201230916 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種彈出模組及其應用之電子裝置,特 別關於一種配合手持件之彈出模組及其應用之電子裝置。 【先前技術】 觸控螢幕已廣泛被各種移動式電子裝置所採用,而應 用於控制觸控螢幕之觸控筆(stylus),亦成為不可或缺之 配件。觸控螢幕需要搭_㈣觸碰闕其上所顯示的功 能項目,以執行電子裝置之各項内建功能。 請同時參照圖1所示,其為習知具有觸控筆之電子裝 置背面不意圖,電子裝置^具有一觸控榮幕(圖未示)、 -觸控筆11以及-殼體12。殼體12具有一插孔⑵。觸 控筆11係對應插孔121以插入並置放於電子裝置1之中。 為了讓使用者以手指推出或撥動的方式取出觸控筆u,觸 外表面上設計有凸點112,又或者_ 體12 δ又计一凹陷部122,方便手指施力於觸控筆11 部111 ’以從電子裳置1之平滑殼體u上取出觸控筆u。 然而,以推出或撥動的方式取出觸控筆n :費力’且手物次的摩擦亦會5,起不舒適 =用;願。此外,為了配合觸控筆η與殼體 述結構’亦限制了電子裝置上 無法擴大。 卜L又4’導致應用範圍 201230916 【發明内容】 有鑑於上述課題,本發明之目的為提供一種有利於手 持件妥善收納且方便取出的彈出模組及其應用之電子裝 置,透過設計巧思,使例如觸控筆等得免除較大頭部及凸 點的結構,同時解決殼體需要保留凹陷部預設位置的問 題,擴大電子裝置之外觀設計彈性。 為達上述目的,依據本發明之一種彈出模組,應用於 一電子裝置中,且電子裝置具有一殼體與一手持件。彈出. 模組包括一滑動元件、一按鍵以及一彈性元件。滑動元件 具有一滑溝與一容置槽,且滑動元件滑動於殼體内之一第 一位置與一第二位置間。按鍵滑設於滑溝並自殼體之一開 口露出,按鍵被按壓以固定或釋放滑動元件。彈性元件連 接滑動元件與殼體。當手持件之一端容置於容置槽,並受 一外力壓縮彈性元件使滑動元件自第一位置滑動至第二 位置時,按鍵固定滑動元件,且手持件收納於殼體内,當 Φ 按鍵釋放滑動元件時,彈性元件推動滑動元件自第二位置 滑動至第一位置,且手持件彈出殼體。 在本發明一實施例中,滑溝具有一第一部份與一第二 部份,第一部份的延伸方向與滑動元件之滑動方向相同, 而與第二部份的延伸方向不同。 在本發明一實施例中,當滑動元件自第一位置滑動至 第二位置時,按鍵係沿著滑溝之第一部份滑動至第二部 份,而透過第二部份固定滑動元件。 在本發明一實施例中,按鍵滑離滑溝之第二部份時, 201230916 彈性元件推動滑動元件自第二位置滑動至第一位置。 在本發明一實施例中,按鍵具有一連結部,連結部至 少部份容置於滑溝,且按鍵透過連結部滑動於滑溝。 在本發明一實施例中,手持件容置於容置槽之一端係 為觸控端。 在本發明一實施例中,滑動元件具有一彈片,固定手 持件於容置槽。 在本發明一實施例中,滑動元件係藉由鸠尾結構滑動 於殼體内。 為達上述目的,依據本發明之一種電子裝置,包括一 殼體、一手持件以及一彈出模組。彈出模組包括一滑動元 件、一按鍵及一彈性元件。滑動元件具有一滑溝與一容置 槽,且滑動元件滑動於殼體内之一第一位置與一第二位置 間。按鍵滑設於滑溝並自殼體之一開口露出,按鍵被按壓 以固定或釋放滑動元件。彈性元件連接滑動元件與殼體。 當手持件之一端容置於容置槽,並受一外力壓縮彈性元件 使滑動元件自第一位置滑動至第二位置時,按鍵固定滑動 元件,且手持件收納於殼體内,當按鍵釋放滑動元件時, 彈性元件推動滑動元件自第二位置滑動至第一位置,且手 持件彈出殼體。 在本發明一實施例中,滑溝具有一第一部份與一第二 部份,第一部份的延伸方向與滑動元件之滑動方向相同, 而與第二部份的延伸方向不同。 在本發明一實施例中,滑動元件自第一位置滑動至第 201230916 二位置時,按鍵係沿著滑溝之第一部份滑動至第二部份, 而透過第二部份固定滑動元件。 在本發明一實施例中,按鍵滑離滑溝之第二部份時, 彈性元件推動滑動元件自第二位置滑動至第一位置。 在本發明一實施例中,按鍵具有一連結部,連結部至 少部份容置於滑溝,且按鍵透過連結部滑動於滑溝。 在本發明一實施例中,手持件容置於容置槽之一端係 $ 為觸控端。 在本發明一實施例中,滑動元件具有一彈片,固定手 持件於容置槽。 在本發明一實施例中,滑動元件係藉由鸠尾結構滑動 於殼體内。 承上所述,因依據本發明之一彈出模組及其應用之電 子裝置,藉由滑動元件滑動於殼體内之第一位置與第二位 置間,以及手持件一端容置於滑動元件之容置槽中且彈性 φ 元件連接滑動元件相對於手持件之另一端,而得以利用彈 性元件提供的彈性力推動滑動元件,使手持件彈出,利於 使用者取用。由於,滑動元件係直接抵觸手持件本體之一 端,不需透過其他額外的結構或元件作為施力與受力的媒 介,故適於與任一種類的手持件搭配。另外,依據本發明 之滑動元件具有滑溝,其係為整體設計中的傳動及連結核 心。使用者利用外力推入手持件的同時,將使按鍵固定於 滑溝上的第二部份,亦間接固定滑動元件,使其免於受彈 性元件推動,完成手持件的收納。而當按下按鍵時,按鍵 201230916 則可離開第二部份,而當滑動元件受彈性元件推動滑動至 第一位置時,按鍵係沿著滑溝之第二部份滑動至第一部 份,整體作動結果將帶動手持件彈出容置槽,供使用者取 用。其中’按鍵係於滑溝中滑動,運作上當然更能維持平 穩、滑順。 與習知技術相較,本發明不僅透過機件連動的設計, 使手持件易取出,故使用者不需以手推出或撥動,即可迅 速地取出手持件。當應用於電子裝置時,本發明不需在殼 體設計凹陷部或凹槽,使電子裝置之外觀設計得以免受限 制,更具彈性與發揮空間。除此之外,由於本發明僅利用 按鍵的按壓即可控制手持件彈出,故在實際應用時便於使 用者單手操作,有利於例如接聽電話時或其他需要同時進 行多項工作的環境中使用。是以’本發明為—取出方便、 運作平順,且具有較佳的手持件適用性,同時兼顧產品殼 體之外觀設計的彈出模組及其應用之電子裝置。 【實施方式】 以下將參照相關圖式,說明依據本發明較佳實施例之 彈出模組及其應用之電子裝置,其中相同的元件將以相同 的參照符號加以說明。 圖2A為本發明實施例之一種電子裝置之立體圖。請 參照圖2A所示’電子裝置2包括一彈出模組(位於殼體 22内,請參照後續圖式)、一手持件21以及一殼體22。 其中,殼體22係由上殼體221及下殼體222所組合而成。 201230916 電子裝置2可以為平板電腦、智慧型手機、個人數位助理、 全球衛星定位導航裝置或電子閱讀器,在本實施例中,係 以智慧型手機為例,至於手持件21係以觸控筆為例,其 能與電子裝置2之觸控面板類型配合。 圖2B為圖2A所示之電子裝置分解後之部份示意圖, 如圖2B所示,電子裝置2之彈出模組E係與手持件21配 合使用,並設置於殼體22中。彈出模組E包括一滑動元 件23、一按鍵24以及一彈性元件25。而殼體22可具有 多數支架226,例如形成於下殼體222之内表面,支架226 可例如具有一與手持件21之本體211對應之弧度,以利 於手持件21置放於其上,避免手持件21在收納時發生不 穩或搖晃。按鍵24自下殼體222之一開口 OP露出,以利 使用者按壓以固定或釋放滑動元件23。201230916 VI. Description of the Invention: [Technical Field] The present invention relates to an ejecting module and an electronic device therefor, and more particularly to an electronic device that cooperates with a pop-up module of a hand piece and an application thereof. [Prior Art] Touch screens have been widely used in various mobile electronic devices, and styluses for controlling touch screens have become indispensable accessories. The touch screen needs to be _(4) touched on the function items displayed on it to perform various built-in functions of the electronic device. Referring to FIG. 1 at the same time, it is not intended to have a back surface of an electronic device having a