M432234 五、新型說明: 【新型所屬之技術領域】 本創作係提供一 機構及其相_薄型可攜式電子裝置。"^曰n勒式連接器 【先前技術】 隨著資訊的發達及電腦技術的進+ — 漸縮小,運用也曰漸多元。為了要批:’電腦系統的體積 應各使用者不同的需求,各式各樣腦系統的功能, ,生。舉例來說’像是外接式硬碟或是可攜== 置,能擴充電腦系統原本有限的記憶容旦. 痏存裝 光碟燒錄機則能擴充電腦系統的多二接式光碟機/ 供大办曰^ 夕媒體貧源存取功能,幻 ㈣備份㈣力;或是㈣路線連接 達到上網拍晴料與劉覽網頁等功能。然 腦係朝著㈣的趨勢來發展,料厚度之 料^ 制筆記型電腦整體厚度,而造成機二=:度糊 舉例來說,絲連接於外接式設備之通 置的高度係大於筆記型電腦的轵躺眉# ,夕机排: # 電如的设體厚度,故於筆記型電腦4 «又。方面必須配合連接器機構之尺寸而增加厚度,或可 了使用者_作方便而將通訊序列匯流排裝置以外觀局部凸 出方式相對殼體向外擺放,但如此便會影響外觀美感,且 有久塵掉人或碰&‘毀的風險;若將通訊序列匯流排裂置 M432234 對殼體向内擺放,又會造成使用者操作上的不便,故如何設 計一種可符合現今產品規格要求,又能滿足輕薄趨勢而無需 犧牲外觀美感之連接器機構,便為現今電子產業機構設計所 需努力之課題。 【新型内容】 本創作係提供一種滑動式連接器機構及其相關薄型可 攜式電子裝置,以解決上述之問題。 本創作之申請專利範圍係揭露一種滑動式連接器機 構。該滑動式連接器機構包含有一底座,一基座,以可滑動 方式設置於該底座,一連接器,設置於該基座上,以及一門 蓋,以可活動方式設置於該底座且連接至該基座。該門蓋係 用來於相對該底座移動時,驅動該基座相對該底座沿一第一 方向滑動,藉以調整該連接器於該底座内之一相對位置。 本創作之申請專利範圍另揭露該門蓋包含有一導引 臂,該導引臂具有一滑槽結構,且該導引臂係藉由該滑槽結 構以套接於該基座之一滑動銷。 本創作之申請專利範圍另揭露該門蓋枢接於該底座,該 導引臂係於該門蓋相對該底座柩轉時推動該滑動銷,以使該 滑動銷沿著該滑槽結構滑移5進而驅動該基座相對該底座滑 動。 本創作之申請專利範圍另揭露該滑動式連接器機構另 包含有一彈性元件,設置於該基座與該底座之間,用來驅動 該基座相對該底座沿相反該第一方向之一第二方向滑動。’ M432234 本創作之申請專利範圍另揭露該連接器包含有一接頭 以及連接該接頭之一電路板,該基座包含有一卡勾,且該卡 勾係用以扣接該電路板。 个别靖寻利和㈤〜_ 土、 結構,且該接頭係設置於該遮罩結構内 本創作之ΐ請專利範圍另揭露該基座包含有一導槽姓 構’該底座包含有-滑執結構,該基賴藉由料槽^與 忒滑軌結構之組合而設置於該底座。 本創作之申請專利範圍另揭露該門蓋具有—限位件,該 底座具有-倾,位於相對應該限位件之—位置,該限位件 係用來抵接於额塊之—相,以限制_蓋㈣ 樞轉,且該限位件另用來以彈性變 ㈣4方式自該外側移動至該 吾塊之—内側,藉以解除該門蓋相對該底座之_限制。 勺人^之申1^專㈣圍另揭露該滑動式連接器機構另 軸道結構上,錢接至_蓋與 ,之-端係沿著該軌道結構滑行,且該撓曲= 另而係連接該致動桿,以及一推壓彈箬,抑 :該執道結構之間’用來驅動該致動捍相對 -停^作之I料利範園另揭露該執道結構包含有一第 第一停留㈣1、—第—通道m二通道,該 ㈣與該第一通道及該第二通道係分別形成-段差 5 M432234 ,,且該第二停留點與該第一通 成—段差結構。 乐—通道係分別形 本創作之申請專利範圍另揭露朗蓋係以 .M432234 V. New description: [New technology field] This creation department provides a mechanism and its phase_thin portable electronic device. "^曰n-style connector [Prior Art] With the development of information and the advancement of computer technology, the use of it has gradually diversified. In order to be approved: 'The size of the computer system should be different from the needs of different users, the functions of various brain systems, and students. For example, 'such as an external hard drive or portable ==, can expand the computer system's original limited memory capacity. 痏 装 装 烧 烧 则 则 扩充 扩充 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑Big office 曰 夕 media poor source access function, illusion (four) backup (four) force; or (four) route connection to achieve online shooting and Liu Liu page. However, the brain system is developing toward the trend of (4). The thickness of the material is the thickness of the notebook computer, and the machine thickness is 2, which means that the height of the wire connected to the external device is larger than that of the notebook. The computer's 轵 眉 眉 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The aspect must increase the thickness in accordance with the size of the connector mechanism, or the user can conveniently place the communication sequence busbar device outwardly with respect to the housing in a partially convex manner, but this will affect the aesthetic appearance, and There is a risk of long-term dust falling or touching &'destruction; if the communication sequence is split and the M432234 is placed inwardly on the housing, it will cause inconvenience to the user. Therefore, how to design a product that meets the current product specifications The connector mechanism that meets the requirements of thinness and thinness without sacrificing the aesthetic appearance is the subject of designing the needs of today's electronics industry organizations. [New content] This creation provides a sliding connector mechanism and its associated thin portable electronic device to solve the above problems. The patent application scope of this creation discloses a sliding connector mechanism. The sliding connector mechanism includes a base, a base slidably disposed on the base, a connector disposed on the base, and a door cover movably disposed on the base and coupled to the base Pedestal. The door cover is configured to drive the base to slide in a first direction relative to the base when moving relative to the base, thereby adjusting a relative position of the connector in the base. The patent application scope of the present invention further discloses that the door cover comprises a guiding arm, the guiding arm has a sliding slot structure, and the guiding arm is sleeved on the sliding pin of the base by the sliding slot structure . The patent application scope of the present invention further discloses that the door cover is pivotally connected to the base, and the guiding arm pushes the sliding pin when the door cover is rotated relative to the base, so that the sliding pin slides along the sliding structure 5 in turn drives the base to slide relative to the base. The patent application scope of the present invention further discloses that the sliding connector mechanism further includes a resilient member disposed between the base and the base for driving the base to be opposite to the base in a second direction opposite to