201018359 九、發明說明: '【發明所屬之技術領域】 . 本發明涉及一種掀蓋結構及具有該掀蓋結構之電子裝 置。 【先前技術】 目前於許多電子裝置中,為了方便與外界聯繫,都設 置有各種訊號輸入輸出插槽,並通過排線連接與外界通 訊,同時,許多電子裝置還設置有用於容納諸如電池,存 〇儲卡之類附屬裝置之容置槽。此時,為了於電子装置未使 用時保護該訊號輸入輸出插槽免受外界污染或撞擊抑或 為了方便取放該容置槽中之附屬裝置,經常會使用掀蓋結 構。該掀蓋結構包括一外殼及一滑蓋,該外殼具有一開口, 該滑蓋樞接於該外殼之開口處。該輸入輸出插槽靠近該開 口並經由該開口與外界通訊。當該電子裝置不需要與外界 通訊時,該滑蓋封閉該開口;當該電子裝置需要與外界通 ❹訊時,繞滑蓋之一端轉動該滑蓋,使該滑蓋之另一端脫離 伸出於外殼外,從而露出該開口。然該滑蓋於外殼外部且 於懸空狀態下,很容易因為碰撞而斷裂,非常不安全。 【發明内容】 有蓉於此’有必要提供一種可避免因開啟而受外界碰 撞之掀蓋結構及具有該掀蓋結構之電子裝置。 一種掀蓋結構,其包括一外殼及一滑蓋。該外殼具有 開口’該外殼於開口之兩侧分別沿遠離該外殼之方向垂 直延伸出一第一樞接座及一第二框接座。該滑蓋收容於該 201018359 開口内,該滑蓋包括一蓋體,一第一樞接臂及一第二樞接 臂。該第一樞接臂及第二樞接臂自該蓋體之一個表面延伸 而出,且該第一樞接臂及第二樞接臂分別與該第一樞接座 及第一樞接座樞接。該第一樞接臂及第二枢接臂相對該第 一樞接座及第二樞接座轉動,使該滑蓋收容於該外殼。 一種電子裝置,其包括一掀蓋結構及一電子元件。該 掀蓋結構包括一外殼及一滑蓋。該外殼具有一開口,該外 殼於開口之兩侧分別沿遠離該外殼之方向垂直延伸出一第 ❿一樞接座及一第二樞接座。該滑蓋收容於該開口内,該滑 蓋包括一蓋體,一第一樞接臂及一第二樞接臂。該第一樞 接臂及第二樞接臂自該蓋體之一個表面延伸而出,且該第 -樞接臂及第二樞接臂分別與該第—樞接座及第二插接座 樞接。該第一樞接臂及第二樞接臂相對該第一樞接座及第 樞接座轉動,使該滑盍收容於該外殼。該電子裝置固接 於該外殼上。 ❹與先前技術相比,本發明提供之掀蓋結構及具有該掀 蓋結構之電子裝置,通過使該滑蓋樞接於自該開口之兩侧 垂直k伸出之第-樞接座及一第二枢接座上,能夠於滑蓋 7啟時,使滑蓋收容於該外殼裏,從而保證該滑蓋於開啟 後免受外界碰撞。 【實施方式】 ^參關i至圖5,本發明第—實施方式提供之掀蓋結 匕括一外殼11,一滑蓋12及至少一 滑蓋12樞接於該外殼U上 料黃13 Γ 上这拉伸彈簧13連接該外殼11 8 201018359 與滑蓋12。 該外殼11具有一開口 111,該外殼11於開口 111之兩 侧分別沿遠離該外殼11之方向垂直延伸出一第一樞接座 112a及一第二樞接座112b。該第一樞接座112a及第二樞接 座112b上分別開設有一第一樞接孔113a及一第二樞接孔 113b。該外殼11還具有一設置於該第一樞接座112a或第二 樞接座112b上之固定柱114,在本實施方式中,該固定柱 114設置於該第一樞接座112a上。 該滑蓋12收容於該開口 111内,該滑蓋12包括一蓋 體121,一第一樞接臂122a,一第二樞接臂122b及一突起 123。 該蓋體121與該開口 111對應,該蓋體121具有相背 設置之一内表面110及一外表面120。 該第一樞接臂122a及第二樞接臂122b自該蓋體121 之内表面110延伸而出,且該第一樞接臂122a及第二樞接 臂122b分別與該第一樞接座112a及第二樞接座112b對 應。該第一樞接臂122a遠離該蓋體121之一端具有與該第 一樞接孔113a對應之第一凸軸124a,該第二樞接臂122b 遠離該蓋體121之一端與該第二樞接孔113b對應之第二凸 軸124b。在本實施方式中,該第一樞接臂122a靠近該蓋體 121之一端還延伸出一卡勾125。可以理解,該滑蓋12能 夠繞該第一凸軸124a及一第二凸軸124b旋轉,且能夠於 旋轉過程中使蓋體121遮擋住該開口 111或者收容於該外 殼11内。可以理解,該第一凸轴124a及一第二凸軸124b 201018359 也可分別設置於該第一樞接座112a及第二樞接座112b •上,而該第一樞接孔113a及第二樞接孔113b分別開設於 •該第一樞接臂122a及第二樞接臂122b上。 該突起123自該蓋體121之外表面120向外延伸而出, 該突起123設置於蓋體121遠離該第一樞接臂122a或第二 樞接臂122b之一端,該突起123用於方便用戶撥動該滑蓋 12 ° 在本實施方式中,該第一樞接孔113a或第一凸軸124a ❹與該固定柱114形成之直線與該卡勾125之運動執跡相交 且該固定柱114與卡勾125之間之距離大於該第一樞接孔 113a或第一凸軸124a與卡勾125之間之距離。 在本實施方式中,該拉伸彈簧13之個數為一根,其包 括一固定端131及一旋轉端132,該固定端131固定於該固 定柱114上,該旋轉端132連接於該卡勾125上。在本實 施方式中,該拉伸彈簧13之自然長度小於或者等於該第一 _樞接孔113a或第一凸軸124a與卡勾125之間之距離,亦 ❹ 即,該拉伸彈簧13於滑蓋12之旋轉過程中始終處於拉伸 狀態。 該滑蓋12遮擋住該開口 111時為閉合狀態,該蓋體121 收容於該外殼11時為開啟狀態。當需要開啟該滑蓋12時, 從閉合狀態撥動該滑蓋12使其繞第一凸軸124a及第二凸 軸124b轉動。該卡勾125之運動軌跡為以第.一樞接孔113a 為圓心之一段圓弧。剛開始轉動該滑蓋12時拉伸彈簣13 之拉力可分解成一沿該第一樞接臂122a之作用力及一垂直 201018359 該第一樞接臂122a之作用力,其中垂直該第一樞接臂122a 之作用力會阻礙該滑蓋12之開啟動作,可稱之為閉合力; ’繼續轉動該滑蓋12,當該第一樞接孔113a,固定柱114及 卡勾125位於同一直線時,亦即該拉伸彈簧13經過該第一 樞接孔113a時,此時,從該拉伸彈簧13之拉力分解出來 之閉合力為零,可以理解,此時,該拉伸彈簧13之形變達 到最大;再繼續轉動該滑蓋12,該拉伸彈簧13之拉力可分 解成一沿該第一樞接臂122a之作用力及一垂直該第一樞接 ❹臂122a之作用力,且此時垂直該第一樞接臂122a之作用 力會促進該滑蓋12之開啟動作,可稱之為開啟力,此時, 無需對該滑蓋12繼續施力,該開啟力將帶動該滑蓋12繼 續轉動直到滑蓋12收容於該外殼11内。 當需要閉合該蓋體121時,該蓋體121與拉伸彈簧13 之工作原理同開啟該蓋體121時基本相同,先克服該拉伸 彈簧13之開啟力使滑蓋12轉動到拉伸彈簧13之形變最大 _位置,此後,該拉伸彈簀13之閉合力將使滑蓋12自動閉 合且不容易鬆動。可以理解,通過該拉伸彈簧13之閉合力 與拉伸彈簧13之開啟力之間之變換,可使該滑蓋12具有 一段感。 請參閱圖10及圖11,為本發明第二實施方式提供之掀 蓋結構20,該掀蓋結構20包括一外殼21,一滑蓋22及一 壓縮彈簧23,該外殼21包括開口(未晝出),第一樞接座 212a,第二樞接座212b,第一樞接孔213a,第二樞接孔213 b及固定柱214。該滑蓋22包括蓋體221,第一樞接臂222a, 11 201018359 第二樞接臂222b,第一凸轴223a,第二凸軸223b及卡勾 ’ 224。在本實施方式中,該壓縮彈簧23為α形彈簧。 ' 該外殼21及滑蓋22與第一實施方式該外殼11及滑蓋 12之功能及結構基本相同,其主要區別在於:.在本實施方 式中,該第一樞接孔213a與該固定柱214之形成之直線與 該卡勾224之運動轨跡相交,且該固定柱214與卡勾224 之間之距離小於該第一枢接孔213a與卡勾224之間之距 離。