M409578 五、新型說明: 【新型所屬之技術領域】 種可 本創作是有接H’特別是有關於_ 防止電磁波干擾並且具有卡扣機構的連接器。 【先前技術】 按’連接urn氣方式連接電線 其他電路元件的連接裝置。因此,瘙 和 生活周遭之各種電子產品,例如筆=太 於吾人 以及個人數位助理器⑽)等。(己本型電腦、手機 —般的連接器係焊固於電路板上,俾利用 =板上經電路佈局之接觸端接觸,以形 路元件二某些運用上’連接器係作為固定另-電 八:件,例如固定軟性排線的用途。因此電 軟性排線及印刷電路板之間 °糸 轉接。 彳早作為電氣訊號之 —般傳統用來固定軟性排線之連接器,龙 匕括有絕緣本體、複數導 —構主要 =緣本體旋轉移動而產生開二的 蓋=二=:性排線插入於絕緣本體中:、當: 固定於絕緣本體内。排線電性搭接於導電端子上並且 3 M409578 然而,此種用來固定軟性排線之連接器由於沒有設 置其他的輔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,包括絕緣本體、複數導電 端子以及金屬殼體,其中絕緣本體具有一容置空間以 及複數個端子插槽。複數導電端子安裝於該些端子插 槽中,金屬殼體組裝於絕緣本體上,其中金屬殼體設 有一框體,該框體係包圍絕緣本體,框體包括一上殼 以及一下殼,上殼設有至少一接地彈片以及一回彈 部,回彈部連接一操作部且位於上殼與操作部之間, 操作部位於上殼之上表面上方以與上殼之上表面之間 形成一下壓行程空間,操作部係遮蔽於接地彈片之上 方,操作部之兩側設有延伸至容置空間内之一止退 部,金屬殼體之框體、接地彈片、回彈部、操作部以 及止退部係為金屬沖壓一體成型之結構。 4 屬供連接器,其係在絕緣本體上覆蓋-金 又此金屬㈣之接地彈片可搭接於軟 :上:金屬層’之後再透過此金屬殼體之接地部; 此可達成防止外界電磁波干擾的效果,以』 :=接益容易受到外界電磁波干擾而導致客訴的問 。另外’此金屬殼體上還設有操作部、止退部 回彈部,可用來取代f知連接 定軟性傳鮮元的目的。以相卡扣固 【實施方式】 请參照第一圖至第七圖,本創作提供一種連接器, 此連接器1包含絕緣本體2、複數導電端子4、金屬殼 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以及設於容置空間20之複數個端子插槽 26,複數導電端子4安裝於該些端子插槽26中。金屬 殼體5組裝於絕緣本體2上,其中金屬殼體5設有一 框體50,框體50係包圍絕緣本體2,其包括一上殼 502以及一下殼504,上殼502設有複數接地彈片5024 以及複數回彈部56,該些接地彈片5024與回彈部56 係呈交錯排列設置,該些回彈部56連接於一操作部 52且位於上殼502與操作部52之間,操作部52位於 上殼502之上表面上方以與上殼502之上表面之間形 成一下壓行程空間521。操作部52遮蔽於接地彈片 5024之上方,且操作部52之兩側設有延伸至容置空 間20内之止退部54,金屬殼體5之框體5〇、接地彈 片5024、回彈部56、操作部52以及止退部54係為金 屬沖壓一體成型之結構,且框體50、接地彈片5〇24、 回彈部56、操作部52以及止退部54的彎折延伸的形 狀結構有利於將金屬殼體5組裝固定於絕緣本體2上。 在本實施例中,為了方便說明起見,以絕緣本體2 之谷置空間20與軟性傳輸單元6互相連接的方向設定 為前方,因此容置空間2〇之開口係位於絕緣本體2之 刖側,絕緣本體2具有至少一凹槽22,凹槽22之開 口位於絕緣本體2之後侧,且凹槽22連通於容置空間 20。金屬殼體5自絕緣本體2之後側組裝於絕緣本體 2上’止退部54穿過凹槽22設置於容置空間20内且 位於上殼502與下殼504之間。 另外’在本實施例中’止退部5 4經由一連接部5 3 連接於操作部52之左右兩側,操作部52之前側連接 於回彈部56,該回彈部56設於上殼5〇2之前侧,上 殼502之前側鄰近於絕緣本體2之前侧,操作部52之 後側連接於止退部54,操作部52之後側與上殼5〇2 之後側之間形成下壓行程空間521,操作部52係幾乎 整個遮蓋橫跨於上殼502之上方,當在上殼502設有 接地彈片5024時’避免不了會在接地彈片5024周圍 產生一些空隙(未標示),此時操作部52係可遮蔽於 上殼502及接地彈片5024與空隙之上方,如此使得操 M409578 作部52可以輔助上殼502來作為遮蔽電磁波干擾之用 途。 金屬殼體5更包括一後殼506 ’該後殼506連接上 殼502與下殼504,後殼506抵靠於絕緣本體2之後 側。絕緣本體2之上侧表面設有複數個溝槽24,該些 溝槽24自絕緣本體2之前側水平延伸至絕緣本體2之 後側,上殼502設有水平延伸之複數個嵌合部5022, 且每一嵌合部5022之兩側設有倒刺(未標示),該些 嵌合部5022係嵌合固定於該些溝槽24内,如此以將 上殼502嵌合固定於絕緣本體2上。在本實施例中, 每一回彈部56係延伸設置於每一嵌合部5022上,每 一鼓合部5022的尺寸大小係大於每一回彈部56的尺 寸大小’如此當回彈部56受外力而彈性變形時,傲合 部5022可保持固定於絕緣本體2之上側表面而不會使 得上殼502也跟著一起彈性變形。該些回彈部56之間 的間距相等,以使得機構受力均衡,同樣地,該些嵌 合部5022之間的間距也實質相等。 在本實施例中,複數個接地彈片5024連接於上殼 502且朝下殼504延伸設置,上殼5〇2之該些接地彈 片5024與該些嵌合部5〇22係呈交錯排列設置,且每 欣合部5022的尺寸大小係大於每一接地彈片5024 的尺寸大小,以保持上殼502之結構形態的穩定。絕 緣本體2之上側表面設有複數個側部28,該些側部28 與該些溝槽24係呈交錯排列設置,每一側部28設有 7 一開口 280,該開口 280係連通於容置空間20,每一 接地彈片5024經由開口 280延伸設置於容置空間20 内。值得一提的是,側部28係位於操作部52以及上 殼502之間,如此當操作部52在操作下壓時,會受到 側部28的支撐保護而不會產生操作部52永久變形與 強度降伏的情況發生。 此外,上殼502還設有一橫向本體部5020,此橫 向本體部5020係橫向覆蓋於絕緣本體2之上側表面, 該些接地彈片5024與該些嵌合部5022之延伸方向係 垂直於該橫向本體部5020。值得一提的是,直接將接 地彈片5024設置於上殼502上’而不是設置在金屬殼 體5的其他位置上,係可以達到減少連接器1之絕緣 本體2之厚度大小的效果。導電端子4之前端具有一 接觸端’導電端子4之後端具有一焊接端,接觸端位 於容置空間20内,焊接端延伸凸出於絕緣本體2外。 在本實施例中,位於容置空間20中之導電端子4的接 觸端係與軟性傳輸單元6電性連接’凸出於絕緣本體 2外之導電端子4的焊接端係與電路板(未繪示)焊 接固定。 θ 在本實施例中,止退部54設有一橫向干涉部54〇, 該橫向干涉部540之延伸方向係垂直於一軟性傳輸單 元6插入於容置空間2〇内的方向,該軟性傳輸單元6 設有一缺口 62,止退部54之橫向干涉部54〇係可干 涉於該缺口 62,藉以將軟性傳輸單元6固定於絕緣本 M409578 體2軟[生傳輪單兀6上設有一金屬層(未 金屬殼體5之接地彈片_電性;接。在 本實關t,此軟性傳輸單元6係為軟性排 此金屬層係為銘落,然不限於此,軟性 … :為由軟::刷電路板⑽),此金 層。由於-置空間20的開口大小係略: 於軟性傳輪單元6的截面積大小,止=树大 部52的向下施力作用後可 動至_中,如此缺口 62不置生㈣移 而軟性傳輪單元6則可麟於絕緣本體2。54 ’ n所述’本_之連接料係在絕緣本體 軟性傳輸^ / 體之接地和可搭接於 =:=之金屬層的特性,之後再透過此金屬 “妾地’如此可達成防止外界電磁波干擾 =客:::nr容易受到外界電磁波干擾 成形之操屬殼體上還設有一體 ^退部以及回彈部,可用來取代習知 益之上錢相卡扣蚊軟性傳輸單元的目的, =本創作之連接器之金屬殼體的結構設計同時具有 =固定以及防止電磁波干擾的雙重功能。再者,操 j位t上殼及其接地彈片之上方且具有遮蔽上殼及 二地彈片之作用’如此操作部可以達到防止電磁波 十擾之效果。 9 M409578 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】 第一圖係本創作之連接器組合軟性傳輸單元的立體示意圖。 第二圖係本創作之連接器在另一方向的立體示意圖。 第三圖係第一圖中之連接器的立體分解示意圖。 第四圖係第三圖中之金屬殼體的立體示意圖。 第五圖係第三圖中之金屬殼體在另一方向的立體示意圖。 第六圖係第三圖中之絕緣本體的立體示意圖。 第七圖係第三圖中之絕緣本體在另一方向的立體示意圖。 