the first direction. Slide in the direction. </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> Individual Jingxuyi and (5)~_ soil, structure, and the joint is disposed in the mask structure. The scope of the patent application further discloses that the base includes a guide slot structure. The base includes a sliding structure. The base is disposed on the base by a combination of a trough and a serpentine rail structure. The scope of the patent application of the present invention further discloses that the door cover has a limiting member, the base has a - tilting position, which is located at a position corresponding to the limiting member, and the limiting member is used to abut the phase of the forehead to The restriction_cover (4) is pivoted, and the limiting member is additionally used to move from the outer side to the inner side of the one piece in an elastically variable (four) 4 manner, thereby releasing the limitation of the door cover relative to the base. The scooping person ^11 (4) separately exposes the sliding connector mechanism on the other axle structure, the money is connected to the _ cover and the - end system slides along the track structure, and the deflection = another Connecting the actuating lever, and pushing the magazine, the: between the obstructing structure is used to drive the actuating cymbal relative to the stop-and-stop operation, and the material structure includes a first The (four)1, the first-channel-m two-channel, the (four) and the first channel and the second channel respectively form a step difference of 5 M432234, and the second stop point and the first pass-segment difference structure. The scope of the patent application for the music-channel system is also disclosed in the scope of the patent application.
A ,致動桿’該門蓋係於相對該底座沿該= 時’利㈣軸桿_該撓料之該 ^向移動 該第一通道。 弟停留點移 本創作之巾4專㈣g $揭露雜 =::該物_她㈣導通=:: 沿相2ΠΓ利範圍另揭露該門蓋係於相對該底座 相反該第一方向之一第二方向移動時,利用 該撓曲件之該端自該第H 道于奢 第一停留點。 .由料一通道移動到該 件之=1:!請專利範圍另揭露該推壓彈簧係於該撓曲 =,第二停留點及該第_停留點之間移動時產生 勺八=創作之申睛專利範圍另揭露該滑動式連接器機構另 拉伸:簧,設置於該門蓋與該致動桿之間。該拉伸 每簧係用以驅動該門蓋沿著相異該第一方向與一第二方向 之一第二方向相對該致動桿移動。 ° 本創作之申請專利範圍另揭露該門蓋另包含有一套接 桿’且雜㈣簧係叫向套接方式絲於該套接桿上。 M432234 本創作之申請專利範圍另揭露該底座係具有一容置空 門/谷置卫間之尺寸係相應該門蓋之尺寸,以使該門蓋可 安裝於該容置空間内。 本創作之申請專利範圍另揭露該連接器包含有一接頭 以及連接賴社—電路板’該滑料連接器麟係利用一 固定元件將該電路板固定於該基座之一突座。 本,作之申請專利範圍另揭露一種具有滑動式連接器 機構之薄型可攜式電子裳置。該薄型可攜式電子I置包含有 二殼體’用以容置—電子元件。該殼體之—側邊的厚度係實 質上小於⑼體之中間區域的厚度。該薄型可攜式電子裝置 另包含有-滑動式連接器機構,設置於該殼體之該侧邊的内 部=滑動式連接器機構包含有—底座,—基座,以可滑動 方式设置於該底座,—連接器,設置於該基座上,以及一門 蓋’以可活動H設置於該底座錢接至該基座。該門蓋係 用來於相對該底座移動時,驅動該基座相對該底座沿一第二 方向滑動’藉以調整該連接器於該底座内之—相對:置。 本創作係設計一種利用開啟/閉合門蓋來牽引連接器作 連接剛,以搭配具有侧邊削薄之結構特徵的 I:電子裝置。本創作之滑動式連接器機構的結構簡 木4令易,可於開關門蓋時同步驅動連 殼體内,故可有效應用於相關的薄型可攜式電;η 兼具簡約外觀且使时便之優點。 、置,達到 【實施方式】 7 M432234 請參閱第1圖,第1圖為本創作之第一實施例之一薄型 可攜式電子裝置10之外觀示意圖。薄型可攜式電子裝置10 可為一薄型筆記型電腦或一薄型平板電腦。本創作之薄型可 攜式電子裝置10包含有一殼體12及一滑動式連接器機構 14。殼體12用以容置複數個電子元件,例如中央處理器、 硬碟機、記憶體等組件。薄型可攜式電子裝置10之結構特 徵在於其殼體12之一側邊的厚度係實質上小於殼體12之中 間區域的厚度,以使殼體12可於邊緣削薄,呈現輕巧造型 的外觀設計。 為了搭配薄型可攜式電子裝置10之結構需求,滑動式 連接器機構14係設置於殼體12之側邊的内部,用以連接外 接式連接器。於非使用狀態時,滑動式連接器機構14係隱 藏在薄型可攜式電子裝置10的殼體12内部;欲使用滑動式 連接器機構14時,使用者可驅動滑動式連接器機構14相對 殼體12向外滑動,以使部份的滑動式連接器機構14可凸出 薄型可攜式電子裝置10之殼體12,便於安插一外接式連接 器,例如USB接頭、網路線接頭等等:。 請參閱第2圖與第3圖,第2圖為本創作之第一實施例 之滑動式連接器機構14之元件爆炸示意圖,第3圖為本創 作之第一實施例之滑動式連接器機構14之組立圖。滑動式 連接器機構14包含有一底座16,設置於殼體12内,一基座 18,以可相對滑動方式設置於底座16,一連接器20,設置 於基座18上,以及一門蓋22,以可活動方式設置於底座16 M432234 =基座18。底座16可具有—容置空間i6i,且容置 之尺寸係相應門蓋22之尺寸,因此門蓋22可緊密 12内,广置空間161上,以防止異物透過底座16掉入殼體 =技連接器20可包含有—接頭2〇1,以及_電路板2〇3, 於接_。外接式連接器係可於連接㈣局部凸 双體U時連接至接頭2(n,以與電路板加電性導通。 基座18可包含有一遮罩結構18 _ 用來包覆接頭201 以k供保濩,且遮罩結構181係、位於鄰近容置空間⑹之位 置’以使外接式連接器穿人容置空間161便可直接連接至接 頭謝。基座18另可包含有複數個卡勾182,分別用以扣接 於電路板203上相對應的固定孔2〇4,藉此限制連接器加 相對基座18之移動。然而本創作之滑動式連接器機構μ另 可使用其他固定機構將連接器2G絲至基座18上,例 絲傭结構、黏膠貼合等,其應用態樣端視使用 需求而疋,故於此不再詳述。 此外,基座另可包含有數條導槽結構183,且底座 可包含有相應數量的滑軌結構⑹。於第—實施例中,基 座18與絲16分別配置有兩組導槽結構183及滑軌 !63,且基座18係可藉由導槽結構183與滑軌結構⑹。之电 合而以可相對滑動方式設置於底座16上。基座18斑器 20之初始位置時位於殼體12之内部,且門蓋22_二 置空間⑹上以避免異物透過容置空間161接觸到連接琴谷 2〇。使时欲料接錢接料接切動錢料機構^ M432234 時,可將門蓋22相對底座16活動以翻轉出容置空間161(意 即遠離容置空間161),藉此驅動基座18相對底座16沿著一 第一方向D1滑動,以使連接器20可隨著基座18之移動自 殼體12之内部移動到殼體12之外部,以便於安插外接式連 接器。 如第2圖所示,第一實施例之滑動式連接器機構14的 門蓋22可透過一樞轉軸24樞接於底座16。門蓋22可包含 有二導引臂26,分別設置於樞轉軸24之兩端。各導引臂26 可具有一滑槽結構261,用以套接於基座18之相應滑動銷 184。因此當門蓋22相對底座16柩轉時,導引臂26可推動 滑動銷184以使其沿著滑槽結構261滑移,進而對基座18 施加一推力以改變基座18相對底座16之位置關係。此外, 第一實施例之滑動式連接器機構14另可包含有一彈性元件 28,其兩端分別設置於基座18與底座16之固定構件上,例 如卡勾。使用者翻轉門蓋22以驅動基座18沿著第一方向 D1相對底座16移動時,彈性元件28可被拉伸而存儲一彈 性恢復力;而當施加於基座18的外力卸除,彈性元件28之 彈性恢復力即可用來驅動基座18沿著相反第一方向D1之一 第二方向相對底座16滑動,以帶動連接器20回復至初始位 置,意即將連接器20滑入殼體12之内部。 於第一實施例中,滑動式連接器機構14另具有限制門 蓋22相對底座16枢轉範圍之結構設計。請參閱第4圖與第 5圖,第4圖與第5圖分別為本創作之第一實施例之滑動式 M432234 連接器機構14於不同操作狀態沿a_a,線(如第3圖所示)之 部份結構側視圖。門蓋22可具有一限位件221,位於門蓋 22底部鄰近底座16之—位置,且底座16可具有一擋塊μ 位於相應限位件221之-位置。當門蓋22相對底座16外翻 時,如第4圖所示,限位件221可用以抵接於擋塊165之一 外側其作㈣'為防止因基座18被彈性元件Μ之牵引力拉 扯,而帶動門蓋22閉闔至容置空間161上,藉此限制門蓋 *相對底S 16之樞轉’將連接器2〇維持於有部份結構外凸 殼體12之位置°另一方面’欲關上門蓋22時,使用者係以 外力推動Hi 22,以使限位件221可透過彈性變形之方式自 擒塊165之外側移動至擒塊165之—内側,如第$圖所示, 藉此解除門蓋22相對底座16之樞轉限制,以使門蓋u可 利用彈性元件28驅動基座18沿第二方向m之移動而緊密 閉闔至容置空間161上,完成連接器2g之收納動作。、 之第第7圖’第6圖與第7圖分別為本創作 /之'月動式連接$機構14於不同操作狀態沿 Β線(如弟3圖所示)之部份結構側視圖。