Μ,415482 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係關於一種便於成型和组裝的連接器及其端 子結構。 [0002] • [先前技術] 衆所皆知,USB連接器(通用串列匯流排Universal Serial Bus)是一種可與對接連接器插接並電性連接到 主電路板上以提供兩電子裝置間電性連接的設備,USB連 接器具有攜帶方便、標準統一、可以熱插拔、可連接多 個設備等優點,已廣泛應用於筆記型電腦、桌上型電腦 主機、手機、隨身硬碟、傳真機、印表機、機上盒和遊 戲機等各種電子裝置中。 [0003] • USB連接器技術發展快速,從1996年出現速度只有 1. 5Mb/s的USB1. 0,到2005年即推出了傳輸速率達到 480Mbps的USB2. 0 ;雖然當前的USB2. 0接口已經在計算 機業界泛濫成災’但是由Intel、微軟、惠普、德州儀器 、NEC、ST-NXP等業界巨頭組成的USB 3 〇 Promoter Group最近宣布,該組織負責制定的新一代USB 3· 〇標準 已經正式完成並公開發布,新規範在USB2 〇之四個觸點 的基礎上新增了五個觸點,兩條爲數據輸出,兩條為數 據輸入,採用發送列表區段來進行數據發包;提供了十 倍於USB 2.0的傳輸速度和更高的節能效率,可廣泛用於 PC外圍設備和消費電子産品。 [0004] USB3. 0連接器的産品結構包括有絕緣本體和固裝於 表單编號Α0101 第3頁/共18頁 M415482 該絕緣本體上的金屬外殼、五個第一端子及四個USB2. 0 端子,然而目前市面上USB3. 0連接器針對其兩組端子的 組裝方式主要有兩種,一種方式是兩組端子均分別用插 入式組裝,另一種方式是五個第一端子採用鑲嵌成型固 定,而四個USB2.0端子仍採用插入式組裝,此兩種組裝 方式所存在的不足之處在於其兩組端子(第一端子及第二 端子)需要分別從兩片金屬板上沖壓成型,不但需要多開 一套模具,而且需要分兩次組裝,组裝程序較多,不利 於提高生產效率和降低成本。 【新型内容】 [0005] 爰此,本創作之目的即在於改善前述缺失,故本案 創作人提供一種連接器及其端子結構,其兩組端子可一 次成型並同時組裝,進而改善組裝效率和降低成本,本 創作係包含有: [0006] 一種連接器,包括有一絕緣本體和一固持於該絕緣 本體上的金屬外殼、複數個第一端子及複數個第二端子 ,該絕緣本體具有一舌板,各該第一端子與第二端子由 同一金屬片沖壓成型並彼此交錯排列,而該第一端子包 括有鑲嵌成型且固裝於該絕緣本體中的一第一固持部, 並且更包含有自該第一固持部向前一體延伸出的一第一 接觸部和自該第一固持部向後一體延伸出的一第一焊腳 部;該第二端子包括有鑲嵌成型且固裝於該絕緣本體中 的一第二固持部,並且更包含有自該第二固持部向前一 體延伸出的一第二接觸部和自該第二固持部向後一體延 伸出的一第二焊腳部,而該第一端子的第一接觸部和該 表單编號A0101 第4頁/共18頁 [0007] [0008] [0009] [0010] 第二端子的第二接觸部分成前後兩排露於該絕緣本體之 舌板的同一表面,並且該第一接觸部呈平板狀且與該絕 緣本體相固定,而該第二接觸部可彈性自由活動呈彈片 狀,其中,在該第一端子和該第二端子同時與該絕緣本 體鑲嵌成型時,該第一焊腳部和該第二焊腳部連接於同 一第一料帶上,而各該第一接觸部均連接於同一第二料 帶上。 進一步,所述連接器爲USB3. 0插座連接器,該第一 端子爲USB3. 0端子,並且包括有四個差分信號端子和一 接地端子,而該第二端子包括有四個USB2. 0端子。 進一步,所述連接器爲USB3. 0插顏連接器,該第一 端子包括有四個USB2. 0端子,而該第二端子爲USB3. 0端 子,並且該第二端子包括有四個差分信號端子和一接地 端子。 進一步,更包括一尾座,該第一焊腳部和該第二焊 腳部向下折彎後同時穿過該尾座。 一種連接器端子結構,包括有複數個第一端子和複 數個第二端子,各該第一端子和第二端子自同一金屬片 沖壓成型並且彼此交錯排列,該第一端子包括有一第一 固持部,並且更包含有自該第一固持部向前一體延伸出 的一第一接觸部和自該第一固持部向後一體延伸出的一 第一焊腳部,而該第二端子包括有一第二固持部,並且 更包含有自該第二固持部向前一體延伸出的一第二接觸 部和自該第二固持部向後一體延伸出的一第二焊腳部, 表單编號A0101 第5頁/共18頁 M415482 其中該第一端子的第一接觸部和該第二端子的第二接觸 部分成前後兩排分布,該第一接觸部呈平板狀,而該第 二接觸部可彈性自由活動呈彈片狀,並且各該第一焊腳 部和該第二焊腳部均連接於同一第一料帶上,而各該第 一接觸部均連接於同一第二料帶上。 [0011] 進一步,所述連接器端子爲USB3.0插座連接器端子 ,該第一端子爲USB3.0端子,並且包括有四個差分信號 端子和一接地端子,而該第二端子包括有四個USB2. 0端 子。 [0012] 進一步,所述連接器端子爲USB3. 0插頭連接器端子 ,該第一端子包括有四個USB2.0端子,而該第二端子爲 USB3. 0端子,並且該第二端子包括有四個差分信號端子 和一接地端子。 [0013] 採用上述技術方案後,本創作具有明顯的優點和有 益效果,具體而言,由上述技術方案可知,其複數個第 一端子和第二端子由同一金屬片沖壓成型,此種成型方 式在成型時只需一套模具,在組裝時可一次組裝,彌補 了目前的兩種組裝方式存在之不足,簡化了組裝程序, 有利於提高了生產效率和降低成本;同時其端子的第一 焊腳部和第二焊腳部連接於同一第一料帶上,各該第一 接觸部均連接於同一第二料帶上,使得各該第一端子及 該第二端子不易散落、排列有序、便於組裝,在鑲嵌成 型過程中可獲得穩固之定位而保證其成型品質。 【實施方式】 表單編號A0101 第6頁/共18頁 [0014] 有關本創作之技術特徵及增進功效,配合下列圖式 之較佳實施例即可清楚呈現,首先,請參閱第一圖至第 五圖所示,本創作係為一種連接器及其端子結構,其係 包含有: [0015] [0016] 一絕緣本體(10)、一尾座(20)、一金屬外殼(3〇)、 一第一端子(40)和一第二端子(50),其中,該絕緣本體 (10) 的前端一體延伸出一舌板(11),而該金屬外殼(3〇) 包覆於邊絕緣本體(10)外,有屏蔽的作用,並且於連接 器的前端圍合形成標準之USB插接口,而尾座(20)固裝於 該絕緣本體(1〇)的後部下方。 本實施例中,該第一端子(4〇)爲iiSB3 〇端子,並且 該第一端子(40)包括有四個差分信號端子和中間的一接 地端子,其中各該第一端子(40)的結構皆為相同,均包 括有一第一固持部(41)、一第一接觸部(42)和一第一焊 腳部(43),該第一接觸部(42)自該第一固持部(41)向前 一體延伸形成,而該第一焊腳部(43)自該第一固持部 (41)向後一體延伸形成;該第一端子(4〇)的各該第一固 持邛(41)均通過鑲嵌成型的方式固裝於該絕緣本體(1〇) 中,各該第一接觸部(42)呈平板狀並且固定式露於該絕 緣本體(10)之舌板(11)的底面,並一排式分布於舌板 (11) 底面的前部;各該第一焊腳部(43)向下9〇度折彎後 穿過該尾座(20),並且用於與電路板焊接,而該第二端 子(50)爲四個USB2.0端子,各該第二端子(5〇)包括有一 第二固持部(51)、一第二接觸部(52)和一第二焊腳部 (53),該第二接觸部(52)自該第二固持部(51)向前一體 表單编號A0101 M415482 延伸形成,而該第二焊腳部(53)自該第二固持部(51)向 後一體延伸形成;而該第二端子(50)的各該第二固持部 (51)均通過鑲嵌成型的方式固裝於該絕緣本體(丨〇)中; 各該第二接觸部(52)呈彈片狀並懸於該絕緣本體(1〇)之 舌板(11)的底面,一排式分布於前述平板該第一接觸部 (42)的後面’·各該第二焊腳部(53)同樣向下9〇度折彎後 穿過該尾座(2〇),並且用於與電路板焊接。 [0017] 生產組裝時,請參閲第四圖所示,首先由同一金屬 片冲壓成型出該第一端子(4〇)和該第二端子(5〇),並使 該第^子(40)與各該第二端子(50)彼此交錯排列,其 中該第一焊腳部(43)和該第二焊腳部(53)均連接於同一 第一料帶(60)上,而各該第一接觸部(42)連接於同一第 二料帶(70)上,形成一端子組件,然後如第三圖所示, 將該帶有第一端子(40)和第二端子(50)的端子組件同時 與該絕緣本體(10)進行鑲嵌注塑成型’接著再將該第一 料帶(60)和該第二料帶(70)從兩端子組[第一端子(4〇) 和第二端子(5〇)]上剪切下來,然後將該第一端子(4〇) 之第一焊腳部(43)和該第二端子(50)的第二焊腳部(53) 向下90度折彎後穿過該尾座(20),最後將前述實體固裝 在金屬外殼(30)内,即完成組裝過程。 [0018] 接著,請參閱第六圖和第七圖所示,其顯示出了本 創作另外一種實施例的結構示圖,本實施例是. 〇插 頭連接器之結構示例,其同樣包括有該絕緣本體(1〇)、 該金屬外殼(30)、該第一端子(40)和該第二端子(5〇); 本實施例 其與前述USB3.0插座連接器的不同之處在於, 表單編號A0101 第8頁/共18頁 中的第一端子(40)爲四個USB2.0端子,而第二端子(50) 爲五個USB3.0端子,這個與前述第一實施例恰為相反; 但疋’該第—端子(4〇)的第一接觸部(42)仍然呈平板狀 排列在前’而該第二端子(5〇)的第二接觸部(52)仍然呈 彈片狀排列在後,以及其端子也可以如前述插座連接器 一樣在同一金屬板上沖壓成型並採用前述同樣的組裝 方式。 [0019] 本創作的設計重點在於,該第一端子(4〇)和該第二 端子(50)由同一金屬片沖壓成型,此種成型方式在成型 時只需一套模具,在組裝時可一次組裝,彌補了目前的 兩種組裝方式存在之不足,簡化了組裝程序,有利於提 高了生産效率和降低成本;同時該第一端子(4〇)和該第 二端子(50)的第一焊腳部(43)和第二焊腳部(53)連接於 同一第一料帶(60)上,各該第一接觸部(42)均連接於同 一第二料帶(70)上,使得該第一端子(4〇)和該第二端子 (5 0)不易散落、排列有序、便於組裝,在鑲嵌成型過程 中可獲得穩固之定位而保證其成型品質。 [0020] 如上所述’本創作所提供之實施說明及圖式係為本 創作之較佳實施例’並非以此侷限於本創作,故凡s化 據本創作的技術對以上實施例所作的任何細微修改、等 同變化與修飾,均仍屬於本創作的技術範圍内。 【圖式簡單說明】 [0021] 第一圖係為本創作之較佳實施例的立體分解圖 第二圖係為本創作之較佳實施例的組合圖。 表單編號A0101 第9頁/共18頁 [0022] [0023]M415482 第三圖係為本創作之較佳實施例之端子與絕緣本體 的組合圖。 [0024] [0025] [0026] [0027] 第四圖係為本創作之較佳實施例之端子的俯視圖。 第五圖係為本創作之較佳實施例之端子的側視圖。 第六圖係為本創作之另一較佳實施例的組合圖。 第七圖係為本創作之另一較佳實施例的立體分解圖 【主要元件符號說明】 [0028] ( 1 〇 )絕緣本體 (1 1 )舌板 (2 0 )尾座 (3 0)金屬外殼 (4 0)第一端子 (4 2)第一接觸部 (50)第二端子 (5 2)第二接觸部 (6 0)第一料帶 (7 0)第二料帶 (4 1 )第一固持部 (4 3)第一焊腳部 (5 1 )第二固持部 (5 3)第二焊腳部 表單编號A0101 第10頁/共18頁Μ,415482 V. New Description: [New Technology Field] [0001] This book is about a connector that is easy to form and assemble and its terminal structure. [0002] • [Prior Art] A USB connector (Universal Serial Bus) is a type that can be plugged into a docking connector and electrically connected to a main circuit board to provide a connection between two electronic devices. The electrical connection device, USB connector has the advantages of convenient carrying, standard uniform, hot pluggable, and can connect multiple devices. It has been widely used in notebook computers, desktop computers, mobile phones, portable hard drives, and fax machines. Among various electronic devices such as machines, printers, set-top boxes and game consoles. [0003] • The USB connector technology has developed rapidly. From 1996, the speed of only 1. 5Mb/s USB1. 0, and by 2005, the USB2.0 with a transmission rate of 480Mbps has been introduced; although the current USB2.0 interface has been The USB 3 〇Promoter Group, which is made up of industry giants such as Intel, Microsoft, Hewlett-Packard, Texas Instruments, NEC, and ST-NXP, recently announced that the next-generation USB 3 〇 standard that the organization is responsible for has been officially established. Completed and publicly released, the new specification adds five contacts to the four contacts of USB2, two for data output, two for data input, and a send list segment for data distribution; Ten times the transfer speed of USB 2.0 and higher energy efficiency, it can be widely used in PC peripherals and consumer electronics. [0004] The product structure of the USB3.0 connector includes an insulative body and is fixed on the form number Α0101, page 3/18 pages M415482, the metal case on the insulative body, five first terminals and four USB2.0. Terminals, however, there are currently two types of USB3.0 connectors on the market for the