【主要元件符號說明】 1 連接器 2 絕緣本體 20 容置空間 22 凹槽 24 溝槽 26 端子插槽 28 側部 280 開口 10 M409578M409578 V. New description: [New technical field] This kind of creation is a connector that has H', especially about _ preventing electromagnetic interference and having a snap mechanism. [Prior Art] Connect the wires to the connection device of other circuit components in the urn mode. Therefore, 各种 and various electronic products around the life, such as pen = too much and personal digital assistant (10). (The computer-type mobile phone-like connector is soldered to the circuit board, and the contact end of the circuit board layout is used for contact, and some of the circuit components are used as the fixed connector. Electric eight: pieces, for example, the purpose of fixing the flexible cable. Therefore, the electrical flexible cable and the printed circuit board are transferred between the two. As early as the electrical signal, the connector used to fix the flexible cable is used. Including the insulating body, the plurality of conductors and the main body = the rotation of the body of the body to produce the opening of the cover = two =: the sex cable is inserted into the insulating body: when: is fixed in the insulating body. On the conductive terminals and 3 M409578 However, the connector for fixing the flexible cable is not easily provided with other auxiliary structures to reduce electromagnetic interference (EMI), so the electrical signals transmitted in the connector are easily exposed to the external environment. The influence causes the noise to be too large, which in turn affects the transmission of the electrical signal, resulting in a problem of customer complaints. [New content] The structure of the conventional connector is not effective in preventing electromagnetic interference. The electrical signal to the connector is easily affected by external electromagnetic interference, which makes the transmission effect of the electrical signal worse, which leads to the problem of customer complaint. The present invention provides a connector including an insulating body, a plurality of conductive terminals and a metal casing. The insulative housing has a receiving space and a plurality of terminal slots. The plurality of conductive terminals are mounted in the terminal slots, and the metal housing is assembled on the insulative housing, wherein the metal housing is provided with a frame, and the frame system is surrounded by Insulating body, the frame body comprises an upper shell and a lower shell, the upper shell is provided with at least one grounding elastic piece and a rebounding portion, the rebounding part is connected with an operating part and is located between the upper shell and the operating part, and the operating part is located in the upper shell A pressing space is formed between the upper surface and the upper surface of the upper casing, and the operating portion is shielded above the grounding elastic piece, and the two sides of the operating portion are provided with a retaining portion extending into the accommodating space, and the metal shell The frame body, the grounding elastic piece, the rebounding portion, the operating portion, and the retreating portion are integrally formed by metal stamping. 