stylus. The electronic device has a touch screen (not shown), a stylus 11 and a housing 12. The housing 12 has a receptacle (2). The touch pen 11 is corresponding to the jack 121 for insertion and placement in the electronic device 1. In order to allow the user to take out the stylus u by pushing or pushing the finger, the outer surface is designed with a bump 112, or the body 12 δ and a recess 122 are provided to facilitate the finger force on the stylus 11 The portion 111' takes out the stylus u from the smooth housing u of the electronic skirt 1. However, taking out the stylus pen in a push-out or dialing manner is not laborious and the friction of the hand will be 5, which is uncomfortable. In addition, in order to cooperate with the stylus η and the housing structure, the electronic device cannot be expanded. </ br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br> For example, the stylus pen and the like are free from the structure of the large head and the bump, and at the same time, the problem that the housing needs to retain the preset position of the recessed portion is solved, and the design flexibility of the electronic device is expanded. To achieve the above object, an ejecting module according to the present invention is applied to an electronic device having a housing and a hand piece. Pop-up. The module includes a sliding element, a button and a resilient element. The sliding member has a sliding groove and a receiving groove, and the sliding member slides between a first position and a second position in the housing. The button slides on the sliding groove and is exposed from one of the openings of the housing, and the button is pressed to fix or release the sliding member. The elastic member connects the sliding member to the housing. When one end of the hand piece is placed in the receiving groove and is compressed by an external force to slide the sliding element from the first position to the second position, the button fixes the sliding element, and the hand piece is received in the casing, when the Φ button Upon release of the sliding element, the resilient element urges the sliding element to slide from the second position to the first position and the handpiece pops out of the housing. In an embodiment of the invention, the sliding groove has a first portion and a second portion, and the first portion extends in the same direction as the sliding direction of the sliding member, and is different from the extending direction of the second portion. In an embodiment of the invention, when the sliding member slides from the first position to the second position, the button slides along the first portion of the sliding groove to the second portion and the sliding member is fixed through the second portion. In an embodiment of the invention, when the button slides away from the second portion of the sliding groove, the 201230916 elastic member pushes the sliding member to slide from the second position to the first position. In an embodiment of the invention, the button has a connecting portion, at least a portion of the connecting portion is received in the sliding groove, and the button is slid through the connecting portion to slide the sliding groove. In an embodiment of the invention, the hand piece is placed at one end of the receiving slot as a touch end. In an embodiment of the invention, the sliding member has a resilient piece that secures the holding member to the receiving slot. In an embodiment of the invention, the sliding element is slid into the housing by the dovetail structure. To achieve the above object, an electronic device according to the present invention includes a housing, a hand piece, and a pop-up module. The pop-up module includes a