80 are flat and abutted. On the two supporting surfaces 301, the connecting material bridges 81 of the four terminals in the middle of the two rows of terminals are flat against the two concave surfaces 307, so that the length of the suspended length of the two rows of connecting material bridges 81 is short, and most of the pins of the two rows of terminals The end section of 84 is at the same level. The rear main material belts of the three-material belts 910, 900, 910' are horizontally bonded up and down, and the two front sub-material belts 912 are horizontally bonded to the upper and lower sides of the auxiliary material belt 903, and two convex parts are pressed together. The column forms a two-rivet piece 918 so that the three-material belts 910, 900, and 910' are combined and fixed.

5.請參閱圖6，自該內絕緣體300之上下二支撐面301之二排隔欄之後段實施冷衝擊或熱熔而形成一卡定構造309，該卡定構造309固定該二排端子 80之延伸部83，使該二排端子80不可移動。 5. Please refer to FIG. 6, from the rear section of the two rows of partitions between the upper and lower support surfaces 301 of the inner insulator 300, cold shock or heat fusion is applied to form a locking structure 309, which fixes the two rows of terminals The extension 83 of the 80 makes the two rows of terminals 80 immovable.

6.請參閱圖7及圖7A，斷開該二前子料帶912及副料帶903的前段。 6. Please refer to FIG. 7 and FIG. 7A to disconnect the front section of the two front sub-bands 912 and the sub-band 903.

7.請參閱圖8，接著二次注塑埋入射出成型一外絕緣體77而形成一絕緣座體70，該絕緣座體70之構造如前述，該二排端子80、一金屬隔板90及內絕緣體300埋入固定於外絕緣體77，外絕緣體77覆蓋將二排端子80之前端及金屬隔板90之前端。 7. Please refer to Fig. 8, and then two-shot injection molding an outer insulator 77 to form an insulating base 70. The structure of the insulating base 70 is as described above. The two rows of terminals 80, a metal partition 90 and the inner The insulator 300 is embedded and fixed in the outer insulator 77, and the outer insulator 77 covers the front end of the two rows of terminals 80 and the front end of the metal partition 90.

8.請參閱圖9，將該副料帶903後段斷開，該基座之凹環套合一防水圈750，接著，提供一金屬外殼340，該金屬外殼340之構造如前述，該金屬外殼340由前而後組裝入該絕緣座體70，如圖10所示。 8. Please refer to Figure 9, the rear section of the secondary strip 903 is disconnected, the concave ring of the base is fitted with a waterproof ring 750, and then a metal shell 340 is provided. The structure of the metal shell 340 is as described above. 340 is assembled into the insulating base 70 from front to back, as shown in FIG. 10.

9.最後斷開該多數的料橋917即完成。 9. Finally, the majority of material bridges 917 are disconnected to complete.

另外，在製造上亦可不需如圖6實施冷衝擊或熱熔而形成一卡定構造固定該二排端子80之延伸部83的況態下，該二排端子80藉由二料帶910、910’的連結仍可穩固定位。 In addition, in manufacturing, there is no need to perform cold shock or hot fusion as shown in FIG. 6 to form a locking structure to fix the extension 83 of the two rows of terminals 80. The two rows of terminals 80 are made of two strips 910, The connection of 910' can still be firmly fixed in position.

請參閱圖11至圖13，系為第一實施例之第一變化實施，其中大致相同於第一實施例，其中差異在於，本變化實施系為板上型之雙向雙面USB TYPE-C 3.0電連接插座，該二排端子80各為12個，如圖57所示，上排端子以A表示，接點電路序號由左至右排列依序為A1、A2、A3…A12，下排端子以B表示，接點電路序號由左至右排列依序為B12、B11、B10…B1，該下排端子80之多個接腳84的末段呈前後二排豎直排列，在製造該上下排端子80之多個接腳84的後端系連接於一後子料帶913；另外該兩連接面後段722套合設有一接地屏蔽件330。 Please refer to Figures 11 to 13, which are the first modified implementation of the first embodiment, which is roughly the same as the first embodiment, but the difference is that this modified implementation is an on-board bidirectional double-sided USB TYPE-C 3.0 Electrically connected to the socket, the two rows of terminals 80 each have 12, as shown in Figure 57, the upper row of terminals is represented by A, and the contact circuit numbers are arranged from left to right as A1, A2, A3...A12, and the lower row of terminals Denoted by B, the sequence numbers of the contact circuits are arranged from left to right as B12, B11, B10...B1. The end sections of the multiple pins 84 of the lower row of terminals 80 are arranged vertically in front and back rows. The rear ends of the pins 84 of the row terminal 80 are connected to a rear sub-band 913; in addition, the rear section 722 of the two connecting surfaces is sleeved with a grounding shield 330.

請參閱圖14，系為第一實施例之第二變化實施，其中大致相同於第一 實施例之第一變化實施，其中差異在於本變化實施為沉板型，該基座71的後段底面711較前段底面710為高，使基座71的後段形成一較後段底面711凹陷的空間713，該上排端子80之一排呈水準的接腳84較高于前段底面710，該下排端子80之多數呈豎直的接腳84呈前後二排排列位於該空間713，該二排端子80的延伸部83及該金屬隔板90皆向上彎折一階差。 Please refer to FIG. 14, which is the implementation of the second variation of the first embodiment, which is substantially the same as that of the first embodiment. The first variation of the embodiment is implemented. The difference is that the variation is implemented as a countersunk plate. The bottom surface 711 of the rear section of the base 71 is higher than the bottom surface 710 of the front section, so that the rear section of the base 71 forms a space 713 that is recessed from the bottom surface 711 of the rear section. A row of horizontal pins 84 of the upper row of terminals 80 is higher than the bottom surface 710 of the front section, and most of the pins 84 of the lower row of terminals 80 that are vertical are arranged in two rows of front and rear in the space 713, and the two rows of terminals The extension 83 of the 80 and the metal partition 90 are both bent upward by one step.

請參閱圖15，系為第一實施例之第三變化實施，其中大致相同於第一實施例之第一變化實施，其中差異在於本變化實施之下排端子80之二排豎直的接腳84，其中後排接腳之水準延伸段841較長於前排接腳之水準延伸段841。 Please refer to FIG. 15, which is the implementation of the third variation of the first embodiment, which is substantially the same as the implementation of the first variation of the first embodiment. The difference is that the two rows of vertical pins of the lower row of terminals 80 are implemented in this variation. 84. The horizontal extension 841 of the rear-row pins is longer than the horizontal extension 841 of the front-row pins.

請參閱圖16至圖19，系為第一實施例之第四變化實施，其中大致相同於第一實施例之第三變化實施，其中差異在於本變化實施之內絕緣體300之下方支撐面301的每一端子定位槽305後端設有一豎直卡槽310，該豎直卡槽310卡定下排端子之接腳84的豎直卡板842，如此可使下排端子80之二排豎直的接腳84有較佳的卡定效果，不致前後移動，另外該內絕緣體300向下一體設有至少一卡柱311。 Please refer to FIGS. 16 to 19, which are the fourth variation implementation of the first embodiment, which is substantially the same as the third variation implementation of the first embodiment, and the difference is that the lower support surface 301 of the inner insulator 300 in this variation implementation The rear end of each terminal positioning groove 305 is provided with a vertical clamping groove 310, which clamps the vertical clamping plate 842 of the pin 84 of the lower row of terminals, so that the two rows of the lower row of terminals 80 can be vertical The pin 84 has a better locking effect and will not move back and forth. In addition, the inner insulator 300 is integrally provided with at least one locking post 311 downward.