如第6圖所示, 當基座及連接H 2〇處於殼體12内部(初始位置)時,彈性 有:到外力拉扯而變形’此時門蓋22係閉閣於容 置空間161上,以防止灰塵掉 接觸不良機。 ^12_錢連接器20 當使用者將門蓋22相對底座16向外翻轉,導引㈣ 可驅動滑動銷184沿著滑槽結構加滑行,以使導引臂% mu厶厶J叶 可透過滑動銷184來推動基座i8沿著第 :滑出殼體U外,如第7圖所示 = 目對底座 拉伸變形,且會有部份的連接器20露出殼體:牛28係產生 用者可^純外接錢接器便於使 收回至殼體12内补使用者料㈣蓋 器2〇 之客詈* p气κι 1*·«· 肩門至底座16 〇 -工間61,此時基座18可被使用者所施加之外力、及 彈性几件2 8所提供的彈性恢復力之驅動及牵引而沿著第二 方向D2相對底座16移動’以回復至第6圖所示之初始位置。 請參閱第8圖與第9圖,第8圖為本創作之第二口實施例 之滑動式連接器機構14之元件爆炸示意圖,第9圖為本創 作之第二實施例之滑動式連接器機構_14之組立圖。第二實 施例中,與第一實施例具有相同編號之元件具有相同的結構 與功能,故於此不再詳述。第二實施例之滑動式連接器機構 14另可包含有一軌道結構30、一致動桿32、一撓曲件% 與一推壓彈簧36。軌道結構30係可固設於底座16。致動桿 32以可相對活動方式設置於軌道結構%上,且連接至門蓋 22與基座18。撓曲件34之一端(自由端341)係可沿著軌道 結構30滑行,且撓曲件34之另一端(固定端343)係連接於 致動桿32。推壓彈簧36可設置於致動桿32與軌道結構3〇 之間,用來驅動致動桿32相對軌道結構3〇之移動。相較第 一實施例,第二實施例之滑動式連接器機構14另可選擇性 利用一固定元件38,例如外部的鎖固螺絲,穿過電路板2〇3 之固定孔204,以將電路板203鎖附於基座18之一突座I” 12 M432234 上0 珣參閱第ίο圖與第n圖, 施例之執道結構30之上視s’彳作之第二實 傅川之上視圖,第u圖為本 例之執道結構30之剖視圖。如第1Q 她 可包含有一第-停_、-第二停_ = 道303以及一第二通道3〇4。撓曲 ^ 著致動桿32相對執道結構 係可隨 第二停留點3。2、第—通道3〇3:第:-:留點-、 復地移動。針第一停留點3〇】係可盡第往 通道爾別形成段差結構,第二停留:‘第: 道3〇3及第™分別形成段差結構,如第= 斤一干通 =構可_免換曲件34之自由端心: 舉例來說,第-停留點3〇ί與第一通道3〇3之 結構可用來防止撓曲件34之自由端341 、又 性恢復力驅動而自第一停留 為:自身的細 用者需對門蓋22施加—外力,以帶動致動桿32沿著第一2 相對軌道結構3G移動,進而始可驅動撓曲件34之自 ::二自第一停留點則移動至第—通道3〇3。另一方面, 撓與第二通道3G4之間的段差結構可用來避免 :二r之自由端341為推壓彈簧36之彈性恢復力驅動, 自第一+留點301移動至第二通道3〇4。繞 端341僅可單方向自第二通道綱移往第-停留點301,接 13 M432234 著再移入第一通道303。 動二=T者透過門蓋22以沿著第二-向_ 勒钚32打,第二停留 差結構係可用來避免撓曲件34〇2與第—通道加1 = 302移入第-通道3〇3。第二广自由端341自第> 間的段差結構可為平緩由低;= 302與第二通道304之 沿著第二方向m推動換曲件;;以麵當致動椁32 端341可自第二停留點302移 、、’撓曲件34之自由 由端341係以第一停留點301、第一厂通道3〇4大内’意即自 302及第二通道綱之轉來執行單^道則、第二停留點 第二實施例之門蓋22係以2方向的往復移動。 16上。如第8圖與第9圖所示,^向㈣方式設置於底座 具有一滑軌223及導槽321,門與致動桿32可分別 切之纪合以可相對滑動 係利用滑軌223與導槽 使玎柏f+广十 Λ連接於致動桿32,藉此門雈 便了相對底座16側向移動而不致與 匕門盘22 滑動式連接器機構14另可包含有一拉伸: 別設置於門蓋22與致動桿32之固定構件上,例如=端分 拉伸辦黃40係可以㈣套接方式安裝於門蓋η之 且 225。套接桿225係用來避免拉伸彈簧仙於彈性:妾桿 歪斜,因此套接桿225係可沿著拉伸彈簧4()·^ _ 軸向而設置於門蓋22之内側表面。 文形的. 由此可知,第二實施例之滑動式連接器機構 22係為-側向移動的滑蓋,當使用者將門蓋22閉閣於 M432234 空間161時,拉伸彈簧40即被拉扯而產生彈性變形,此時 基座18與連接器20係位於殼體12之内部;當使用者推動 門蓋22移出容置空間16ί,拉伸彈簧40之彈性恢復力即可 用以驅動門蓋22沿著相異第一方向D1與第二方向D2之一 第三方向D3相對底座16及致動桿32移動,以使門蓋22往 側向移動而露出容置空間161,且基座18與連接器20可受 到致動桿32之驅動沿著第一方向D1移出殼體12,便於使 φ 用者可安插外接式連接器。 如第8圖至第11圖所示,第二實施例之滑動式連接器 機構14的基座18係可隨著門蓋22沿著第三方向D3之側向 移動,而沿著第一方向D1及第二方向D2相對底座16滑移, 以使連接器20可視使用者需求而凸出殼體12或隱蔽入殼體 12的内部。詳細來說,欲使用滑動式連接器機構14時,使 用者可拉動門蓋22沿著第一方向D1相對底座16移動以移 _ 出容置空間161,此時門蓋22可被拉伸彈簧40驅動而自動 地沿著第三方向D3侧向移動,且致動桿32可同時間隨著門 蓋22沿第一方向D1移動,以使撓曲件34之自由端341可 為致動桿32所驅動而克服段差結構,並自第一停留點301 . 移入第一通道303。 當撓曲件34之自由端341移入第一通道303後,推壓 彈簧36係用來推動致動桿32沿著第一方向D1相對滑軌結 構30移動,此時撓曲件34之自由端341係自第一通道303 移動到第二停留點302,以使基座18及連接器20可隨著致 15 M432234 同步移動而凸出殼體12外,至此完成滑動式連接器 之開啟知序’使用者可透過外凸的滑動 構Η將外接式連㈣電連接於薄型可攜式電子機 另一方面,欲將連接器2〇收納至殼體12 者百先推動Η蓋22沿著相反第三方向仍之一 吏用 至容置空間161前方,接著著第—# σ * 移動 將心……向2推動門蓋22以 將其閉閨至容置空間161上。此時致動桿32除了㈣門蓋 22之驅動來推移基座18及連接請進人殼體12内部 =夺帶動撓曲件34之自由端341自第二停留點3〇2經由 二通道304移動到第一停留點3〇1。當自由端341進入第 一:留點3〇1後,便可利用第一停留點301與第一通道3〇3 通道3G4之間的段差結構來限制橈曲件34的移動, =使連接器2G可穩固容置於殼體12之内部。值得一提的 是,轨道結構30係為-循環往復式的軌道設計,換曲件^ :於軌道結構3G内移動時產生撓曲變形,以順暢地於第一 U點301、第二停留點3〇2、第_通道3〇3以及第二通道 304之間切換移動。 知上所述’本創作之薄型可攜式電子裝置係於殼體之側 邊5又置滑動式連接器機構。由於滑動式連接器機構之一結構 咼度係實質上大於殼體侧邊之—厚度,當沒有要使用外接式 連接器時’滑動式連接器機構可隱藏於殼體的内部深處,以 使薄型可攜式電子裝置可具有邊緣削薄,呈現輕巧造型的外 觀設計。需將外接式連接器連接至薄蜇可攜式電子裝置時, 16 msz234 使用者可藉由開啟滑動式連接ϋ機構之H蓋,來㈣其基座 與連接ϋ自殼體之内部向外移動而部分裸露於外,以便於將 外接式連接g安插JL連接||之接頭來完成電性導通。 本創作包含有兩種實施例。第—實施例之滑動式連接器 t構的Η蓋係樞接於缝’當門蓋相對底座樞轉時,導引臂 °貝向推動基座之滑動m其㈣結構滑行,以帶動基座 :目對底座一向外滑移’及連接器自殼體内部外移而部分裸露於 接、第—實蝴之滑動式連接器機構的門蓋係可活動方式連 於,動桿’藉此以可侧向移動方式覆蓋於底座之容置空間 笼將2二實施例之門蓋移離容置空間,除了可利用拉伸彈 :=?往旁側推開,致動桿亦可同時帶動基座與連接 置關係的目Γ外滑移’以達到可調整連接器相對殼體之位 來牵技術’本創作係設計—種利啊^ k結滑動式連接盗機構,以搭配具有側邊削 器機構的::=7=子裝置。本創作之滑動式連接 接器移出或= 開關門蓋時同步驅動連 電子褒置,達a’故可有效應用於4目關的薄型可樓式 以上達到兼具簡約外觀且使用方便之優點。 利二較佳實施例’凡依本創作申請專 之均專變化與修飾,皆應屬本創作之涵蓋範圍。 17 M432234 【圖式簡單說明】 1圖為本創作之第一實施例之薄型可攜式電子裝置之外觀示 意圖。 第2圖為本創作之第一實施例之滑動式連接器機構之元件爆 炸示意圖。 第3圖為本創作之第一實施例之滑動式連接器機構之組立 圖。 第4圖與第5圖分別為本創作之第一實施例之滑動式連接器 機構於不同操作狀態之部份結構側視圖。 第6圖與第7圖分別為本創作之第一實施例之滑動式連接器 機構於不同操作狀態之部份結構側視圖。 第8圖為本創作之第二實施例之滑動式連接器機構之元件爆 炸示意圖。 第9圖為本創作之第二實施例之滑動式連接器機構之組立 圖。 第10圖為本創作之第二實施例之軌道結構之上視圖。 第11圖為本創作之第二實施例之軌道結構之剖視圖。 【主要元件符號說明】 10 薄型可攜式電子 12 殼體 裝置 14 滑動式連接器機 16 底座 構 18 M432234A, the actuating lever' is attached to the first passage relative to the base along the direction of the shaft. The younger brother stops the point of the creation of the towel 4 special (four) g $ exposes the miscellaneous =:: the object _ her (four) conduction =:: along the phase 2 profit range, the door is attached to the opposite side of the base opposite the first direction When the direction is moved, the end of the flexure is utilized from the first H point to the first stop point. Move from the material one channel to the piece=1:! Please also disclose in the patent scope that the pressing spring is attached to the deflection=, and the movement between the second retention point and the first retention point produces a spoon eight=Creation The scope of the patent application further discloses that the sliding connector mechanism is further stretched: a spring disposed between the door cover and the actuating lever. The stretching spring is configured to drive the door cover to move