五、新型說明: 【新型所屬之技術領域】 —本創作是有關於—種連接器結構,特別是有關於— 種蓋體可自動閉合之連接器結構。 【先前技術】 按’連接n係m氣方式連接電線、電路板和 其他電路元件的連接裝置。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 t電路板上經電路佈局之接觸端接觸,以形成電氣 t接,然而在某些運用上’連接器係作為固定另-電 入W如固&軟性排線的用途。因此,連接器係 =軟性排線及印刷電路板之間,俾作為電氣訊號之 用蓋傳:門固人定軟广排線之前掀式連接器的結構’其係利 會頂抵到軟性排線上,並使軟性排 ^ α下搭接於導f端子,如此確彳 性排線之接觸導通。 等㈣子與軟 然而,此種連接器之蓋體在安裝 二’==體掀開後,才可將軟: 再將盍體閉合,如此需要至少三個操作流程, 對現今講求節能減碳的趨勢而言’還有加以改善的空 間。此外,對一些高密度縝震的產品而言,已經焊接 其上的連接器在安裝固定棘性排線時,還需要用手先 將蓋體掀開後才能插入軟性排線’有時候並不是很方 便摞作,甚至還有可能會造成碰撞到鄰近的組裝元件 而造成損壞。 【新塑内容】 習知連接器之結構需要用手先將蓋體掀開後才能 插入軟性排線的製程,容易導致不方便操作以及不符 合節能減碳的問題產生。 本創作提供一種連接器結構’包括絕緣本體、複數 導電端子以及蓋體,其中絕緣本體具有—容置空間, 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上,其中蓋 體設有一轉軸部以及一施力部’該施力部位於容置空 間中且可跟著轉軸部旋轉。 本創作所提供之連接器結構,其係在蓋體之轉軸部 的一側設有一施力部,利用軟性排線插入絕緣本體之 容置空間時可頂抵到此施力部’由於施力部受到軟性 排線的作用力而移動’進而帶動蓋體從原來掀開的狀 態旋轉至閉合的狀態,如此可達到蓋體自動閉合的目 的,所以本創作之連接器結構可解決習知連接器需要 用手掀開蓋體之操作不方便以及不符合節能減碳的問 題。 【實施方式】 請參照第一圖至第四圖,本創作提供一種連接器結 構,此連接器結構1包含絕緣本體2、蓋體3、複數導 電端子4、導電殼體5以及軟性傳輸單元6,其中絕緣 本體2具有一容置空間20。複數導電端子4設置於絕 緣本體2之容置空間20内,每一導電端子4之一接觸 端係位於容置空間20内,其一對接端係經由絕緣本體 2内之端子插槽(未標示)延伸出於絕緣本體2外, 在本實施例中,此些導電端子4包含複數第一導電端 子42以及複數第二導電端子44,第一導電端子42具 有一第一接觸端420及一第一對接端421,第二導電 端子44具有一第二接觸端440及一第二對接端441, 此第一接觸端420與第二接觸端440係位於容置空間 20内,第一對接端421與第二對接端441則延伸出於 絕緣本體2外。 蓋體3樞設於絕緣本體2之容置空間20上,其中 蓋體3設有一轉軸部32、一施力部34以及一把手部 36,轉軸部32位於把手部36與施力部34之間,且此 轉軸部32係樞設於第一導電端子42之軸承部422 上,該施力部34位於容置空間20中且可沿著轉轴部 32之軸心方向旋轉,該把手部36位於容置空間20之 M374663 外且可沿著轉軸部32之軸心方向旋轉。在本實施例 中,此施力部34係呈L型的勾狀結構,此把手部36 係呈梯型的板狀結構。 導電殼體5覆蓋於絕緣本體2上,其中導電殼體5 設有二支撐部52,該二支撐部52延伸至容置空,間20 内且分別位於複數第一導電端子42與絕緣本體2之内 壁之間,並且頂抵於轉軸部32,以保護蓋體3之轉軸 部32不會從第一導電端子42之軸承部422上脫落進 而脫離於絕緣本體2之容置空間20。在本實施例中, 由於導電殼體5之支撐部52具有輔助第一導電端子 42之軸承部422固定蓋體3之轉軸部32的功能,因 此可保護轉軸部32不會脫離於絕緣本體2。導電殼體 5係覆蓋於絕緣本體2之容置空間20之上,且位於 蓋體3之下,此導電殼體5的設計並不妨礙蓋體3的 旋轉移動,以使蓋體3可順利掀開與閉合。 一軟性傳輸單元6組裝於容置空間20内,其中軟 性傳輸單元6面對於該些導電端子4設有複數個接點 (未繪示),該些接點係搭接於該些導電端子4之接 觸端,以使軟性傳輸單元6電性連接於導電端子4。 在本實施例中,此軟性傳輸單元6係為軟性排線 (FFC),然不限於此,軟性傳輸單元6亦可為軟性印 刷電路板(FPC)。 在本實施例中’此導電殼體5設有二接地塾片5 4, 該二接地墊片54係延伸至容置空間20内’並且二接 6 M374663 地墊片54係卡合於絕緣本體2之容置空間20的邊緣 處,以將導電殼體5固定於1絕緣本體2上,其中該二 接地塾片54係與軟性傳輸單元6上的導電部(未繪示) 相搭接,以達到接地功能之電性導通的目的。此外, 支撐部52與接地墊片54以及導電殼體5係為一體成 型之結構,所以可利用金屬薄板以沖壓方式製作而成。 請參照第五圖至第七圖,係為本創作所提供之連接 器結構1組裝軟性傳輸單元6時之蓋體3在不同位置 時之剖面示意圖。首先,軟性傳輸單元6置入於容置 空間20内時會先頂抵到位於轉軸部32之一側上之施 力部34,之後繼續將軟性傳輸單元6往前推以推動施 力部34沿著轉軸部32之軸心方向旋轉,此時位於轉 軸部32之另一側上的把手部36也同時跟著施力部34 旋轉,最後把手部36會抵靠於導電殼體5上而完成 蓋體3自動閉合的動作。 綜上所述,本創作之連接器結構其係在蓋體之轉軸 部之一側設有一施力部,在轉軸部之另一側則設有一 把手部,利用此施力部可以與軟性排線產生力的傳遞 作用,當軟性排線插入絕緣本體之容置空間時,此施 力部受到軟性排線插入的力量帶動而旋轉,由於此施 力部與把手部剛好分別位於轉轴部之相對兩側上,所 以施力部受力往上旋轉時,把手部則同時受力往下旋 轉,進而達到自動閉合蓋體的目的,所以本創作之連 7 接器結構可解Μ知 不方便以,不符合節能減二題用Γ掀開紙 例說:為實:广種較佳之可行貧施 專利r® ,Γ 非用以限定本創作之申、 所-成它未脫離本創作所揭示之技藝精神; 斤,之均4變化與修飾變更,均應包含 下 涵盍之專利範園中。 旬作所 【圖式簡單說明】 f 一圖係本創作之連接雜構組裝排線的立體示意圖。 f一圖係本創作之連接器結構在另-方向的立體示意圖。 f二圖係第二圖中之連接器結構的立體分解示意圖。 四圖係第―圖中之連接聽構之蓋體的立體示意圖。 ^圖係第i中之排線安裝於連接騎構在蓋體開啟位 置的剖面示意圖。 ί六圖係第一圖中之排線安裝於連接器結構在蓋體旋轉位 置的剖面示意圖。 =圖係第一圖中之排、線安裝於賴器結構在蓋體關閉位 置的剖面示意圖。 【主要元件符號說明】 〔本創作〕 1 連接器結構 2 絕緣本體 M374663 20 容置空間 3 蓋體 32 轉軸部 34 施力部 36 把手部 4 導電端子 42 第一導電端子 420第一接觸端 421第一對接端 422軸承部 44 第二導電端子 440第二接觸端 441第二對接端 5 導電殼體 52 支撐部 54 接地墊片 6 軟性傳輸單元 9V. New description: [New technical field] - This creation is about a connector structure, especially related to the connector structure that can be automatically closed. [Prior Art] A connection device for connecting wires, boards, and other circuit components by 'n-connecting m-type gas. Therefore, it is widely used in various electronic products around our lives, such as notebook computers, mobile phones, and personal digital assistants (pDAs). The general connector is soldered to the circuit board, and the contact end of the circuit board is contacted