請參閱圖20，系為第一實施例之第五變化實施，其中大致相同於第二實施例之第八變化實施，其中差異在於本變化實施之二排端子80的延伸部及金屬隔板90皆向上彎折一階差。 Please refer to FIG. 20, which is the fifth implementation of the first embodiment, which is substantially the same as the eighth implementation of the second embodiment, and the difference lies in the extension of the two rows of terminals 80 and the metal partition 90 of the second embodiment. All bend upward by one step.

請參閱圖21，系為第一實施例之第六變化實施，其中大致相同於第一實施例之第五變化實施。 Please refer to FIG. 21, which is the sixth modification implementation of the first embodiment, which is substantially the same as the fifth modification implementation of the first embodiment.

請參閱圖22及至圖32，系為第一實施例之第七變化實施，其中大致相同於第一實施例及第一實施例之第一變化實施，其中差異在於本變化實施 在製造上如下： Please refer to FIG. 22 and FIG. 32, which are the seventh variation implementation of the first embodiment, which is roughly the same as the first embodiment and the first variation implementation of the first embodiment, and the difference lies in the implementation of this variation The manufacturing is as follows:

1.提供一金屬隔板90，請參閱圖24，該金屬隔板90在衝壓製造上系以金屬料片連續衝壓，該金屬隔板90衝壓完成時連接於一料帶900上，該金屬隔板90之構造如前述，該料帶900系設有一左右向延伸的前、後主料帶904、905，該前、後主料帶904、905藉由間隔之前後向料帶906相互連接，該金屬隔板90的後端左右側及左右側側連接有多數之料橋907，該多數之料橋907分別連接於該前、後主料帶904、905及多數之前後向料帶906，該前、後主料帶904、905、多數之前後向料帶906、多數之料橋907及金屬隔板90皆呈相同水準高度，該前、後主料帶904、905前後對齊各設有一定位孔901。 1. Provide a metal partition 90, please refer to FIG. 24. The metal partition 90 is continuously stamped with metal sheets in the stamping manufacturing process. The metal partition 90 is connected to a strip 900 when the stamping is completed. The structure of the plate 90 is as described above. The material belt 900 is provided with a front and rear main material belts 904, 905 extending left and right. The front and rear main material belts 904, 905 are connected to each other by spacing the front and rear material belts 906. A plurality of material bridges 907 are connected to the left and right sides of the rear end of the metal partition 90, and the plurality of material bridges 907 are respectively connected to the front and rear main material belts 904, 905 and a plurality of front and rear material belts 906. The front and rear main material belts 904, 905, most of the front and rear material belts 906, most of the material bridges 907, and the metal partition 90 are all at the same level. The front and rear main material belts 904, 905 are aligned front and rear. Positioning hole 901.

2.請參閱圖25，該金屬隔板90注塑埋入射出成型一內絕緣體300，該金屬隔板90埋入固定於該內絕緣體300之中間，該內絕緣體300設有上下二支撐面301及上下二凹面307，該二支撐面301分別凸出於該金屬隔板90之上下二板面91，該二凹面307位於該金屬隔板90之凹部95，凹面307較同面的支撐面301更為凹陷，該二支撐面301各凸出設有一排隔欄而各分隔成一排端子定位槽305。 2. Please refer to FIG. 25. The metal partition 90 is injection-embedded to form an inner insulator 300. The metal partition 90 is embedded and fixed in the middle of the inner insulator 300. The inner insulator 300 is provided with two upper and lower support surfaces 301 and Two upper and lower concave surfaces 307. The two supporting surfaces 301 respectively protrude from the upper and lower plate surfaces 91 of the metal partition 90. The two concave surfaces 307 are located in the recess 95 of the metal partition 90. The concave surface 307 is more than the support surface 301 of the same surface. In order to be recessed, each of the two supporting surfaces 301 is protrudingly provided with a row of partitions, and each is divided into a row of terminal positioning grooves 305.

3.提供上下二排端子80，該二排端子80在衝壓製造上系各以金屬料片連續衝壓，該二排端子80衝壓完成時各自連接於一料帶910、910’上，該二排端子80之構造如前述，該二料帶910、910’各設有一左右向延伸的前、後主料帶914、915及前、後子料帶912、913，該前、後主料帶904、905藉由間隔之前後向料帶916相互連接，每排端子80之一排連接料橋81的前端連接該前子料帶912且一排接腳84連接該後子料帶913，每排端子80其中兩側之二端子之延伸部83各連接一料橋917，該二料橋917連接于二前後向料帶 916，該前、該後主料帶914、915前後對齊各設有一定位孔911，該前、該後主料帶914、915之定位孔911左右側各設有一凸部922，該前、後主料帶914、915、多數之前後向料帶916、多數之料橋917及一排端子80之接觸部和延伸部皆呈相同水準高度。 3. Two rows of upper and lower terminals 80 are provided. The two rows of terminals 80 are each continuously stamped with metal sheets in the stamping manufacturing process. When the stamping is completed, the two rows of terminals 80 are connected to a strip 910, 910' respectively. The structure of the terminal 80 is as described above. Each of the two strips 910, 910' is provided with a front and rear main strips 914, 915 and front and rear sub-strips 912, 913 that extend left and right. The front and rear main strips 904 905 is connected to each other by spacing the front and back strips 916, each row of terminals 80 is connected to the front end of the bridge 81 to connect the front sub-band 912, and a row of pins 84 is connected to the rear sub-band 913, each row The extensions 83 of the two terminals on both sides of the terminal 80 are each connected to a material bridge 917, and the two material bridges 917 are connected to two front-to-rear material strips 916, the front and rear main material belts 914, 915 are aligned front and rear with a positioning hole 911, and the left and right sides of the positioning hole 911 of the front and rear main material belts 914, 915 are each provided with a convex portion 922. The contact parts and extension parts of the main material belts 914 and 915, most of the front and rear material belts 916, most of the material bridges 917, and a row of terminals 80 are all at the same level.

4.請參閱圖26，將上下二排端子80組裝於該內絕緣體300之上下二支撐面301之二排端子定位槽305，該二排端子80之接觸部82和延伸部83平貼抵接於該二支撐面301，二排端子的多數個端子之連接料橋平貼抵接於該二凹面307，如此二排連接料橋81懸空的長度較短，上排端子之多數接腳84的末段呈水準，下排端子之多數接腳84的末段呈二排豎直排列，三料帶910、900、910’的前、後主料帶上下疊合，二料帶910、910’藉由凸部922抵接料帶900，而不會懸空。 4. Referring to Figure 26, assemble the upper and lower two rows of terminals 80 into the two rows of terminal positioning grooves 305 on the upper and lower supporting surfaces 301 of the inner insulator 300, and the contact portions 82 and the extension portions 83 of the two rows of terminals 80 are flat and abutted. On the two supporting surfaces 301, the connecting material bridges of the plurality of terminals of the two rows of terminals are flat against the two concave surfaces 307, so that the length of the suspension of the two rows of connecting material bridges 81 is short, and the majority of pins 84 of the upper row of terminals The end section is level, the end section of the most pins 84 of the lower row of terminals is arranged in two rows vertically, the front and rear main strips of the three strips 910, 900, 910' are stacked up and down, and the two strips 910, 910' The protruding portion 922 abuts the material belt 900 without being suspended.