assembly of the two sets of terminals. One way is that the two sets of terminals are respectively assembled by plug-in, and the other way is that the five first terminals are fixed by insert molding. The four USB2.0 terminals are still plug-in assembled. The disadvantage of the two assembly methods is that the two sets of terminals (the first terminal and the second terminal) need to be separately stamped from two metal plates. Not only need to open a set of molds, but also need to be assembled in two parts, more assembly procedures, which is not conducive to improving production efficiency and reducing costs. [New content] [0005] Therefore, the purpose of this creation is to improve the aforementioned defects, so the creator of the present invention provides a connector and its terminal structure, the two sets of terminals can be formed at one time and assembled at the same time, thereby improving assembly efficiency and reducing The present invention includes: [0006] A connector includes an insulative housing and a metal housing held on the insulative housing, a plurality of first terminals, and a plurality of second terminals, the insulative housing having a tongue plate Each of the first terminal and the second terminal are stamped and formed by the same metal sheet and staggered with each other, and the first terminal includes a first holding portion that is insert-molded and fixed in the insulating body, and further includes a first contact portion integrally extending forwardly of the first retaining portion and a first solder joint portion extending integrally rearward from the first retaining portion; the second terminal includes an insert molding and being fixed to the insulating body a second holding portion, and further comprising a second contact portion extending integrally forward from the second holding portion and extending integrally backward from the second holding portion a second solder fillet portion, and the first contact portion of the first terminal and the form number A0101 page 4/18 pages [0007] [0009] [0010] The second contact portion of the second terminal The front and rear rows are exposed on the same surface of the tongue plate of the insulative body, and the first contact portion is in a flat shape and is fixed to the insulative body, and the second contact portion is elastically freely movable in a shape of a spring. When the first terminal and the second terminal are simultaneously inlaid with the insulating body, the first soldering leg portion and the second soldering leg portion are connected to the same first tape, and each of the first contact portions is connected On the same second strip. Further, the connector is a USB3.0 socket connector, the first terminal is a USB3.0 terminal, and includes four differential signal terminals and a ground terminal, and the second terminal includes four USB2.0 terminals. . Further, the connector is a USB3.0 plug connector, the first terminal includes four USB2.0 terminals, and the second terminal is a USB3.0 terminal, and the second terminal includes four differential signals. Terminal and a ground terminal. Further, a tailstock is further included, and the first soldering leg portion and the second soldering leg portion are bent downward and pass through the tailstock at the same time. A connector terminal structure includes a plurality of first terminals