M350134 ; 八、新型說明: %i 【新型所屬之技術領域】 本創作係有關於一種電連接器裝置,尤指一種於軟性 排線設有接地導體,可配合具特殊結構之外殼部,以達成 穩定電訊傳輸、降低電磁干擾之電連接器裝置。 【先前技術】 | 目前液晶顯示器與系統主機板之間所使用的訊號傳 輸手奴,係多採用具超高速、低功耗及低電磁輻射特性的 低電壓差分信號接收器作為訊號傳輸介面,而使用於此新 型態介面之連接ϋ可直接與—軟性排線結合構成—電連接 器裝置’並將訊號由-相對遠端經由電連接器裝置而傳遞 至近端電路板上。例如台灣中請第咖〗撕號專利中揭示 了此類電連接器裝置之一傳統型態。 .這類結合了軟性排線之電連接器裝置,為了有效防止 外部電磁干擾,通常會於軟性排線任一側面上罩覆金屬 層,例如可貼附-銘箱,再利用金屬層與連接器之間相互 導通,將干擾訊號由軟性排線—端導引至近端電路板上, 以達到良好之屏蔽效果。 但是,由於軟性排線之相對遠端亦與一遠端電路板導 接而其連接方式多為直接焊接或經由一軟性排線連接器 傳遞’此兩種連接方式紐直接與軟性排線之金屬層直接 M350134 接觸,因此祕效果無㈣遞絲_狀相對遠端。 疋Μ,要如何解決上述_之問題與缺失,即為從事 此灯業之相關廠商所亟欲研究改善之方向所在者。 【新型内容] 故’創作人有鑑於上述各項_與缺失,乃搜集相 關資料,經由多方評估及考量,並以從事於此行業累積 之多年㈣,經由不斷試作歸改,贿計出此種電連 接器裝置之新型專利誕生者。 本創作之目的在提供一種電連接器裝置,於軟性排線 兩侧設有接地導體,並利用外殼部侧緣上一體延伸之搭接 部直接抵觸於接地導體之接地接點,以提供穩定的接觸效 果。 賴作之另—目的在提供—種電連接器裝置,於軟性 排線任-外側面上設有遮蔽層,且設有接地導體,外殼部 上設有至少一搭接部及複數彈片,可利用複數彈片抵觸於 遮敝層,使遮蔽層的屏蔽效果經由外殼部傳遞至接地導體 上,進而傳遞至軟性排線另一末端。 為實現上述目的’本創作之電連接器裝置包括一絕緣 本體,其-側設有對接部、另一侧設有平台部,於平台部 内設有連通至對接部之複數插槽,且另有複數端子㈣於 該等插槽中;一外殼部罩覆固定於該絕緣本體外側,且於 M350134 外殼部側緣設有向下延伸彎折之搭接部;及一由絕緣體包 覆複數導體所構成之軟性排線,複數導體外露於該軟性排 線末私以形成複數接點’軟性排線末端組装於該平台部, 使接點與端子之間形成接觸,且軟性排線另設有至少一接 地導體’搭接部可直接抵觸於接地導體之接地接點上,以 • 形成穩定接觸。 •為實現上述目的,本創作之電連接器裝置包括一絕緣 • 本體’其一側設有對接部、另-側設有平台部,平台部内 设有連通至對接部之複數插槽,複數端子組裝於該等插槽 中’-外设部係罩覆於絕緣本體外侧,外殼部設有至少一 • 搭接部及複數彈片;一軟性排線,係由絕緣體包覆複數導 . 體所構成’該科體並外露於軟性排線末端以形成複數接 ‘點,軟性排線末端組裝於平台部,使接點與端子之間形成 接觸,且於軟性排線外側設有一遮蔽層;其中,軟性排線 更設有接地㈣’使外㈣之搭接部接耻接地導體之接 地接點上’且外殼部之彈片抵接於遮蔽層上,因此,該軟 性排線之遽蔽層所形成之屏蔽效果可經由外殼部傳遞至接 地導體,進而傳遞至軟性排線之遠端。 為使能更進-步了解本創作之特徵及技術内容 參閱以下有關本創作之詳細說明與附圖,然而所附圖 僅提供參考說明用,並非用來對本創作加以限制者。 M350134 【實施方式】 °月多閱第圖至第八圖所示,為本創作之一較佳實施 例示意圖。本卿之電連接轉置主要由絕緣本體卜複 數端子2、軟性排線3及外殼部今所組成,以下將說明各 元件之結構組成及功用: 首先請參閱第一圖至第四圖M350134 ; VIII, new description: %i [New technical field] This creation is about an electrical connector device, especially a kind of grounding conductor on a flexible cable, which can be combined with a special structure of the outer casing to achieve An electrical connector device that stabilizes telecommunications transmission and reduces electromagnetic interference. [Prior Art] | At present, the signal transmission slaves used between the liquid crystal display and the system motherboard use a low-voltage differential signal receiver with ultra-high speed, low power consumption and low electromagnetic radiation characteristics as the signal transmission interface. The connector using the novel interface can be constructed directly in conjunction with the flexible cable - the electrical connector device 'and the signal is transmitted from the opposite end to the near-end circuit board via the electrical connector device. For example, a conventional type of such an electrical connector device is disclosed in the Taiwan Patent No. In order to effectively prevent external electromagnetic interference, the electrical connector device combined with the flexible cable usually covers the metal layer on either side of the flexible cable, for example, it can be attached to the name box, and then the metal layer and the connection are used. The devices are electrically connected to each other, and the interference signal is guided from the flexible cable end to the near-end circuit board to achieve a good shielding effect. However, since the opposite ends of the flexible cable are also connected to a remote circuit board, the connection method is mostly direct soldering or transmission via a flexible cable