五、新变說明: 【新变所屬之技術領域】 於一種可 防止電倾干擾之連接特別是有關 【先前技術】 按’連接器係-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、;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 路元件,例如固定軟性排線的用途。因此,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連接器,其結構主要 包括有絕緣本體、複數導電端子以及上蓋,上蓋可相 對於絕緣本體旋轉移動而產生開啟與閉合的狀態,當 上蓋開啟時,可將軟性排線插入於絕緣本體中,當上 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。 M397063 然而,此種用來固定軟性排線之連接器由於沒有設 置其他的辅助結構來減少電磁波的干擾(EMI),所以 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】 習知連接器之結構對於防止電磁波干擾的成效不 佳,導致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。 本創作提供一種連接器結構,包含絕緣本體、蓋 體、複數導電端子、金屬殼體以及金屬蓋,其中絕緣 本體後半部具有一容置空間以及設於容置空間之複數 個端子插槽,絕緣本體於容置空間内的左右兩側各設 有一凹槽。導電端子安裝於端子插槽中,其中導電端 子之後端具有一接觸端,導電端子之前端具有一焊接 端,接觸端位於容置空間内,焊接端向前延伸凸出於 絕緣本體外。金屬殼體設於絕緣本體之前半部上,其 中金屬殼體設有一左接觸臂與一右接觸臂,左接觸臂 係向後延伸至容置空間内的左側,右接觸臂係向後延 伸至容置空間内的右側。蓋體樞設於容置空間内,其 中蓋體具有一左轉轴部與一右轉軸部,左轉軸部與右 轉軸部係樞設於凹槽内。金屬蓋設於蓋體上,其中金 4 M397063 屬蓋設有複數個彈性臂,該些彈性臂係向著端子插槽 的方向延伸設置於容置空間内,金屬蓋設有一左彈臂 與一右彈臂,左彈臂係接觸於左接觸臂,右彈臂係接 觸於右接觸臂。 本創作所提供連接器結構,其係在絕緣本體上覆蓋 一金屬殼體,在蓋體上設有一金屬蓋,且金屬蓋設有 複數個彈性臂以及左右彈臂,利用左右彈臂可搭接於 金屬殼體之左右接觸臂以及彈性臂可搭接於軟性傳輸 單元上之金屬層的結構設計,之後再透過此金屬殼體 之接地部接地,如此可達成防止外界電磁波干擾的效 果,以解決習知連接器容易受到外界電磁波干擾而導 致客訴的問題。 【實施方式】 請參照第一圖至第八圖,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、金屬殼體5、金屬蓋6以及軟性傳輸單元7, 其中絕緣本體2之後半部具有一容置空間21以及設於 容置空間21之複數個端子插槽23,且絕緣本體2於 容置空間21内的左右兩側各設有一凹槽25。複數導 電端子4安裝於該些端子插槽23中,其中導電端子4 之後端具有一接觸端42,導電端子4之前端具有一焊 接端44,接觸端42位於容置空間21内,焊接端44 向前延伸凸出於絕緣本體2外。在本實施例中,位於 5 M397063 容置空間21中之導電端子4的接觸端42係用以與軟 性傳輸單元7電性連接,凸出於絕緣本體2外之導電 端子4的焊接端44係用以與電路板(未繪示)焊接固 定。 金屬殼體5蓋設於絕緣本體2之前半部上,其中金 屬殼體5設有左接觸臂56與右接觸臂58,左接觸臂 56係向後延伸至容置空間21内的左側,右接觸臂58 係向後延伸至容置空間21内的右側。蓋體3樞設於容 置空間21内,其中蓋體3具有一左轉軸部32與一右 轉軸部34,左轉軸部32與右轉軸部34係可樞設於凹 槽25内。金屬蓋6設於蓋體3上,其中金屬蓋6設有 複數個彈性臂60,該些彈性臂60係向著該些端子插 槽23的方向延伸設置於容置空間21内,金屬蓋6設 有一左彈臂62與一右彈臂64,左彈臂62係接觸於左 接觸臂56,右彈臂64係接觸於右接觸臂58。 在本實施例中,左彈臂62係位於左接觸臂56與左 轉軸部32之間,右彈臂64係位於右接觸臂58與右轉 軸部34之間,且左彈臂62之上表面係抵接於左接觸 臂56,左彈臂62之下表面係包覆於左轉軸部32,同 樣地,右彈臂64之上表面係抵接於右接觸臂58,右 彈臂64之下表面係包覆於右轉軸部34,其中左彈臂 62與右彈臂64之側邊皆係呈一半圓形之弧狀彈片結 構,且其上表面皆係呈一半圓形凸面,其下表面皆係 呈一半圓形凹面,左轉軸部32與右轉軸部34上皆設 6 M397063 有一凹陷部36可與左彈臂62與右彈臂64之下表面嵌 合,如此可保持左、右彈臂62、64與左、右轉轴部 32、34之間的整體旋轉結構的穩定性。右接觸臂58 係包括一右接觸部582以及一右嵌合部584,右接觸 部582係彈性抵壓接觸於右彈臂64,右嵌合部584係 嵌合固定於絕緣本體2之後半部上之右嵌合槽29内。 左接觸臂56係包括一左接觸部562以及一左嵌合部 564,左接觸部562係彈性抵壓接觸於左彈臂62,左 嵌合部564係嵌合固定於絕緣本體2之後半部上之左 敌合槽27。 值得一提的是,左接觸部562及右接觸部582為了 增加與左彈臂62及右彈臂64彼此之間電性接觸的穩 定性,左接觸部562及右接觸部582皆係呈一向下凸 出的彈片結構,以與左彈臂62與右彈臂64之上表面 的半圓形凸面彈片結構緊密搭接。在本實施例中,絕 緣本體2包括一前壁22、一左壁24、一右壁26以及 一底壁28,且前壁22、左壁24與右壁26設置於底壁 28上且形成容置空間21,該些端子插槽23設置於底 壁28上。金屬殼體5包括一上殼53、一下殼55以及 連接上殼53與下殼55之一前殼51,前殼51覆蓋於 前壁22前方,上殼53覆蓋於前壁22、左壁24與右 壁26上方,下殼55覆蓋於底壁28下方。 在絕緣本體2之前壁22上設有二開口 220貫通前 壁22連通至容置空間21,且面向於右嵌合槽29以及 7 M397063 左嵌合槽27設置,右接觸臂58與左接觸臂56係經由 此些開口 220穿過前壁22延伸至容置空間21内,以 利於將右嵌合部584與左嵌合部564插設且嵌合固定 於右嵌合槽29與左嵌合槽27,並且將右接觸部582 與左接觸部562搭接於左彈臂62與右彈臂64上,其 中右嵌合槽29與左嵌合槽27係位於凹槽25之後方, 凹槽25位於前壁22與右嵌合槽29及左嵌合槽27之 間。 另外,上殼53左右兩側各設有一向下彎折延伸之 一左接地部532與一右接地部534,底壁28鄰近於左 接地部532與右接地部534之接腳的部份係設有一鏤 空部29,以使左接地部532與右接地部534的接腳距 離底壁28有一段間隙存在,如此可避免錫焊時的焊接 不良。再者,上殼53之左右兩側各設有一上嵌合部 57,下殼55之左右兩側各設有一下嵌合部59,上嵌 合部57與下嵌合部59上亦設有倒刺(未標示),且 上嵌合部57、下嵌合部59、左接觸臂56與右接觸臂 58之延伸方向皆為相同,如此以利於將金屬殼體5安 裝固定於絕緣本體2上。 蓋體3上設有複數個孔洞30,其中該些彈性臂60 係穿過該些孔洞30延伸設置於該容置空間21内。軟 性傳輸單元7插入於容置空間21内,其中軟性傳輸單 元7面對於金屬蓋6之該些彈性臂60設有一金屬層 72,金屬層72係用以與該些彈性臂60搭接。之後再 8 M397063 向下扳動蓋體3,以藉由蓋體3閉合時抵壓於軟性傳 輸單元7上,來達到固定軟性傳輸單元7的目的。由 於彈性臂60係緊密搭接於金屬層72上,之後再將金 屬殼體5上之複數個前接地部52、後接地部54、左接 地部532以及右接地部534加以接地,如此即可達到 連接器結構1之防止電磁波干擾的目的。