201023452 j 九、發明說明: 【發明所屬之技術領域】 本發明是有關一種線纜連接器組合及其加工方法,尤指一種具有電容 的線纜連接器組合及其加工方法。 【先前技術】 2005年3月30曰公告的中國大陸專利公告第CN2689526Y號揭示了一 種電源連接器,其包括絕緣本體、收容於絕緣本體内的複數導電端子與導 電端子電性連接的導線,絕緣本體定義有前表面、與前表面相對的後表面、 兩相對側面及自前表面凸伸至自由端所形成的桿,絕緣本體設有一對於樞 軸點與兩相對側面連接的扣持臂,當電源連接器與對接連接器配合時扣 ® 持臂與對接連接器側面上的楔形塊可靠扣持以避免連接器間的松脫,從而 適用於頂面空間受限制的場合。在某些情況下,需要在這種電源連接器的 兩個導電端子間連接一電容以在該連接器與對接連接器配合時起到濾波的 作用。通常採用將電容的兩個針腳分別與兩個對應的導電端子鉚接即可, ,而這種連接器往往應用於較小的空間中,其尾部的複數導線需要進行整 =以安裝於上述較小的空間中,這樣便帶來了一個新的問題,鉚接後的電 谷必須距離整平區一定的間距,也就是說該電連接器组裝後,電容離絕緣 ^體的距離越小越好,有時甚至要求電容離絕緣本體的距離不能大於5毫 米’然由於斜p接端子的端子機的限制,操作者根本沒有辦法在這麼小的間 Φ 距要求下作業,如果直接將電容的針腳焊接於端子上又無法將端子裝配於 絕緣本體中。 因此,有必要設計一種線纜連接器組合及其加工方法來克服上述技術 上的缺點。 【發明内容】 本發明的目的在於提供一種線纜連接器組合及其加工方法,其 改良了端子與電容的連接。 為實現上述目的,本發明線纜連接器組合採用如下技術方案:一種線 欖連接TO ..且〇,其包括絕緣本趙,其具有複數收容通道;複數導電端子, 係收谷於對應的絕緣本體的收容通道中;複數導線其連接對應的導電端 子,電谷及單芯線,所述電容通過單芯線的轉接而與對應的導電端子電性 6 201023452 連接。 如下技術方 :為實現上述目的,本發魏舰接驗合之加工方法採用 a) 依注塑成型的方法加卫出絕緣本體; b) 依衝壓的方法加工出導電端子; c) 準備兩根單芯線; d)剝除導線的部分絕緣相暴露出部分導體;201023452 j IX. Description of the Invention: [Technical Field] The present invention relates to a cable connector assembly and a processing method thereof, and more particularly to a cable connector combination having a capacitor and a processing method thereof. [Prior Art] Chinese Patent Publication No. CN2689526Y, published on March 30, 2005, discloses a power connector including an insulative housing, a plurality of conductive terminals housed in the insulating body, and a conductively electrically connected terminal, insulated The body defines a front surface, a rear surface opposite to the front surface, two opposite sides, and a rod formed from the front surface protruding to the free end. The insulating body is provided with a latching arm for connecting the pivot point and the opposite sides, when the power source When the connector is mated with the mating connector, the buckle arm and the wedge block on the side of the mating connector are securely fastened to avoid looseness between the connectors, making it suitable for applications where the top space is limited. In some cases, a capacitor is required between the two conductive terminals of the power connector to provide filtering when the connector mates with the mating connector. Generally, the two pins of the capacitor are respectively riveted to the two corresponding conductive terminals, and the connector is often applied to a small space, and the plurality of wires at the tail need to be integrated to be mounted on the above smaller In the space, this brings a new problem. The riveted electric valley must have a certain distance from the leveling area. That is to say, the smaller the distance between the capacitor and the insulating body, the better the assembled the electrical connector. Sometimes, even the distance between the capacitor and the insulating body is required to be no more than 5 mm. However, due to the limitation of the terminal machine of the oblique p-connector terminal, the operator has no way to work under such a small Φ distance requirement, if the capacitor pin is directly used. Soldering on the terminal does not allow the terminal to be assembled in the insulative body. Therefore, it is necessary to design a cable connector combination and a processing method thereof to overcome the above-mentioned technical disadvantages. SUMMARY OF THE INVENTION An object of the present invention is to provide a cable connector assembly and a method of processing the same that improve the connection of a terminal to a capacitor. In order to achieve the above object, the cable connector combination of the present invention adopts the following technical solution: a wire connection TO.. and 〇, which includes an insulation body, which has a plurality of receiving passages; a plurality of conductive terminals are received in a corresponding insulation In the receiving passage of the body; the plurality of wires are connected to the corresponding conductive terminals, the electric valley and the single core wire, and the capacitor is connected to the corresponding conductive terminal electrical 6 201023452 by the transfer of the single core wire. The following technical parties: In order to achieve the above objectives, the processing method of the Weiwu ship inspection and acceptance method adopts a) the insulating body is added according to the injection molding method; b) the conductive terminal is processed according to the stamping method; c) two sheets are prepared a core wire; d) a portion of the insulating phase of the stripped conductor exposes a portion of the conductor;