connector. The two connection methods are directly connected to the metal of the flexible cable. The layer is directly in contact with M350134, so the secret effect is not (4) the filament is _ shaped relative to the distal end. Hey, how to solve the above problems and deficiencies, that is, the relevant manufacturers who are engaged in this lighting industry are eager to study the direction of improvement. [New content] Therefore, the creators have collected the relevant information in view of the above-mentioned _ and the lack of information, and through multiple assessments and considerations, and through the years of accumulation in the industry (four), through constant trials and reforms, the bribes counted such The birth of a new patent for electrical connector devices. The purpose of the present invention is to provide an electrical connector device having grounding conductors on both sides of the flexible cable and utilizing the integrally extending lap portion on the side edge of the outer casing portion to directly abut the grounding contact of the grounding conductor to provide stable Contact effect. Another purpose is to provide an electrical connector device, which is provided with a shielding layer on the outer side of the flexible cable, and is provided with a grounding conductor, and the outer casing portion is provided with at least one overlapping portion and a plurality of elastic pieces. The plurality of elastic pieces are in contact with the concealing layer, and the shielding effect of the shielding layer is transmitted to the grounding conductor via the outer casing portion, and then transmitted to the other end of the flexible cable. In order to achieve the above object, the electrical connector device of the present invention comprises an insulative housing having a butt portion on one side and a platform portion on the other side, and a plurality of slots connected to the docking portion in the platform portion, and a plurality of terminals (four) are disposed in the slots; an outer casing portion is covered and fixed on the outer side of the insulating body, and a side portion of the outer casing portion of the M350134 is provided with a downwardly extending bent portion; and a plurality of conductors are covered by the insulator The flexible cable is formed, and the plurality of conductors are exposed at the end of the flexible cable to form a plurality of contacts. The flexible cable ends are assembled on the platform portion to form a contact between the contacts and the terminals, and the flexible cable is additionally provided. At least one grounding conductor 'lap portion can directly abut the grounding contact of the grounding conductor to form a stable contact. In order to achieve the above object, the electrical connector device of the present invention comprises an insulation body having abutting portion on one side and a platform portion on the other side, and a plurality of slots connected to the docking portion in the platform portion, The terminal is assembled in the slots. The peripheral component cover covers the outer side of the insulative housing, and the outer casing portion is provided with at least one overlapping portion and a plurality of elastic pieces. A flexible cable is coated with