5.請參閱圖27，斷開二前子料帶912。 5. Please refer to Figure 27, disconnect the second front sub-band 912.

6.請參閱圖28，接著二次注塑埋入射出成型一外絕緣體77而形成一絕緣座體70，該絕緣座體70之構造如前述，該二排端子80、一金屬隔板90及內絕緣體300埋入固定於外絕緣體77，外絕緣體77覆蓋將二排端子80之前端及金屬隔板90之前端。 6. Please refer to FIG. 28. Then, an outer insulator 77 is formed by two-shot injection molding to form an insulating base 70. The structure of the insulating base 70 is as described above. The two rows of terminals 80, a metal partition 90 and the inner The insulator 300 is embedded and fixed in the outer insulator 77, and the outer insulator 77 covers the front end of the two rows of terminals 80 and the front end of the metal partition 90.

7.請參閱圖29，將二料帶910、910’斷開去除，僅留料帶900之後主料帶905及相連接之二料橋907。 7. Please refer to Figure 29 to disconnect and remove the two material belts 910 and 910', leaving only the main material belt 905 and the connected second material bridge 907 after the material belt 900.

8.請參閱圖30，提供一接地屏蔽件330及一接腳定位件320，由前而後將接地屏蔽件330組合於舌板之兩連接面後段，由下而上將接腳定位件320組裝定位於該絕緣座體70的基座的下方。 8. Please refer to Figure 30, provide a grounding shield 330 and a pin positioning member 320, combine the ground shield 330 on the back section of the two connecting surfaces of the tongue plate from front to back, and assemble the pin positioning member 320 from bottom to top It is located below the base of the insulating base body 70.

9.請參閱圖31，提供一金屬外殼340，該金屬外殼340之構造如前述， 該金屬外殼340由前而後組裝入該絕緣座體70，如圖32所示。 9. Please refer to FIG. 31 to provide a metal housing 340, the structure of the metal housing 340 is as described above, The metal shell 340 is assembled into the insulating base 70 from front to back, as shown in FIG. 32.

10.最後斷開該二料橋907即完成。 10. Finally, disconnect the second material bridge 907 to complete.

本變化實施，在製造上，三料帶910、900、910’之多數之前後向料帶906、916皆錯開不重疊且多數之料橋907、917之斷開位置亦錯開不重疊。 In the implementation of this change, in terms of manufacturing, most of the front and back tapes 906, 916 of the three material belts 910, 900, 910' are staggered and do not overlap, and the break positions of most of the material bridges 907, 917 are also staggered and do not overlap.

請參閱圖33和圖34，系為第一實施例之第八變化實施，其中大致相同於第一實施例之第七變化實施，其中差異在於，本變化實施之金屬隔板90與內絕緣體300系為組裝的結合，該金屬隔板90系中段透空而呈分開並位於二側之二金屬板片99，該二金屬板片99的外側各設有一卡扣93，該內絕緣體300之左右側各設有一套接槽312，該套接槽312系設有相互上下錯開之上卡面314及下卡面313，該金屬隔板90之二金屬板片99由後向前組裝定位於該二套接槽312。 Please refer to FIG. 33 and FIG. 34, which are the eighth implementation of the first embodiment, which is substantially the same as the seventh implementation of the first embodiment. The difference is that the metal partition 90 and the inner insulator 300 of the first embodiment are different from each other. It is an assembled combination. The middle section of the metal partition 90 is vented to form two metal plates 99 that are separated and located on two sides. A buckle 93 is provided on the outer side of the two metal plates 99. The left and right sides of the inner insulator 300 Each side is provided with a socket groove 312. The socket groove 312 is provided with an upper card surface 314 and a lower card surface 313 which are staggered up and down. The two metal plates 99 of the metal partition 90 are assembled and positioned in the Two socket slot 312.

請參閱圖35至圖45，系為第一實施例之第九變化實施，其中大致相同於第一實施例及第一實施例之第七變化實施，其中差異在於本變化實施之內絕緣體300的後段向下延伸一豎直部315，該豎直部315的前、後面各設有一排豎直卡槽310，該豎直部315的前、後面的二排豎直卡槽310可卡定二排端子80之接腳84的的豎直卡板842，如此可使下排端子80之二排豎直的接腳84有較佳的卡定效果，不致前後移動，如圖135、138、139及140所示，另外，內絕緣體300的二支撐面301上之各端子定位槽305設有一凸部306，各端子80之延伸部83設有一凹部89，各端子80之凹部89與各端子定位槽305之凸部306卡合定位，限制各端子的前後移動，藉由各端子80與各端子定位槽305之卡合定位，並非迫緊卡定，可達到較佳的高頻傳輸效果。 Please refer to FIGS. 35 to 45, which are the ninth variation implementation of the first embodiment, which is substantially the same as the first embodiment and the seventh variation implementation of the first embodiment, and the difference lies in the internal insulator 300 implementation of this variation. The rear section extends downwards with a vertical portion 315. The front and back of the vertical portion 315 are each provided with a row of vertical clamping slots 310. The two rows of vertical clamping slots 310 at the front and rear of the vertical portion 315 can be locked in two rows. The vertical clamping plate 842 of the pin 84 of the row of terminals 80 can make the two rows of vertical pins 84 of the lower row of terminals 80 have a better locking effect, and will not move back and forth, as shown in Figures 135, 138, and 139. And 140, in addition, each terminal positioning groove 305 on the two supporting surfaces 301 of the inner insulator 300 is provided with a convex portion 306, the extension portion 83 of each terminal 80 is provided with a concave portion 89, and the concave portion 89 of each terminal 80 is positioned with each terminal The protrusion 306 of the groove 305 is locked and positioned to limit the front and back movement of each terminal. By the locking and positioning of each terminal 80 and each terminal positioning groove 305, it is not tightly locked, and a better high-frequency transmission effect can be achieved.

圖36至圖45為本變化實施的製造流程，大致相同於第一實施例及第一實 施例之第七變化實施。 Figures 36 to 45 are the manufacturing processes implemented by this change, which are roughly the same as those of the first embodiment and the first embodiment. The seventh change of the example was implemented.