sliding element, a button and an elastic component. The sliding member has a sliding groove and a receiving groove, and the sliding member slides between a first position and a second position in the housing. The button is slidably disposed in the sliding groove and exposed from one of the openings of the housing, and the button is pressed to fix or release the sliding member. The elastic element connects the sliding element to the housing. When one end of the hand piece is placed in the receiving groove and is compressed by an external force to slide the sliding element from the first position to the second position, the button fixes the sliding element, and the hand piece is received in the casing, when the button is released When the element is slid, the resilient element urges the sliding element to slide from the second position to the first position and the handpiece pops out of the housing. In an embodiment of the invention, the sliding groove has a first portion and a second portion, and the first portion extends in the same direction as the sliding direction of the sliding member, and is different from the extending direction of the second portion. In an embodiment of the invention, when the sliding element slides from the first position to the second position of 201230916, the button slides along the first portion of the sliding groove to the second portion, and the sliding portion is fixed through the second portion. In an embodiment of the invention, the resilient member urges the sliding member to slide from the second position to the first position as the button slides away from the second portion of the sliding groove. In an embodiment of the invention, the button has a connecting portion, at least a portion of the connecting portion is received in the sliding groove, and the button is slid through the connecting portion to slide the sliding groove. In an embodiment of the invention, the hand piece is placed at one end of the receiving slot and is a touch end. In an embodiment of the invention, the sliding member has a resilient piece that secures the holding member to the receiving slot. In an embodiment of the invention, the sliding element is slid into the housing by the dovetail structure. According to the above description, an electronic device according to the present invention has an ejecting module and an electronic device thereof, wherein the sliding member slides between the first position and the second position in the housing, and one end of the handpiece is received in the sliding member. The accommodating groove and the elastic φ element are connected with the sliding element relative to the other end of the hand piece, so that the sliding element can be pushed by the elastic force provided by the elastic element to make the hand piece pop out for the user to take. Since the sliding member directly opposes one end of the handpiece body, it does not need to pass through other additional structures or components as a medium for applying force and force, so it is suitable for matching with any type of handpiece. Further, the sliding member according to the present invention has a sliding groove which is a transmission and coupling core in the overall design. When the user pushes the hand piece by external force, the button is fixed to the second portion of the sliding groove, and the sliding member is also indirectly fixed to be pushed by the elastic member to complete the storage of the hand piece. When the button is pressed, the button 201230916 can leave the second portion, and when the sliding member is pushed by the elastic member to slide to the first position, the button slides along the second portion of the sliding groove to the first portion. As