M416918 然而,此種利用上蓋抵壓軟性排線使其電性連接導 電端子的連接器,由於不具有與軟性排線上下表面之 金屬層接地的結構設計與功能,所以容易導致有電磁 波干擾(EMI)的問題產生。 【新型内容】 習知連接器之結構由於不具有與軟性排線上下表 面之金屬層接地連接的結構設計,導致連接器容易有 電磁波干擾的問題產生。 本創作提供一種連接器,係可供一軟性傳輸元件插 入連接,其包括絕緣本體、複數導電端子、制動部件、 金屬殼體以及下接地彈片,其中絕緣本體具有一容置 空間及複數個端子插槽,複數導電端子安裝於該些端 子插槽中,用以與插入容置空間内之軟性傳輸元件電 性連接。制動部件組裝於絕緣本體,金屬殼體組裝於 絕緣本體,金屬殼體設有一框體及至少一上接地彈 片,框體包圍絕緣本體外周圍,上接地彈片自框體延 伸至容置空間與軟性傳輸元件上表面之上金屬層搭 接。下接地彈片組裝於絕緣本體,其中下接地彈片延 伸至容置空間與軟性傳輸元件下表面之下金屬層搭 接,上接地彈片設有一上接觸部,下接地彈片設有一 下接觸部,每一導電端子設有一接觸端,接觸端位於 上接觸部與下接觸部之間。 4 本創作所提料接H,其係在絕緣本體上分別裝設 =上接地料及下接地彈片,湘此上接地彈片及下 ;地彈片分別延伸至軟性傳輸元件之上下表面,並且 上下表面之金屬層搭接,如此即可解決習知連 接盗谷易產生之電磁波干擾的問題。 【實施方式】 π參照第—圖至第九圖所示之較佳實施例本創作 、查I一、種連接器1可供—軟性傳輸元件7插入且電性 連接$ 1主要包含絕緣本體2、複數導電端子3、 制動部件4、金屬殼體5及下接地彈片6。 、’〜緣本體2具有一容置空間2〇及複數個端子插槽 谷置:間2G於絕緣本體2的前側設有可供軟性傳 & 7通過置人之開口_ ’由絕緣本體2上表面 ^側向下延伸各設有—與容置㈣20相連通的通道 +且、、、邑緣本體2上表面在兩通道22之間還設有與容 1 20 4目連通之複數孔洞23。在本實施例中,絕 _本體2之各置空間20包括有一第一空間2〇1與一第 20門,其中第一空間201的高度小於第二空間 —的问度,且第二空間202較第一空間201靠近於 4置空間20的開口 2〇〇。 複數導電端子3安裝於絕緣本體2之端子插槽21 内,用以與插入容置空間20内之軟性傳輸元件7電性 連接其中每一導電端子3具有一位於容置空間20内 M416918 之接觸端31以及延伸出於絕緣本體2外之焊接, 接觸端31可與播入容置空2〇㈣軟性 . 衫電性接觸,焊翻32則可焊翻定於外部電路板 (未繪示)上。 制動部件4組裝於絕緣本體2上,在本實施例中, 制動部件4係為-蓋體,其包括有操作部41及-對作 動件42,該對作動件42係延伸自操作部41的一側並 '、有轉軸421推塊422及連接轉軸421與推塊422 之連接部423,轉軸421係樞接於絕緣本體2上表面 之凹槽24’操作部41係位於絕緣本體2之頂面上方。 金屬殼體5組裝於絕緣本體2,金屬殼體5設有以 金屬材料-體沖壓成型之框體51及複數上接地彈片 52,框體51包圍絕緣本體2外周圍,該些上接地彈片 52自框體51延伸至容置空間2〇與軟性傳輸元件了上 表面之上金屬層71搭接。在本實施例中,上接地彈片 • 52連接設置於框體51之上殼511且自上殼511的前 端朝框體51之後殼512延伸至第一空間2〇1内,絕緣 本體2上表面設有複數孔洞23可容置該些上接地彈片 52,該些孔洞23與容置空間2〇及絕緣本體2的上表 面相互連通,該些上接地彈片52穿過該些孔洞23延 伸至容置空間20内。上接地彈片52包括—第一上彎 折段52卜一上水平段522及一第二上彎折段523 ,第 一上彎折段521連接框體51之上殼511的前端,上水 6 M4I6918 平段522位於第一上彎折段521與第二上彎折段523 之間’第二上彎折段523設有上接觸部52〇。 * 此外,金屬设體5的兩側還設有一對定位彈片5 3, 係刀別對應絕緣本體2上表面兩側的通道22向下延伸 插入於谷置空間2〇内,其並包含有受推部π〗、干涉 邰532及連接受推部531和干涉部5犯之基部533, 制動部件4之推塊44係可抵靠於受推部531,干涉部 φ 532係用於干涉定位軟性傳輸元件7上之缺口 ”,如 此以將軟性傳輸元件7固定於絕緣本體2上。 複數下接地彈片6組裝於絕緣本體2,其中下接地 彈片6延伸至谷置空間20與軟性傳輸元件7下表面之 下金屬層72搭接,上接地彈片52設有一上接觸部52〇 可搭接上金屬層71 ’下接地彈片6設有-下接觸部60 可搭接下金屬層72,導電端子3設有一接觸端31可 搭接軟性傳輸元件7下表面之接點(未標示)。在本 • 實施例中,由於下接觸部60位於容置空間20前側, 士接觸。p 52G位於容置空間2〇後側,接觸端31位於 各置工間2〇中間,下接觸部與上接觸部52〇之間 垂直方向的同度間隙係可容置軟性傳輸元件7的厚 度’而接觸端31的位置則介於兩者垂直高度的間隙之 間’因此接觸端31位於上接觸部520與下接觸部60 之間不管是在水平方向或是在垂直方向皆同樣適用。 下接地彈片6自絕緣本體2前端朝框體51之後殼 512延伸至第-办n 9no & 乐一二間202内,其中上接地彈片52上 7 M416918 接觸部520較下接地彈片6之下接觸部60遠離於容置 空間20之開口 200。下接地彈片6包括一第一下彎折 段61、一下水平段62及一第二下彎折段63,下水平 段62位於第一下彎折段61與第二下彎折段63之間, 第二下彎折段63設有下接觸部60,下水平段62的長 度小於上水平段522,如此可使得下接觸部60位於容 置空間20前侧,上接觸部520位於容置空間20後側, 接觸端31位於上接觸部520與下接觸部60之間。 在本實施例中,下接地彈片6之第一下彎折段61 經由通過一彈性臂64連接於一嵌合固定片65,該嵌 合固定片65可組裝固定於絕緣本體2上,絕緣本體2 之下表面上設有溝槽25可容置下接地彈片6,溝槽25 與容置空間20及絕緣本體2的下表面相互連通,下接 地彈片6穿過溝槽25延伸至容置空間20内,彈性臂 64位於溝槽25内,由於溝槽25是完全鏤空,因此可 提供彈性臂64足夠的彈性變形空間。 當軟性傳輸單元7插入容置空間20内時,定位彈 片53之干涉部532可干涉於軟性傳輸單元7之缺口 70,藉以將軟性傳輸單元7固定於絕緣本體2。當軟 性傳輸單元7要脫離於容置空間20時,通過按壓制動 部件4之操作部41藉以使得定位彈片53之干涉部532 從鎖定位置移動至解鎖位置,則軟性傳輸元件7則可 解除與定位彈片53之間的干涉固定關係而脫離於絕 緣本體2。 8 M416918 軟性傳輸單元7上表面設有一上金屬層71,軟性 傳輸元件7下表面設有一下金屬層72,為了配合軟性 傳輸單元7之上金屬層71與下金屬層72所造成的厚 度差異,所以容置空間20也設計成第一空間201與第 二空間202,其中第一空間201的高度小於第二空間 202的高度,如此使得軟性傳輸單元7之上金屬層71 與下金屬層72可順利插入於第一空間201與第二空間 202並且達到較佳的固持效果。在本實施例中,此軟 性傳輸單元7係為軟性排線(FFC),此上金屬層71 與下金屬層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),此上金屬層71與 下金屬層72亦可為銀膠塗層。 綜上所述,本創作之連接器其係在絕緣本體上設有 上接地彈片及下接地彈片,利用此上接地彈片及下接 地彈片分別延伸至軟性傳輸元件之上下表面,並且與 位於上下表面之金屬層搭接,如此即可解決習知連接 器容易產生之電磁波干擾的問題。此外,上接地彈片 及下接地彈片以上下兩側挾持固定軟性傳輸單元的方 式,且接觸端位於上接觸部與下接觸部之間,可達到 將此些接地彈片緊密且穩固地搭接於軟性傳輸單元上 之金屬層的目的,之後透過金屬殼體之接地部接地, 即可達成防止外界電磁波干擾的效果。 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請 9 M416918 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】 第一圖係本創作之連接器與軟性傳輸單元的立體示意圖。 第二圖係第一圖中之連接器的立體分解示意圖。 第三圖係第二圖中之絕緣本體的立體示意圖。 第四圖係第二圖中之金屬殼體的立體示意圖。 第五圖係第二圖中之制動部件的立體示意圖。 第六圖係第二圖中之下接地彈片的立體示意圖。 第七圖係第一圖中之連接器沿BB線段的剖面示意圖。 第八圖係第一圖中之連接器沿A A線段的剖面示意圖。 第九圖係第一圖中之連接器沿CC線段的剖面示意圖。 