在本實施例 中,此軟性傳輸單元7係為軟性排線(FFC),此金屬 層72係為鋁箔,然不限於此,軟性傳輸單元7亦可為 軟性印刷電路板(FPC),此金屬層72亦可為銀膠塗 層。 綜上所述,本創作之連接器結構其係在絕緣本體上 覆蓋有一金屬殼體,在蓋體上設有一金屬蓋,且金屬 蓋設有複數個彈性臂以及左右彈臂,左右彈臂可搭接 於金屬殼體之左右接觸臂,彈性臂可搭接於軟性傳輸 單元上之金屬層,如此可解決習知連接器容易受到外 界電磁波干擾而導致客訴的問題。 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請 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,均應包含於本創作所 涵蓋之專利範圍中。 【圖式簡單說明】 9 M397063 第一圖係本創作之連接器結構尚未組合軟性傳輸單元的立體 示意圖。 第二圖係第一圖中之連接器結構沿A A線段的剖面示意圖。 第三圖係第一圖中之連接器結構沿BB線段的剖面示意圖。 第四圖係第一圖中之連接器結構的立體分解示意圖。 第五圖係第四圖中之金屬蓋的立體示意圖。 第六圖係第四圖中之絕緣本體的立體示意圖。 第七圖係第四圖中之金屬殼體的立體示意圖。 第八圖係第四圖中之蓋體的立體示意圖。 【主要元件符號說明】 1 連接器結構 2 絕緣本體 21 容置空間 22 前壁 220 開口 23 端子插槽 24 左壁 25 凹槽 26 右壁 27 左嵌合槽 28 底壁 29 右嵌合槽 3 蓋體 M397063V. New changes: [Technical field of new change] In connection with a connection that can prevent electric tilt interference, especially related to [previous technology] Electrical connection of wires, circuit boards and other circuit components by 'connector system' Connect the device. Therefore, it is widely used in various electronic products around our lives, such as notebook computers, computers, and personal digital assistants (PDAs). A typical connector is soldered to a circuit board, and its connection terminal is in contact with a 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 circuit component. For example, the purpose of fixing a flexible cable. Therefore, the connector is placed between the flexible cable and the printed circuit board, and is used as a relay for electrical signals. Generally, the connector for fixing a flexible cable generally comprises an insulating body, a plurality of conductive terminals and an upper cover. The upper cover can be rotated and moved relative to the insulating body to open and close, and when the upper cover is opened, the softness can be The cable is inserted into the insulative housing. When the upper cover is closed, the flexible cable can be electrically connected to the conductive terminal and fixed in the insulating body. M397063 However, since the connector for fixing the flexible cable does not have other auxiliary structures to reduce electromagnetic interference (EMI), the electrical signal transmitted in the connector is easily affected by the external environment and causes noise. Too large, which in turn affects the transmission of electrical signals, leading to problems with customer complaints. [New content] The structure of the conventional connector is not effective in preventing electromagnetic interference, which causes the electrical signal of the connector to be easily affected by external electromagnetic interference, which makes the transmission effect of the electrical signal worse, which leads to the problem of customer complaints. . The present invention provides a connector structure including an insulative housing, a cover body, a plurality of conductive terminals, a metal housing, and a metal cover. The rear half of the insulative housing has a receiving space and a plurality of terminal slots disposed in the receiving space, and is insulated. The body is provided with a groove on each of the left and right sides of the accommodating space. The conductive terminal is mounted in the terminal slot, wherein the rear end of the conductive terminal has a contact end, and the front end of