a plurality of conductors. Forming the body and exposing it to the end of the flexible cable to form a plurality of points, the end of the flexible cable is assembled on the platform portion, the contact between the contact and the terminal is formed, and a shielding layer is disposed outside the flexible cable; The flexible cable is further provided with a grounding (4) 'so that the outer (four) overlapping portion is connected to the grounding contact of the grounding conductor, and the elastic piece of the outer casing portion abuts on the shielding layer, and therefore, the flexible layer is covered by the shielding layer The shielding effect formed can be transmitted to the ground conductor via the outer casing portion and then to the distal end of the flexible cable. For a more detailed description of the features and technical aspects of the present invention, reference is made to the following detailed description of the present invention and the accompanying drawings. M350134 [Embodiment] FIG. 8 is a schematic view showing a preferred embodiment of the present invention. The electrical connection transposition of this Qing is mainly composed of the insulating body, the multi-terminal 2, the flexible cable 3 and the outer casing. The structure and function of each component will be described below: First, please refer to the first to fourth figures.
絕緣本體1為一塑膠成型體,其於一側緣設有平台部 1〇,另一侧緣設有對接部12,於平台部1〇設有並列且連 通至對接部12上之複數插槽u,插槽n内可容設複數端 子2,使鳊子2 —端外露於對接部12上,一軟性排線3的 末端36可搭置於平台部1〇上,使軟性排線3與端子2接 觸,對接部12則用於與基板端連接器相互插接。 、、邑緣本體1相對之左右兩侧各設有一鎖定機構14, 於與基板端連接器相互扣合,鎖定機構14包括卡勾Μ. 麵部M2及容置槽143 ’料141為金屬片變折一體〉 型,設置於容置槽⑷中’制者於操作觀部142時 I帶動容置槽_之卡勾⑷移動,籍以解除與基板 連接器之做H滅於較機構14的_設有突出 卡抵部15,卡抵部15可驗干涉軟性排線3之凸耳% =防止軟性排線3受力脫落。絕緣本體〗於適#位置處 s又有複數個固定孔16。 複數端子2係由金屬材質所製成,每—端子2具有相 M350134 對之-接觸部21及〜承㈣22 緣本⑸之插槽U中,使_部21=^,於絕 對接部12 -側面上 卜路於1巴緣本體1之 1〇上。 而承接㈣則彈性地突出於平台部 軟性排線3由絕緣體31包覆複 具有相對之—末端36及一遠端37,末端 其 緣本體1之平台部10上,遠端37則連接至另::迷絕 組’例如-電路板或軟性排線連接= 及第六®所示’複數_ 32並行排 體 圖 :-端外露於軟性排線3之末端36任一面二 ”《占321導體32未露出絕緣體31外的部分於第六圖出中 以^線表不,複數導體32的另-端則外露於軟性排線3 之遠端37。軟性排線3末端可崎於平台部1〇上,使複 數接點32!與端子2之承接部22彈性接觸,以達到將訊號 經由接觸部2!傳遞至基板端連接器之目的。在複數導體 32的兩側另設有至少一接地導體33,於本實施例中為左右 各兩條接地導體33,接地導體33 —端外露於絕緣體Μ外 以形成接地接點33ί,而接地導體33另—端則外露於軟性 ㈣3之遠端37。此外,軟性排線3之外側面上還設有遮 蔽層34,主要用於阻絕、降低電磁波干擾。 於本實施例中,利用搭接方式將軟性排線3之末端36 組裝於平台部」0上’再利用-固定塊13壓合在敕性排線 M350134 3上方’使軟性排線3之接點321與端子2之承接部22形 成穩定接觸,再藉由外殼部4予以鎖扣固定。 外设部4係由上金屬外殼41及下金屬外殼42所構 成,請同時參考第七圖,可分別由相反方向罩覆於絕緣本 體1之外侧。上金屬外殼^為金屬板一體成型製成,單覆 於與固定塊13相同-侧上,其設有第—干涉片411及第二 干涉片412,第一干涉片411及第二干涉片412可分別穿 過絕緣本體1之固定孔16後彎折固定,上金屬外殼41側 緣兩側並設有彎曲延伸之搭接部413。上金屬外殼4ι於組 裝後,搭接部413可直接彈性抵觸於軟性排線3之接地接 功331上,使兩者間穩定接觸,如第八圖所示之斷面圖。 下金屬外殼42亦由金屬材質—體成型製成,以滑軌 方式組裝於絕緣本體卜其設有複數彈片421可彈性接觸 於軟性排線3之遮蔽層34上,使電磁波干擾可經由下金屬 外殼42導出。先前提到之上金屬外殼41的第一干涉片川 及第一干涉;M12在穿過絕緣本體2後彎折干涉於絕緣本 ^之下表面’第-干涉月4】】及第二干涉片4】2可同時 ¥折接觸於下金屬外殼42並軸·導通,姻示之實施 例中係利用第二干涉片412 f折後搭接於下金屬外殼Μ 上,以達到與兩者相互接觸之目的。 接地導體33主要拼列於複數導體%兩侧,且為 體3】所包覆’軟性排線3兩側設有外露之接地接點331 , M350134 且遮蔽層34設置於與接地接點331相反之一面上,因此當 電連接為裝置組裝完成後,接地接點331可直接接觸於上 . 金屬外殼41之搭接部化,下方之遮蔽層34可與下金屬 外殼=2之彈片421彈性接觸,使得遮蔽層料可經由下金 屬外设42、上金屬外殼41及接地接點331之導通連接, 順利導向軟性排線3之遠端37,使連接於軟性排線3兩端 之連接器,丨面皆具有接地效果,以提高電連接器裝置整體 • 效能’大幅降低電磁波干擾。 山上金屬外殼41之搭接部413形成彎曲狀,且其自由 端呈現又狀結構’可同時抵觸於兩個接地接點331上,只 要兩個接地接點如其中之一能與搭接部仍形成接觸, -轉屏蔽效果’降個組魏差造成細 況發生。寻散 另外,軟性排線3末端兩侧邊凸設有凸耳35,組裝時, 魯凸耳35可與絕緣本體1之卡抵部15相互干涉’以避免軟 =排線3受力脫落。