【主要元件符號說明】 1 連接器 2 絕緣本體 20 容置空間 200 開口 201第一空間 202第二空間 21 端子插槽 22 通道 10 M416918M416918 However, such a connector that uses the upper cover to press the flexible cable to electrically connect the conductive terminals, because it does not have the structural design and function of grounding the metal layer on the lower surface of the flexible cable, is likely to cause electromagnetic interference (EMI). The problem arises. [New content] The structure of the conventional connector is designed to have a structure in which the metal layer of the lower surface of the flexible cable is grounded, which causes the connector to be susceptible to electromagnetic interference. The present invention provides a connector for inserting a flexible transmission component, which comprises an insulative housing, a plurality of conductive terminals, a braking component, a metal housing and a lower grounding spring. The insulating body has a receiving space and a plurality of terminal plugs. The slot and the plurality of conductive terminals are mounted in the terminal slots for electrically connecting to the flexible transmission component inserted into the accommodating space. The brake component is assembled to the insulative housing, and the metal housing is assembled to the insulative housing. The metal housing is provided with a frame body and at least one grounding elastic piece. The frame body surrounds the outer periphery of the insulating body, and the grounding elastic piece extends from the frame body to the receiving space and the softness. The metal layer on the upper surface of the transmission element overlaps. The lower grounding elastic piece is assembled on the insulating body, wherein the lower grounding elastic piece extends to the accommodating space and overlaps with the metal layer under the lower surface of the soft transmission component, the upper grounding elastic piece is provided with an upper contact part, and the lower grounding elastic piece is provided with the lower contact part, each The conductive terminal is provided with a contact end between the upper contact portion and the lower contact portion. 4 The material of the creation is connected with H, which is respectively installed on the insulating body = upper grounding material and lower grounding elastic piece, and the grounding elastic piece and the lower grounding piece are respectively arranged; the ground elastic piece respectively extends to the upper surface of the soft transmission element, and the upper and lower surfaces are respectively The metal layer is overlapped, so that the problem of electromagnetic wave interference easily generated by the connection of the stolen valley can be solved. [Embodiment] π Referring to the preferred embodiment shown in the first to the ninth drawings, the present invention, the connector 1 is available for the flexible transmission element 7 to be inserted and the electrical connection $1 mainly comprises the insulative body 2 The plurality of conductive terminals 3, the brake member 4, the metal casing 5, and the lower grounding elastic piece 6. The '~ edge body 2 has an accommodating space 2 〇 and a plurality of terminal slots. The 2G is provided on the front side of the insulating body 2 for soft transmission & 7 through the opening of the opening _ 'by the insulating body 2 The upper surface is extended downwardly from each other. The channel is connected to the receiving (four) 20 and the upper surface of the body 2 is further provided with a plurality of holes 23 communicating with the receiving body. . In this embodiment, each space 20 of the body 2 includes a first space 2〇1 and a 20th door, wherein the height of the first space 201 is smaller than the second space, and the second space 202 The opening 2 is closer to the 4 space 20 than the first space 201. The plurality of conductive terminals 3 are mounted in the terminal slot 21 of the insulative housing 2 for electrically connecting to the flexible transmission component 7 inserted into the accommodating space 20, wherein each of the conductive terminals 3 