M397048 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種電連接器,特別是有關於一種 可強化樞轉機構以及防止電磁波干擾之電連接器。 【先前技術】 按,電連接器係一種以電氣方式連接電線、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。 一般的電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,電連接器係作為固定另 一電路元件,例如固定軟性排線的用途。因此,電連 接器係介於軟性排線及印刷電路板之間,俾作為電氣 訊號之轉接。 一般傳統用來固定軟性排線之電連接器,其結構主 要包括有絕緣本體、複數導電端子以及後蓋,後蓋可 相對於絕緣本體旋轉移動而產生開啟與閉合的狀態, 當後蓋開啟時,可將軟性排線插入於絕緣本體中,當 後蓋閉合時,可將軟性排線電性搭接於導電端子上並 且固定於絕緣本體内。 3 M397048 然而,此種用來固定軟性排線之電連接器由於沒有 設置其他的輔助結構來減少電磁波的干擾(EM I ),所 以電連接器中所傳遞之電氣訊號很容易受到外界環境 的影響而導致雜訊過大,進而影響電氣訊號的傳遞, 導致產生客訴的問題。 【新型内容】 習知電連接器之結構對於防止電磁波干擾的成效 不佳,導致電連接器之電氣訊號很容易受到外界電磁 波干擾的影響,使得電氣訊號的傳遞效果變差,進而 導致產生客訴的問題。 本創作提供一種電連接器,其包括絕緣本體、複數 導電端子、導電殼體及蓋體,其中絕緣本體具有一開 口、複數個端子插槽及一容置空間,開口位於絕緣本 體前端,容置空間位於絕緣本體後端,該些端子插槽 係連通開口與容置空間,且絕緣本體上設有至少一支 承部,該支承部位於容置空間内。複數導電端子安裝 於該些端子插槽中,導電殼體覆蓋於絕緣本體上,其 中導電殼體設有至少一彈性臂以及一凸出部,彈性臂 係自開口沿著絕緣本體之上壁内側延伸至絕緣本體之 容置空間中,凸出部與支承部之間係為上下相對設置 且形成一軸承空間。蓋體樞設於絕緣本體之容置空間 内,其中蓋體設有一抵壓部以及一轉軸部,轉軸部係 樞設於軸承空間中,當向下扳動蓋體時,抵壓部係可 4 爾向著絕緣本體之下-㈣ -導本電 提供電連接11 ’其係在絕緣本體外側覆蓋 ⑼口延伸至絕緣本體後端之容置空間卜並且: ^彈性臂與蓋體之抵壓部之間的作動_,來達到將 彈性臂緊密搭接於軟性傳輸單元上之導電部的目的, 之後再透過此導電殼體之接地部接地,如此可達成防 t外界電磁波干擾的效果,以解決習知電連接器容易 文到外界f錢干料導致客訴的問題。此外,導電 殼體之凸出部與絕緣本體之支承部之間共同所形成之 轴承空間’可供蓋體之轉軸部樞設,藉以達到強化枢 轉機構的效果。 【實施方式】 請參照第一圖至第七圖,本創作提供一種電連接 器,此電連接器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,在本實施例 中,以絕緣本體2插接軟性傳輸單元6之方向為前側, 其中絕緣本體2具有一開口 22、複數個端子插槽24 及一容置空間26,開口 22位於絕緣本體2前端,容 置空間26係位於絕緣本體2後端,該些端子插槽24 係連通開口 22與容置空間26,且開口 22與容置空間 26之間係互相貫通,該絕緣本體2之上壁面向於容置 M397048 空間的側邊上設置有複數個支承部28,該些支承部28 係位於容置空間26内。 複數導電端子4安裝於該些端子插槽24中,其中 導電端子4之一端係位於容置空間26中,其另一端係 凸出於絕緣本體2外。在本實施例中,位於容置空間 26中之導電端子4係為用以與軟性傳輸單元6之導體 接點(未繪示)電性連接之接觸端,凸出於絕緣本體 2外之導電端子4係為用以與電路板(未繪示)焊接 固定之焊接端。 導電殼體5覆蓋於絕緣本體2之上壁外側上,其中 導電殼體5係設有複數個彈性臂50以及凸出部56, 彈性臂50係自開口 22沿著絕緣本體2之上壁内側延 伸至絕緣本體2之容置空間26中,且凸出部56與支 承部28之間係為上下相對設置且形成一轴承空間 38,複數個彈性臂50與凸出部56之間係呈交錯排列 設置。在本實施例中,凸出部56自絕緣本體2之上壁 面向於容置空間26延伸至接觸支承部28,以形成封 閉的軸承空間38,如此可增加蓋體3樞設時的穩定度。 蓋體3樞設於絕緣本體2上相對於開口 22之另一 側之容置空間26内,其中蓋體3之一側具有一轉軸部 30以及一抵壓部32,此轉轴部30係枢設於轴承空間 38中,抵壓部32係相對於彈性臂50設置,且當向下 扳動蓋體3時,抵壓部32係可經由轉軸部30的旋轉 6 M397048 連動而抵壓於彈性臂50上,以使彈性臂5G向著絕緣 本體2之下壁内側的方向產生變形移動。 在本實施例中,此彈性臂50之-端設有-接觸段 54,彈性臂5〇之另—端設有—可被蓋體3之抵壓部 32所抵壓之抵壓段52,其中彈性臂5〇係大致呈$形 的彈片結構形態,接觸段54與抵壓段52則分別位於 S形彈性臂5G之上下兩個弧形彎折之區段結構上。此 外,在絕緣本體2之上壁内側還設有一溝槽29,且彈 性臂50剛好位於溝槽29内。 一軟性傳輸單元6經由插入於開口 22内而安裝於 、、邑、’彖本體2上’其中軟性傳輸單元6面對於絕緣本體 2之上壁内側設有一導電部⑽,該導電部犯係用以與 彈性臂50之接觸段54搭接,軟性傳輸單元6面對於 絕緣本體2之下壁内側設有複數導體接點(未繪示), 遠些導體接點制以與導電端子4搭接。在本實施例 中,此軟性傳輸單元6係為軟性排線(FFC),此導電 部62係為鋁箔,然不限於此,軟性傳輸單元6亦可為 軟性印刷電路板(FPC) ’此導電部62亦可為銀膠塗 層。此外,該軟性傳輸單元6之導電部62與導體接點 係分別位於軟性傳輪單元6之上下兩側。 “ 虽軟性傳輸單元6插入於開口 22内後,藉由向下 扳動蓋體3使抵壓部32旋轉而抵壓於彈性臂5〇之抵 壓段52,抵壓段52受到抵壓部%的壓力而向下變形 移動,同時並帶動接觸段54向下移動且緊密搭接於導 7 M397048 電部62上,如此可以利用導電殼體5接地來達到電連 接器1之防止電磁波干擾的目的。此外,在本實施例 中,蓋體3上設有至少一卡扣部34,軟性傳輸單元6 設有至少一缺口 60,當向下扳動蓋體3時,卡扣部34 係可插入於缺口 60中,以將軟性傳輸單元6穩固地固 定於蓋體3與絕緣本體2之間。 綜上所述,本創作之電連接器其係在絕緣本體上壁 外側覆蓋有一導電殼體,利用此導電殼體設有自絕緣 本體之開口延伸至容置空間中的彈性臂,此彈性臂可 藉由與蓋體之間的作動,來增加軟性傳輸單元上之導 電°卩達到接地效果的品質,如此可解決習知電連接器 容易受到外界電磁波干擾而導致客訴的問題。另外, 導電殼體之凸出部與絕緣本體<支承部之間共同所形 成之軸承空間,可供蓋體之轉軸部樞設,藉以達到強 化樞轉機構的效果。 上述詳細說明為針對本創作一種較佳之可行實施 例說明而已,惟該實施例並非用以限定本創作之申= 專利範圍’凡其它未脫離本創作所揭示之技藝精神下 所完成之均等變化與修飾變更,均應包含於本創作 涵蓋之專利範圍中。 【圖式簡單說明】 第-圖係本創作之電連接器尚未組合軟性傳輸單 示意圖。 $ 8 M397048 第二圖係第一圖中之電連接器的立體分解示意圖。 第三圖係第一圖中之電連接器沿AA線段的剖面示意圖。 第四圖係第一圖中之電連接器沿BB線段的剖面示意圖。 第五圖係第二圖中之導電殼體的立體示意圖。 第六圖係第二圖中之絕緣本體的立體示意圖。 第七圖係第二圖中之蓋體的立體示意圖。 【主要元件符號說明】 〔本創作〕 1 電連接器 2 絕緣本體 22 開口 24 端子插槽 26 容置空間 28 支承部 29 溝槽 3 蓋體 30 轉軸部 32 抵壓部 34 卡扣部 38 軸承空間 4 導電端子 5 導電殼體 50 彈性臂 9 M397048 52 抵壓段 54 接觸段 56 凸出部 6 軟性傳輸單元 60 缺口 62 導電部M397048 V. New description: [New technical field] This creation is about an electrical connector, especially an electrical connector that can strengthen the pivoting mechanism and prevent electromagnetic interference. [Prior Art] Press, an electrical connector is a connecting device that electrically connects wires, boards, and other circuit components. Therefore, it is widely used in various electronic products around our lives, such as notebook computers, mobile phones, and personal digital assistants (PDAs). A typical electrical 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 