and a plurality of second terminals, each of the first terminals and the second terminals being stamped and formed from the same metal piece and staggered with each other, the first terminal including a first holding portion And further comprising a first contact portion extending integrally forward from the first holding portion and a first soldering portion extending integrally backward from the first holding portion, and the second terminal includes a second portion a retaining portion, and further comprising a second contact portion integrally extending forward from the second retaining portion and a second soldering portion extending integrally rearward from the second retaining portion, Form No. A0101, page 5 The first contact portion of the first terminal and the second contact portion of the second terminal are distributed in front and rear two rows, the first contact portion has a flat shape, and the second contact portion is elastically freely movable. The first solder fillet portion and the second solder fillet portion are connected to the same first strip, and each of the first contact portions is connected to the same second strip. [0011] Further, the connector terminal is a USB3.0 socket connector terminal, the first terminal is a USB3.0 terminal, and includes four differential signal terminals and a ground terminal, and the second terminal includes four USB2. 0 terminals. [0012] Further, the connector terminal is a USB3.0 plug connector terminal, the first terminal includes four USB2.0 terminals, and the second terminal is a USB3.0 terminal, and the second terminal includes Four differential signal terminals and one ground terminal. [0013] After adopting the above technical solution, the present invention has obvious advantages and beneficial effects. Specifically, it can be known from the above technical solution that a plurality of first terminals and second terminals are stamped and formed from the same metal sheet. Only one set of molds is needed during molding, which can be assembled at one time during assembly, which makes up for the shortcomings of the current two assembly methods, simplifies the assembly process, helps to improve production efficiency and reduce cost, and at the same time, the first welding of the terminals. The first leg and the second leg are connected to the same first tape, so that the first terminal and the second terminal are not easily scattered and arranged. It is easy to assemble, and it can obtain stable positioning during the inlay molding process to ensure its molding quality. [Embodiment] Form No. A0101 Page 6 of 18 [0014] The technical features and enhancements of the present invention can be clearly presented in conjunction with the preferred embodiment of the following drawings. First, please refer to the first figure to the first As shown in the fifth figure, the present invention is a connector and its terminal structure, which comprises: [0016] an insulative body (10), a tailstock (20), a metal casing (3〇), a first terminal (40) and a second terminal (50), wherein a front end of the insulative housing (10) integrally extends with a tongue plate (11), and the metal casing (3〇) is wrapped around the edge insulating body (10) In addition, it has a shielding function and is enclosed at the front end of the connector to form a standard USB plug interface, and the tailstock (20) is