relative to the actuating lever along a second direction that is different from the first direction and a second direction. ° The scope of the patent application of the present invention further discloses that the door cover further comprises a set of rods, and the miscellaneous (four) springs are called to the socket type wires. M432234 The scope of the patent application of the present invention further discloses that the base has a size for accommodating the empty door/bay guard room corresponding to the size of the door cover, so that the door cover can be installed in the accommodating space. The scope of the patent application of the present invention further discloses that the connector includes a connector and a connection to a Lace-Board. The slider connector uses a fixing member to fix the circuit board to one of the bases. The patent application scope of the present invention also discloses a thin portable electronic display device having a sliding connector mechanism. The thin portable electronic device I includes a second housing </ RTI> for accommodating electronic components. The thickness of the side of the casing is substantially less than the thickness of the intermediate portion of the body of (9). The thin portable electronic device further includes a sliding connector mechanism disposed on the side of the side of the housing. The sliding connector mechanism includes a base, and the base is slidably disposed on the side. A base, a connector, is disposed on the base, and a door cover is attached to the base by the movable H. The door cover is adapted to slide the base in a second direction relative to the base when moving relative to the base to adjust the connector in the base. This creation is designed to use an open/closed door cover to pull the connector for connection to match the I: electronic device with side-thinned structural features. The structure of the sliding connector mechanism of the present invention is simple and easy to be driven, and can be synchronously driven in the casing when the door is opened and closed, so that it can be effectively applied to the related thin portable electric type; η has a simple appearance and makes time The advantage. [Embodiment] 7 M432234 Please refer to FIG. 1 , which is a schematic diagram of the appearance of a thin portable electronic device 10 according to a first embodiment of the present invention. The thin portable electronic device 10 can be a thin notebook computer or a thin tablet computer. The thin portable electronic device 10 of the present invention comprises a housing 12 and a sliding connector mechanism 14. The housing 12 is for accommodating a plurality of electronic components, such as a central processing unit, a hard disk drive, a memory, and the like. The thin portable electronic device 10 is characterized in that the thickness of one side of the housing 12 is substantially smaller than the thickness of the intermediate portion of the housing 12, so that the housing 12 can be thinned at the edge to present a lightweight appearance. design. In order to meet the structural requirements of the thin portable electronic device 10, the sliding connector mechanism 14 is disposed inside the side of the housing 12 for connecting the external connector. In the non-use state, the sliding connector mechanism 14 is hidden inside the housing 12 of the thin portable electronic device 10; when the sliding connector mechanism 14 is used, the user can drive the sliding connector mechanism 14 relative to the housing The body 12 slides outwardly so that a portion of the sliding connector mechanism 14 can protrude from the housing 12 of the thin portable electronic device 10, thereby facilitating the insertion of an external connector, such as a USB connector, a mesh routing connector, and the like: . Please refer to FIG. 2 and FIG. 3 , FIG. 2 is a schematic view showing the explosion of the components of the sliding connector mechanism 14 according to the first embodiment of the present invention, and FIG. 3 is the sliding connector mechanism of the first embodiment of the present invention. Group of 14 pictures. The sliding connector mechanism 14 includes a base 16 disposed in the housing 12, a base 18 disposed on the base 16 in a relatively slidable manner, a connector 20 disposed on the base 18, and a door cover 22, It is movably disposed on the base 16 M432234 = base 18. The base 16 can have an accommodating space i6i, and the accommodating size is the size of the corresponding door cover 22, so that the door cover 22 can be tightly 12 and vacant in the space 161 to prevent foreign matter from falling into the casing through the base 16 = The connector 20 can include a connector 2〇1, and a _board 2〇3, in connection with the _. The external connector can be connected to the connector 2 (n) to electrically connect to the circuit board when the (4) partial convex double body U is connected. The