該壓縮彈簧23之兩端分別連接於該固定柱214及卡勾 ❹224上。可以理解,此時,該壓縮彈簧23始終處於壓縮狀 態。 該滑蓋22遮擋住該開口時為閉合狀態,該滑蓋22收 容於該外殼210.時為開啟狀態。當該需要開啟該滑蓋22 時,從閉合狀態撥動該滑蓋22使其繞第一凸轴223a轉動。 該卡勾224之運動軌跡為以第一樞接孔213a為圓心之一段 圓弧。剛開始轉動該滑蓋22時壓縮彈簧23之拉力可分解 ©成一沿該第一樞接臂222a之作用力及一垂直該第一樞接臂 222a之作用力,其中垂直該第一樞接臂222a之作用力會阻 礙該滑蓋22之開啟動作,可稱之為閉合力;繼續轉動該滑 蓋22,當該第一樞接孔213a,固定柱214及卡勾224位於 同一直線時,亦即該壓縮彈簧23經過該第一樞接孔213a 時,此時,從該壓縮彈簧23之拉力分解出來之閉合力為零, 可以理解,此時,該壓縮彈簧23之形變達到最大;再繼續 轉動該滑蓋22,該壓縮彈簧23之拉力可分解成一沿該第一 樞接臂222a之作用力及一垂直該第一樞接臂222a之作用 12 201018359 力,且此時垂直該第一樞接臂222a之作用力會促進該滑蓋 ’ 22之開啟動作,可稱之為開啟力,此時,無需對該滑蓋22 * 繼續施力,該開啟力將帶動該滑蓋22繼續轉動直到滑蓋22 收容於該外殼210内。 當需要閉合該蓋體221時,該蓋體221與壓縮彈簧23 之工作原理同開啟該蓋體221時基本相同,先克服該壓縮 彈簧23之開啟力使滑蓋22轉動到壓縮彈簧23之形變最大 位置,此後,該壓縮彈簧23之閉合力將使滑蓋22自動閉 ❹合且不容易鬆動。可以理解,通過該壓縮彈簧23之閉合力 與壓縮彈簧23之開啟力之間之變換,可是該滑蓋22具有 一段感。 請參閱圖6至圖9,為本發明實施方式提供之電子裝置 100,其包括一第一實施方式提供之掀蓋結構10,一電子元 件30及多根固定螺絲40。該電子元件30固接於該外殼11 上。 _ 該掀蓋結構10於開口 111處還包括一固定板15,該固 定板15設置於該第一樞接座212a及第二樞接座212b之 間。該固定板15上具有複數螺絲孔151及複數第一通孔 152,該螺絲孔151及第一通孔152用於與該電子元件30 配合。 該電子元件30靠近該開口 111之一端具有複數與該第 一通孔152對應之輸入輸出插槽31及複數與該螺絲孔151 配合之第二通孔32。 該固定螺絲40穿過該第二通孔32後與該螺絲孔151 13 201018359 嚙合,從而使該電子元件30固定於該外殼n之固定板i5 上。 當該滑蓋12開啟時,該輸入輸出插槽31通過排線可 與外界通訊,當該滑蓋12閉合時,該輸入輸出插槽21由 盖體121遮播’免受外界之衝擊。 ^與先前技術相比,本發明提供之掀蓋結構及具有該掀 蓋結構之電子裝置,通過使該滑蓋樞接於自該開口之兩侧 垂直延伸出之第一樞接座及一第二樞接座上,能夠於滑蓋 開啟時,使滑蓋收容於該外殼裏,從而保證該滑蓋於開啟 後免受外界碰撞。 综上所述,本發明確已符合發明專利之要件,遂依法 提出專利申請。惟,以上所述者僅為本發明之較佳實施方 式,自不能以此限制本案之申請專利範圍。舉凡熟悉本案 技藝之人士援依本發明之精神所作之等效修飾或變化,皆 應涵蓋於以下申請專利範圍内。 G【圖式簡單說明】 圖1為本發明第一實施方式提供之掀蓋結構閉合時之 組裝示意圖。 圖2為圖1之掀蓋結構另一視角之組裝示意圖。 圖3為圖1之掀蓋結構開啟時之組裝示意圖。 圖4為圖3之掀蓋結構另一視角之組裝示意圖。 圖5為圖1之掀蓋結構之分解示意圖。 圖6為具有圖1之掀蓋結構之電子裝置之分解示意圖。 圖7為圖6之電子裝置另一視角之分解示意圖。 201018359 圖8為圖6之電子裝置之組裝示意圖。 圖9為圖6之電子裝置另一視角之組裝示意圖。 圖10為本發明第二實施方式提供之掀蓋結構之組裝示 意圖。 圖11為圖10之掀蓋結構之分解示意圖。 【主要元件符號說明】201018359 IX. Description of the invention: '[Technical field to which the invention pertains] The present invention relates to a flip cover structure and an electronic device having the same. [Prior Art] In many electronic devices, in order to facilitate contact with the outside world, various signal input and output slots are provided, and communication with the outside world is provided through a cable connection. At the same time, many electronic devices are also provided for accommodating, for example, a battery. A receiving slot for an attachment such as a storage card. At this time, in order to protect the signal input/output slot from external pollution or impact when the electronic device is not in use, or to facilitate access to the attachment device in the accommodating groove, a tarpaulin structure is often used. The cover structure includes a casing and a sliding cover, the casing has an opening, and the sliding cover is pivotally connected to the opening of the casing. The input and output slot is adjacent to the opening and communicates with the outside via the opening. When the electronic device does not need to communicate with the outside world, the sliding cover closes the opening; when the electronic device needs to communicate with the outside world, the sliding cover is rotated around one end of the sliding cover to disengage the other end of the sliding cover Outside the outer casing to expose the opening. However, the slider is external to the casing and is suspended, and is easily broken by collision, which is very unsafe. SUMMARY OF THE INVENTION There is a need to provide a