4 is a connector for the system. The insulating body is covered with gold and the grounding shrapnel of the metal (4) can be overlapped with the soft: upper: metal layer' and then through the grounding portion of the metal casing; this can achieve the effect of preventing external electromagnetic interference, to: Benefits are easily affected by external electromagnetic waves, which leads to customer complaints. In addition, 'the metal housing is also equipped with an operation part and a retreating part rebounding part, which can be used to replace the purpose of connecting the soft-transferred elements. [Embodiment] Referring to the first to seventh figures, the present invention provides a connector comprising an insulative housing 2, a plurality of conductive terminals 4, a metal housing 5, and a flexible transmission unit 6, wherein the insulative body 2 has a accommodating space 20 and a plurality of terminal slots 26 disposed in the accommodating space 20, and the plurality of conductive terminals 4 are mounted in the terminal slots 26. The metal casing 5 is assembled on the insulating body 2, wherein the metal shell The body 5 is provided with a frame body 50. The frame body 50 surrounds the insulative housing 2, and includes an upper casing 502 and a lower casing 504. The upper casing 502 is provided with a plurality of grounding elastic pieces 5024 and a plurality of rebounding portions 56. The grounding elastic pieces 5024 and Rebound part 56 The resilience portions 56 are connected to an operating portion 52 between the upper casing 502 and the operating portion 52. The operating portion 52 is located above the upper surface of the upper casing 502 to be opposite the upper surface of the upper casing 502. A press stroke space 521 is formed. The operating portion 52 is disposed above the grounding elastic piece 5024, and the two sides of the operating portion 52 are provided with a retaining portion 54 extending into the accommodating space 20, the frame 5 of the metal casing 5, the grounding elastic piece 5024, and the rebound portion. 56. The operation portion 52 and the retaining portion 54 are integrally formed by metal stamping, and the frame body 50, the grounding elastic piece 5〇24, the rebound portion 56, the operation portion 52, and the retracted portion 54 are bent and extended in shape structure. It is advantageous to assemble and fix the metal shell 5 to the insulative housing 2 . In the present embodiment, for the sake of convenience of explanation, the direction in which the valley space 20 of the insulative housing 2 and the flexible transmission unit 6 are connected to each other is set to the front, and therefore the opening of the accommodation space 2 is located on the side of the insulative housing 2 The insulative housing 2 has at least one recess 22, and the opening of the recess 22 is located on the rear side of the insulative housing 2, and the recess 22 communicates with the receiving space 20. The metal housing 5 is assembled from the rear side of the insulative housing 2 to the insulative housing 2. The retaining portion 54 is disposed in the receiving space 20 through the recess 22 and between the upper housing 502 and the lower housing 504. In addition, in the present embodiment, the retaining portion 5 4 is connected to the left and right sides of the operating portion 52 via a connecting portion 5 3 , and the front side of the operating portion 52 is coupled to the rebound portion 56 , and the rebound portion 56 is disposed on the upper shell 5 〇 2 front side, the front side of the upper case 502 is adjacent to the front side of the insulative housing 2, the rear side of the operating portion 52 is connected to the retaining portion 54, and the rear side of the operating portion 52 and the rear side of the upper case 5〇2 form a downward pressing stroke. In the space 521, the operation portion 52 is almost entirely covered over the upper casing 502. When the upper casing 502 is provided with the grounding elastic piece 5024, "there is no space (not shown) generated around the grounding elastic piece 5024. The portion 52 can be shielded from the upper casing 502 and the grounding elastic piece 5024 and the gap, so that the M529578 