a result of the overall operation, the hand piece will be ejected into the receiving slot for the user to access. Among them, the button is slid in the sliding groove, and the operation is of course more stable and smooth. Compared with the prior art, the present invention not only allows the hand piece to be easily taken out through the design of the interlocking mechanism, so that the user can quickly take out the hand piece without pushing or pushing it by hand. When applied to an electronic device, the present invention does not require designing a recess or a recess in the housing, so that the design of the electronic device can be free from restrictions, flexibility, and space. In addition, since the present invention can control the hand-held ejection by only pressing the button, it is convenient for the user to operate with one hand in practical application, and is advantageous for use in an environment such as answering a call or other environments requiring multiple tasks at the same time. The invention relates to an ejecting module which is convenient to take out, has smooth operation, and has better applicability of the hand piece, and takes into consideration the design of the product casing and an electronic device thereof. [Embodiment] Hereinafter, an electronic device according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings, wherein the same elements will be described with the same reference numerals. 2A is a perspective view of an electronic device according to an embodiment of the present invention. Referring to FIG. 2A, the electronic device 2 includes an ejection module (located in the housing 22, please refer to the subsequent drawings), a hand piece 21, and a housing 22. The casing 22 is composed of an upper casing 221 and a lower casing 222. 201230916 The electronic device 2 can be a tablet computer, a smart phone, a personal digital assistant, a global satellite positioning navigation device or an e-reader. In this embodiment, a smart phone is taken as an example, and the hand piece 21 is a stylus. For example, it can be matched with the touch panel type of the electronic device 2. FIG. 2B is a partial exploded view of the electronic device shown in FIG. 2A. As shown in FIG. 2B, the pop-up module E of the electronic device 2 is used in combination with the hand-held member 21 and disposed in the housing 22. The eject module E includes a sliding member 23, a button 24, and a resilient member 25. The housing 22 can have a plurality of brackets 226, for example, formed on the inner surface of the lower housing 222. The bracket 226 can have, for example, a curvature corresponding to the body 211 of the handpiece 21 to facilitate the placement of the handpiece 21 thereon. The hand piece 21 is unstable or shaken during storage. The button 24 is exposed from an opening OP of the lower housing 222 for the user to press to fix or release the sliding member 23.
圖2C為圖2B所示之滑動元件、彈性元件與下殼體組 合時的示意圖,如圖2C所示,在本實施例中,滑動元件 φ 23係藉由鳩尾結構滑動於殼體22内。詳細而言,滑動元 件23具有一凸出部233,相當於鳩尾結構之公榫,而殼體 22具有二個直立設置於下殼體222之内表面的側板224, 側板224之間與下殼體222之内表面共同形成一凹槽C, 相當於鳩尾結構之母榫,因此,滑動元件23得以透過凸 出部233與下殼體222之側板224相互配合滑動。此外, 側板224上分別有一安裝槽225,其可透過預先設計而使 間距與凸出部233之寬度相當。是以,在實際組裝時,滑 動元件23即可由安裝槽225之間放入,從而得以在凹槽C 201230916 内來回滑動,達成使滑動元件23滑動於殼體22内之目的。 當然,滑動元件23之設計係以能相對殼體22滑動為 目的,使之能順利帶動手持件21脫離收納的狀態,據此, 除上述鸠尾結構的配合外,在本發明其他實施例中,滑動 元件23與殼體22亦可透過其他例如凹凸結構、楔型結構 及/或滚珠與滑溝等達成上述目的,本發明在此不限。 圖2E、2F為圖2B所示之元件組合完成後的示意圖, 請同時參照圖2B所示,滑動元件23具有一滑溝231與一 容置槽232。容置槽232用以容置手持件21之一端,較佳 係容置手持件21之觸控端212,觸控端212係使用者用以 接觸電子裝置2之觸控面板的部份。在本實施例中,滑動 元件23可更具有一彈片234,其材質可為彈性較佳的金 屬,例如銅,且藉由熱溶方式與滑動元件23之其他部份 一體成型。請參考圖2B所示,由於手持件21之本體211 在靠近觸動端212附近具有一卡合溝213,因此當手持件 21插入容置槽232時,彈片234會與手持件21之卡合溝 213卡合抵觸,以確實固定手持件21於容置槽232。當然, 在本發明其他實施例中,滑動元件23亦可藉由設置例如 多數凸點之結構,以在不妨礙手持件21取出的原則下, 固定其位置,本發明在此不限。 