cover structure that avoids external impact by opening and an electronic device having the cover structure. A flip cover structure includes an outer casing and a sliding cover. The outer casing has an opening. The outer casing extends from the two sides of the opening in a direction away from the outer casing to extend a first pivoting seat and a second frame. The sliding cover is received in the opening of the 201018359. The sliding cover comprises a cover body, a first pivoting arm and a second pivoting arm. The first pivoting arm and the second pivoting arm extend from a surface of the cover body, and the first pivoting arm and the second pivoting arm respectively overlap the first pivoting seat and the first pivoting seat Pivot. The first pivoting arm and the second pivoting arm rotate relative to the first pivoting seat and the second pivoting seat to receive the sliding cover in the outer casing. An electronic device includes a flip cover structure and an electronic component. The lid structure includes a casing and a sliding cover. The outer casing has an opening, and the outer casing vertically extends from the two sides of the opening in a direction away from the outer casing, and a second pivoting seat and a second pivoting seat. The sliding cover is received in the opening, and the sliding cover comprises a cover body, a first pivoting arm and a second pivoting arm. The first pivoting arm and the second pivoting arm extend from a surface of the cover body, and the first pivoting arm and the second pivoting arm respectively overlap the first pivoting socket and the second socket Pivot. The first pivoting arm and the second pivoting arm rotate relative to the first pivoting seat and the pivotal seat to receive the slider in the outer casing. The electronic device is affixed to the housing. The present invention provides a cover structure and an electronic device having the same, which are pivotally connected to a first pivotal socket and a vertical extension from both sides of the opening. The second pivoting seat can receive the sliding cover in the outer casing when the sliding cover 7 is opened, thereby ensuring that the sliding cover is protected from external collision after being opened. [Embodiment] As shown in Fig. 5, the cover of the first embodiment of the present invention includes a casing 11, a sliding cover 12 and at least one sliding cover 12 pivotally connected to the casing U. The tension spring 13 is connected to the outer casing 11 8 201018359 and the slide cover 12. The housing 11 has an opening 111. The housing 11 extends perpendicularly from the housing 11 on a side of the opening 111 to extend a first pivoting seat 112a and a second pivoting seat 112b. A first pivot hole 113a and a second pivot hole 113b are defined in the first pivoting socket 112a and the second pivoting socket 112b. The housing 11 further has a fixing post 114 disposed on the first pivoting seat 112a or the second pivoting seat 112b. In the embodiment, the fixing post 114 is disposed on the first pivoting seat 112a. The sliding cover 12 is received in the opening 111. The sliding cover 12 includes a cover 121, a first pivoting arm 122a, a second pivoting arm 122b and a protrusion 123. The cover body 121 corresponds to the