[76960 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種連接器,特别是有關於―種可 有效改善組裝工時及組裝難易度的連接器。 【先前技術】[76960 V. New description: [New technical field] This creation is about a connector, especially for a connector that can effectively improve assembly man-hours and assembly difficulty. [Prior Art]
按,連接器係-種以電氣方式連接電線、電路板和 其他電路it件的連接裝置。因此,廣泛地運用於吾人 生活周遭之各種電子產品’例如筆記本型電腦、手機 以及個人數位助理器(PDA)等。 一般的連接器係焊固於電路板上,俾利用其連接端 子與電路板上經電路佈局之接觸端接觸,以形成電氣 連接’然而在某些運用上’連接器係作為固定另一電 :元件’例如固定軟性排線的用途。因此,連接器係 2軟性排線及印刷電路板之間,俾作為電氣訊號之 二參閱第一圖至第三圖’係為一種傳統固定軟性排 式連接m,其結構包含有絕緣本體ι〇、複 16 ^子12、辅助端子13、蓋體14以及導電殼體 雷此别掀式連接器1係利用蓋體HT壓時會使得導 =挾持住軟性排線18,並使導電端子= >線18之間形成電性接觸導通。 3 M376960 此種前掀式連接器1在組裝時,蓋體14 一定要先 垂直插入於絕緣本體10之容置空間100内,並使蓋體 14之樞軸部144樞設於絕緣本體10之凹槽102内, 之後才能將複數導電端子12插設於容置空間100内, 才不會導致蓋體14在安裝時受到複數導電端子12的 干涉阻擋,而產生無法將蓋體14之轉軸部142樞設於 導電端子12上的問題。然而,此種組裝流程由於蓋體 14比導電端子12還要早先置入於絕緣本體10之容置 空間100内,所以變成無法自動化大量生產,容易造 成此種連接器1之組裝工時較長且組裝難度較大的問 題。 【新型内容】 習知連接器之結構對於組裝自動化及大量生產的 實施上有困難,容易’造成此種連接器之組裝工時較長 且組裝難度較大的問題。 本創作提供一種連接器,包括絕緣本體、複數導電 端子及蓋體,其中絕緣本體具有一容置空間以及位於 該容置空間之一樞接槽,複數導電端子設置於絕緣本 體之容置空間内,每一導電端子具有一接觸端及一對 接端,且接觸端位於容置空間内。蓋體樞設於絕緣本 體之容置空間内,其中蓋體之兩侧各設有一彈性臂, 該彈性臂上設有一枢轴部,該樞軸部係樞設於該絕緣 本體之該柩接槽。 4 本創作所提供連接器,其係將蓋體之 彈性臂上,如此當蓋體純設於崎本。卩°又置於 拉π 題之容置空間 呤,可以不用先將樞軸部插入樞接槽,待 山 子先插入絕緣本體之容置空間後,由於此樞 =彈性臂上所以具有彈性,故可順利通過絕緣本體之 谷置空間内的結構障礙而插入於樞接槽中,如此可以 達到先組裝複數導電端子,之後再組裝蓋 此可以 . 衣盈體之目的, 斤以本創作之連接器可解決習知連接器容易有組穿工 時較長且組裝難度較大的問題。 !、工 【實施方式】 請參照第四圖至第八圖,本創作提供一種連接器, 此連接器2包含絕緣本體20、複數導電端子22、^助 端子23、蓋體24以及導電殼體26,其中絕緣本體= 具有一容置空間200以及位於該容置空間2〇〇之—拖 接槽202。複數導電端子22設置於絕緣本體2〇之& 置空間200内,每一導電端子22具有一接觸端224 = 一對接端226’此接觸端224係位於容置空間2〇〇内 此對接端226係經由絕緣本體20内之端子播槽(未才尹、 示)延伸出於絕緣本體20外。 在本實施例中’每一導電端子22包含—第一導電 臂221、一第二導電臂222及一第三導電臂223,且第 一導電臂221、第二導電臂222及第三導電臂223係 呈一 Ε形體。蓋體24樞設於絕緣本體20之容置空間 之兩側各对—彈㈣243,該 # 243上設有一樞軸部244,該樞軸 設於絕緣本體20之樞接_ 2Q2,且_ / ’、 ^ 接槽川^且柘軸部244設有一 245。該盍體24上設有—轉軸部冰,該轉袖部 2係可樞設於導電端子22上,並位於第—導 及弟二導電臂222之間。 絕緣本體20之容置空間2〇〇内設有一凸起部, 『凸起部2G4與絕緣本體2G之側壁形成該柩接槽 係I其中凸起部2〇4外設有一斜面206,此斜面· 於盍體24之樞軸部244安裝於樞接槽2〇2之用, 細部244之倒角245係可對應抵貼於凸起部2〇4之 206以形成-滑動機構,以利於將 者斜面206滑入樞接槽2G2内。 導電殼體26覆蓋於絕緣本體2Q上,在本實施例 ’此導電殼體26包含第-殼體262以及第二殼體 。一軟性傳輸單元28組裝於容置空間2〇〇内盆 個=性傳輸單元28面對於該些導電端子22設有複數 點(未繪示),該些接點係搭接於該些導電端子 電^接觸4 224,以使軟性傳輸單& 28電性連接於導 2 22。在本實施例中,此軟性傳輸單元找係為 Hi (FTC) ’然;f限於此’軟性傳輸單元28亦 為軟性印刷電路板(FPC)。 上所述’賴作之連接器其係將蓋體之樞執部設 ,性臂上,如此_料具有—定㈣性移動距 離:當蓋體與導電端子要組裝於絕緣本體上時,本創 作係可先將複數導電端子插入於絕緣本體之容置空 間,之後再將蓋體樞設於絕緣本體之容置空間内,由 於此姉部設置於彈性臂上,所以可順利通過絕緣本 體之容置空間内的結構障礙而插人於減槽中,如此 可解決習知連接器容易有組裝卫時較長且組裝難度較 大的問題。 一種較佳之可行實施 以限定本創作之申請 所揭示之技藝精神下 均應包含於本創作所 上述詳細說明為針對本創作 例說明而已,惟該實施例並非用 專利範圍,凡其它未脫離本創作 所元成之均等變化與修飾變更, 涵蓋之專利範圍中。 【圖式簡單說明】 1係傳統前掀式連接器的立體分解示意圖。 了圖係傳統前掀式連接器組裝時的剖面示意圖。 二圖係傳統前掀式連接驗裝完成時㈣面示意圖。 四圖係本創作之連接器的立體分解示意圖。 j圖係第四®中之連接器之蓋體的立體示意圖。 、圖係第四圖巾之連接H緣本體的立體示意圖。 音5圖係本創作之連接11之蓋體由上向下組裝時的剖面示 2圖係本創作之連接H之蓋體由右向左組裝時的剖面示 M376960 【主要元件符號說明】 〔本創作〕 1 前掀式連接器 10 絕緣本體 100容置空間 102凹槽 12 導電端子 13 辅助端子 14 蓋體 142轉軸部 144樞軸部 16 導電殼體 18 軟性排線 2 連接器 20 絕緣本體 200容置空間 202樞接槽 204凸起部 206斜面 22 導電端子 221第一導電臂 222第二導電臂 223第三導電臂 M376960 224接觸端 226對接端 23 輔助端子 24 蓋體 242轉軸部 243彈性臂 244柩轴部 245倒角 26 導電殼體 262第一殼體 264第二殼體 28 軟性傳輸單元Press, the connector is a type of connection that electrically connects wires, boards, and other circuit components. Therefore, it is widely used in various electronic products such as notebook computers, mobile phones, and personal digital assistants (PDAs). A typical connector is soldered to a circuit board, and its connection terminal is in contact with the contact end of the circuit board through the circuit layout to form an electrical connection 'however, in some applications, the connector is used to fix another power: The component 'is for example the purpose of fixing a flexible cable. Therefore, the connector 2 is between the flexible cable and the printed circuit board, and the second to the third figure as the electrical signal is a conventional fixed flexible row connection m, the structure of which includes the insulating body ι〇 , the complex 16 ^ 12, the auxiliary terminal 13, the cover 14 and the conductive housing Lei, the other type of connector 1 is pressed by the cover HT, so that the guide = 挟 holds the flexible cable 18, and the conductive terminal = > Electrical contact is established between the wires 18. 