料,域於絕緣本體1與上金屬外 风42之間的固定塊13兩側設有凹部131,當固定塊Η組 裝於絕緣本體1時,凹部131可與卡抵部15相互歲合,以 =到定位之效果,固定塊13尚設有干涉孔132,上金屬外 =之第一干涉片411及第二干涉片412可分別穿過固定 13之干涉孔132,再連結於絕緣本體丨之固定孔16中, M緊密的結合固定塊13’固定塊13可用來幫助軟性排線3 M350134 更_插置於絕緣本體丨上,使得軟性排線3之複數接點 321穩定接觸於複數端子2。 以上說明本創作之一較佳實施例。 m制本創作之第二較佳實補,在此實施例中, 外殼部4具有較前一實施例更簡易的結構,以降低生產成 |及製程複雜度。外殼部4為單—金屬板元件製成之上金 屬外殼41,並將複數彈片421形成於上金屬外殼41,使得 • 上金屬外殼41同時設有複數彈片421及至少一搭接部 413,當上金屬外殼41罩覆於絕緣本體413時,彈片 及搭接部413可分別接觸於軟性排線3之遮蔽層34及接地 . 接點33卜因此,為配合上述外殼部4結構簡化,原本位 • 於相反兩面之遮蔽層34及接地接點331需移至同一面上, 也就是將原本之遮蔽層34換面,使遮蔽層34與接地接點 331位於同侧面’而與複數接點31位於不同侧面。 鲁如此一來,於上金屬外殼41組裝後,搭接部413與 軟性排線3之接地接點331接觸,複數彈片421則於同一 側面接抵於遮蔽層34,由此亦可順利將遮蔽層34之屏蔽 效果由上金屬外殼41傳遞至接地導體33,再傳遞至軟性 排線3之遠端37。 上述詳細說明為針對本創作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 12 M350134 化與修飾變更’均應包含於本創作所涵蓋之專利 综上所述,本創作之電連接^裝置於 之功效增進’誠符合新穎性、創作性及進 $具有顯著 爰依法提出申請,❾轉早日賜'隹本^之專利要件, 之辛苦創作,倘若鈞局有任何稽疑, 創作人定當竭力配合,實感德便。. 香要早日賜准本案,以保障創作人 凊不吝來函指The insulative housing 1 is a plastic molded body having a platform portion 1 一侧 on one side and abutting portion 12 on the other side, and a plurality of slots juxtaposed and connected to the docking portion 12 at the platform portion 1 u, a plurality of terminals 2 can be accommodated in the slot n, so that the 2-terminal end of the dice is exposed on the abutting portion 12, and the end 36 of the flexible cable 3 can be placed on the platform portion 1〇, so that the flexible cable 3 and the flexible cable 3 The terminal 2 is in contact, and the abutting portion 12 is for interposing with the substrate end connector. A locking mechanism 14 is disposed on each of the left and right sides of the rim body 1 to be engaged with the substrate end connector, and the locking mechanism 14 includes a hook Μ. The face M2 and the receiving groove 143 141 are metal pieces. The folding integrated one type is disposed in the accommodating groove (4). When the manufacturer operates the viewing portion 142, the hook (4) of the accommodating groove _ is moved, thereby releasing the hook with the substrate connector. _The protruding card abutting portion 15 is provided, and the card abutting portion 15 can interfere with the lug of the flexible cable 3 to prevent the soft cable 3 from being pulled off. The insulating body has a plurality of fixing holes 16 at the position of the appropriate s. The plurality of terminals 2 are made of a metal material, and each of the terminals 2 has a phase M350134-to-contact portion 21 and a socket (4) 22 edge (5) in the slot U, so that the _ portion 21 = ^, in the absolute joint portion 12 - On the side, the road is on the 1st edge of the body of the 1 bar. And receiving (4) elastically protruding from the platform portion of the flexible cable 3 is covered by the insulator 31 with the opposite end 36 and a distal end 37, the end of the edge of the body portion 1 of the platform portion 10, the distal end 37 is connected to another :: fascination group 'for example - circuit board or flexible cable connection = and sixth ® 'multiple _ 32 parallel row diagram: - end exposed at the end of the flexible cable 3 36 either side two" "occupied 321 conductor 32 is not exposed outside the insulator 31 in the sixth diagram, the other end is exposed at the distal end 37 of the flexible cable 3. The end of the flexible cable 3 can be found in the platform portion 1 〇, the plurality of contacts 32! are elastically