has a contact with the M416918 in the accommodating space 20. The end 31 and the soldering extending from the outside of the insulating body 2, the contact end 31 can be electrically contacted with the broadcast receiving space, and the soldering flip 32 can be soldered to the external circuit board (not shown). on. The brake component 4 is assembled on the insulative housing 2 . In the present embodiment, the brake component 4 is a cover body including an operation portion 41 and a pair of actuators 42 extending from the operation portion 41 . One side of the ', has a rotating shaft 421 pushing block 422 and a connecting portion 423 connecting the rotating shaft 421 and the pushing block 422, the rotating shaft 421 is pivotally connected to the groove 24' of the upper surface of the insulating body 2, and the operating portion 41 is located at the top of the insulating body 2 Above the face. The metal casing 5 is assembled to the insulative housing 2, and the metal casing 5 is provided with a frame body 51 formed by metal material body stamping and a plurality of grounding elastic pieces 52. The frame body 51 surrounds the outer periphery of the insulative housing 2, and the upper grounding elastic pieces 52 The frame body 51 extends to the accommodating space 2 搭 and overlaps the metal layer 71 above the upper surface of the flexible transmission element. In this embodiment, the upper grounding elastic piece 52 is connected to the upper casing 511 of the frame body 51 and extends from the front end of the upper casing 511 toward the rear housing 512 to the first space 2〇1, and the upper surface of the insulating body 2 The plurality of holes 23 are disposed to receive the upper grounding elastic pieces 52. The holes 23 communicate with the accommodating space 2 and the upper surface of the insulating body 2, and the upper grounding elastic pieces 52 extend through the holes 23. Set within space 20. The upper grounding elastic piece 52 includes a first upper bending section 52, an upper horizontal section 522 and a second upper bending section 523. The first upper bending section 521 is connected to the front end of the upper shell 511 of the frame body 51, and the water supply 6 The M4I6918 flat section 522 is located between the first upper bent section 521 and the second upper bent section 523. The second upper bent section 523 is provided with an upper contact portion 52A. In addition, a pair of positioning elastic pieces 5 3 are further disposed on both sides of the metal body 5, and the channel 22 corresponding to the two sides of the upper surface of the insulating body 2 is inserted downwardly into the valley space 2〇, and includes The pushing portion π, the interference 邰 532, and the base portion 533 connected to the pushed portion 531 and the interference portion 5, the push block 44 of the braking member 4 can abut against the pushed portion 531, and the interference portion φ 532 is used for interference positioning softness The gap on the transmission element 7 is such that the flexible transmission element 7 is fixed to the insulative housing 2. The plurality of grounding elastic pieces 6 are assembled to the insulative housing 2, wherein the lower grounding elastic piece 6 extends to the valley space 20 and the flexible transmission element 7. The metal layer 72 is overlapped under the surface, and the upper grounding elastic piece 52 is provided with an upper contact portion 52, which can be overlapped with the metal layer 71. The lower grounding elastic piece 6 is provided. The lower contact portion 60 can overlap the lower metal layer 72, and the conductive terminal 3 A contact end 31 is provided to overlap the contact (not shown) of the lower surface of the flexible transmission element 7. In the embodiment, since the lower contact portion 60 is located on the front side of the accommodating space 20, the contact is provided. The p 52G is located in the accommodating space. 