opening 111. The cover body 121 has an inner surface 110 and an outer surface 120 disposed opposite to each other. The first pivoting arm 122a and the second pivoting arm 122b extend from the inner surface 110 of the cover 121, and the first pivoting arm 122a and the second pivoting arm 122b are respectively connected to the first pivoting socket 112a corresponds to the second pivoting seat 112b. The first pivoting arm 122a is away from the one end of the cover body 121 and has a first protruding shaft 124a corresponding to the first pivoting hole 113a. The second pivoting arm 122b is away from the one end of the cover body 121 and the second pivot. The through hole 113b corresponds to the second convex shaft 124b. In the embodiment, the first pivoting arm 122a extends to a side of the cover 121 to extend a hook 125. It can be understood that the sliding cover 12 can rotate around the first protruding shaft 124a and the second protruding shaft 124b, and can cover the opening 121 or be received in the outer casing 11 during the rotation. It can be understood that the first protruding shaft 124a and the second protruding shaft 124b 201018359 can also be disposed on the first pivoting socket 112a and the second pivoting socket 112b, respectively, and the first pivoting hole 113a and the second The pivot holes 113b are respectively formed on the first pivot arm 122a and the second pivot arm 122b. The protrusion 123 extends outwardly from the outer surface 120 of the cover body 121. The protrusion 123 is disposed at one end of the cover body 121 away from the first pivot arm 122a or the second pivot arm 122b. In the present embodiment, the first pivot hole 113a or the first protruding shaft 124a ❹ and the fixed column 114 form a line intersecting the movement track of the hook 125 and the fixing column The distance between the 114 and the hook 125 is greater than the distance between the first pivot hole 113a or the first protruding shaft 124a and the hook 125. In the present embodiment, the number of the tension springs 13 is one, and includes a fixed end 131 and a rotating end 132. The fixed end 131 is fixed on the fixing post 114, and the rotating end 132 is connected to the card. Hook 125. In this embodiment, the natural length of the tension spring 13 is less than or equal to the distance between the first pivotal opening 113a or the first protruding shaft 124a and the hook 125, that is, the tension spring 13 is The slider 12 is always stretched during rotation. When the sliding cover 12 blocks the opening 111, the sliding cover 12 is in a closed state, and the cover 121 is in an open state when being accommodated in the outer casing 11. When the slide cover 12 needs to be opened, the slide cover 12 is toggled from the closed state to rotate about the first convex shaft 124a and the second convex shaft 124b. The movement track of the hook 125 is an arc of a circle centered on the first pivot hole 113a. When the sliding cover 12 is first rotated, the tensile force of the tensile magazine 13 can be decomposed into a force along the first pivoting arm 122a and a vertical force of the first pivoting arm 122a of the 201018359, wherein the first pivot The force of the arm 122a may hinder the opening action of the slider 