M423371 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種連接器模組,特別是有關於一 種具有接地功能之薄型化的連接器模組。 【先前技術】 隨著消費性電子不斷朝輕、薄、短、小方向發展, • 例如在筆記型電腦中,為了相應於移動式產品的小型 化和可檇式設計,就要求組裝於Νβ内部的裝置如光碟 機或硬碟等,都必須要跟著ΝΒ外觀設計一起薄型化, 如此使得光碟機内部的各個元件的設計,也必需要跟 著朝向朝輕薄短小的方向發展。 習知光碟機包括有機殼、電路板及其上設置之連接 器與電子元件、光碟盤與驅動裝置等,機殼上設有開 口可供外接線纜接頭插入並與電路板上的連接器對 鲁 接’且電路板係組裝固定於機殼上。 然而,為了節省空間利用以達到薄型化的設計要 ' 求,習知將連接器以SMT焊接於電路板上後再組裝於 機殼上的方式並無法滿足現階段薄型化的需求,因此 需要開發出一種創新的結構以解決現今產品無法薄型 化的問題。 【新型内容】 3 較差g,、二接态柄組之結構對於節省空間利用的效果 模組心滿==到薄型化的設計要求,導致連接器 法滿足現今市場對薄型化需求的問題。 本創作提供一 ,, 軟性傳輸單元以=包括本體、複數導電端子 插揭 金屬外殼’其中本體設有複數端子 口:公、該些端子插槽互相連通之一排線插槽及一開 ㈣^ = σ與排線插#係分触於本義前後兩側。 組端子於該些端子插槽内’軟性傳輸單元 於:ki㉟内’軟性傳輪單元之複數導電接點係插入 於辦插槽内並與該些導電端子搭接,金屬外殼組裝 於-上,其中金屬外殼係將軟性傳輸單元組裝固定 於本體。 本—創作所提供之連接賴組,其係將連接器直接組 二查疋ϋ機殼上’省略掉了電路板的結構並且利用軟 "輸單元來作為成號的傳遞,由於軟性傳輸單元較 電路板有更好的節省空關㈣效果,如此可以達到 薄型化的設計要求,稍決習知將連接^焊接於電路 板上再組裝於機殼上的方式所容易造狀無法節省空 間利用與薄型化的問題。 【實施方式】 參照第一圖至第六圖所示之較佳實施例,本創作提 供種連接器模組〗’其包含有機殼2、連接器g、固 定機構4、金屬外殼5及軟性傳輪單元6。 一機〃又2係用於組裝一光碟盤7,其中機殼2設有第 彳土 21第二側壁22、第三侧壁23及底壁24,此 壁2侧壁21、第二側壁22與第三側壁23係設置於底 扣4上以形成一近似门字形的容置空間25,此容置 工間25可用來容置連接器3、固定機構4、金屬外殼 、J^生傳輸單元6及光碟盤7,並且在第-側壁21 ^設有-孔洞21G,此孔洞21()係用以提供給外接 連接器接頭(未繪示)插接之用。 連接器3組裝於機殼2上,其中連接器3包括一本 31與設置於本體31内之複數端子插槽μ及導電端 33 ’本體31設有一與該些端子插槽32互相連通之 :知310。在本實施例中’此連接器3係細Α連接 ^ ”本體31 6又有一舌板311,二舌板3n位於開口 ^内’複數導電端子33分別設置於二舌板3ιι上以 =成第-導接部331與第二導接部332,本體31的前 側係面對於第-侧壁21且設有該開n 31Q,本體31 的下側係面對於底壁24且孔312,開口 3iq 貫通於開孔312並使本體31之前側與下側的交 空以露出第-導接部331與第二導接部微,如此可 使得本體31的外形設計有利於應用在薄型化產品上。 固定機構4係將連接器3組裴固定於機殼21,、° 使開口 310對應於孔洞210設置’且金屬^殼5係^ 裂於連接器3的本體31上並與機殼2接觸。在本實施 例中,金屬外殼5包括-上殼51、—下殼52及二 M423371 接上殼51與下殼52之後殼53,上殼51之兩側延伸 設有固定機構4,該固定機構4包括螺絲41以及一體 成形於金屬外殼5兩側之鎖孔部50,螺絲41穿過鎖 孔部50以將金屬外殼5鎖固於機殼2上,底壁24上 設有一螺孔部240,螺絲41鎖合於螺孔部240中,且 螺絲41可以電性導通於金屬外殼5與機殼2。 在本實施例中,上殼51兩側各設有一側殼54,該 侧殼54向下延伸至本體31下緣且沿著本體31底面的 水平方向朝外延伸形成一體成形之鎖孔部50。本體31 兩側各設有一側部313,該側部313與本體31兩側之 間形成一溝槽314可供側殼54貫穿延伸,鎖孔部50 係自本體31下緣延伸穿過側部313的下方,且位於側 部313與底壁24之間,如此可得到較好的固定效果。 可以理解的是,本創作並不限定固定機構4的詳細 結構,除了使用螺絲41與鎖孔部50的方式固定外, 也可以使用焊接或是卡合干涉等方式來達到固定與電 性導通的目的。後殼53上設有複數接地彈片531,該 些接地彈片531係延伸至上殼51與下殼52之間且搭 接於複數導電端子33中之接地端子333,以使接地端 子333的訊號經由金屬外殼5傳遞至機殼2上。上殼 51設有複數上卡合部511,下殼52設有複數下卡合部 521,利用上卡合部511與下卡合部521以將金屬外殼 5組裝固定於連接器3上。 6 M423371 軟性傳輸單元6組裝於連接器3的本體31内,且 軟性傳輸單元6之導電接點61連接於該些導電端子 33,其中軟性傳輸單元6的一端係沿著底壁24與光碟 盤7的底面之間延伸,如此可有效利用空間且不會阻 礙到光碟盤7的移動。在本實施例中,軟性傳輸單元 6係為軟性排線,然不限於此,其他軟性傳輸元件亦 可應用於本創作中,且本體31設有與端子插槽32互 相連通之排線插槽34,開口 310與排線插槽34係分 φ 別位於本體31的前後兩側,軟性傳輸單元6係可插入 於排線插槽34内,其前端的導電接點61與導電端子 33電性搭接。 此外,軟性傳輸單元6之前端設有一缺口 62,該 缺口 62將複數導電接點61分成第一導電接點611與 第二導電接點612,第一導電接點611係電性連接於 第一導接部331,第二導電接點612係電性連接於第 二導接部332。在本實施例中,下殼52設有一干涉部 522,本體31設有一定位部315,干涉部522與定位 _ 部315係相對設置耦合干涉,且軟性傳輸單元6係可 被固持於干涉部522與定位部315之間,如此僅靠著 金屬外殼5就可將軟性傳輸單元6組裝固定於連接器 3的本體31上。 值得一提的是,在下殼52、本體31底部與底壁24 之間係形成一間隙523,軟性傳輸單元6自間隙523 延伸至底壁24與光碟盤7的底面之間,如此可避免軟 7 =傳輪單it 6的存放位置阻礙到光碟 ==以有效利用機殼2的容置空間二 間展費的問題。可以理解的是,軟性 卜殼5與本體31的下緣延伸至底壁24與 用的效果之間’係可以達到較佳的節省空間利 接地彈片531與軟性傳輪單元6之導電接點61八 別設置於該些導電端子33末段的上下方,接地彈片刀 531由上往下向前傾斜延伸至抵壓於接地端子333,該 接地端子333設有-接觸彈片334由上往下向前傾斜 延伸至抵壓於軟性傳輸單元6之導電接點6ι,接觸彈 片334係提供-向下分力與一向前分力於軟性傳輸單 元6上’以使軟性傳輸單元6抵靠於本體31上而且不 易向後退出脫離於本體31,其中定位部315位於接觸 彈片別與干涉部522之間,軟性傳輸單元6係被固 持於接觸彈片531、定位部315與干涉部522之間, 如此可得到較好的固持效果。 曰 綜上所述’本創作之連接H模組係將連接器直接組 裝固定於機殼上,省略掉了電路板的結構並且利用軟 性傳輸單絲作為錢的傳遞,自於軟性傳輸單元較 電路板有更好的節省空間利用的效果,如此可以達到 薄型化的設計要求,以解決習知將連接器焊接於電路 板上再組裝於機殼上的方式所容易造成之無法節省空 間利用與薄型化的問題。此外,金屬外殼上設有接地 彈片係可搭接於接地端子,且金屬外殼接觸固定於機 殼上,如此可使接地端子的訊號經由金屬外殼傳遞至 機殼以達到接地導通的目的。再者,此金屬外殼還可 以利用來將軟性傳輸單元組裝固定於本體上,如此可 減少其他固定件的使用而達到減少製造成本的目的。 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 所元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模組的立體示意圖。 