2〇 rear side, contact end 31 is located in 2 各 of each work room The same degree of gap between the lower contact portion and the upper contact portion 52A can accommodate the thickness of the flexible transmission element 7 and the position of the contact end 31 is between the gaps of the vertical heights. 31 is also applicable between the upper contact portion 520 and the lower contact portion 60, whether in the horizontal direction or in the vertical direction. The lower grounding elastic piece 6 extends from the front end of the insulating body 2 toward the rear surface of the frame body 51 to the first to the n 9no In the room 202, the contact portion 520 of the upper grounding spring 52 is lower than the opening 200 of the lower grounding elastic piece 6 away from the opening 200 of the receiving space 20. The lower grounding elastic piece 6 includes a first downward bend. a folding section 61, a lower horizontal section 62 and a second lower bending section 63, the lower horizontal section 62 is located between the first lower bending section 61 and the second lower bending section 63, and the second lower bending section 63 is provided. The lower contact portion 60 has a lower length than the upper horizontal portion 522, such that the lower contact portion 60 is located on the front side of the accommodating space 20, the upper contact portion 520 is located on the rear side of the accommodating space 20, and the contact end 31 is located at the upper contact portion. Between the portion 520 and the lower contact portion 60. In this embodiment, the ground is grounded. The first lower bending portion 61 of the sheet 6 is connected to a fitting fixing piece 65 via a resilient arm 64. The fitting fixing piece 65 can be assembled and fixed on the insulating body 2, and the insulating body 2 is provided with a groove on the lower surface thereof. The groove 25 can accommodate the grounding elastic piece 6. The groove 25 communicates with the accommodating space 20 and the lower surface of the insulating body 2, and the lower grounding elastic piece 6 extends through the groove 25 into the accommodating space 20, and the elastic arm 64 is located in the groove. In the groove 25, since the groove 25 is completely hollowed out, a sufficient elastic deformation space of the elastic arm 64 can be provided. When the flexible transmission unit 7 is inserted into the accommodating space 20, the interference portion 532 of the positioning elastic piece 53 can interfere with the soft transmission unit. The notch 70 of 7 is used to fix the flexible transmission unit 7 to the insulative housing 2. When the flexible transmission unit 7 is to be disengaged from the accommodating space 20, the soft transmission element 7 can be released and positioned by pressing the operation portion 41 of the brake member 4 to move the interference portion 532 of the positioning elastic piece 53 from the locked position to the unlocked position. The interference between the elastic pieces 53 is in a fixed relationship and is separated from the insulating body 2. 8 M416918 The upper surface of the flexible transmission unit 7 is provided with an upper metal layer 71. The lower surface of the flexible transmission element 7 is provided with a lower metal layer 72. In order to match the thickness difference between the metal layer 71 and the lower metal layer 72 above the flexible transmission unit 7, Therefore, the accommodating space 20 is also designed as the first space 201 and the second space 202, wherein the height of the first space 201 is smaller than the height of the second space 202, so that the metal layer 71 and the lower metal layer 72 above the flexible transmission unit 7 can be The first space 201 and the second space 202 are smoothly inserted and a