the conductive terminal has a soldering end, and the contact end is located in the accommodating space, and the soldering end extends forwardly to protrude outside the insulating body. The metal casing is disposed on the front half of the insulating body, wherein the metal casing is provided with a left contact arm and a right contact arm, the left contact arm extends rearward to the left side in the accommodating space, and the right contact arm extends rearward to the accommodating The right side of the space. The cover body is pivotally disposed in the accommodating space, wherein the cover body has a left rotation shaft portion and a right rotation shaft portion, and the left rotation shaft portion and the right rotation shaft portion are pivotally disposed in the groove. The metal cover is disposed on the cover body, wherein the gold 4 M397063 cover is provided with a plurality of elastic arms extending in the direction of the terminal slot in the accommodating space, and the metal cover is provided with a left elastic arm and a right The spring arm, the left arm is in contact with the left contact arm, and the right arm is in contact with the right contact arm. The present invention provides a connector structure, which is covered with a metal shell on the insulating body, a metal cover is arranged on the cover body, and the metal cover is provided with a plurality of elastic arms and left and right elastic arms, which can be overlapped by the left and right elastic arms The left and right contact arms of the metal casing and the structural design of the metal layer of the elastic arm that can be overlapped on the flexible transmission unit are grounded through the grounding portion of the metal casing, so that the effect of preventing external electromagnetic wave interference can be achieved. Conventional connectors are susceptible to external electromagnetic interference and cause customer complaints. [Embodiment] Referring to the first to eighth figures, the present invention provides a connector structure including an insulative housing 2, a cover 3, a plurality of conductive terminals 4, a metal housing 5, a metal cover 6, and The flexible transmission unit 7 has a receiving space 21 and a plurality of terminal slots 23 disposed in the accommodating space 21, and the insulating body 2 is provided on each of the left and right sides of the accommodating space 21 Groove 25. The plurality of conductive terminals 4 are mounted in the terminal slots 23, wherein the rear end of the conductive terminal 4 has a contact end 42. The front end of the conductive terminal 4 has a soldering end 44. The contact end 42 is located in the accommodating space 21, and the soldering end 44 is provided. The forward extension protrudes out of the insulating body 2. In this embodiment, the contact end 42 of the conductive terminal 4 located in the 5 M397063 accommodating space 21 is used for electrically connecting with the flexible transmission unit 7, and the soldering end 44 of the conductive terminal 4 protruding from the outside of the insulating body 2 is Used for soldering and fixing with a circuit board (not shown). The metal housing 5 is disposed on the front half of the insulative housing 2, wherein the metal housing 5 is provided with a left contact