請參閱圖46，系為第一實施例之第十變化實施，其中大致相同於第一實施例及第一實施例之第七變化實施，其中差異在於本變化實施之金屬隔板90，系中段透空而呈分開並位於二側之二金屬板片99及一中間之金屬板片98，該二金屬板片99的外側各設有一卡扣93，該二金屬板片99系可分隔該二排端子80其中的接點電路序號2,3一對高分差訊號端子(TX+,TX-)，及接點電路序號10,11的另一對高分差訊號端子(RX+,RX-)，即該二金屬板片99與該二排端子80其中的接點電路序號2,3一對高分差訊號端子(TX+,TX-)、接點電路序號10,11的另一對高分差訊號端子(RX+,RX-)及接點電路序號1,12的一對接地端子在上下方向重疊，且該二金屬板片99與該二排端子80其中的接點電路序號4,9一對電源端子在上下方向重疊。 Please refer to FIG. 46, which is the tenth variation of the first embodiment, which is roughly the same as the first embodiment and the seventh variation of the first embodiment. The difference is that the metal partition 90 of this variation is the middle section. There are two metal plates 99 and a middle metal plate 98 that are open and separated and located on two sides. A buckle 93 is provided on the outer side of the two metal plates 99. The two metal plates 99 can separate the two metal plates 99. A pair of high-differential signal terminals (TX+, TX-) of contact circuit numbers in row terminal 80, and another pair of high-differential signal terminals (RX+, RX-) of contact circuit numbers 10 and 11, That is, the contact circuit numbers of the two metal plates 99 and the two rows of terminals 80 are 2, 3, a pair of high-score signal terminals (TX+, TX-), and the other pair of high-scores of the contact circuit number 10, 11. The signal terminals (RX+, RX-) and the pair of ground terminals of contact circuit numbers 1, 12 overlap in the up and down direction, and the two metal plates 99 and the two rows of terminals 80 have a pair of contact circuit numbers 4 and 9 The power terminals overlap in the vertical direction.

如此可達到較佳的高頻傳輸效果，且可確保對電源端子不會碰觸金屬板片99，確保對電源端子和接地端子不會造成短路。 In this way, a better high-frequency transmission effect can be achieved, and it can ensure that the power terminal will not touch the metal plate 99, and it will not cause a short circuit to the power terminal and the ground terminal.

在製造上，該金屬隔板90和內絕緣體300采埋入塑膠射出一體成型後，副料帶903、9010再斷。 In terms of manufacturing, after the metal partition 90 and the inner insulator 300 are embedded and injected into a single piece, the auxiliary material belts 903 and 9010 are broken again.

請參閱圖47，系為第一實施例之第十一變化實施，其中大致相同於第一實施例及第一實施例之第九變化實施，其中差異在於本變化實施沒有中間之金屬板片98。 Please refer to FIG. 47, which is the implementation of the eleventh variation of the first embodiment, which is substantially the same as the implementation of the ninth variation of the first embodiment and the first embodiment, and the difference is that the implementation of this variation does not have an intermediate metal plate 98 .

請參閱圖48，系為第一實施例之第十二變化實施，其中大致相同於第一實施例及第一實施例之第十一變化實施，其中差異在於本變化實施沒有中間之金屬板片98為二個。 Please refer to FIG. 48, which is the implementation of the twelfth variation of the first embodiment, which is roughly the same as the implementation of the first embodiment and the eleventh variation of the first embodiment, and the difference is that the implementation of this variation does not have a metal plate in between 98 is two.

請參閱圖49，系為第一實施例之第十三變化實施，其中大致相同於第 一實施例及第一實施例之第十變化實施，其中差異在於本變化實施為沉板型。 Please refer to Figure 49, which is the implementation of the thirteenth variation of the first embodiment, which is roughly the same as that of the first embodiment. The tenth variation of the first embodiment and the first embodiment is implemented. The difference is that the variation is implemented as a sinker type.

請參閱圖50，系為第一實施例之第十四變化實施，其中大致相同於第一實施例及第一實施例之第十變化實施，其中差異在於本變化實施為較高型。 Please refer to FIG. 50, which is the fourteenth variation implementation of the first embodiment, which is substantially the same as the first embodiment and the tenth variation implementation of the first embodiment, and the difference is that the implementation of this variation is a higher type.

請參閱圖51至圖58，系為第一實施例之第十五變化實施，其中大致相同於第一實施例及第一實施例之第九變化實施，其中差異在於本變化實施之內絕緣體300的二支撐面301上之各端子定位槽305設有一凸部306，各端子80之延伸部83設有一凹部89，各端子80之凹部89與各端子定位槽305之凸部306卡合定位，限制各端子的前後移動，如圖52及圖54所示，藉由各端子80與各端子定位槽305之卡合定位，並非迫緊卡定，可達到較佳的高頻傳輸效果。另外，本變化實施之金屬隔板90，系中段透空而呈分開並位於二側之二金屬板片99及中間之二金屬板片98，該二金屬板片99的外側各設有一卡扣93，該二金屬板片99與該二排端子80其中的接點電路序號1,12的一對接地端子在上下方向重疊，且該二金屬板片99與該二排端子80其中的接點電路序號4,9一對電源端子在上下方向重疊，如此可達到確保對電源端子不會碰觸金屬板片99，確保對電源端子和接地端子不會造成短路。 Please refer to FIGS. 51 to 58, which are the fifteenth variation implementation of the first embodiment, which is substantially the same as the first embodiment and the ninth variation implementation of the first embodiment, and the difference lies in the inner insulator 300 implemented in this variation. Each terminal positioning groove 305 on the two supporting surfaces 301 is provided with a convex portion 306, and the extension portion 83 of each terminal 80 is provided with a concave portion 89. The concave portion 89 of each terminal 80 and the convex portion 306 of each terminal positioning groove 305 are engaged and positioned. The front and back movement of each terminal is restricted, as shown in FIG. 52 and FIG. 54. By the engagement and positioning of each terminal 80 and each terminal positioning groove 305, it is not tightly locked, and a better high-frequency transmission effect can be achieved. In addition, the metal partition 90 implemented in this variation is hollowed out in the middle section and is divided into two metal plates 99 and two metal plates 98 located on the two sides. Each of the two metal plates 99 is provided with a buckle on the outside. 93. The two metal plates 99 and a pair of grounding terminals with circuit numbers 1, 12 of the two rows of terminals 80 overlap in the vertical direction, and the two metal plates 99 and the two rows of terminals 80 have contacts Circuit Nos. 4 and 9 of the pair of power terminals overlap in the up and down direction, so as to ensure that the power terminals will not touch the metal plate 99, and that the power terminals and ground terminals will not be short-circuited.

請參閱圖59，系為第一實施例之第十六變化實施，其中大致相同於第一實施例之第十五變化實施。 Please refer to FIG. 59, which is the implementation of the sixteenth variation of the first embodiment, which is substantially the same as the implementation of the fifteenth variation of the first embodiment.

請參閱圖60，系為第一實施例之第十七變化實施，其中大致相同於第一實施例之第十五變化實施，其中差異在於本變化實施之該二排端子80其中的各接地端子及各電源端子的延伸部83之寬度較其他端子為寬。 Please refer to FIG. 60, which is the seventeenth modification implementation of the first embodiment, which is substantially the same as the fifteenth modification implementation of the first embodiment, and the difference lies in the grounding terminals of the two rows of terminals 80 in this modification implementation The width of the extension 83 of each power terminal is wider than that of other terminals.