特別值得說明的是,請同時參考圖2B所示,在本實 施例中,滑動元件23之滑溝231具有一第一部份235與 一第二部份236,第一部份235的延伸方向與滑動元件23 之滑動方向相同,而與第二部份236的延伸方向不同。舉 201230916 例而言,第一部份235 方向H如 之伸方向可為手持件21之長軸 30度角的方向延伸。換4 ^ 235之延伸方向央一約 全直飨^ 之,b溝231之整體結構非為完 剩餘部份間形成一約接二=之-之部份與其他 的部份即A !· »十,0 角度,而此約四分之一 丨1刀即為上述的第二部份Μ 份即為上^ W他聽的直線部 盥笛A弟礼235。由於滑溝231第-部份235 内 1 =份236延伸方向的不同,如容置或卡設於滑溝231 可=滑溝23!與滑動元件23進行線性相對移動的物 森入s、進入至第二部份说,會在原相對移動的方向上 ^到一定程度的外力限制,而無法繼續作動,而使按鍵24 切動元件23間處於「固定」的狀態。接續上述,由於 =Μ係滑設於滑溝231,是卩,如按鍵24因相對運動 ^入第二部份236 ’即無法在第-部份235延伸方向(原 /月動7G件23滑動之方向)繼續移動,而限制於第二部份 236,同時相對使得滑動元件23的位置固定不再改變。需 針對上述結構特別說明的是,滑溝231的構型並無特別限 制,換言之,滑溝23丨之第一部份235與第二部伤;236並 無特定比例關係,而形成的角度也不限定為15〇度,端視 達成「固定」狀態所需的外力大小以及整體形狀,以利於 滑動且適於生產及操作為原則。 在具體說明按鍵24、滑動元件23及彈性元件25間的 相對運動前,以下將再詳細說明三者的連結關係。在本實 包例中,按鍵24具有一連結部241,且透過連結部241滑 11 201230916 動於滑溝231。連結部241可例如為一凸出柱體,其部份 容置於滑溝231。在此所稱之「部份」係指連結部241的 一部份即可,而不限體積大小。當然,連結部241之構型 亦非本發明之限制條件,在其他實施例中,連結部241可 以為例如錐形、工字形或與滑溝231透過鸠尾結構連結。 彈性元件25 —端連接滑動元件23相對於手持件·21 之一端,另一端固設於下殼體222之一抵觸部223。彈性 元件25因具有選定的材料與結構,故於適當外力下會發 生形變,而於外力移除後又可再恢復原貌,是以彈性元件 25可作為儲存及釋放驅動滑動元件23之力量的核心。於 此,彈性元件25係以彈簧為例。 以下將具體說明按鍵24、滑動元件23及彈性元件25 間如何透過上述結構進行連動,以達成本發明之目的。先 要特別強調的是,在本發明中,手持件21的收納與彈出 係利用手持件21 —端容置於滑動元件23,且滑動元件23 可以在殼體22内之第一位置與第二位置間滑動而達成。 其中,待收納手持件21且滑動元件23位於殼體22内之 第一位置時各元件間的相對關係即如圖2D所示,而手持 件21收納後且滑動元件23位於殼體22内之第二位置時 則如圖2Ε所示。 請先參照圖2D所示,上述實施例在實施上,當使用 者欲收納手持件21,而施一外力(箭號Α)使手持件21 之一端容置於容置槽232時,會連動滑動元件23開始自 第一位置滑向第二位置,且在持續施力下,推動滑動元件 12 201230916 23擠壓彈性元件25,使彈性元件25被壓縮。同時,由於 按鍵24與滑動元件23在滑溝231上的連結關係,使按鍵 24透過相對移動而由第一部份235開始滑至滑溝231之第 二部份236,參照前述第二部份236的性質,當按鍵24移 入第二部份236後,其因第一部份235與第二部份236延 伸方向的不同,被限制無法在於原方向上移動,從而固定 滑動元件23之位置,免於受彈性元件25所儲存的彈力推 $ 動。簡而言之,在電子裝置2收納手持件21時,基於上 述連動關係,外力可使滑動元件23自第一位置開始移動 至第二位置,而按鍵24則自第一部份235滑動至第二部 。 份236,以固定滑動元件23之位置及壓縮彈性元件25, . 即如圖2E所示。接著,請參照圖2F所示,其為按壓24 按鍵後,手持件21彈出殼體22時的示意圖。當使用者欲 取出手持件21而按壓按鍵24時,按鍵24會受到與第二 部份236延伸方向同方向之外力驅動而滑離滑溝231之第 φ 二部份236,以使按鍵24得以重新在滑溝231之第一部份 235的延伸方向方向上滑動,同時彈性元件25便可釋放原 先儲存的彈力以推動滑動元件23自第二位置滑動至第一 位置,而容置於容置槽232的手持件21便能受彈力作用 彈出殼體22,即圖2F所示。也就是說,當按鍵24釋放滑 動元件23時,彈性元件25推動滑動元件23自第二位置 滑動至第一位置,連帶使手持件21彈出殼體22,是以達 成使用者可藉由按壓按鍵24以控制手持件21彈出的目 的。另外值得一提的是,由於從按壓到彈出的連續動作均 13 201230916 係在滑溝231内完成,受有一定的限制力量,避免不適當 的位移或晃動,是以,整體運作較為平順,手持件亦 不會有過度彈出或過於機械化情況發生。 此外,滑動元件23與按鍵24之間具有一間隔片26, 可避免手持件21設置之位置完全貼合於殼體22。 綜上所述,因依據本發明之一彈出模組及其應用之電 子裝置,藉由滑動元件滑動於殼體内之第一位置與第二位 置間,以及手持件一端容置於滑動元件之容置槽中且彈性 元件連接滑動元件相對於手持件之另一端,而得以利用彈 性元件提供的彈性力推動滑動元件,使手持件彈出,利於 使用者取用。由於,滑動元件係直接抵觸手持件本體之一 端,不需透過其他額外的結構或元件作為施力與受力的媒 介,故適於與任-種類的手持件搭配。另外,依據本發明 之滑動元件具有滑溝,其係為整體設計中的傳動及連結核 、。使用者利用外力推入手持件的同時,將使按鍵固定於 滑溝上的第二部份,亦間接固定滑動元件,使其免於受彈 性元件推動,完成手持件的收納。而當按下按鍵時,按鍵 則可離開第二部份’而當滑動元件受彈性元件推動滑動至 第-位置時’按鍵係沿著料之第二部份肋至第一部 份,整體作動結果將帶動手持件彈出容置槽,供使用者取 用。其中,按鍵係於滑溝中滑動’運作上當然更能維持平 穩、滑順。 與習知技術相較,本發明不僅透過機件連動的設計, 使手持件易取出’故使用者^需以手推^撥動,即可迅 201230916 速地取出手持件。當應用於電子裝置時,本發明不需在殼 體設計凹陷部或凹槽,使電子裝置之外觀設計得以免受限 制,更具彈性與發揮空間。除此之外,由於本發明僅利用 按键的按壓即可控制手持件彈出,故在實際應用時便於使 用者單手操作,有利於例如接聽電話時或其他需要同時進 行多項工作的環境中使用。是以,本發明為一取出方便、 運作平順,且具有較佳的手持件適用性,同時兼顧產品殼 體之外觀設計的彈出模組及其應用之電子裝置。 以上所述僅為舉例性,而非為限制性者。任何未脫離 本發明之精神與範疇,而對其進行之等效修改或變更,均 應包括於後附之申請專利範圍中。 【圖式簡單說明】 圖1為習知之一具有觸控筆之電子裝置背面示意圖 圖; 圖2A為本發明實施例之一種電子裝置之立體圖; 圖2B為圖2A所示之電子裝置分解後之部份示意圖; 圖2C為圖2B所示之滑動元件、彈性元件與下殼體組 合時的示意圖; 圖2D為本發明圖2A所示實施例之滑動元件於第一位 置時,電子裝置内部部份示意圖; 圖2E為本發明圖2A所示實施例之滑動元件於第二位 置時,電子裝置内部部份示意圖;以及 圖2F為本發明圖2A所示實施例之手持件彈出時,電 15 201230916 子裝置内部部份示意圖。 