第二圖係第一圖之連接器模組的部份剖面示意圖。 第一圖係第一圖之連接器模組去除機殼後的立體示意圖。 第四圖係第三圖之連接器模組去除機殼後在另—方向的立體 示意圖。 =圖係第二圖之連接H模組去除機殼後的立體分解圖。 第六圖係第五圖之連接器模組之連接器本體的立體示意圖。 【主要元件符號說明】 1 連接器模組 2 機殼 21 第一侧壁 M423371 孔洞 第二側壁 第三側壁 底壁 螺孔部 容置空間 連接器 本體 開口 舌板 開孔 侧部 溝槽 定位部 端子插槽 導電端子 第一導接部 第二導接部 接地端子 接觸彈片 排線插槽 固定機構 螺絲 金屬外殼 M423371 鎖孔部 上殼 上卡合部 下殼 下卡合部 干涉部 間隙 後殼 接地端子 側殼 軟性傳輸單元 導電接點 第一導電接點 第二導電接點 缺口 光碟盤M423371 V. New description: [New technical field] This creation is about a connector module, especially for a thin connector module with grounding function. [Prior Art] As consumer electronics continue to move toward light, thin, short, and small directions, • For example, in notebook computers, in order to correspond to the miniaturization and sturdy design of mobile products, it is required to be assembled inside Νβ. The device, such as a CD player or a hard disk, must be thinned along with the design, so that the design of the various components inside the CD player must also be oriented toward a light, thin and short direction. The conventional optical disk drive includes an organic casing, a circuit board and connectors and electronic components, an optical disk and a driving device disposed thereon, and the casing is provided with an opening for the external cable connector to be inserted and connected to the connector on the circuit board. The splicing is attached and the circuit board assembly is fixed to the casing. However, in order to save space and to achieve a thin design, it is customary to solder the connector to the board after SMT and then assemble it on the chassis, which does not meet the needs of thinning at this stage. Therefore, development is required. An innovative structure to solve the problem that today's products cannot be thinned. [New content] 3 Poor g, and the structure of the two-contact shank group for space-saving use The module is full == to the thin design requirements, which leads to the connector method to meet the demand for thinning in the market today. The present invention provides a flexible transmission unit for including a body, a plurality of conductive terminals, and a metal housing. The main body is provided with a plurality of terminal ports: the male terminal, the terminal slots are connected to each other, and one of the cable slots and one opening (four) ^ = σ and the line plug # is divided into the front and back of the original meaning. The plurality of conductive contacts of the flexible transmission unit are inserted into the socket and are overlapped with the conductive terminals, and the metal casing is assembled on the (the soft transmission unit in the ki35). The metal casing is assembled and fixed to the body by the flexible transmission unit. The connection group provided by Ben-Creation, which directly connects the connector to the casing, omits the structure of the circuit board and uses the soft "transmission unit as the transmission of the number, due to the soft transmission unit Compared with the circuit board, it has better effect of saving the air (4), so that it can achieve the thin design requirements. It is easy to save the space by using the method of soldering on the circuit board and then assembling it on the casing. With the problem of thinning. [Embodiment] Referring to the preferred embodiments shown in the first to sixth figures, the present invention provides a connector module which includes an organic casing 2, a connector g, a fixing mechanism 4, a metal casing 5, and