fixed under the rear portion of the insulating body (1〇). In this embodiment, the first terminal (4〇) is a iiSB3 〇 terminal, and the first terminal (40) includes four differential signal terminals and a middle ground terminal, wherein each of the first terminals (40) The structures are all the same, and each includes a first holding portion (41), a first contact portion (42) and a first solder fillet portion (43). The first contact portion (42) is from the first holding portion (42) 41) extending forwardly integrally, and the first soldering leg portion (43) is integrally extended rearward from the first holding portion (41); each of the first holding jaws (41) of the first terminal (4) Each of the first contact portions (42) has a flat shape and is fixedly exposed on the bottom surface of the tongue plate (11) of the insulating body (10), and is fixed in the insulating body (1〇). And arranged in a row on the front portion of the bottom surface of the tongue plate (11); each of the first solder fillet portions (43) is bent down 9 degrees and passed through the tailstock (20), and is used for soldering with the circuit board The second terminal (50) is four USB2.0 terminals, and each of the second terminals (5〇) includes a second holding portion (51), a second contact portion (52) and a second portion. a soldering leg portion (53), the second contact portion (52) extending from the second holding portion (51) to the front integral form number A0101 M415482, and the second soldering portion (53) from the second holding portion The second portion (51) of the second terminal (50) is fixedly mounted in the insulating body (丨〇); each of the second contacts The portion (52) is in the shape of a spring and is suspended from the bottom surface of the tongue plate (11) of the insulating body (1), and is arranged in a row in the rear of the first contact portion (42) of the flat plate. The solder fillet (53) is also bent down 9 degrees and passed through the tailstock (2〇) and used to solder to the board. [0017] When assembling and assembling, referring to the fourth figure, first, the first terminal (4〇) and the second terminal (5〇) are stamped and formed from the same metal piece, and the first (40) is made. And the second terminals (50) are staggered with each other, wherein the first solder fillet portion (43) and the second solder fillet portion (53) are both connected to the same first tape (60), and each of the The first contact portion (42) is connected to the same second tape (70) to form a terminal assembly, and then, as shown in the third figure, the first terminal (40) and the second terminal (50) are provided. The terminal assembly is simultaneously insert-molded with the insulative housing (10). The first strip (60) and the second strip (70) are then removed from the two terminal sets [first terminal (4〇) and second The terminal (5〇)] is cut down, and then the first solder leg portion (43) of the first terminal (4〇) and the second solder leg portion (53) of the second terminal (50) are turned down 90 After the bending, the tailstock (20) is passed through, and finally the aforementioned body is fixed in the metal casing (30), that is, the assembly process is completed. [0018] Next, please refer to the sixth and seventh figures, which show a structural diagram of another embodiment of the present invention. This embodiment is a structural