12, which may be referred to as a closing force; 'continue to rotate the slider 12, when the first pivot hole 113a, the fixed post 114 and the hook 125 are in the same line When the tension spring 13 passes through the first pivot hole 113a, the closing force decomposed from the tensile force of the tension spring 13 is zero. It can be understood that, at this time, the tension spring 13 The deformation is maximized; the sliding cover 12 is further rotated, and the pulling force of the tension spring 13 can be decomposed into a force along the first pivoting arm 122a and a force perpendicular to the first pivoting arm 122a, and this The vertical force of the first pivoting arm 122a promotes the opening action of the sliding cover 12, which may be referred to as an opening force. At this time, there is no need to continue to apply force to the sliding cover 12, and the opening force will drive the sliding cover. 12 continues to rotate until the slider 12 is received in the outer casing 11. When the cover body 121 needs to be closed, the working principle of the cover body 121 and the tension spring 13 is substantially the same as when the cover body 121 is opened. The opening force of the tension spring 13 is overcome to rotate the slide cover 12 to the tension spring. The deformation of 13 is the largest _ position, after which the closing force of the tension magazine 13 will cause the slider 12 to automatically close and not easily loose. It can be understood that the slide cover 12 can have a feeling by a change between the closing force of the tension spring 13 and the opening force of the tension spring 13. Referring to FIG. 10 and FIG. 11 , a cover structure 20 according to a second embodiment of the present invention includes a housing 21 , a sliding cover 22 and a compression spring 23 . The housing 21 includes an opening (not shown). The first pivoting socket 212a, the second pivoting socket 212b, the first pivoting hole 213a, the second pivoting hole 213b and the fixing post 214. The sliding cover 22 includes a cover body 221, a first pivoting arm 222a, 11 201018359, a second pivoting arm 222b, a first protruding shaft 223a, a second protruding shaft 223b and a hook ‘224. In the present embodiment, the compression spring 23 is an α-shaped spring. The function and structure of the outer casing 11 and the sliding cover 12 are substantially the same as those of the first embodiment. The main difference is that: in the embodiment, the first pivoting hole 213a and the fixing post The straight line formed by the 214 intersects with the movement track of the hook 224, and the distance between the fixed post 214 and the hook 224 is smaller than the distance between the first pivot hole 213a and the hook 224. The two ends of the compression spring 23 are respectively connected to the fixing post 214 and the hook 224. It can be understood that at this time, the compression spring 23 is always in a compressed state. The sliding cover 22 is in a closed state when the opening is blocked, and the sliding cover 22 is in an open state when it is received in the outer casing 210. When it is necessary to open the slide cover 22, the slide cover 22 is toggled from the closed state to rotate about the first convex shaft 223a. The