【主要元件符號說明】 1、2 :電子裝置 II :觸控筆 III :頭部 112 :凸點 12、22 :殼體 121 :插孔 122 :凹陷部 21 :手持件 211 :本體 212 :觸控端 213 :卡合溝 221 :上殼體 222 :下殼體 223 :抵觸部 224 :侧板 225 :安裝槽 226 :支架 23 :滑動元件 231 :滑溝 232 :容置槽 233 :凸出部 234 :彈片 201230916 235 :第一部份 236 :第二部份 24 :按鍵 241 :連結部 25 :彈性元件 26 :間隔片 A :外力 C :凹槽 E :彈出模組 OP :開口2C is a schematic view of the sliding member, the elastic member and the lower casing shown in FIG. 2B. As shown in FIG. 2C, in the present embodiment, the sliding member φ 23 is slid into the casing 22 by the dovetail structure. In detail, the sliding member 23 has a projection 233 corresponding to the male tail of the dovetail structure, and the housing 22 has two side plates 224 erected on the inner surface of the lower casing 222, between the side plates 224 and the lower casing. The inner surface of the body 222 collectively forms a recess C corresponding to the female weir of the dovetail structure. Therefore, the sliding member 23 is slidably engaged with the side plate 224 of the lower casing 222 through the projection 233. In addition, the side plates 224 each have a mounting groove 225 which is pre-designed such that the pitch is comparable to the width of the projection 233. Therefore, in actual assembly, the sliding member 23 can be placed between the mounting grooves 225, so that it can slide back and forth in the groove C 201230916 to achieve the purpose of sliding the sliding member 23 into the casing 22. Of course, the sliding element 23 is designed to be slidable relative to the housing 22 so that it can smoothly disengage the hand piece 21 from the stored state. Accordingly, in addition to the cooperation of the dovetail structure, in other embodiments of the present invention The sliding member 23 and the casing 22 can also achieve the above objects through other concave-convex structures, wedge-shaped structures, and/or balls and sliding grooves, and the present invention is not limited thereto. 2E and 2F are schematic views of the component assembly shown in Fig. 2B. Referring to Fig. 2B, the sliding member 23 has a sliding groove 231 and a receiving groove 232. The accommodating slot 232 is configured to receive the touch end 212 of the hand piece 21, and the touch end 212 is used to contact the touch panel of the electronic device 2. In this embodiment, the sliding member 23 may further have a resilient piece 234 which is made of a metal which is preferably elastic, such as copper, and which is integrally formed with the other portions of the sliding member 23 by a hot melt method. As shown in FIG. 2B, since the body 211 of the hand piece 21 has an engaging groove 213 near the touch end 212, when the hand piece 21 is inserted into the receiving groove 232, the elastic piece 234 will engage with the hand piece 21. The 213 is engaged against the contact to ensure that the hand piece 21 is fixed to the receiving groove 232. Of course, in other embodiments of the present invention, the sliding member 23 can also be fixed in position by providing a structure such as a plurality of bumps so as not to obstruct the removal of the hand piece 21, and the present invention is not limited thereto. It is particularly worth mentioning that, as shown in FIG. 2B at the same time, in the embodiment, the sliding groove 231 of the sliding member 23 has a first portion 235 and a second portion 236, and the extending direction of the first portion 235 It is the same as the sliding direction of the sliding member 23, and is different from the extending direction of the second portion 236. For example, in the case of 201230916, the first portion 235 direction H may extend in the direction of a 30 degree angle of the long axis of the hand piece 21. For the extension direction of 4 ^ 235, the whole structure of the b-channel 231 is not the part of the remaining part that forms a part of the same as the other part, that is, A !