example of a 〇 plug connector, which also includes the Insulating body (1〇), the metal casing (30), the first terminal (40) and the second terminal (5〇); the difference between the embodiment and the aforementioned USB3.0 socket connector is that the form No. A0101 The first terminal (40) in page 8 of 18 is four USB2.0 terminals, and the second terminal (50) is five USB3.0 terminals, which is the opposite of the first embodiment described above. However, the first contact portion (42) of the first terminal (4〇) is still arranged in a flat shape on the front side, and the second contact portion (52) of the second terminal (5〇) is still in the shape of a spring. After being arranged, and the terminals thereof can also be stamped and formed on the same metal plate as the aforementioned socket connector and in the same assembly manner as described above. [0019] The design of the present invention is focused on that the first terminal (4〇) and the second terminal (50) are stamped and formed from the same metal sheet. This molding method requires only one set of molds during molding, and can be assembled during assembly. One assembly compensates for the shortcomings of the current two assembly methods, simplifies the assembly process, improves production efficiency and reduces cost; and the first terminal (4〇) and the second terminal (50) are first The solder fillet portion (43) and the second solder fillet portion (53) are connected to the same first tape (60), and each of the first contact portions (42) is connected to the same second tape (70), so that The first terminal (4〇) and the second terminal (50) are not easily scattered, arranged in order, and are easy to assemble, and a stable positioning can be obtained during the insert molding process to ensure the molding quality. [0020] As described above, the implementation description and the drawings provided by the present invention are the preferred embodiments of the present invention, and are not limited to the present invention, so that the above embodiments are made according to the technology of the present creation. Any minor modifications, equivalent changes and modifications are still within the scope of this creation. BRIEF DESCRIPTION OF THE DRAWINGS [0021] The first drawing is a perspective view of a preferred embodiment of the present invention. The second drawing is a combination of the preferred embodiment of the present invention. Form No. A0101 Page 9 of 18 [0022] [0023] The third figure is a combination of the terminal and the insulative body of the preferred embodiment of the present invention. [0027] [0027] The fourth figure is a top view of the terminal of the preferred embodiment of the present invention. The fifth drawing is a side view of the terminal of the preferred embodiment of the present invention. The sixth drawing is a combination of another preferred embodiment of the present creation. Figure 7 is a perspective exploded view of another preferred embodiment of the present invention [Description of main component symbols] [0028] (1 〇) Insulating body (1 1 ) tongue (20) tailstock (30) metal Housing (40) first terminal (42) first contact (50) second terminal (52) second contact (60) first tape (70) second tape (4 1) First holding portion (43) first leg portion (5 1 ) second holding portion (53) second leg portion form number A0101 page 10 / total 18 pages