by the contact end of the circuit board to form an electrical connection. However, in some applications, the connector is used as a fixed-electrical connection. Into the use of W as a solid & soft cable. Therefore, the connector system = between the flexible cable and the printed circuit board, and the cover for the electrical signal is transmitted: the structure of the 掀 connector before the door is fixed to the soft wide cable. On the line, and the soft row is connected to the lead terminal, so that the contact of the flexible cable is turned on. Etc. (4) Sub-soft and soft However, the cover of this connector can be soft after the installation of the two '== body splits: then the carcass is closed, so at least three operational procedures are required, and energy saving and carbon reduction for today In terms of the trend, there is room for improvement. In addition, for some high-density shock products, the connector that has been soldered on it needs to be opened before the cover is opened by the hand to insert the fixed ratchet cable. Convenient for handling, and may even cause damage to adjacent assembly components. [New Plastic Content] The structure of the conventional connector requires the hand to be opened before the cover can be inserted into the flexible cable. It is easy to cause inconvenient operation and does not meet the problem of energy saving and carbon reduction. The present invention provides a connector structure that includes an insulative housing, a plurality of conductive terminals, and a cover body. The insulative housing has a receiving space. The plurality of conductive terminals are disposed in the receiving space of the insulative housing, and each of the conductive terminals has a contact end. The pair of terminals 'and the contact end are located in the accommodating space. The cover body is pivotally disposed on the accommodating space of the insulative housing, wherein the cover body is provided with a rotating shaft portion and a urging portion. The urging portion is located in the accommodating space and is rotatable along the rotating shaft portion. The connector structure provided by the present invention is provided with a force applying portion on one side of the rotating shaft portion of the cover body, and can be abutted against the force applying portion when the flexible cable is inserted into the receiving space of the insulating body. The part is moved by the force of the flexible cable to drive the cover body to rotate from the original opened state to the closed state, so that the cover body can be automatically closed, so the connector structure of the present invention can solve the conventional connector. It is inconvenient to handle the cover by hand and does not meet the problem of energy saving and carbon reduction. [Embodiment] Referring to the first to fourth figures, the present invention provides a connector structure including an insulative housing 2, a cover 3, a plurality of conductive terminals 4, a conductive housing 5, and a flexible transmission unit 6. The insulating body 2 has an accommodating space 20 . The plurality of conductive terminals 4 are disposed in the accommodating space 20 of the insulative housing 2, and one of the contact ends of each of the conductive terminals 4 is located in the accommodating space 20, and the pair of terminals are connected through the terminal slots in the insulative housing 2 (not labeled) In the present embodiment, the conductive terminals 4 include a plurality of first conductive