base 18 can include a mask structure 18 _ for covering the joint 201 to k The support structure 181 is located at a position adjacent to the accommodating space (6) so that the external connector can be directly connected to the connector 161. The pedestal 18 can also include a plurality of cards. The hooks 182 are respectively fastened to the corresponding fixing holes 2〇4 on the circuit board 203, thereby restricting the movement of the connector and the opposite base 18. However, the sliding connector mechanism μ of the present invention can be fixed by other fixings. The mechanism puts the connector 2G wire onto the base 18, such as the wire structure, the adhesive bonding, etc., and the application aspect depends on the use requirements, so it will not be described in detail here. In addition, the base may also contain several The guide groove structure 183, and the base may include a corresponding number of slide rail structures (6). In the first embodiment, the base 18 and the wire 16 are respectively provided with two sets of guide groove structures 183 and slide rails 63, and the base The 18 series can be relatively slid by the electrical connection of the channel structure 183 and the slide rail structure (6). It is disposed on the base 16. The initial position of the pedestal 18 is located inside the casing 12, and the door cover 22_ is disposed on the space (6) to prevent the foreign matter from passing through the accommodating space 161 to contact the connecting treble. When it is desired to receive the money to pick up the cutting material mechanism ^ M432234, the door cover 22 can be moved relative to the base 16 to flip out of the accommodating space 161 (that is, away from the accommodating space 161), thereby driving the pedestal 18 relative to the base 16 slides along a first direction D1 to allow the connector 20 to move from the interior of the housing 12 to the exterior of the housing 12 as the base 18 moves to facilitate insertion of the external connector. The door cover 22 of the sliding connector mechanism 14 of the first embodiment is pivotally connected to the base 16 through a pivot shaft 24. The door cover 22 can include two guiding arms 26 disposed at the two ends of the pivoting shaft 24, respectively. Each of the guiding arms 26 can have a sliding slot structure 261 for socketing the corresponding sliding pin 184 of the base 18. Therefore, when the door cover 22 is rotated relative to the base 16, the guiding arm 26 can push the sliding pin 184 Sliding along the chute structure 261, thereby applying a thrust to the base 18 to change the base 18 relative to the bottom In addition, the sliding connector mechanism 14 of the first embodiment may further comprise a resilient member 28, the two ends of which are respectively disposed on the fixing member of the base 18 and the base 16, such as a hook. When the door cover 22 is moved relative to the base 16 by the drive base 18 along the first direction D1, the elastic member 28 can be stretched to store an elastic restoring force; and when the external force applied to the base 18 is removed, the elastic member 28 The elastic restoring force can be used to drive the base 18 to slide relative to the base 16 in a second direction opposite to the first direction D1 to drive the connector 20 back to the initial position, that is, to slide the connector 20 into the interior of the housing 12. In the first embodiment, the sliding connector mechanism 14 has a structural design that limits the pivoting range of the door cover 22 relative to the base 16. Please refer to FIG. 4 and FIG. 5 . FIG. 4 and FIG. 5 respectively show the sliding M432234 connector mechanism 14 of the first embodiment of the present invention along a_a, line in different operating states (as shown in FIG. 3 ). Side view of part of the structure. The door cover 22 can have a limiting member 221 located at a position near the bottom of the door cover 22, and the base 16 can have a position in which the stopper μ is located at the corresponding limiting member 221. When the door cover 22 is everted relative to the base 16, as shown in FIG. 4, the limiting member 221 can be used to abut against one of the outer sides of the stopper 165 (4) to prevent the base 18 from being pulled by the traction force of the elastic member. And driving the door cover 22 to be closed to the accommodating space 161, thereby restricting the pivoting of the door cover * with respect to the bottom S 16 'maintaining the connector 2 于 in the position of the partially convex housing 12 . On the other hand, when the door cover 22 is to be closed, the user pushes the Hi 22 by an external force, so that the stopper 221 can be elastically deformed from the outer side of the block 165 to the inner side of the block 165, as shown in FIG. Therefore, the pivoting restriction of the door cover 22 relative to the base 16 is released, so that the door cover u can be used to drive the base 18 to move in the second direction m by the elastic member 28 to be tightly closed to the accommodating space 161 to complete the connection. 