electrical connector is fixed as another Circuit components, such as the use of fixed flexible cables. Therefore, the electrical connector is between the flexible cable and the printed circuit board, and is used as an electrical signal. The conventional electrical connector for fixing a flexible cable mainly comprises an insulating body, a plurality of conductive terminals and a back cover. The rear cover can be rotated and moved relative to the insulating body to open and close, when the back cover is opened. The flexible cable can be inserted into the insulative housing. When the rear cover is closed, the flexible cable can be electrically connected to the conductive terminal and fixed in the insulating body. 3 M397048 However, the electrical connector used to fix the flexible cable is susceptible to the external environment because it does not have other auxiliary structures to reduce electromagnetic interference (EM I ). Therefore, the electrical signal transmitted in the electrical connector is easily affected by the external environment. As a result, the noise is too large, which affects the transmission of electrical signals, resulting in customer complaints. [New content] The structure of the conventional electrical connector is not effective in preventing electromagnetic wave interference, and the electrical signal of the electrical connector is easily affected by external electromagnetic wave interference, which makes the transmission effect of the electrical signal worse, which leads to the generation of customer complaints. The problem. The present invention provides an electrical connector including an insulative housing, a plurality of conductive terminals, a conductive housing, and a cover. The insulative housing has an opening, a plurality of terminal slots, and a receiving space. The opening is located at the front end of the insulative housing. The space is located at the rear end of the insulative housing, and the terminal slots are connected to the opening and the receiving space, and the insulative housing is provided with at least one supporting portion, and the supporting portion is located in the receiving space. A plurality of conductive terminals are mounted in the terminal slots, and the conductive housing covers the insulative housing, wherein the conductive housing is provided with at least one elastic arm and a protruding portion, and the elastic arm is from the opening along the inner side of the upper wall of the insulating body The bearing portion extends into the accommodating space of the insulating body, and the protruding portion and the supporting portion are disposed opposite to each other and form a bearing space. The cover body is pivotally disposed in the accommodating space of the insulative housing, wherein the cover body is provided with a pressing portion and a rotating shaft portion, and the rotating shaft portion is pivotally disposed in the bearing space, and when the cover body is pulled downward, the pressing portion can be 4 illuminating the underside of the insulative body - (4) - the electric conductor is provided with an electrical connection 11 ' which is covered on the outer side of the insulating body (9) and extends to the accommodating space at the rear end of the insulating body and: ^ the pressing portion of the elastic arm and the cover body The action between the two is to achieve the purpose of closely bonding the elastic arm to the conductive portion on the flexible transmission unit, and then grounding through the grounding portion of the conductive housing, so that the effect of preventing external electromagnetic wave interference can be achieved. The conventional electrical connector is easy to ask the outside world for the problem of customer complaints. Further, the bearing space formed by the projection of the conductive housing and the support portion of the insulative housing can be pivoted