請參閱圖61至圖64，系為第一實施例之第十八變化實施，本變化實施系為雙向雙面USB TYPE-C 2.0電連接插座，該二排端子80各為8個其中大致相同於第一實施例及第一實施例之第十五和第十六變化實施，其中差異在於本變化實施之二卡扣93設有較厚的金屬板片930，該二卡扣各設有金屬材質之一凹陷底面931及一卡定面932，該金屬板片930前端設有一凹部935。 Please refer to Figure 61 to Figure 64, which are the eighteenth variation of the first embodiment. This variation is implemented as a two-way double-sided USB TYPE-C 2.0 electrical connection socket. The two rows of terminals 80 each have 8 terminals, which are roughly the same. In the first embodiment and the fifteenth and sixteenth variations of the first embodiment, the difference is that the second buckle 93 of this variation is provided with a thicker metal plate 930, and each of the two buckles is provided with metal One of the materials is a concave bottom surface 931 and a locking surface 932. The front end of the metal plate 930 is provided with a concave portion 935.

請參閱圖62，該內絕緣體300與該二卡扣93系採用埋入塑膠射出成型構造，該二金屬板片930的凹部935可注入塑膠而與該內絕緣體300結合更為穩固，該內絕緣體300的上下二支撐面301與該金屬板片930的上下面齊平。 Please refer to FIG. 62. The inner insulator 300 and the two buckles 93 adopt an embedded plastic injection molding structure. The recesses 935 of the two metal plates 930 can be injected with plastic to be more firmly combined with the inner insulator 300. The inner insulator The upper and lower supporting surfaces 301 of the 300 are flush with the upper and lower surfaces of the metal plate 930.

請參閱圖63，該二排端子80上下置放於該內絕緣體300的上下二支撐面301的端子定位槽305，該二排端子80其中兩側的接地端子系抵接貼合於該金屬板片930的上下面。 Referring to FIG. 63, the two rows of terminals 80 are placed up and down in the terminal positioning grooves 305 of the upper and lower supporting surfaces 301 of the inner insulator 300, and the ground terminals on both sides of the two rows of terminals 80 are abutted and attached to the metal plate The top and bottom of the film 930.

請參閱圖64，接著二次注塑埋入射出成型一外絕緣體77而形成一絕緣座體70，該絕緣座體70之構造如前述，該二排端子80、一金屬隔板90及內絕緣體300埋入固定於外絕緣體77，外絕緣體77覆蓋該二排端子80之前端。 Please refer to FIG. 64. Then, an outer insulator 77 is formed by two-shot injection molding to form an insulating base body 70. The structure of the insulating base body 70 is as described above. The two rows of terminals 80, a metal partition 90 and the inner insulator 300 It is embedded and fixed in the outer insulator 77, and the outer insulator 77 covers the front ends of the two rows of terminals 80.

請參閱圖65至圖68，系為第一實施例之第十九變化實施，本變化實施系為雙向雙面USB TYPE-C 3.0電連接插座，該二排端子80各為12個，其中大致相同於第一實施例及第一實施例之第十八和第九變化實施，其中差異在於本變化實施之二卡扣93之較厚的金屬板片930各卡接一較薄的金屬板片100，作為分隔該二排端子80其中的接點電路序號2,3一對高分差訊號端子(TX+,TX-)，及接點電路序號10,11的另一對高分差訊號端子(RX+,RX-)。 Please refer to Figure 65 to Figure 68, which are the nineteenth variation implementation of the first embodiment. This variation implementation is a two-way double-sided USB TYPE-C 3.0 electrical connection socket. The two rows of terminals 80 each have 12, of which roughly Same as the first embodiment and the eighteenth and ninth variations of the first embodiment, the difference lies in the second implementation of this variation, the thicker metal plate 930 of the buckle 93 is each snapped to a thinner metal plate 100, as a pair of high-differential signal terminals (TX+, TX-) of contact circuit numbers 2 and 3 which separate the two rows of terminals 80, and another pair of high-differential signal terminals ( RX+,RX-).

請參閱圖69至圖71，系為第一實施例之第二十變化實施，本變化實施系為雙向雙面USB TYPE-C 2.0電連接插座，該二排端子80各為8個其中大致 相同於第一實施例及第一實施例之第十七變化實施，其中差異在於本變化實施之二卡扣93的金屬板片系為三層薄金屬板疊合而成，二卡扣93之間分隔設有二金屬板片110，該二金屬板片110亦為三層薄金屬板疊合而成。 Please refer to Figure 69 to Figure 71, which is the implementation of the twentieth variation of the first embodiment. The implementation of this variation is a two-way double-sided USB TYPE-C 2.0 electrical connection socket. The two rows of terminals 80 each have 8 terminals. The seventeenth variation implementation is the same as the first embodiment and the first embodiment. The difference is that the metal plate of the second buckle 93 in the implementation of this variation is composed of three layers of thin metal plates. Two metal plates 110 are separated between them, and the two metal plates 110 are also formed by stacking three layers of thin metal plates.

請參閱圖70，該內絕緣體300與該二卡扣93和該二金屬板片110系採用埋入塑膠射出成型構造，的凹部935可注入塑膠而與該內絕緣體300結合更為穩固，該內絕緣體300的上下二支撐面301與該金屬板片930、110的上下面齊平。 Referring to FIG. 70, the inner insulator 300, the two buckles 93 and the two metal plates 110 adopt an embedded plastic injection molding structure. The concave portion 935 can be injected with plastic to be more firmly combined with the inner insulator 300. The upper and lower supporting surfaces 301 of the insulator 300 are flush with the upper and lower surfaces of the metal plates 930 and 110.

將該二排端子80上下置放於該內絕緣體300的上下二支撐面301的端子定位槽305時，該二排端子80其中兩側的接地端子系抵接貼合於該金屬板片930的上下面，該二排端子80其中中間的二電源端子系抵接貼合於該金屬板片110的上下面，如此該二排端子80其中上下對齊的二對電源端子和二對接地端子，每對上下端子皆成電連接。 When the two rows of terminals 80 are placed up and down in the terminal positioning grooves 305 of the upper and lower supporting surfaces 301 of the inner insulator 300, the ground terminals on both sides of the two rows of terminals 80 abut against the metal plate 930 On the upper and lower sides, the two power terminals in the middle of the two rows of terminals 80 are abutted and attached to the upper and lower sides of the metal plate 110, so that the two rows of terminals 80 have two pairs of power terminals and two pairs of ground terminals aligned up and down, each The upper and lower terminals are electrically connected.

請參閱圖71，接著二次注塑埋入射出成型一外絕緣體77而形成一絕緣座體70。 Referring to FIG. 71, an outer insulator 77 is then formed by two-shot injection molding to form an insulating base body 70.

請參閱圖72，系為第一實施例之第二十一變化實施，其大致相同於第一實施例及第一實施例之第二十變化實施，其中差異在於本變化實施之二金屬板片110之中間層薄金屬板115是一體相連，如此增加導電面積。 Please refer to FIG. 72, which is the twenty-first variation implementation of the first embodiment, which is roughly the same as the first embodiment and the twentieth variation implementation of the first embodiment, and the difference lies in the two metal plates implemented in this variation The thin metal plates 115 of the middle layer of 110 are integrally connected, thus increasing the conductive area.