線暴露出的部分導體和對應的導電端子的尾部相柳接; 、導 兩個單树於合適的長度,修剪電容崎腳於合適的長产 接電谷的兩個針腳於對應的單芯線上; 又焊 g)組裝導電端子於對應的絕緣本體的收容通道中。 ▲與先前技術相比,本發明線缓連接器组合及其加工方法具有如下有益 效果:其通過應用單芯線以實現電容與端子間小間距的連接。 下面結合附圖及較佳實施例對本發明作進一步說明。 【實施方式】 請參閱第-圖至第五圖所示,本發明線規連接器組合1〇〇包括:絕緣本 體1、複數導電端子2、複數導線3、單芯線4及電容5。 絕緣本體1包括有塊狀的主體部u及自主體部丨丨的前表面12向前延伸 的複數相互間隔的對接柱13。於本實施方式中,複數對接柱13是排成相互 間隔的兩排。所述主體部11具有一與前表面12相對的接合面14,複數對接 柱13則具有一共同的與前表面12相對的插接面15。絕緣本體1設有複數連通 接合面14與插接面15的收容通道16。其中每一收容通道16是貫穿主體部11 及對應的對接柱13。絕緣本體1的主體部11具有一頂面π,頂面17上設有一 可與對接連接器的鎖扣部(未圖示)配合以將線纜連接器組合1〇〇與對接連 接器保持在對接狀態的鎖扣臂170。 導電端子2包括對接部21、尾部23及連接對接部21和尾部23的中間部 22 ’所述中間部22上設有兩個向後延伸出的懸臂式鎖臂220。導電端子2收 容於絕緣本體1的對應的收容通道16中,其懸臂式鎖臂220與對應的收容通 201023452 » f16的内奸涉配合續導電端子2©定於收容通道16中 接部21暴露於收容通道财鄰近插接邮一侧。 導線3包括導體31及包覆導體31的絕緣層32。 導電端子2的對 ,該單芯線4 單心線4鱗根導體,其雜與電容5的獅51的直捏 中部經過折彎,使前部41和尾部42基本平行。 本發明線欖連接器組合丨⑻的加工方法包括町步驟: a) 依注塑成型的方法加工出絕緣本體1 ; b) 依衝壓的方法加工出導電端子2 ; c) 準備兩根單芯線4 ; d) 剝除導線3-端騎純緣層32以暴料部分導體31 ; e) 將兩根導線3暴露出的部分導體31和兩根單芯線4的前部41分別柳接 2個導電端子2的尾部23 ’使單芯線41的尾部42沿導電端子城尾部巧延 ’將其他導線3的暴露出的部分導體M和對應的導電端子2的尾部Μ相 柳接; f) 修剪兩個單芯線4的後部似於合適的長度,修剪電容5的針腳&於合 適的長度,焊接電容5的兩個針腳51於對應的單芯線4上; g) 組裝導電端子2於對應的絕緣本體丨的收容通道16中。 本發明線缆連接器组合1〇〇,引進兩個單芯線4,先將兩個單怎線4的前 部41與對應的導電端子2和導線3鉚接,由於選取的單芯線蝴長度較長可以 φ 方便操作者可以很容易即可完成柳接動作,然後修剪單芯線4和電容5的兩 個針=51的長度’再將電容5的兩個針腳51焊接於對應的單芯線蝴尾部幻 上,這樣便可實現電容5在超小間距内電性連接於導電端子2後端,從而達 到組裝後電容5距離絕緣本體1的結合面14超小間距的要求,而不會影 端導線3的整平。 【圖式簡單說明】 第一圖係本發明線缓連接器組合之立體圖。 第二圖係第一圖所示線纜連接器組合之另一視角之視圖。 第二圖係本發明線繞連接器組合之立體分解圖。 第四圖係本發明線纜連接器組合的兩個導電端子、兩個單芯線、兩個 201023452 導線及電容的組裝圖。 第五圖係本發明線纜連接器組合的部分組裝圖,其中絕緣本體未組裝^The part of the conductor exposed by the line and the tail end of the corresponding conductive terminal are connected to each other; and the two single trees are guided to a suitable length, and the two pins of the appropriate long-term electricity supply valley are trimmed on the corresponding single-core line. And g) assembling the conductive terminals in the receiving passages of the corresponding insulative housings. ▲ Compared with the prior art, the wire tie connector assembly of the present invention and the processing method thereof have the following advantageous effects: by applying a single core wire to achieve a small pitch connection between the capacitor and the terminal. The invention will now be further described with reference to the drawings and preferred embodiments. [Embodiment] Referring to Figures -5 to 5, the wire gauge connector assembly 1 of the present invention comprises: an insulating body 1, a plurality of conductive terminals 2, a plurality of wires 3, a single core wire 4, and a capacitor 5. The insulative housing 1 includes a block-shaped body portion u and a plurality of mutually spaced docking posts 13 extending forwardly from the front surface 12 of the body portion. In the present embodiment, the plurality of docking posts 13 are arranged in two rows spaced apart from each other. The body portion 11 has a mating face 14 opposite the front surface 12, and the plurality of mating posts 13 have a common mating face 15 opposite the front surface 12. The insulative housing 1 is provided with a receiving passage 16 for a plurality of communicating surfaces 14 and a mating surface 15. Each of the receiving passages 16 extends through the main body portion 11 and the corresponding docking post 13 . The main body portion 11 of the insulative housing 1 has a top surface π, and the top surface 17 is provided with a locking portion (not shown) for mating with the mating connector to hold the cable connector assembly 1〇〇 and the mating connector The latching arm 170 in the docked state. The conductive terminal 2 includes an abutting portion 21, a tail portion 23, and an intermediate portion 22' connecting the abutting portion 21 and the tail portion 