2g storage operation. Fig. 7 and Fig. 7 are respectively side views of a part of the structure of the 'Moon-connected $ mechanism 14 in different operating states along the Β line (shown in Figure 3). As shown in FIG. 6 , when the base and the connection H 2 〇 are inside the housing 12 (initial position), the elasticity is: the external force is pulled and deformed, and the door cover 22 is closed on the accommodating space 161. To prevent dust from coming into contact with the bad machine. ^12_钱连接器20 When the user flips the door cover 22 outward relative to the base 16, the guide (4) can drive the sliding pin 184 to slide along the chute structure so that the guiding arm % mu厶厶J leaves can be slidable The pin 184 pushes the base i8 along the first: slide out of the housing U, as shown in Fig. 7 = the base is stretched and deformed, and a part of the connector 20 is exposed to the housing: the cow 28 system is used for generation The pure external connector can be easily retracted into the housing 12 to replenish the user's material (4) cover 2 〇 * p gas κι 1*·«· shoulder door to base 16 〇-work 61, at this time The base 18 can be moved relative to the base 16 along the second direction D2 by the external force applied by the user and the elastic restoring force provided by the elastic members 28 to return to the initial state shown in FIG. position. Please refer to FIG. 8 and FIG. 9 , FIG. 8 is a schematic view showing the explosion of the components of the sliding connector mechanism 14 according to the second embodiment of the present invention, and FIG. 9 is a sliding connector of the second embodiment of the present invention. Group _14 group map. In the second embodiment, elements having the same reference numerals as those in the first embodiment have the same structure and function, and thus will not be described in detail herein. The sliding connector mechanism 14 of the second embodiment may further include a track structure 30, a coincident lever 32, a flexure member % and a push spring 36. The track structure 30 can be fixed to the base 16. The actuating lever 32 is movably disposed on the track structure % and is coupled to the door cover 22 and the base 18. One end (free end 341) of the flexure 34 is slidable along the track structure 30, and the other end (fixed end 343) of the flexure 34 is coupled to the actuating lever 32. A push spring 36 can be disposed between the actuating lever 32 and the track structure 3A for driving the movement of the actuating lever 32 relative to the track structure 3〇. Compared with the first embodiment, the sliding connector mechanism 14 of the second embodiment can alternatively utilize a fixing member 38, such as an external locking screw, to pass through the fixing hole 204 of the circuit board 2〇3 to connect the circuit. The plate 203 is attached to one of the bases 18 of the base 18", and the upper surface of the second embodiment of the present invention is shown in FIG. Figure u is a cross-sectional view of the obstruction structure 30 of the present example. As for the 1st Q, she may include a first stop, a second stop _ = a 303, and a second channel 3 〇 4. flexing the actuating lever 32 relative obstruction structure can follow the second stop point 3. 2, the first channel 3〇3: the first: -: leave the point -, the complex move. The first stop point of the needle 3 〇] can be the first channel Do not form a step structure, the second stop: 'the first: the road 3〇3 and the TM respectively form a step difference structure, such as the first = 斤一干通 = constituting _ free of the free end of the curved piece 34: For example, the first The structure of the dwell point 3〇ί and the first channel 3〇3 can be used to prevent the free end 341 of the flexure 34 from being driven by the restoring force and staying from the first stop: the user of the user Applying an external force to the door cover 22 to drive the actuating lever 32 to move along the first 2 opposite track structure 3G, thereby driving the flexure 34 from: the second from the first stop point to the first channel 3〇 3. On the other hand, the step structure between the flexing and the second channel 3G4 can be used to avoid: the free end 341 of the second r is driven by the elastic restoring force of the pressing spring 36, moving from the first + retention point 301 to the second channel 3〇4. The winding end 341 can only move from the second channel to the first-staying point 301 in a single direction, and then M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M To the _ 钚 32, the second dwell structure can be used to avoid the flexure 34 〇 2 and the first channel plus 1 = 302 move into the first channel 3 〇 3. The second wide free end 341 from the > The step structure may be gentle by low; = 302 and the second channel 304 pushes the curved member along the second direction m;; the surface is actuated, the end 32 of the 椁 32 can be moved from the second stop point 302, and the deflection The freedom of the piece 34 is performed by the end 341 with the first stay point 301, the first plant channel 3〇4, and the meaning of the module 302 and the second channel is executed to execute the single channel and the second channel. The door cover 22 of the second embodiment is reciprocated in two directions. 