movement track of the hook 224 is a circular arc of a circle centered on the first pivot hole 213a. The tension of the compression spring 23 at the beginning of the rotation of the sliding cover 22 can be decomposed into a force along the first pivoting arm 222a and a force perpendicular to the first pivoting arm 222a, wherein the first pivoting arm is perpendicular The force of 222a may hinder the opening action of the sliding cover 22, which may be referred to as a closing force; and continue to rotate the sliding cover 22, when the first pivoting hole 213a, the fixing post 214 and the hook 224 are in the same straight line, That is, when the compression spring 23 passes through the first pivot hole 213a, at this time, the closing force decomposed from the tension of the compression spring 23 is zero, it can be understood that at this time, the deformation of the compression spring 23 is maximized; Rotating the sliding cover 22, the pulling force of the compression spring 23 can be decomposed into a force along the first pivoting arm 222a and a vertical force of the first pivoting arm 222a 12 201018359, and the first pivot is perpendicular to the first pivot The force of the arm 222a promotes the opening action of the slider '22, which can be referred to as the opening force. At this time, there is no need to continue to apply force to the slider 22*, and the opening force will drive the slider 22 to continue to rotate until the sliding member 22 continues to rotate. The slider 22 is housed in the outer casing 210. When the cover body 221 needs to be closed, the working principle of the cover body 221 and the compression spring 23 is substantially the same as when the cover body 221 is opened. The opening force of the compression spring 23 is first overcome to rotate the sliding cover 22 to the deformation of the compression spring 23. The maximum position, after which the closing force of the compression spring 23 will cause the slider 22 to automatically close and not loose. It can be understood that the slide cover 22 has a feeling by the change between the closing force of the compression spring 23 and the opening force of the compression spring 23. Referring to FIG. 6 to FIG. 9 , an electronic device 100 according to an embodiment of the present invention includes a flip cover structure 10 , an electronic component 30 and a plurality of fixing screws 40 according to the first embodiment. The electronic component 30 is fixed to the outer casing 11. The cover structure 10 further includes a fixing plate 15 at the opening 111. The fixing plate 15 is disposed between the first pivoting seat 212a and the second pivoting seat 212b. The fixing plate 15 has a plurality of screw holes 151 and a plurality of first through holes 152. The screw holes 151 and the first through holes 152 are for engaging with the electronic component 30. One end of the electronic component 30 adjacent to the opening 111 has a plurality of input and output slots 31 corresponding to the first through hole 152 and a plurality of second through holes 32 that cooperate with the screw holes 151. The fixing screw 40 passes through the second through hole 32 and engages with the screw hole 151 13 201018359, so that the electronic component 30 is fixed