23. The intermediate portion 22 is provided with two cantilevered locking arms 220 extending rearward. The conductive terminal 2 is received in the corresponding receiving passage 16 of the insulative housing 1 , and the cantilevered locking arm 220 and the corresponding receiving passage 201023452 » f16 are connected to the continuous conductive terminal 2©. The shelter channel is adjacent to the side of the post. The wire 3 includes a conductor 31 and an insulating layer 32 covering the conductor 31. The pair of conductive terminals 2, the single core wire 4, the single core wire 4 scale conductor, and the middle portion of the straight pinch of the lion 51 of the capacitor 5 are bent so that the front portion 41 and the tail portion 42 are substantially parallel. The processing method of the wire tying connector assembly 丨 (8) of the present invention comprises the steps of: a) processing the insulating body 1 according to the injection molding method; b) processing the conductive terminal 2 according to the stamping method; c) preparing two single core wires 4; d) stripping the wire 3-end riding the pure edge layer 32 to the bulk material conductor 31; e) connecting the partial conductor 31 of the two wires 3 and the front portion 41 of the two single-core wires 4 respectively to the two conductive terminals The tail portion 23' of the second core wire 41 makes the tail portion 42 of the single core wire 41 proximate along the tail end of the conductive terminal wall. The exposed portion of the conductors M of the other wires 3 and the tail portions of the corresponding conductive terminals 2 are spliced together; f) trimming two orders The rear portion of the core wire 4 is shaped like a suitable length, and the pins of the capacitor 5 are trimmed to a suitable length. The two pins 51 of the soldering capacitor 5 are on the corresponding single core wires 4; g) The conductive terminals 2 are assembled to the corresponding insulating body. The containment channel 16 is in. In the cable connector assembly of the present invention, two single core wires 4 are introduced, and the front portions 41 of the two single wires 4 are first riveted to the corresponding conductive terminals 2 and the wires 3, because the selected single core wire has a longer length. It is convenient for the operator to easily complete the splicing action, and then trim the two pins of the single core wire 4 and the capacitor 5 = the length of 51 ' and then solder the two pins 51 of the capacitor 5 to the corresponding single core wire Therefore, the capacitor 5 can be electrically connected to the rear end of the conductive terminal 2 in an ultra-small pitch, thereby achieving the requirement of the ultra-small spacing of the capacitor 5 from the bonding surface 14 of the insulating body 1 without the shadow terminal 3 Leveling. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a perspective view of the wire tie connector assembly of the present invention. The second figure is a view of another perspective of the cable connector assembly shown in the first figure. The second figure is an exploded perspective view of the wire wound connector assembly of the present invention. The fourth figure is an assembly diagram of two conductive terminals, two single core wires, two 201023452 wires and capacitors of the cable connector combination of the present invention. Figure 5 is a partial assembled view of the cable connector assembly of the present invention, wherein the insulative body is not assembled ^
【主要元件符號說明】 線纜連接器組合 100 絕緣本體 1 主體部 11 前表面 12 對接柱 13 接合面 14 插接面 15 收容通道 16 頂面 17 鎖扣臂 170 導電端子 2 對接部 21 中間部 22 鎖臂 220 尾部 23 導線 3 導體 31 絕緣層 32 單芯線 4 前部 41 尾部 42 電容 5 針腳 51[Main component symbol description] Cable connector assembly 100 Insulating housing 1 Main body portion 11 Front surface 12 Butt joint 13 Joint surface 14 Plug surface 15 Housing channel 16 Top surface 17 Locking arm 170 Conducting terminal 2 Butting portion 21 Intermediate portion 22 Lock arm 220 tail 23 wire 3 conductor 31 insulation layer 32 single core wire 4 front 41 tail 42 capacitor 5 pin 51