16 is as shown in Fig. 8 and Fig. 9, and the (4) manner is provided on the base with a slide rail 223 and a guide groove 321 And the actuating lever 32 can be separately cut to be connected to the actuating lever 32 by the slide rail 223 and the guide slot by the slide rail 223 and the guide slot, whereby the sill moves laterally relative to the base 16 The sliding connector mechanism 14 may not include a stretch: it is not disposed on the fixing member of the door cover 22 and the actuating lever 32, for example, the end-end tensioning yellow 40 system can be (four) socket manner Installed on the door cover η and 225. The socket rod 225 is used to prevent the tension spring from being elastic: the mast is skewed, so the socket rod 225 can be disposed on the inner side surface of the door cover 22 along the axial direction of the tension spring 4 (). It can be seen that the sliding connector mechanism 22 of the second embodiment is a side-moving slider. When the user closes the door cover 22 to the M432234 space 161, the tension spring 40 is pulled. The elastic deformation occurs, and the base 18 and the connector 20 are located inside the casing 12; when the user pushes the door cover 22 out of the accommodating space 16ί, the elastic restoring force of the tension spring 40 can be used to drive the door cover 22 Moving along the first direction D1 and the second direction D2 in the third direction D3 relative to the base 16 and the actuating lever 32 to move the door cover 22 laterally to expose the accommodating space 161, and the base 18 and The connector 20 can be moved out of the housing 12 by the actuation of the actuating lever 32 in a first direction D1 to facilitate insertion of the external connector by the user. As shown in FIGS. 8 to 11, the base 18 of the sliding connector mechanism 14 of the second embodiment is movable along the lateral direction of the door cover 22 along the third direction D3, along the first direction. The D1 and the second direction D2 are slid relative to the base 16 such that the connector 20 projects out of the housing 12 or conceals into the interior of the housing 12 as desired by the user. In detail, when the sliding connector mechanism 14 is to be used, the user can pull the door cover 22 to move relative to the base 16 along the first direction D1 to move the accommodating space 161, and the door cover 22 can be stretched by the spring. The drive 40 is automatically moved laterally along the third direction D3, and the actuating lever 32 is simultaneously movable in the first direction D1 with the door cover 22 such that the free end 341 of the flexure 34 can be an actuating lever 32 is driven to overcome the step structure and is moved into the first channel 303 from the first stop point 301 . When the free end 341 of the flexure 34 moves into the first passage 303, the push spring 36 is used to urge the actuating lever 32 to move relative to the slide rail structure 30 along the first direction D1, at which point the free end of the flexure 34 The 341 system moves from the first channel 303 to the second stay point 302, so that the base 18 and the connector 20 can protrude out of the housing 12 as the 15 M432234 moves synchronously, thereby completing the opening of the sliding connector. 'The user can electrically connect the external connector (4) to the thin portable electronic device through the convex sliding structure. On the other hand, if the connector 2 is to be received into the housing 12, the cover 22 is pushed forward. One of the third directions is still used in front of the accommodating space 161, and then the first - # σ * moves the heart ... pushes the door cover 22 toward 2 to close it to the accommodating space 161. At this time, in addition to the driving of the door cover 22, the actuating lever 32 pushes the base 18 and connects into the inside of the casing 12. The free end 341 of the engaging flexure 34 is from the second stopping point 3〇2 via the second passage 304. Move to the first stop point 3〇1. When the free end 341 enters the first: leaving the point 3〇1, the step structure between the first stop point 301 and the first channel 3〇3 channel 3G4 can be used to limit the movement of the curved piece 34, and the connector is made The 2G can be stably housed inside the casing 12. It is worth mentioning that the track structure 30 is a cyclic reciprocating track design, and the curved piece ^ is flexed and deformed when moving in the track structure 3G to smoothly pass the first U point 301 and the second stop point. 