contacted with the receiving portion 22 of the terminal 2 for the purpose of transmitting the signal to the substrate end connector via the contact portion 2! At least one ground is provided on both sides of the plurality of conductors 32. The conductor 33, in this embodiment, is two left and right grounding conductors 33, the grounding conductor 33 is exposed outside the insulator to form a grounding contact 33, and the other end of the grounding conductor 33 is exposed to the distal end of the soft (4) 3 In addition, the outer side of the flexible cable 3 is provided with a shielding layer 34, which is mainly used to block In the present embodiment, the end 36 of the flexible cable 3 is assembled to the platform portion "0" by the lap joint method, and the re-use block 13 is pressed over the elastic cable M350134 3 to make the softness The contact 321 of the cable 3 is in stable contact with the receiving portion 22 of the terminal 2, and is then locked and fixed by the outer casing portion 4. The peripheral unit 4 is composed of an upper metal casing 41 and a lower metal casing 42. Please refer to the seventh drawing at the same time, and the outer surface of the insulating body 1 may be covered by the opposite direction. The upper metal casing is integrally formed of a metal plate, and is disposed on the same side as the fixed block 13 , and is provided with a first interference piece 411 and a second interference piece 412 , and the first interference piece 411 and the second interference piece 412 . The fixing holes 16 of the insulating body 1 can be respectively bent and fixed, and the side edges of the upper metal casing 41 are provided with curved extending portions 413. After the upper metal casing 4 is assembled, the lap portion 413 can directly elastically abut against the grounding connection 331 of the flexible cable 3 to make stable contact therebetween, as shown in the eighth drawing. The lower metal casing 42 is also formed of a metal material body, and is assembled to the insulating body by a sliding rail. The plurality of elastic pieces 421 are elastically contacted with the shielding layer 34 of the flexible cable 3, so that electromagnetic wave interference can pass through the lower metal. The outer casing 42 is led out. The first interference piece and the first interference of the upper metal casing 41 are mentioned previously; the M12 is bent and interfered with the lower surface of the insulating body by the insulating body 2, the first-interference month 4] and the second interference piece. 4] 2 can be folded into contact with the lower metal casing 42 at the same time and is axially and electrically conductive. In the embodiment, the second interference piece 412 is folded and then overlapped on the lower metal casing , to achieve contact with the two. The purpose. The grounding conductors 33 are mainly arranged on both sides of the plurality of conductors, and are provided with the exposed grounding contacts 331 , M350134 on both sides of the flexible cable 3 and the shielding layer 34 is disposed opposite to the grounding contact 331 On one side, when the electrical connection is completed, the grounding contact 331 can directly contact the upper portion of the metal casing 41, and the lower shielding layer 34 