terminals 42 and a plurality of second conductive terminals 44. The first conductive terminals 42 have a first contact end 420 and a first A pair of terminals 421, the second conductive terminal 44 has a second contact end 440 and a second butt end 441. The first contact end 420 and the second contact end 440 are located in the accommodating space 20, and the first butt end 421 And the second butt end 441 extends outside the insulating body 2. The cover body 3 is pivotally disposed on the accommodating space 20 of the insulative housing 2, wherein the cover body 3 is provided with a rotating shaft portion 32, a urging portion 34 and a handle portion 36. The rotating shaft portion 32 is located between the handle portion 36 and the urging portion 34. The shaft portion 32 is pivotally disposed on the bearing portion 422 of the first conductive terminal 42. The biasing portion 34 is located in the accommodating space 20 and is rotatable along the axial direction of the shaft portion 32. The handle portion 36 is located The housing space 20 is outside the M374663 and is rotatable along the axis of the shaft portion 32. In the present embodiment, the urging portion 34 has an L-shaped hook-like structure, and the handle portion 36 has a trapezoidal plate-like structure. The conductive housing 5 is disposed on the insulative housing 2, wherein the conductive housing 5 is provided with two supporting portions 52. The two supporting portions 52 extend into the receiving space, and are located in the middle 20 and respectively located in the plurality of first conductive terminals 42 and the insulating body 2 The inner wall is abutted against the rotating shaft portion 32 to protect the rotating shaft portion 32 of the cover 3 from falling off from the bearing portion 422 of the first conductive terminal 42 and from the receiving space 20 of the insulating body 2. In this embodiment, since the supporting portion 52 of the conductive housing 5 has the function of assisting the bearing portion 422 of the first conductive terminal 42 to fix the rotating shaft portion 32 of the cover 3, the rotating shaft portion 32 can be protected from the insulating body 2 . The conductive housing 5 covers the accommodating space 20 of the insulative housing 2 and is located under the cover 3. The design of the conductive housing 5 does not hinder the rotational movement of the cover 3, so that the cover 3 can be smoothly performed. Open and close. A flexible transmission unit 6 is assembled in the accommodating space 20, wherein the flexible transmission unit 6 is provided with a plurality of contacts (not shown) for the conductive terminals 4, and the contacts are lapped to the conductive terminals 4 The contact end is such that the flexible transmission unit 6 is electrically connected to the conductive terminal 4. In the present embodiment, the flexible transmission unit 6 is a flexible cable (FFC). However, the flexible transmission unit 6 may also be a flexible printed circuit board (FPC). In this embodiment, the conductive housing 5 is provided with two grounding strips 5 4 , and the two grounding pads 54 extend into the accommodating space 20 and the two lands 6 are engaged with the insulating body. At the edge of the accommodating space 20, the conductive housing 5 is fixed to the insulating body 2, wherein the two grounding slats 54 are overlapped with the conductive portions (not shown) on the flexible transmission unit 6, In order to achieve the purpose of electrical conduction of the grounding function. Further, since