softness. Transfer unit 6. A casing and a second system are used for assembling an optical disk tray 7, wherein the casing 2 is provided with a second side wall 22, a third side wall 23 and a bottom wall 24 of the second earth 21, and the side wall 21 and the second side wall 22 of the wall 2 And the third side wall 23 is disposed on the bottom buckle 4 to form an approximately gate-shaped accommodating space 25, and the accommodating work room 25 can be used for accommodating the connector 3, the fixing mechanism 4, the metal casing, and the J-shaped transmission unit. 6 and the disc 7 and a hole 21G is provided in the first side wall 21, and the hole 21 () is for providing an external connector connector (not shown) for plugging. The connector 3 is assembled on the casing 2, wherein the connector 3 includes a body 31 and a plurality of terminal slots μ and a conductive end 33 disposed in the body 31. The body 31 is provided with an interface with the terminal slots 32: Know 310. In the present embodiment, the connector 3 is connected to the body. The body 31 6 has a tongue 311. The two tongues 3n are located in the opening. The plurality of conductive terminals 33 are respectively disposed on the two tongues 3 ιι. a guiding portion 331 and a second guiding portion 332. The front side surface of the body 31 is provided with the opening n 31Q for the first side wall 21, and the lower side surface of the body 31 is for the bottom wall 24 and the opening 312, the opening 3iq The through hole 312 is penetrated and the front side and the lower side of the body 31 are communicated to expose the first guiding portion 331 and the second guiding portion, so that the outer shape of the body 31 can be advantageously applied to the thinned product. The fixing mechanism 4 fixes the connector 3 to the casing 21, and the opening 310 is disposed corresponding to the hole 210, and the metal casing 5 is cracked on the body 31 of the connector 3 and is in contact with the casing 2. In this embodiment, the metal casing 5 includes an upper casing 51, a lower casing 52, and two M423371. The casing 51 is connected to the casing 51 and the lower casing 52. The fixing mechanism 4 is extended on both sides of the upper casing 51. 4 includes a screw 41 and a keyhole portion 50 integrally formed on both sides of the metal casing 5, and the screw 41 passes through the keyhole portion 50 to lock the metal casing 5 The bottom wall 24 is provided with a screw hole portion 240, and the screw 41 is locked in the screw hole portion 240, and the screw 41 can be electrically connected to the metal shell 5 and the casing 2. In this embodiment, A side shell 54 is disposed on each side of the upper shell 51. The side shell 54 extends downward to the lower edge of the body 31 and extends outward along the horizontal direction of the bottom surface of the body 31 to form an integrally formed keyhole portion 50. A side portion 313 is defined, and a groove 314 is formed between the side portion 313 and the two sides of the body 31 for extending through the side shell 54. The locking hole portion 50 extends from the lower edge of the body 31 through the side portion 313, and It is located between the side portion 313 and the bottom wall 24, so that a better fixing effect can be obtained. It can be understood that the present invention does not limit the detailed structure of the fixing mechanism 4 except that the screw 41 and the