portion 52 can assist the upper casing 502 as a shield for electromagnetic interference. The metal casing 5 further includes a rear casing 506' which connects the upper casing 502 and the lower casing 504, and the rear casing 506 abuts against the rear side of the insulating body 2. The upper surface of the insulative housing 2 is provided with a plurality of grooves 24 extending horizontally from the front side of the insulative housing 2 to the rear side of the insulative housing 2, and the upper housing 502 is provided with a plurality of fitting portions 5022 extending horizontally. The two sides of each of the fitting portions 5022 are provided with barbs (not shown). The fitting portions 5022 are fitted and fixed in the grooves 24 so as to fit and fix the upper casing 502 to the insulative housing 2 . on. In this embodiment, each rebound portion 56 is extended on each of the fitting portions 5022, and each of the bulging portions 5022 has a size larger than the size of each of the rebound portions 56. When the outer portion is elastically deformed by the external force, the proud portion 5022 can be fixed to the upper side surface of the insulative housing 2 without causing the upper case 502 to be elastically deformed together. The spacing between the resilient portions 56 is equal to equalize the force of the mechanism, and as such, the spacing between the engaging portions 5022 is substantially equal. In this embodiment, a plurality of grounding elastic pieces 5024 are connected to the upper casing 502 and extend toward the lower casing 504. The grounding elastic pieces 5024 of the upper casing 5〇2 are arranged in a staggered manner with the fitting portions 5〇22. The size of each of the welcoming portions 5022 is greater than the size of each of the grounding elastic pieces 5024 to maintain the structural shape of the upper casing 502. The upper surface of the insulative housing 2 is provided with a plurality of side portions 28, and the side portions 28 are arranged in a staggered manner with the grooves 24, and each side portion 28 is provided with an opening 280, which is connected to the opening. Each of the grounding elastic pieces 5024 is disposed in the accommodating space 20 via the opening 280. It is worth mentioning that the side portion 28 is located between the operating portion 52 and the upper casing 502, so that when the operating portion 52 is pressed under operation, it is protected by the support of the side portion 28 without permanent deformation of the operating portion 52. The occurrence of strength fluctuations occurs. In addition, the upper housing 502 is further provided with a lateral body portion 5020. The lateral body portion 5020 is laterally covered on the upper surface of the insulative housing 2, and the grounding elastic pieces 5024 and the extending portions of the engaging portions 5022 are perpendicular to the horizontal body. Department 5020. It is worth mentioning that directly placing the grounding elastic piece 5024 on the upper casing 502 instead of being disposed at other positions of the metal casing 5 can achieve the effect of reducing the thickness of the insulating body 2 of the connector 1. The front end of the conductive terminal 4 has a contact end. The rear end of the conductive terminal 4 has a soldering end. The contact end is located in the accommodating space 20, and the soldering end extends out of the insulating body 2. In this embodiment, the contact end of the conductive terminal 4 located in the accommodating space 20 is electrically connected to the flexible transmission unit 6 and protrudes from the soldering end of the conductive terminal 4 outside the insulating body 2 and the circuit board (not