arm 56 and a right contact arm 58, and the left contact arm 56 extends rearward to the left side in the accommodating space 21, and the right contact The arm 58 extends rearward to the right side in the accommodation space 21. The cover body 3 is pivotally disposed in the accommodating space 21, wherein the cover body 3 has a left rotation shaft portion 32 and a right rotation shaft portion 34, and the left rotation shaft portion 32 and the right rotation shaft portion 34 are pivotally disposed in the groove 25. Inside. The metal cover 6 is disposed on the cover body 3, wherein the metal cover 6 is provided with a plurality of elastic arms 60 extending in the direction of the terminal slots 23 in the accommodating space 21, and the metal cover 6 is provided. There is a left elastic arm 62 and a right elastic arm 64. The left elastic arm 62 is in contact with the left contact arm 56, and the right elastic arm 64 is in contact with the right contact arm 58. In the present embodiment, the left elastic arm 62 is located between the left contact arm 56 and the left rotating shaft portion 32, and the right elastic arm 64 is located between the right contact arm 58 and the right rotating shaft portion 34, and the left elastic arm 62 The upper surface is abutted against the left contact arm 56, and the lower surface of the left elastic arm 62 is wrapped around the left shaft portion 32. Similarly, the upper surface of the right elastic arm 64 abuts against the right contact arm 58, and the right arm The lower surface of the 64 is wrapped around the right shaft portion 34, wherein the sides of the left elastic arm 62 and the right elastic arm 64 are in a semicircular arc-shaped elastic structure, and the upper surface thereof is a semi-circular convex surface. The lower surface is a semi-circular concave surface, and the left rotating shaft portion 32 and the right rotating shaft portion 34 are provided with 6 M397063, and a recessed portion 36 is engageable with the lower surface of the left elastic arm 62 and the right elastic arm 64. The stability of the overall rotating structure between the left and right resilient arms 62, 64 and the left and right rotating shaft portions 32, 34 can be maintained. The right contact arm 58 includes a right contact portion 582 and a right fitting portion 584. The right contact portion 582 elastically abuts against the right elastic arm 64, and the right fitting portion 584 is fitted and fixed to the rear half of the insulating body 2. The upper right fitting groove 29 is inside. The left contact arm 56 includes a left contact portion 562 and a left fitting portion 564. The left contact portion 562 is elastically pressed against the left elastic arm 62, and the left fitting portion 564 is fitted and fixed to the rear half of the insulating body 2. On the left enemy slot 27. It should be noted that the left contact portion 562 and the right contact portion 582 are in a straight line in order to increase the stability of electrical contact between the left elastic arm 62 and the right elastic arm 64. The lower protruding elastic structure is closely overlapped with the semicircular convex elastic structure of the upper surface of the left elastic arm 62 and the right elastic arm 64. In this embodiment, the insulative