can be elastically contacted with the elastic piece 421 of the lower metal casing=2. The shielding layer can be smoothly connected to the distal end 37 of the flexible cable 3 via the conductive connection of the lower metal peripheral 42, the upper metal casing 41 and the grounding contact 331 to connect the connectors at both ends of the flexible cable 3, Both sides have a grounding effect to improve the overall performance of the electrical connector device' to greatly reduce electromagnetic interference. The overlapping portion 413 of the mountain metal casing 41 is formed in a curved shape, and the free end thereof has a repetitive structure that can simultaneously interfere with the two grounding contacts 331 as long as one of the two grounding contacts can overlap with the overlapping portion. The formation of contact, - the effect of the transfer of the shield 'lower group Wei caused the situation to occur. In addition, lugs 35 are protruded from both sides of the end of the flexible cable 3, and when assembled, the lug 35 can interfere with the abutting portion 15 of the insulative housing 1 to prevent the soft cable 3 from being pulled off. A recess 131 is disposed on both sides of the fixing block 13 between the insulating body 1 and the upper metal outer wind 42. When the fixing block is assembled to the insulating body 1, the recess 131 can be juxtaposed with the latching portion 15 to The effect of the positioning is that the fixing block 13 is further provided with an interference hole 132, and the first interference piece 411 and the second interference piece 412 of the upper metal outer layer respectively pass through the interference hole 132 of the fixed 13 and are connected to the insulating body. In the fixing hole 16, the M-tight fixing block 13' fixing block 13 can be used to help the flexible cable 3 M350134 to be inserted on the insulating body , so that the plurality of contacts 321 of the flexible cable 3 are stably contacted with the plurality of terminals 2 . A preferred embodiment of the present invention has been described above. The second preferred embodiment of the present invention, in this embodiment, the outer casing portion 4 has a simpler structure than the previous embodiment to reduce production complexity and process complexity. The outer casing portion 4 is a single metal plate member formed on the upper metal casing 41, and a plurality of elastic pieces 421 are formed on the upper metal casing 41, so that the upper metal casing 41 is simultaneously provided with a plurality of elastic pieces 421 and at least one overlapping portion 413. When the upper metal casing 41 is covered on the insulative housing 413, the elastic piece and the overlapping portion 413 can respectively contact the shielding layer 34 of the flexible cable 3 and the grounding. The contact 33 is thus simplified, and the original position of the outer casing portion 4 is simplified. • The shielding layer 34 and the grounding contact 331 on the opposite sides need to be moved to the same surface, that is, the original shielding layer 34 is changed so that the shielding layer 34 and the grounding contact 331 are located on the same side' and the plurality of contacts 31 Located on different sides. In this way, after the upper metal