請參閱圖73至圖74，系為本發明第二實施例，本實施例為一充電型之雙向雙面USB TYPE-C 2.0電連接插座，其大致與第一實施例相同，其中差異在於：本實施例之上下二排接觸部系設於二接地端子86及二電源端子87。該接地端子86設有一厚板體88，該厚板體88系為一金屬板片反折疊合而成，該厚板體88的上、下面各為一平面的接觸部82，該厚板體88的前端一側設有 一卡扣93，該卡扣93設有金屬材質之一凹陷底面931及一卡定面932。 Please refer to Figures 73 to 74, which are the second embodiment of the present invention. This embodiment is a rechargeable two-way double-sided USB TYPE-C 2.0 electrical connection socket, which is roughly the same as the first embodiment, with the differences in: In this embodiment, the upper and lower rows of contact portions are provided on the two ground terminals 86 and the two power terminals 87. The ground terminal 86 is provided with a thick plate body 88, which is formed by folding a sheet of metal inversely. The upper and lower sides of the thick plate body 88 are each a flat contact portion 82. The thick plate body 88 The front end of the 88 has A buckle 93, the buckle 93 is provided with a concave bottom surface 931 and a locking surface 932 made of metal.

該電源端子87設有一厚板體88，該厚板體88系為一金屬板片反折疊合而成，該厚板體88的上、下面各為一平面的接觸部82，該接觸部82的二側各設有導斜角85。 The power terminal 87 is provided with a thick plate body 88, which is formed by folding a sheet of metal inversely. The upper and lower sides of the thick plate body 88 are each a flat contact portion 82. The contact portion 82 Guide angles 85 are provided on both sides of the.

該二接地端子86及二電源端子87與該絕緣座體70系採用埋入塑膠射出成型構造，各接地端子86的上下接觸部82及各電源端子87的上下接觸部82皆漏出且略凸出該絕緣座體70的舌板72的兩連接面前段721，該二卡扣93之凹陷底面931及卡定面932露出該舌板之左右二側邊。 The two ground terminals 86 and the two power terminals 87 and the insulating base body 70 adopt an embedded plastic injection molding structure. The upper and lower contact portions 82 of each ground terminal 86 and the upper and lower contact portions 82 of each power terminal 87 all leak and slightly protrude The two tongue plates 72 of the insulating base 70 are connected to the front section 721, and the concave bottom surface 931 and the locking surface 932 of the two buckles 93 expose the left and right sides of the tongue plate.

藉由該二接地端子86及二電源端子87的厚板體88的設計可達到具有較大的傳導截面積，且上下二排接觸部82，其中相同接地電路的上下接觸部82成電連接，相同電源電路的上下接觸部82成電連接。 With the design of the thick plate body 88 of the two ground terminals 86 and the two power terminals 87, a larger conductive cross-sectional area can be achieved, and the upper and lower rows of contact portions 82, wherein the upper and lower contact portions 82 of the same grounding circuit are electrically connected, The upper and lower contacts 82 of the same power circuit are electrically connected.

請參閱圖75至圖76，系為第二實施例之第一變化實施，其大致相同於第二實施例，其中差異在於本變化實施之上下二排接觸部82各為5個，上下排各增加一接點電路序號5之端子80。 Please refer to FIGS. 75 to 76, which are the implementation of the first variation of the second embodiment, which is roughly the same as the second embodiment. The difference lies in the implementation of this variation that there are 5 upper and lower rows of contact portions 82, and each of the upper and lower rows Add a terminal 80 of the serial number 5 of the contact circuit.

請參閱圖77至圖79，系為第二實施例之第二變化實施，其大致相同於第二實施例，其中差異在於本變化實施之上下二排接觸部82各為8個，該二電源端子87之間設有上下二排端子80，每排端子80各為4個且接點電路序號為5至8，該二排端子80之二排接觸部82之間設有一絕緣層78藉以相互分隔。 Please refer to FIGS. 77 to 79, which are the second variation implementation of the second embodiment, which is roughly the same as the second embodiment. The difference is that there are 8 upper and lower rows of contact portions 82 in the implementation of this variation, and the two power sources Two rows of upper and lower terminals 80 are arranged between the terminals 87. Each row of terminals 80 has 4 and the contact circuit number is 5 to 8. An insulating layer 78 is provided between the two rows of contact portions 82 of the two rows of terminals 80 to mutually Separated.

該二接地端子86、二電源端子87及二排端子80與該絕緣座體70系採用埋入塑膠射出成型構造，上下二排接觸部82皆漏出且略凸出該絕緣座體70的舌板72的兩連接面前段721，該二卡扣93之凹陷底面931及卡定面932露出該舌板之左右二側邊。 The two ground terminals 86, the two power terminals 87, and the two rows of terminals 80 and the insulating base 70 adopt an embedded plastic injection molding structure, and the upper and lower rows of contact portions 82 all leak out and slightly protrude from the tongue of the insulating base 70 The two parts 72 are connected to the front section 721, and the concave bottom surface 931 and the locking surface 932 of the two buckles 93 expose the left and right sides of the tongue plate.

請參閱圖80至圖84，系為第二實施例之第三變化實施，其大致相同於第二實施例之第二變化實施，其中差異在於本變化實施之該二接地端子86、二電源端子87及上排端子80與一內絕緣體300系採用埋入塑膠射出成型構造，該內絕緣體300於下面成型一排端子定位槽305。 Please refer to FIGS. 80 to 84, which are the implementation of the third variation of the second embodiment, which is roughly the same as the implementation of the second variation of the second embodiment. The difference lies in the two ground terminals 86 and the two power terminals of this variation. 87 and the upper row of terminals 80 and an inner insulator 300 adopt an embedded plastic injection molding structure, and the inner insulator 300 has a row of terminal positioning grooves 305 formed on the bottom.

請參閱圖83，將下排端子80排置於該內絕緣體300下面之一排端子定位槽305。 Referring to FIG. 83, the lower row of terminals 80 is placed in a row of terminal positioning grooves 305 under the inner insulator 300.

請參閱圖84，接著再二次注塑埋入射出成型一外絕緣體77而形成一絕緣座體70，該絕緣座體70之構造如前述，該內絕緣體300埋入固定於該外絕緣體77。 Please refer to FIG. 84. Then, an outer insulator 77 is formed by two-shot injection molding to form an insulating base 70. The structure of the insulating base 70 is as described above, and the inner insulator 300 is embedded and fixed to the outer insulator 77.

請參閱圖85至圖88，系為第二實施例之第四變化實施，其大致相同於第二實施例之第二變化實施，其中差異在於本變化實施之該二接地端子86和二電源端子87之厚板體88系採用一個厚金屬板。 Please refer to FIGS. 85 to 88, which are the fourth variation implementation of the second embodiment, which is roughly the same as the second variation implementation of the second embodiment, and the difference lies in the two ground terminals 86 and the two power terminals of this variation implementation The thick plate body 88 of 87 adopts a thick metal plate.

請參閱圖86，該二接地端子86、二電源端子87與一內絕緣體300系採用埋入塑膠射出成型構造，該內絕緣體300於上、下面各成型一排端子定位槽305。 Please refer to FIG. 86. The two ground terminals 86, the two power terminals 87 and the inner insulator 300 adopt an embedded plastic injection molding structure. The inner insulator 300 has a row of terminal positioning grooves 305 formed on the upper and lower sides of the inner insulator 300.

請參閱圖87，將二排端子80排置於該內絕緣體300上、下面之二排端子定位槽305。 Referring to FIG. 87, the two rows of terminals 80 are placed in the two rows of terminal positioning grooves 305 on the upper and lower sides of the inner insulator 300.