· » Ten, 0 angles, and about one-fourth of a knives is the second part of the above-mentioned part, which is the line 盥 A 弟 235 235. Due to the difference in the direction in which the 1 = part 236 extends in the first portion 235 of the sliding groove 231, if it is accommodated or clamped in the sliding groove 231, the sliding groove 23 can be linearly moved relative to the sliding member 23 to enter the s. In the second part, it is said that a certain degree of external force limitation will be reached in the original relative movement direction, and the operation of the button 24 is not fixed. In the above, since the Μ is slidably disposed in the sliding groove 231, it is 卩, and if the button 24 is moved into the second portion 236 ′ by the relative movement, the direction of the first portion 235 cannot be extended (the original/moon moving 7G member 23 slides). The direction continues to move, and is limited to the second portion 236 while at the same time causing the positional fixation of the sliding member 23 to no longer change. Specifically, the configuration of the sliding groove 231 is not particularly limited. In other words, the first portion 235 of the sliding groove 23 and the second portion of the wound 236 have no specific proportional relationship, and the angle formed is also It is not limited to 15 degrees, and the size and overall shape of the external force required to achieve the "fixed" state are considered to facilitate slipping and are suitable for production and operation. Before the relative movement between the button 24, the sliding member 23, and the elastic member 25 will be specifically described, the connection relationship of the three will be described in detail below. In the present embodiment, the button 24 has a coupling portion 241 and is slidable through the coupling portion 241 11 201230916 to the sliding groove 231. The joint portion 241 can be, for example, a projecting cylinder partially accommodated in the sliding groove 231. The term "portion" as used herein refers to a portion of the joint portion 241, and is not limited in size. Of course, the configuration of the connecting portion 241 is not a limitation of the present invention. In other embodiments, the connecting portion 241 may be, for example, tapered, I-shaped or connected to the sliding groove 231 through the dovetail structure. The elastic member 25 is connected to one end of the sliding member 23 with respect to one end of the hand piece 21, and the other end is fixed to one of the abutting portions 223 of the lower casing 222. Since the elastic member 25 has a selected material and structure, deformation occurs under appropriate external force, and the original appearance can be restored after the external force is removed, so that the elastic member 25 can serve as a core for storing and releasing the force of driving the sliding member 23. . Thus, the elastic member 25 is exemplified by a spring. Hereinafter, how the button 24, the sliding member 23, and the elastic member 25 are interlocked by the above configuration will be specifically described to achieve the object of the present invention. It should be particularly emphasized that in the present invention, the receiving and ejecting of the hand piece 21 is carried by the hand piece 21 at the end of the sliding member 23, and the sliding member 23 can be in the first position and the second position in the housing 22. Sliding between positions to achieve. Wherein, when the hand piece 21 is to be received and the sliding element 23 is located at the first position in the housing 22, the relative relationship between the elements is as shown in FIG. 2D, and the hand piece 21 is received and the sliding element 23 is located in the housing 22. The second position is shown in Figure 2Ε. Referring to FIG. 2D, the above embodiment is implemented. When the user wants to store the hand piece 21 and applies an external force (arrow Α) so that one end of the hand piece 21 is placed in the accommodating groove 232, it will be linked. The sliding element 23 begins to slide from the first position to the second position, and under