the support portion 52 is integrally formed with the ground pad 54 and the conductive case 5, it can be formed by press working using a thin metal plate. Please refer to the fifth to seventh figures, which are schematic cross-sectional views of the cover body 3 when the flexible transmission unit 6 is assembled by the connector structure 1 provided by the creation. First, when the flexible transmission unit 6 is placed in the accommodating space 20, it will first abut against the urging portion 34 on one side of the rotating shaft portion 32, and then continue to push the flexible transmission unit 6 forward to push the urging portion 34. Rotating along the axial direction of the shaft portion 32, the handle portion 36 on the other side of the shaft portion 32 is also rotated simultaneously with the biasing portion 34, and finally the handle portion 36 is abutted against the conductive housing 5 to complete The action of the cover 3 automatically closing. In summary, the connector structure of the present invention is provided with a force applying portion on one side of the rotating shaft portion of the cover body, and a handle portion on the other side of the rotating shaft portion, by which the force applying portion can be combined with the soft row When the flexible cable is inserted into the accommodating space of the insulating body, the urging portion is rotated by the force of the flexible cable insertion, since the urging portion and the handle portion are located at the rotating shaft portion respectively. On the opposite sides, when the force applying portion is rotated upwards, the handle portion is simultaneously forced to rotate downward, thereby achieving the purpose of automatically closing the cover body, so that the structure of the connector can be solved inconveniently. For example, it is not in line with the energy saving and the second problem. The paper is said to be true: the wide-ranging and better-practical patent, r®, is not used to limit the creation of this creation, and it has not been revealed from this creation. The spirit of craftsmanship; jin, the average of 4 changes and modifications, should include the patents in the following.旬作所 [Simple diagram of the diagram] f A diagram is a three-dimensional diagram of the connection of the hybrid structure assembly line of the creation. f is a three-dimensional diagram of the connector structure of the present invention in another direction. f is a perspective exploded view of the connector structure in the second figure. The four figures are a three-dimensional diagram of the cover of the connected structure in the first figure. ^ The line in the figure i is installed in the cross section of the connection riding frame in the open position of the cover. The wiring in the first figure is mounted on the cross-sectional view of the connector structure in the rotating position of the cover. = The diagram of the row and line in the first figure is a schematic cross-sectional view of the structure of the absorber in the closed position of the cover. [Main component symbol description] [This creation] 1 Connector structure 2 Insulation body M374663 20 accommodating space 3 Cover body 32 Rotary shaft portion 34 Force portion 36 Handle portion 4 Conductive terminal 42 First conductive terminal 420 First contact end 421 A pair of terminals 422 bearing portion 44 second conductive terminal 440 second contact end 441 second butt end 5 conductive housing 52 support portion 54 grounding pad 6 flexible transmission unit 9