on the fixing plate i5 of the outer casing n. When the slide cover 12 is opened, the input/output slot 31 can communicate with the outside through the cable. When the slide cover 12 is closed, the input/output slot 21 is shielded by the cover 121 from external impact. Compared with the prior art, the present invention provides a cover structure and an electronic device having the same, by pivoting the sliding cover to a first pivoting seat and a first extending vertically from two sides of the opening The two pivoting seats can accommodate the sliding cover in the outer casing when the sliding cover is opened, thereby ensuring that the sliding cover is protected from external collisions after being opened. In summary, the present invention has indeed met the requirements of the invention patent, and has filed a patent application according to law. However, the above description is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application of the present invention. Equivalent modifications or variations made by persons skilled in the art in light of the present invention are intended to be included within the scope of the following claims. G [Simplified Description of the Drawings] Fig. 1 is a schematic view showing the assembly of the clamshell structure when the first embodiment of the present invention is closed. 2 is a schematic view showing the assembly of the cover structure of FIG. 1 from another perspective. FIG. 3 is an assembled view of the lid structure of FIG. 1 when it is opened. 4 is an assembled view of another view of the clamshell structure of FIG. 3. Figure 5 is an exploded perspective view of the flip cover structure of Figure 1. 6 is an exploded perspective view of the electronic device having the flip cover structure of FIG. 1. FIG. 7 is an exploded perspective view of the electronic device of FIG. 6 from another perspective. 201018359 FIG. 8 is a schematic view showing the assembly of the electronic device of FIG. 6. FIG. 9 is an assembled view of another perspective of the electronic device of FIG. 6. FIG. Figure 10 is an assembly view of a flip cover structure according to a second embodiment of the present invention. Figure 11 is an exploded perspective view of the flip cover structure of Figure 10. [Main component symbol description]
電子裝置 100 掀蓋結構 10、20 電子元件 30 固定螺絲 40 外殼 11 、 210 滑蓋 12、22 拉伸彈簧 13 固定板 15 内表面 110 外表面 120 開口 111 第一樞接座 112a 、 212a 第___樞接座 112b 、 212b 第* —樞接孔 113a、213a 第二框接孔 113b 、 213b 固定柱 114 、 214 蓋體 121 、 221 第一樞接臂 122a、222a 第二樞接臂 122b 、 222b 突起 123 第一凸轴 124a、223a 第二凸轴 124b、223b 卡勾 125 、 224 固定端 131 旋轉端 132 螺絲孔 151 第一通孔 152 壓縮彈簧 23 輸入輸出插槽 31 第二通孔 32 15Electronic device 100 Cover structure 10, 20 Electronic component 30 Fixing screw 40 Housing 11, 210 Slide 12, 22 Extension spring 13 Fixing plate 15 Inner surface 110 Outer surface 120 Opening 111 First pivoting seat 112a, 212a __ _ pivot joints 112b, 212b * - pivot holes 113a, 213a second frame holes 113b, 213b fixed posts 114, 214 cover 121, 221 first pivot arms 122a, 222a second pivot arms 122b, 222b Protrusion 123 First convex shaft 124a, 223a Second convex shaft 124b, 223b Hook 125, 224 Fixed end 131 Rotating end 132 Screw hole 151 First through hole 152 Compression spring 23 Input/output slot 31 Second through hole 32 15