3 M376960 When the front-end connector 1 is assembled, the cover 14 must be vertically inserted into the accommodating space 100 of the insulative housing 10, and the pivot portion 144 of the cover 14 is pivoted to the insulative housing 10. In the recess 102, the plurality of conductive terminals 12 can be inserted into the accommodating space 100, so that the cover 14 is not blocked by the interference of the plurality of conductive terminals 12 during installation, and the shaft portion of the cover 14 cannot be formed. The problem that the 142 is pivoted on the conductive terminal 12. However, in the assembly process, since the cover 14 is placed in the accommodating space 100 of the insulative housing 10 earlier than the conductive terminal 12, it becomes impossible to automate mass production, and the assembly time of the connector 1 is likely to be long. And the problem of assembling more difficult. [New content] The structure of the conventional connector has difficulty in the assembly automation and mass production, and it is easy to cause a problem that the assembly time of such a connector is long and the assembly is difficult. The present invention provides a connector including an insulative housing, a plurality of conductive terminals, and a cover. The insulative housing has a receiving space and a pivoting slot in the receiving space. The plurality of conductive terminals are disposed in the receiving space of the insulative housing. Each of the conductive terminals has a contact end and a pair of ends, and the contact end is located in the accommodating space. The cover body is pivotally disposed in the accommodating space of the insulative housing, wherein each side of the cover body is provided with a resilient arm, and the elastic arm is provided with a pivot portion, and the pivot portion is pivotally disposed on the splicing of the insulating body groove. 4 The connector provided by this creation is attached to the elastic arm of the cover, so that the cover is purely in the original.卩° is placed in the accommodating space of the π problem, without first inserting the pivot portion into the pivoting groove. After the mountain is first inserted into the accommodating space of the insulating body, since the pivot=elastic arm is flexible, It can be inserted into the pivoting slot smoothly through the structural obstacle in the valley space of the insulating body, so that the plurality of conductive terminals can be assembled first, and then the cover can be assembled. The purpose of the garment body is to create the connector of the present invention. It can solve the problem that the conventional connector is easy to have a long working time and is difficult to assemble. ! [Embodiment] Referring to FIGS. 4 to 8 , the present invention provides a connector including an insulative housing 20 , a plurality of conductive terminals 22 , a helper terminal 23 , a cover 24 , and a conductive housing 26 . The insulating body has an accommodating space 200 and a dragging groove 202 located in the accommodating space 2 。. The plurality of conductive terminals 22 are disposed in the space 200 of the insulative housing 2, each of the conductive terminals 22 has a contact end 224 = a pair of terminals 226'. The contact end 224 is located in the receiving space 2〇〇. The 226 extends outside the insulative housing 20 via a terminal slot (not shown) in the insulative housing 20. In the present embodiment, each of the conductive terminals 22 includes a first conductive arm 221, a second conductive arm 222, and a third conductive arm 223, and the first conductive arm 221, the second conductive arm 222, and the third conductive arm. The 223 series is a scorpion. The cover body 24 is pivotally disposed on each side of the accommodating space of the insulative housing 20 - a pair of bullets (four) 243. The # 243 is provided with a pivot portion 244 disposed on the pivoting body _ 2Q2 of the insulating body 20, and _ / ', ^ is connected to the groove ^ and the shaft portion 