keyhole portion 50 are used. The purpose of fixing and electrically conducting may also be achieved by soldering or engaging interference. The back shell 53 is provided with a plurality of grounding elastic pieces 531 extending between the upper shell 51 and the lower shell 52 and Laying the ground terminal 333 in the plurality of conductive terminals 33 to make the ground terminal 333 The signal is transmitted to the casing 2 via the metal casing 5. The upper casing 51 is provided with a plurality of upper engaging portions 511, and the lower casing 52 is provided with a plurality of lower engaging portions 521, and the upper engaging portions 511 and the lower engaging portions 521 are used. The metal housing 5 is assembled and fixed to the connector 3. 6 M423371 The flexible transmission unit 6 is assembled in the body 31 of the connector 3, and the conductive contacts 61 of the flexible transmission unit 6 are connected to the conductive terminals 33, wherein the flexible transmission unit One end of the 6 extends between the bottom wall 24 and the bottom surface of the optical disk tray 7, so that the space can be utilized effectively without hindering the movement of the optical disk 7. In the present embodiment, the flexible transmission unit 6 is a flexible cable. However, the other flexible transmission elements are also applicable to the present invention, and the body 31 is provided with a cable slot that communicates with the terminal slot 32. 34. The opening 310 and the cable slot 34 are respectively located on the front and rear sides of the body 31. The flexible transmission unit 6 can be inserted into the cable slot 34, and the conductive contacts 61 and the conductive terminals 33 at the front end thereof are electrically connected. Lap. In addition, the front end of the flexible transmission unit 6 is provided with a notch 62. The notch 62 divides the plurality of conductive contacts 61 into a first conductive contact 611 and a second conductive contact 612. The first conductive contact 611 is electrically connected to the first The second conductive contact 612 is electrically connected to the second conductive portion 332. In the present embodiment, the lower case 52 is provided with an interference portion 522. The body 31 is provided with a positioning portion 315. The interference portion 522 and the positioning portion 315 are oppositely disposed to couple interference, and the flexible transmission unit 6 can be held by the interference portion 522. Between the positioning portion 315 and the metal housing 5, the flexible transmission unit 6 can be assembled and fixed to the body 31 of the connector 3. It is worth mentioning that a gap 523 is formed between the bottom of the lower casing 52 and the bottom of the body 31 and the bottom wall 24. The flexible transmission unit 6 extends from the gap 523 to between the bottom wall 24 and the bottom surface of the optical disc 7 so as to avoid softness. 