casing 41 is assembled, the overlapping portion 413 is in contact with the grounding contact 331 of the flexible cable 3, and the plurality of elastic pieces 421 are connected to the shielding layer 34 on the same side, thereby smoothly shielding The shielding effect of the layer 34 is transmitted from the upper metal casing 41 to the ground conductor 33 and then to the distal end 37 of the flexible cable 3. The above detailed description is intended to be illustrative of the preferred embodiments of the present invention. It is intended that the present invention is not intended to limit the scope of the invention as defined in the appended claims. The changes shall be included in the patents covered by this creation. The electrical connection of the creation is enhanced by the efficacy of 'creating the novelty, the creativity and the input. The application is made in accordance with the law. 'The patent element of 隹本^, the hard work of creation, if there is any doubt in the bureau, the creator will try his best to cooperate, and feel really good. The incense should be given to the case as soon as possible to protect the creator.
【圖式簡單說明】 第一圖為本創作一較佳實施例立體分解圖。 第二圖為本創作一較佳施例,說明連接器與軟性排線間之 結構關係。 第三圖為本創作一較佳施例實施例下視圖。 第四圖為本創作一較佳施例實施例上視圖。BRIEF DESCRIPTION OF THE DRAWINGS The first figure is an exploded perspective view of a preferred embodiment of the present invention. The second figure is a preferred embodiment of the creation, illustrating the structural relationship between the connector and the flexible cable. The third figure is a bottom view of a preferred embodiment of the present invention. The fourth figure is a top view of a preferred embodiment of the creation.
苐五圖為本創作一較佳施例實施所適用之軟性排線正、反 面結構圖。 弟六圖為第五圖A部份之擴大圖,虚線部分表示每.一導體 包覆於絕緣體内之部分。 弟七圖為本創作一較佳施例實施例之外设部示意圖。 第八圖為本創作一較佳施例實施例之搭接部與軟性排線 接觸之斷面圖。 13 M350134Figure 5 is a diagram showing the structure of the positive and negative aspects of the flexible cable used for the implementation of a preferred embodiment of the creation. The sixth figure is an enlarged view of part A of the fifth figure, and the broken line part shows the part of each conductor covered in the insulator. The seventh figure is a schematic diagram of the external part of a preferred embodiment of the present invention. Figure 8 is a cross-sectional view showing the contact between the lap portion and the flexible cable of a preferred embodiment of the present invention. 13 M350134
【主要元件符號說明】 絕緣本體 1 平台部 10 插槽 11 對接部 12 固定塊 13 凹部 131 干涉孔 132 鎖定機構 14 卡勾 141 按壓部 142 容置槽 143 卡抵部 15 固定孔 16 端子 2 接觸部 21 承接部 22 軟性排線 3 絕緣體 31 導體 32 接點 321 接地導體 33 接地接點 331 遮蔽層 34 凸耳 35 末端 36 遠端 37 外殼部 4 上金屬外殼 41 第一干涉片 411 第二干涉片 412 搭接部 413 下金屬外殼 42 彈片 421 14[Description of main components] Insulation body 1 Platform part 10 Slot 11 Butt joint 12 Fixing block 13 Recessed part 131 Interference hole 132 Locking mechanism 14 Hook 141 Pressing part 142 accommodating groove 143 Clamping part 15 Fixing hole 16 Terminal 2 Contact part 21 receiving part 22 flexible cable 3 insulator 31 conductor 32 contact 321 grounding conductor 33 grounding contact 331 shielding layer 34 lug 35 end 36 distal end 37 outer casing portion 4 upper metal casing 41 first interference piece 411 second interference piece 412 Lap portion 413 lower metal casing 42 spring piece 421 14