to the shaft portion of the cover body, thereby achieving the effect of enhancing the pivoting mechanism. [Embodiment] Referring to the first to seventh figures, the present invention provides an electrical connector including an insulative housing 2, a cover 3, a plurality of conductive terminals 4, a conductive housing 5, and a flexible transmission unit 6. In this embodiment, the insulative housing 2 is inserted into the flexible transmission unit 6 in the direction of the front side, wherein the insulative housing 2 has an opening 22, a plurality of terminal slots 24 and an accommodation space 26, and the opening 22 is located in the insulative housing 2 The front end, the accommodating space 26 is located at the rear end of the insulative housing 2, and the terminal slots 24 are connected to the opening 22 and the accommodating space 26, and the opening 22 and the accommodating space 26 are mutually penetrated. A plurality of support portions 28 are disposed on the side of the wall facing the M397048 space, and the support portions 28 are located in the accommodating space 26. A plurality of conductive terminals 4 are mounted in the terminal slots 24, wherein one end of the conductive terminals 4 is located in the accommodating space 26, and the other end of the conductive terminal 4 protrudes outside the insulating body 2. In this embodiment, the conductive terminal 4 located in the accommodating space 26 is a contact end for electrically connecting with a conductor contact (not shown) of the flexible transmission unit 6, and is electrically conductive outside the insulating body 2. The terminal 4 is a soldering end for soldering and fixing to a circuit board (not shown). The conductive housing 5 is disposed on the outer side of the upper wall of the insulative housing 2, wherein the conductive housing 5 is provided with a plurality of elastic arms 50 and a protruding portion 56. The elastic arm 50 is from the opening 22 along the inner side of the upper wall of the insulating body 2. The bearing portion 26 extends into the accommodating space 26 of the insulative housing 2, and the protruding portion 56 and the supporting portion 28 are disposed opposite to each other and form a bearing space 38. The plurality of elastic arms 50 and the protruding portion 56 are interlaced. Arrange the settings. In this embodiment, the protruding portion 56 extends from the upper wall of the insulative housing 2 toward the receiving space 26 to the contact support portion 28 to form a closed bearing space 38, so as to increase the stability of the cover body 3 when pivoted. . The cover body 3 is pivotally disposed on the insulative housing 26 on the other side of the insulative housing 2, wherein one side of the cover body 3 has a pivot portion 30 and a pressing portion 32. The pressing portion 32 is disposed in the bearing space 38, and the pressing portion 32 is disposed relative to the elastic arm 50. When the cover body 3 is pulled downward, the pressing portion 32 can be pressed against the rotation of the rotating shaft portion 30 by 6 M397048. The elastic arm 50 is deformed to move the elastic arm 5G toward the inner side of the lower wall of the insulative housing 2. In this embodiment, the end of the elastic arm 50 is provided with a contact portion 54, and the other end of the elastic arm 5 is provided with a pressing portion 52 which can be pressed by the pressing portion 32 of the cover body 3, The elastic arm 5 is generally in the shape of a $-shaped shrapnel, and the contact portion 54 and the pressing portion 52 are respectively located on the lower two curved portions of the S-shaped elastic arm 5G. Further, a groove 29 is further provided inside the upper wall of the insulative housing 2, and the elastic arm 50 is located just inside the groove 29. A flexible transmission unit 6 is mounted on the 彖, 彖, 彖 body 2 via the opening 22, wherein the flexible transmission unit 6 is provided