7 = The storage position of the transmission wheel unit 6 is hindered to the disc == to effectively utilize the housing space of the casing 2 for the two exhibition fees. It can be understood that the soft shell 5 and the lower edge of the body 31 extend to the effect between the bottom wall 24 and the used effect can achieve better space saving. The grounding elastic piece 531 and the conductive contact point 61 of the flexible transmission unit 6 Eight groundings are disposed on the upper and lower ends of the conductive terminals 33, and the grounding elastic blade 531 is obliquely extended from the top to the bottom to be pressed against the grounding terminal 333. The grounding terminal 333 is provided with the contact elastic piece 334 from the top to the bottom. The front tilting extends to the conductive contact 6 of the flexible transmission unit 6, and the contact elastic piece 334 provides a downward component and a forward component on the flexible transmission unit 6 to make the flexible transmission unit 6 abut against the body 31. The upper portion 31 is not easily retracted from the body 31, wherein the positioning portion 315 is located between the contact elastic piece and the interference portion 522, and the flexible transmission unit 6 is held between the contact elastic piece 531, the positioning portion 315 and the interference portion 522, so that Better retention. In summary, the connection H module of the present invention directly assembles and fixes the connector to the casing, omits the structure of the circuit board and utilizes the soft transmission monofilament as the transmission of money, from the soft transmission unit to the circuit. The board has a better space-saving effect, so that the thin design requirements can be achieved, so as to solve the problem that the connector is soldered to the circuit board and assembled on the casing, which is easy to save space and thin. Problem. In addition, a metal shrapnel on the metal casing can be connected to the grounding terminal, and the metal casing is contact-fixed to the casing, so that the signal of the grounding terminal can be transmitted to the casing through the metal casing to achieve grounding conduction. Moreover, the metal casing can also be utilized to assemble and fix the flexible transmission unit to the body, thereby reducing the use of other fasteners and reducing the manufacturing cost. 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 present invention. Modifications should be included in the scope of the patent covered by this creation. [Simple description of the drawing] The first figure is a three-dimensional schematic diagram of the connector module of the present invention. The second figure is a partial cross-sectional view of the connector module of the first figure. The first figure is a perspective view of the connector module of the first figure after removing the casing. The fourth figure is a three-dimensional schematic diagram of the connector module of the third figure in the other direction after removing the casing. = Figure 2 is a perspective exploded view of the connected H module after removing the casing. Figure 6 is a perspective view of the connector body of the connector module of the fifth figure. [Main component symbol description] 1 Connector module 2 Chassis 21 First side wall M423371 Hole second side wall Third side wall Bottom wall Screw hole accommodating space Connector body Opening tongue opening side groove positioning part terminal Slot Conductor Terminals First Guides Second Guides Ground Terminals Contact Shrapnel Cable Slots Fixing Mechanism Screws Metal Housing M423371 Locking Hole Upper Housing Upper Engagement Lower Housing Lower Engagement Interference Portion Rear Shell Grounding Terminal Side Shell flexible transmission unit conductive contact first conductive contact second conductive contact notched optical disk