244 is provided with a 245. The body 24 is provided with a shaft portion ice, and the sleeve portion 2 is pivotally disposed on the conductive terminal 22 and located between the first guide and the second conductive arm 222. A bulging portion is formed in the accommodating space 2 of the insulative housing 20, and the side wall of the bulging portion 2G4 and the insulating body 2G form the splicing groove system I. The convex portion 2 〇4 has a slope 206, and the slant surface The pivot portion 244 of the body 24 is mounted on the pivoting groove 2〇2, and the chamfer 245 of the detail 244 can be correspondingly abutted against the protrusion 2062 to form a sliding mechanism to facilitate the The inclined surface 206 slides into the pivoting groove 2G2. The conductive housing 26 covers the insulative housing 2Q. In the present embodiment, the conductive housing 26 includes a first housing 262 and a second housing. A flexible transmission unit 28 is assembled in the accommodating space 2, and the surface of the sleek transmission unit 28 is provided with a plurality of points (not shown) for the conductive terminals 22, and the contacts are lapped to the conductive terminals. The electrical contact 4 224 is used to electrically connect the flexible transmission unit & 28 to the conductor 22. In the present embodiment, the flexible transmission unit is referred to as Hi (FTC); however, f is limited to this. The flexible transmission unit 28 is also a flexible printed circuit board (FPC). The connector of the above-mentioned device is provided with the pivoting portion of the cover body, on the sexual arm, so that the material has a fixed (four) moving distance: when the cover body and the conductive terminal are to be assembled on the insulating body, The creation system can first insert a plurality of conductive terminals into the accommodating space of the insulative housing, and then pivot the cover body in the accommodating space of the insulative housing. Since the crotch portion is disposed on the elastic arm, the splicing portion can smoothly pass through the insulating body. The structural obstacles in the accommodation space are inserted into the reduction slots, so that the conventional connector is easy to be assembled and has a long assembly time and is difficult to assemble. A preferred embodiment of the present invention is intended to be limited to the scope of the present invention, and is not intended to be limited to the scope of the present invention. The equivalent changes and modifications of Yuancheng are included in the scope of patents covered. [Simple description of the diagram] 1 is a schematic exploded view of a conventional front-end connector. The figure is a schematic cross-sectional view of a conventional front-end connector assembled. The second picture is a schematic diagram of the (four) plane when the traditional front-end connection is completed. The four figures are a three-dimensional exploded view of the connector of the present creation. j is a perspective view of the cover of the connector in the fourth®. The figure is a three-dimensional diagram of the connection of the H-edge body of the fourth figure towel. The sound 5 diagram is a cross-section of the cover 11 of the present invention when assembled from the top to the bottom. 2 is a cross-section of the cover of the present invention when assembled from right to left. M376960 [Description of main component symbols] Creation] 1 Front 连接 connector 10 Insulating body 100 accommodating space 102 Groove 12 Conductive terminal 13 Auxiliary terminal 14 Cover 142 Rotary shaft 144 Pivot part 16 Conductive housing 18 Flexible cable 2 Connector 20 Insulating body 200 Space 202 pivot slot 204 boss 206 bevel 22 conductive terminal 221 first conductive arm 222 second conductive arm 223 third conductive arm M376960 224 contact end 226 butt end 23 auxiliary terminal 24 cover 242 shaft portion 243 elastic arm 244柩 shaft portion 245 chamfer 26 conductive housing 262 first housing 264 second housing 28 flexible transmission unit