請參閱圖88，接著再二次注塑埋入射出成型一外絕緣體77而形成一絕緣座體70，該絕緣座體70之構造如前述，該內絕緣體300埋入固定於該外絕緣體77。 Referring to FIG. 88, an outer insulator 77 is formed by two-shot injection molding to form an insulating base 70. The structure of the insulating base 70 is as described above, and the inner insulator 300 is embedded and fixed to the outer insulator 77.

請參閱圖89至圖93，系為第一實施例之第五變化實施，本變化實施系為雙向雙面USB TYPE-C 3.0電連接插座，上下二排接觸部82各為12個，其大 致相同於第二實施例之第四變化實施及第一實施例之第十九變化實施，其中差異在於本變化實施之該二接地端子86系各卡接一較薄的金屬板片100，作為分隔該二排端子80其中的接點電路序號2,3一對高分差訊號端子(TX+,TX-)，及接點電路序號10,11的另一對高分差訊號端子(RX+,RX-)，且上下電源接觸部並非設於是一體的端子，該二排端子80各為10個，即接點電路序號2至11的端子。 Please refer to Figure 89 to Figure 93, which is the implementation of the fifth variation of the first embodiment. The implementation of this variation is a two-way double-sided USB TYPE-C 3.0 electrical connection socket. There are 12 upper and lower rows of contact parts 82, which are larger It is the same as the fourth variation implementation of the second embodiment and the nineteenth variation implementation of the first embodiment. The difference is that the two ground terminals 86 of this variation implementation are each clipped with a thinner metal plate 100, as Separate the two rows of terminals 80 in which the contact circuit numbers 2,3 are a pair of high-differential signal terminals (TX+, TX-), and the other pair of high-differential signal terminals (RX+, RX+, RX) with contact circuit numbers 10 and 11 -), and the upper and lower power contact parts are not provided in an integral terminal, the two rows of terminals 80 each have 10, that is, the terminals of the contact circuit number 2 to 11.

請參閱圖94，系為第二實施例之第六變化實施，其大致相同於第二實施例，其中差異在於本變化實施之該二接地端子86和二電源端子87之厚板體系採用一個厚金屬板，在製造上系以一厚金屬板衝壓下料成型，形成大U包小U形體，二接地端子86一體相連，二電源端子86一體相連。 Please refer to FIG. 94, which is the sixth variation implementation of the second embodiment, which is roughly the same as the second embodiment. The difference is that the thick plate system of the two ground terminals 86 and the two power terminals 87 used in the variation implementation uses a thick plate system. The metal plate is manufactured by stamping and forming a thick metal plate to form a large U package and a small U-shaped body. The two ground terminals 86 are integrally connected, and the two power terminals 86 are integrally connected.

如上述之TYPE C公頭或母座其中設有滿PIN(12PIN)或有RX+,RX-及TX+,TX-接觸端子的圖面實施例，皆可將該金屬隔板的開孔填滿形成該金屬隔板為全遮罩的無開孔結構，使能完全遮罩上下對齊的RX+,RX-及TX+,TX-接觸部，且將該金屬隔板的左右二側邊設置抵接彈片電性導接該金屬外殼，使能達到最佳的電性遮罩效果，以防止高頻傳輸訊號的串音及EMI的電磁干擾，並且也可於TYPE C母座之該金屬隔板左右二側邊設置抵接彈片電性導接該舌板後段的金屬接地環，也可同時使該金屬隔板可電性導接該金屬外殼達到良好之電性遮罩效果，藉以減少RX+,RX-與TX+,TX-接觸端子傳輸訊號之電性干擾而更加有利於高速傳輸。 For example, the above-mentioned TYPE C male or female connector is provided with full PIN (12PIN) or RX+, RX- and TX+, TX- contact terminals in the drawing embodiment, all of which can be formed by filling the openings of the metal partition The metal partition is a fully shielded non-opening structure, which enables the RX+, RX- and TX+, TX- contact parts aligned up and down to be completely shielded, and the left and right sides of the metal partition are provided with abutting shrapnel electrical Conductively connect the metal shell to achieve the best electrical shielding effect to prevent crosstalk of high-frequency transmission signals and EMI electromagnetic interference, and it can also be installed on the left and right sides of the metal partition of the TYPE C female seat A metal grounding ring is provided on the side of the contact elastic sheet to electrically connect to the rear section of the tongue plate, and at the same time, the metal partition can be electrically connected to the metal shell to achieve a good electrical shielding effect, thereby reducing RX+, RX- and The electrical interference of TX+, TX- contact terminal transmission signal is more conducive to high-speed transmission.

本發明各實施例之雙向雙面電連接器可設於各種類型的設備中並與各種類型的設備連接，所述設備諸如是轉接線或轉接器或轉接裝置或滑鼠或鍵盤或電源供應器或滑鼠或耳機及機殼與周邊配件產品等或隨身碟或U盤 或行動硬碟或各種儲存設備或儀器或行動電源或充電寶或充電器或牆插充電器或擴充座或擴充器或筆記型電腦或平板電腦或手機或各種投影設備產品或各種無線充電器或各種無線設備產品或機上盒或伺服器或桌上型電腦或各種移動可攜式電子設備儀器或電視或遊戲機或各種電競設備產品或各種影音設備產品或各種耳機或麥克風或擴音器或各種電子燈具照明設備產品或各種電風扇電器或各種電子零件或各種AR或VR電子設備產品或各種其他適用或可應用之電子設備產品。 The bidirectional double-sided electrical connector of each embodiment of the present invention can be installed in various types of equipment and connected to various types of equipment, such as a patch cord or an adapter or an adapter device, a mouse or a keyboard, or Power supply or mouse or earphone, case and peripheral accessories, etc. or pen drive or U disk Or mobile hard drives or various storage devices or instruments or power banks or power banks or chargers or wall chargers or docking stations or extenders or laptops or tablets or mobile phones or various projection equipment products or various wireless chargers or Various wireless equipment products or set-top boxes or servers or desktop computers or various mobile portable electronic equipment or televisions or game consoles or various e-sports equipment products or various audio-visual equipment products or various headsets or microphones or amplifiers Or various electronic lamps and lighting equipment products or various electric fans, electrical appliances or various electronic parts or various AR or VR electronic equipment products or various other applicable or applicable electronic equipment products.

另外，本發明雙向雙面電連接器，由於有二接觸介面故亦可配合使用蕭基二極體或電阻或過敏電阻或電容或磁珠等防過電壓或防超載電流或防過熱高溫或防短路或防逆流作為電路安全保護，然而亦有多種方式如設置蕭基二極體防短路或電阻或過敏電阻或電容或磁珠等防過電壓或防超載電流或防過熱高溫或防逆流電子元件或防短路電子元件或電路安全保護元件或安全電路設置手段，藉以達到電路安全保護效果。 In addition, the two-way double-sided electrical connector of the present invention can also be used in conjunction with Schottky diodes or resistors or allergy resistors or capacitors or magnetic beads due to its two contact interfaces. Short circuit or anti-backflow is used as circuit safety protection. However, there are also many ways to prevent short-circuit or resistance or allergy resistance or capacitor or magnetic beads, such as anti-overvoltage or overload current, or overheat high temperature or anti-backflow electronic components. Or short-circuit-proof electronic components or circuit safety protection components or safety circuit setting means to achieve the circuit safety protection effect.