drawn Show) welding fixed. θ In the present embodiment, the retracting portion 54 is provided with a lateral interference portion 54 〇 extending in a direction perpendicular to a direction in which the flexible transmission unit 6 is inserted into the accommodating space 2 ,, the flexible transmission unit 6 is provided with a notch 62, and the lateral interference portion 54 of the retaining portion 54 can interfere with the notch 62, thereby fixing the flexible transmission unit 6 to the insulating body M409578. The body 2 is soft [the greening unit 6 is provided with a metal layer (The grounding shrapnel of the metal casing 5 is not electrically connected; in this case, the soft transmission unit 6 is a soft row. The metal layer is inscribed, but not limited to this, soft...: is soft: : Brush the board (10)), this gold layer. Since the opening size of the space 20 is omitted: the size of the cross-sectional area of the flexible transmission unit 6 is stopped, and the downward force of the large portion 52 of the tree can be moved to the _, so that the notch 62 is not placed (four) and softly transmitted. The wheel unit 6 can be lining the insulating body 2. The connecting material of the 'n_' is connected to the ground of the flexible transmission body of the insulating body and the metal layer which can be overlapped with =:=, and then transmitted through This metal "妾地" can be achieved to prevent external electromagnetic interference = Guest:::nr is easily affected by external electromagnetic wave interference. The housing is also equipped with an integral part and a rebound part, which can be used to replace the money of Xizhiyi. The purpose of the phase card mosquito soft transmission unit is that the metal shell of the connector of the present design has the dual function of fixing = fixing and preventing electromagnetic interference. Furthermore, the upper position of the j-bit upper shell and its grounding shrapnel It has the function of shielding the upper shell and the two ground shrapnels. Such an operation portion can achieve the effect of preventing electromagnetic waves from being disturbed. 9 M409578 The above detailed description is for a preferred embodiment of the present invention, but the embodiment The scope of the patent application, which is not intended to limit the scope of the invention, should be included in the scope of the patents covered by this creation. The first figure is a perspective view of the connector combination soft transmission unit of the present invention. The second figure is a perspective view of the connector of the present invention in another direction. The third figure is a three-dimensional exploded view of the connector in the first figure. The fourth figure is a perspective view of the metal casing in the third figure. The fifth figure is a three-dimensional diagram of the metal casing in the third figure in the other direction. The sixth figure is the three-dimensional view of the insulating body in the third figure. Fig. 7 is a perspective view of the insulating body in the third direction. [Main component symbol description] 1 Connector 2 Insulating body 20 accommodating space 22 Groove 24 Groove 26 Terminal slot 28 Side 280 opening 10 M409578
4 導電端子 5 金屬殼體 50 框體 502 上殼 5020橫向本體部 5022嵌合部 5024接地彈片 504 下殼 506 後殼 52 操作部 521 下壓行程空間 53 連接部 54 止退部 540 橫向干涉部 56 回彈部 6 軟性傳輸單元 62 缺口 114 Conductive terminal 5 Metal case 50 Frame 502 Upper case 5020 Lateral body portion 5022 Fitting portion 5024 Grounding spring 504 Lower case 506 Rear case 52 Operating portion 521 Pressing stroke space 53 Connecting portion 54 Retreating portion 540 Lateral interference portion 56 Rebound portion 6 flexible transmission unit 62 notch 11