housing 2 includes a front wall 22, a left wall 24, a right wall 26, and a bottom wall 28, and the front wall 22, the left wall 24, and the right wall 26 are disposed on the bottom wall 28 and formed. The terminal slots 21 are disposed on the bottom wall 28 . The metal casing 5 includes an upper casing 53, a lower casing 55, and a front casing 51 connecting the upper casing 53 and the lower casing 55. The front casing 51 covers the front wall 22, and the upper casing 53 covers the front wall 22 and the left wall 24. Above the right wall 26, the lower casing 55 covers the bottom wall 28. The front wall 22 of the insulative housing 2 is provided with two openings 220 communicating with the front wall 22 to the accommodating space 21, and facing the right fitting groove 29 and 7 M397063, the left fitting groove 27, the right contact arm 58 and the left contact arm. The 56 extends through the front wall 22 through the front wall 22 into the accommodating space 21 to facilitate the insertion of the right fitting portion 584 and the left fitting portion 564 and the fitting and fixing of the right fitting groove 29 to the left. The groove 27 and the right contact portion 582 and the left contact portion 562 are overlapped on the left elastic arm 62 and the right elastic arm 64, wherein the right fitting groove 29 and the left fitting groove 27 are located behind the groove 25, the groove 25 is located between the front wall 22 and the right fitting groove 29 and the left fitting groove 27. In addition, one of the left and right sides of the upper case 53 is provided with a leftwardly extending portion 532 and a right grounding portion 534. The bottom wall 28 is adjacent to the pin portion of the left grounding portion 532 and the right grounding portion 534. A hollow portion 29 is provided to allow the left ground portion 532 and the ground of the right ground portion 534 to have a gap from the bottom wall 28, thereby avoiding poor soldering during soldering. Furthermore, an upper fitting portion 57 is disposed on each of the left and right sides of the upper case 53, and a lower fitting portion 59 is provided on each of the left and right sides of the lower case 55, and the upper fitting portion 57 and the lower fitting portion 59 are also provided. Barbs (not shown), and the upper fitting portion 57, the lower fitting portion 59, the left contact arm 56 and the right contact arm 58 extend in the same direction, so as to facilitate the mounting and fixing of the metal shell 5 to the insulative housing 2 on. A plurality of holes 30 are defined in the cover body 3, and the elastic arms 60 extend through the holes 30 to extend into the accommodating space 21. The flexible transmission unit 7 is inserted into the accommodating space 21, wherein the flexible transmission unit 7 is provided with a metal layer 72 for the elastic arms 60 of the metal cover 6, and the metal layer 72 is used to overlap the elastic arms 60. Then, 8 M397063 pulls the cover 3 downward to achieve the purpose of fixing the flexible transmission unit 7 by pressing against the flexible transmission unit 7 when the cover 3 is closed. Since the elastic arm 60 is closely attached to the metal layer 72, the plurality of front ground portions 52, the rear ground portion 54, the left ground