本發明上述電連接插座實施例皆可為直立式型態，即連接槽之***口朝上，連接板呈豎直向上延伸，兩連接面呈豎直面，亦可設計成側立式型態，即連接槽之***口朝前，連接板呈豎直向前延伸，兩連接面呈豎直面。 The above-mentioned electrical connection socket embodiments of the present invention can all be in a vertical type, that is, the insertion opening of the connection slot faces upwards, the connection plate extends vertically upwards, and the two connection surfaces are vertical. It can also be designed as a side vertical type. That is, the insertion port of the connecting groove faces forward, the connecting plate extends vertically forward, and the two connecting surfaces are vertical.

本發明之多個實施例之結構特徵皆可相互交叉應用，二個或二個以上之結構特徵相加組合應用於該多個實施例，且為清晰說明本專利案之結構特徵，不再增加上述之結構特徵相互交叉結合或相類似之結構特徵多個相加組合之圖面實施例，特此說明。 The structural features of the multiple embodiments of the present invention can all be applied to each other. The additive combination of two or more structural features is applied to the multiple embodiments, and in order to clearly illustrate the structural features of the patent, no additional additions are made. The above-mentioned structural features are cross-combined with each other or similar structural features are combined in a plurality of drawing embodiments, which are hereby explained.

在較佳實施例之詳細說明中所提出之具體的實施例僅為了易於說明本發明之技術內容，而並非將本發明狹義地限制於該實施例，在不超出本發 明之精神及以下申請專利範圍之情況，可作種種變化實施。 The specific embodiment proposed in the detailed description of the preferred embodiment is only to facilitate the description of the technical content of the present invention, and does not restrict the present invention to this embodiment in a narrow sense, and does not exceed the scope of the present invention. Various changes can be made to the spirit of the Ming and the following circumstances in the scope of patent applications.

77:外絕緣體 77: Outer insulator

300:內絕緣體 300: inner insulator

82:接觸部 82: Contact

721:連接面前段 721: Connect the front segment

90:金屬隔板 90: metal partition

340:金屬外殼 340: Metal shell

Claims (2)

一種正反雙面電連接器，其包括有： A positive and negative double-sided electrical connector, which includes: 二卡扣，該二卡扣分開設置且各設有金屬材質之一凹陷底面及一卡定面； Two buckles, the two buckles are separately arranged and each is provided with a concave bottom surface and a fixing surface of metal material; 一內絕緣體，該內絕緣體系採用塑膠射出成型之構造包覆結合該二卡扣，該內絕緣體設有上支撐面及下支撐面，該上、下支撐面各設有一排端子定位槽，且該二卡扣之凹陷底面及卡定面露出該內絕緣體之左右二側邊； An inner insulator, the inner insulation system adopts a plastic injection molding structure to cover and combine the two buckles, the inner insulator is provided with an upper supporting surface and a lower supporting surface, the upper and lower supporting surfaces are each provided with a row of terminal positioning grooves, and The concave bottom surface and the locking surface of the two buckles expose the left and right sides of the inner insulator; 二排端子，每一端子由前而後一體設有一接觸部及一延伸部，該二排接觸部抵接於該內絕緣體之上、下支撐面藉以隔離該二卡扣，該每排端子未結合一絕緣體藉以連結該每一端子，該二排端子定位於該內絕緣體之上、下支撐面之二排端子定位槽；及 Two rows of terminals, each terminal is integrally provided with a contact portion and an extension portion from front to back, the two rows of contact portions abut on the upper and lower supporting surfaces of the inner insulator to isolate the two buckles, and each row of terminals is not connected An insulator is used to connect each terminal, and the two rows of terminals are positioned in the two rows of terminal positioning grooves on the upper and lower supporting surfaces of the inner insulator; and 一絕緣座體，該絕緣座體與該二排端子、該內絕緣體系採用一次埋入塑膠射出成型構造，該絕緣座體設有將該二排端子和該內絕緣體同時埋入且一次塑膠射出成型的一體成型構造，該絕緣座體設有一基座及一舌板，該基座的一前端凸出設有該舌板，該舌板設有上下二連接面，該二排接觸部平貼該舌板且外露於該兩連接面，該二卡扣之凹陷底面及卡定面露出該舌板之左右二側邊，該舌板可與一對接之電連接器正反雙向對接定位。 An insulating base body, the insulating base body and the two rows of terminals, the inner insulation system adopts a one-time embedding plastic injection molding structure, and the insulating base body is provided with the two rows of terminals and the inner insulator being simultaneously embedded and one time plastic injection The molded one-piece structure, the insulating base body is provided with a base and a tongue plate, a front end of the base is protrudingly provided with the tongue plate, the tongue plate is provided with two upper and lower connecting surfaces, and the two rows of contact parts are flat The tongue plate is exposed on the two connecting surfaces. The concave bottom surface and the locking surface of the two buckles expose the left and right sides of the tongue plate. The tongue plate can be mated with the mating electrical connector in both front and back directions. 一種正反雙面電連接器，其包括有： A positive and negative double-sided electrical connector, which includes: 二卡扣，該二卡扣分開設置且各設有金屬材質之一凹陷底面及一卡定面； Two buckles, the two buckles are separately arranged and each is provided with a concave bottom surface and a fixing surface of metal material; 二排接觸部，該二排接觸部設於多數的端子，該二排接觸部包括有位 於二側且上下對齊的二對接地接觸部；及 Two rows of contact parts, the two rows of contact parts are provided on most of the terminals, the two rows of contact parts include a bit Two pairs of ground contacts on two sides and aligned up and down; and 一絕緣座體，該絕緣座體設有一基座及一舌板，該基座的一前端凸出設有該舌板，該舌板設有上下二連接面，該二排接觸部為平面接點且外露於該兩連接面，該二卡扣之凹陷底面及卡定面露出該舌板之左右二側邊，該舌板可與一對接之電連接器正反雙向對接定位； An insulating seat body, the insulating seat body is provided with a base and a tongue plate, a front end of the base is protrudingly provided with the tongue plate, the tongue plate is provided with two upper and lower connecting surfaces, and the two rows of contact parts are flat Point and exposed on the two connecting surfaces, the concave bottom surface and the locking surface of the two buckles expose the left and right sides of the tongue plate, and the tongue plate can be mated and positioned in both directions with the front and back of the mating electrical connector; 其持征在於，該絕緣座體與該多數的端子、該二卡扣系採用埋入塑膠射出成型構造，該絕緣座體設有將該多數的端子、該二卡扣同時埋入且一次塑膠射出成型的一體成型構造，該每一對接地接觸部設於一接地端子，該接地端子設有厚板體，該厚板體的上、下面各為一該接地接觸部，該厚板體的一側一體設有該卡扣。 The characteristic is that the insulating base body, the plurality of terminals, and the two buckles adopt an embedded plastic injection molding structure, and the insulating base body is provided with the plurality of terminals and the two buckles simultaneously embedded and a plastic injection molding structure is used. An integrally molded structure of injection molding, each pair of ground contact portions is provided with a ground terminal, the ground terminal is provided with a thick plate body, the upper and lower sides of the thick plate body are each the ground contact portion, the thick plate body The buckle is integrally provided on one side.

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