3〇2, the _channel 3〇3, and the second channel 304 switch movement. The thin portable electronic device of the present invention is attached to the side of the casing 5 and is provided with a sliding connector mechanism. Since the structural twist of one of the sliding connector mechanisms is substantially greater than the thickness of the side edges of the housing, the sliding connector mechanism can be hidden deep inside the housing when no external connector is to be used, so that The thin portable electronic device can be edge-thinned and presented in a lightweight design. When the external connector needs to be connected to the thin portable electronic device, the 16 msz234 user can open the sliding cover ϋ mechanism H cover to (4) the base and the connection 向外 move outward from the inside of the housing The part is barely exposed, so that the external connection g can be inserted into the connector of the JL connection|| to complete the electrical conduction. This creation contains two embodiments. In the first embodiment, the sliding cover of the sliding connector t is pivotally connected to the slit. When the door is pivoted relative to the base, the guiding arm is biased to push the sliding of the base, and the (four) structure is slid to drive the base. The door cover of the sliding connector mechanism which is partially outwardly moved from the inside of the casing and partially exposed to the joint and the first butterfly is movably connected to the movable lever. The door cover of the second embodiment can be moved away from the accommodating space by the lateral movement method, and the door can be pushed away from the side by using the tensile projectile: The external sliding of the seat and the connection relationship 'to achieve the position of the adjustable connector relative to the housing to tie the technology' design of the creative department - kind of profit ^ k knot sliding connection stolen mechanism to match with side cutting The device::=7=sub-device. The sliding connector of the present invention moves out or = synchronously drives the electronic device when the door is opened and closed, so that it can be effectively applied to the thin-type building type of the 4-gauge. The above has the advantages of having a simple appearance and being convenient to use. The preferred embodiment of the invention is subject to the scope of this creation. 17 M432234 [Simple Description of the Drawings] 1 is a schematic view showing the appearance of a thin portable electronic device according to a first embodiment of the present invention. Fig. 2 is a schematic view showing the component explosion of the sliding connector mechanism of the first embodiment of the present invention. Fig. 3 is a view showing the assembly of the sliding connector mechanism of the first embodiment of the present invention. Fig. 4 and Fig. 5 are respectively side views showing a part of the structure of the sliding connector mechanism of the first embodiment of the present invention in different operational states. Fig. 6 and Fig. 7 are respectively side views showing a part of the structure of the sliding connector mechanism of the first embodiment in different working states. Fig. 8 is a schematic view showing the component explosion of the sliding connector mechanism of the second embodiment of the present invention. Figure 9 is a perspective view of the sliding connector mechanism of the second embodiment of the present invention. Figure 10 is a top plan view of the track structure of the second embodiment of the present invention. Figure 11 is a cross-sectional view showing the track structure of the second embodiment of the present invention. [Main component symbol description] 10 Thin portable electronic 12 Housing Device 14 Sliding connector machine 16 Base structure 18 M432234
161 容置空間 163 滑執結構 165 擋塊 18 基座 181 遮罩結構 182 卡勾 183 導槽結構 184 滑動銷 185 突座 20 連接器 201 接頭 203 電路板 204 固定孔 22 門蓋 221 限位件 223 滑轨 ‘ 225 套接桿 24 樞轉軸 26 導引臂 261 滑槽結構 28 彈性元件 30 執道結構 301 第一停留點 302 第二停留點 303 第一通道 304 第二通道 32 致動桿 321 導槽 34 撓曲件 341 自由端 343 固定端 ;36 推壓彈簧 38 固定元件 40 拉伸彈簧 D1 第一方向 D2 第二方向 D3 第三方向 A-A, 剖面線 B-B’ 剖面線 19161 accommodating space 163 Sliding structure 165 Stop 18 Base 181 Mask structure 182 Snap hook 183 Guide groove structure 184 Slide pin 185 Stand 20 Connector 201 Connector 203 Circuit board 204 Fixing hole 22 Door cover 221 Limiting member 223 Slide rail '225 ferrule 24 pivot shaft 26 guide arm 261 chute structure 28 elastic element 30 obstruction structure 301 first stop point 302 second stop point 303 first passage 304 second passage 32 actuating rod 321 guide groove 34 flexure 341 free end 343 fixed end; 36 push spring 38 fixing element 40 tension spring D1 first direction D2 second direction D3 third direction AA, section line B-B' section line 19