better holding effect is achieved. In this embodiment, the flexible transmission unit 7 is a flexible cable (FFC), and the upper metal layer 71 and the lower metal layer 72 are aluminum foil. However, the flexible transmission unit 7 may also be a flexible printed circuit board. (FPC), the upper metal layer 71 and the lower metal layer 72 may also be a silver paste coating. In summary, the connector of the present invention is provided with an upper grounding elastic piece and a lower grounding elastic piece on the insulating body, and the upper grounding elastic piece and the lower grounding elastic piece respectively extend to the upper surface of the soft transmission component, and are located on the upper and lower surfaces. The metal layer is overlapped, so that the problem of electromagnetic wave interference which is easily generated by the conventional connector can be solved. In addition, the upper grounding elastic piece and the lower grounding elastic piece hold the flexible transmission unit on the upper and lower sides, and the contact end is located between the upper contact part and the lower contact part, so that the grounding elastic pieces can be tightly and firmly connected to the softness. The purpose of the metal layer on the transmission unit is then grounded through the grounding portion of the metal casing to achieve the effect of preventing external electromagnetic interference. The above detailed description is intended to be illustrative of a preferred embodiment of the present invention, and is not intended to limit the scope of the application of the present application, which is incorporated herein by reference. Changes and modifications should be included in the scope of the patent covered by this creation. [Simple description of the diagram] The first diagram is a three-dimensional diagram of the connector and the soft transmission unit of the present invention. The second figure is a perspective exploded view of the connector in the first figure. The third figure is a perspective view of the insulative body in the second figure. The fourth figure is a perspective view of the metal casing in the second figure. The fifth figure is a perspective view of the brake component in the second figure. The sixth figure is a three-dimensional diagram of the grounding shrapnel in the second figure. The seventh figure is a schematic cross-sectional view of the connector in the first figure along the BB line. The eighth figure is a schematic cross-sectional view of the connector in the first figure along the A A line segment. The ninth drawing is a schematic cross-sectional view of the connector in the first figure along the CC line segment. [Main component symbol description] 1 Connector 2 Insulating body 20 accommodating space 200 Opening 201 First space 202 Second space 21 Terminal slot 22 Channel 10 M416918
23 孔洞 24 凹槽 25 溝槽 3 導電端子 31 接觸端 32 焊接端 4 制動部件 41 操作部 42 作動件 421 轉軸 422 推塊 423 連接部 5 金屬殼體 51 框體 511 上殼 512 後殼 52 上接地彈片 520 上接觸部 521 第一上彎折段 522 上水平段 523 第二上彎折段 53 定位彈片 531 受推部 532 干涉部 M416918 533基部 6 下接地彈片 60 下接觸部 61 第一下彎折段 62 下水平段 63 第二下彎折段 64 彈性臂 65 嵌合固定片 7 軟性傳輸單元 70 缺口 71 上金屬層 下金屬層 7223 Hole 24 Groove 25 Groove 3 Conductive terminal 31 Contact end 32 Weld end 4 Brake part 41 Operating part 42 Actuator 421 Rotary shaft 422 Push block 423 Connection part 5 Metal case 51 Frame 511 Upper case 512 Back case 52 Grounded Spring 520 Upper contact portion 521 First upper bending portion 522 Upper horizontal portion 523 Second upper bending portion 53 Positioning elastic piece 531 Pushing portion 532 Interference portion M416918 533 Base portion 6 Grounding elastic piece 60 Lower contact portion 61 First lower bending Section 62 lower horizontal section 63 second lower bending section 64 elastic arm 65 fitting fixing piece 7 flexible transmission unit 70 notch 71 upper metal layer lower metal layer 72