portion 532, and the right ground portion 534 on the metal casing 5 are grounded. The purpose of preventing the electromagnetic wave interference of the connector structure 1 is achieved. In this embodiment, the flexible transmission unit 7 is a flexible cable (FFC), and the metal layer 72 is an aluminum foil. However, the flexible transmission unit 7 may also be a flexible printed circuit board (FPC). Layer 72 can also be a silver gel coating. In summary, the connector structure of the present invention is covered with a metal shell on the insulating body, a metal cover is arranged on the cover body, and the metal cover is provided with a plurality of elastic arms and left and right elastic arms, and the left and right elastic arms can be The left and right contact arms of the metal casing are overlapped, and the elastic arms can be overlapped with the metal layer on the flexible transmission unit, so that the problem that the conventional connector is easily interfered by external electromagnetic waves and the customer is complained can be solved. The above detailed description is intended to illustrate a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and other equivalents and modifications may be made without departing from the spirit of the invention. Changes are to be included in the scope of patents covered by this creation. [Simple description of the diagram] 9 M397063 The first diagram is a three-dimensional diagram of the connector structure of this creation that has not been combined with the flexible transmission unit. The second figure is a schematic cross-sectional view of the connector structure in the first figure along the A A line segment. The third figure is a schematic cross-sectional view of the connector structure in the first figure along the BB line. The fourth figure is a perspective exploded view of the connector structure in the first figure. The fifth figure is a perspective view of the metal cover in the fourth figure. The sixth figure is a perspective view of the insulative body in the fourth figure. The seventh figure is a perspective view of the metal casing in the fourth figure. The eighth figure is a perspective view of the cover in the fourth figure. [Description of main components] 1 Connector structure 2 Insulating body 21 accommodating space 22 Front wall 220 Opening 23 Terminal slot 24 Left wall 25 Groove 26 Right wall 27 Left fitting groove 28 Bottom wall 29 Right fitting groove 3 Cover Body M397063
30 孔洞 32 左轉軸部 34 右轉軸部 36 凹陷部 4 導電端子 42 接觸端 44 焊接端 5 金屬殼體 51 前殼 52 前接地部 53 上殼 532 左接地部 534 右接地部 54 後接地部 55 下殼 56 左接觸臂 562 左接觸部 564 左嵌合部 57 上嵌合部 58 右接觸臂 582 右接觸部 584 右嵌合部 59 下嵌合部 6 金屬蓋 M397063 60 彈性臂 62 左彈臂 64 右彈臂 7 軟性傳輸單元 72 金屬層30 hole 32 left-hand shaft portion 34 right-hand shaft portion 36 recessed portion 4 conductive terminal 42 contact end 44 soldering end 5 metal housing 51 front housing 52 front ground portion 53 upper housing 532 left ground portion 534 right ground portion 54 rear ground portion 55 Lower case 56 Left contact arm 562 Left contact portion 564 Left fitting portion 57 Upper fitting portion 58 Right contact arm 582 Right contact portion 584 Right fitting portion 59 Lower fitting portion 6 Metal cover M397063 60 Elastic arm 62 Left arm 64 right arm 7 flexible transmission unit 72 metal layer