with a conductive portion (10) on the inner side of the upper wall of the insulating body 2, and the conductive portion is used for the purpose. The flexible transmission unit 6 is provided with a plurality of conductor contacts (not shown) on the inner side of the lower wall of the insulative housing 2, and the far conductor contacts are formed to overlap the conductive terminals 4. . In this embodiment, the flexible transmission unit 6 is a flexible cable (FFC), and the conductive portion 62 is an aluminum foil. However, the flexible transmission unit 6 may also be a flexible printed circuit board (FPC). Portion 62 can also be a silver gel coating. In addition, the conductive portion 62 of the flexible transmission unit 6 and the conductor contacts are respectively located on the upper and lower sides of the flexible transmission unit 6. "When the flexible transmission unit 6 is inserted into the opening 22, the pressing portion 32 is rotated downward to bias the pressing portion 32 against the pressing portion 52 of the elastic arm 5, and the pressing portion 52 is pressed. The pressure of the % is deformed to move downward, and at the same time, the contact section 54 is moved downward and closely overlaps the electric portion 62 of the guide 7 M397048, so that the grounding of the conductive housing 5 can be used to achieve electromagnetic wave interference prevention of the electrical connector 1. In addition, in the embodiment, the cover body 3 is provided with at least one buckle portion 34, and the flexible transmission unit 6 is provided with at least one notch 60. When the cover body 3 is pulled downward, the buckle portion 34 can be Inserted in the notch 60 to securely fix the flexible transmission unit 6 between the cover 3 and the insulative housing 2. In summary, the electrical connector of the present invention is covered with a conductive housing on the outer side of the upper wall of the insulative housing. The conductive shell is provided with a resilient arm extending from the opening of the insulating body to the accommodating space, and the elastic arm can increase the electrical conductivity on the flexible transmission unit by the action between the elastic arm and the grounding effect. Quality, so can solve the conventional electrical connector The problem is that the external electromagnetic wave interferes with the external complaint, and the bearing space formed by the protruding portion of the conductive shell and the insulating body can be pivoted for the shaft portion of the cover body, thereby strengthening The effect of the pivoting mechanism is described in the above detailed description of a preferred embodiment of the present invention, but the embodiment is not intended to limit the scope of the present invention. The equivalent changes and modification changes should be included in the scope of patents covered by this creation. [Simple description of the diagram] The first diagram is a schematic diagram of the flexible connector of the electrical connector of this creation. $ 8 M397048 The perspective view of the electrical connector in the first figure is a schematic cross-sectional view of the electrical connector in the first figure along the line AA. The fourth figure is the section of the electrical connector in the first figure along the BB line. Fig. 5 is a perspective view of the conductive housing in the second figure. Fig. 6 is a perspective view of the insulating body in the second figure. 3D schematic diagram of the main body. [Main component symbol description] [This creation] 1 Electrical connector 2 Insulating body 22 Opening 24 Terminal slot 26 accommodating space 28 Supporting portion 29 Groove 3 Cover 30 Rotating shaft 32 Compression Portion 34 Buckle 38 Bearing Space 4 Conductor Terminal 5 Conductive Housing 50 Elastic Arm 9 M397048 52 Pressing Section 54 Contact Section 56 Projection 6 Soft Transfer Unit 60 Notch 62 Conductive