continuous application, the sliding element 12 201230916 23 is pushed to squeeze the elastic element 25, causing the elastic element 25 to be compressed. At the same time, due to the connection relationship between the button 24 and the sliding member 23 on the sliding groove 231, the button 24 is slid by the first portion 235 to the second portion 236 of the sliding groove 231 by relative movement, referring to the second portion. The nature of the 236, when the button 24 is moved into the second portion 236, is restricted from moving in the original direction due to the difference in the direction in which the first portion 235 and the second portion 236 extend, thereby fixing the position of the sliding member 23, It is free from the elastic force stored by the elastic member 25. In short, when the electronic device 2 stores the hand piece 21, based on the interlocking relationship, the external force can move the sliding member 23 from the first position to the second position, and the button 24 slides from the first portion 235 to the first portion. Two. The portion 236 is for fixing the position of the sliding member 23 and compressing the elastic member 25, that is, as shown in Fig. 2E. Next, please refer to FIG. 2F, which is a schematic diagram of the hand piece 21 ejecting the casing 22 after the 24 button is pressed. When the user wants to take out the hand piece 21 and press the button 24, the button 24 is driven by the force in the same direction as the extending direction of the second portion 236 to slide away from the second φ portion 236 of the sliding groove 231, so that the button 24 can be Re-sliding in the direction of the extension of the first portion 235 of the sliding groove 231, and the elastic member 25 can release the originally stored elastic force to push the sliding member 23 to slide from the second position to the first position, and accommodate the housing. The hand piece 21 of the slot 232 can be ejected by the spring force to eject the housing 22, as shown in Figure 2F. That is, when the button 24 releases the sliding member 23, the elastic member 25 pushes the sliding member 23 to slide from the second position to the first position, and the belt member 21 is ejected from the housing 22, so that the user can press the button. 24 to control the purpose of the hand piece 21 popping up. It is also worth mentioning that since the continuous action from pressing to popping is completed in the sliding groove 231, it has a certain limiting force to avoid improper displacement or shaking, so that the overall operation is smooth, hand-held There will be no excessive pop-up or excessive mechanization. In addition, a spacer 26 is provided between the sliding member 23 and the button 24 to prevent the position of the handpiece 21 from being completely fitted to the housing 22. In summary, according to the electronic device of the pop-up module and the application thereof according to the present invention, the sliding member slides between the first position and the second position in the housing, and one end of the hand-held member is accommodated in the sliding member. The accommodating groove and the elastic member are connected with the sliding member relative to the other end of the hand piece, so that the sliding member can be pushed by the elastic force provided by the elastic member to eject the hand piece for user's access. Since the sliding member directly opposes one end of the handpiece body, it does not need to pass through other additional structures or components as a medium for applying force and force, and is therefore suitable for collocation with any type of handpiece. Further, the sliding member according to the present invention has a sliding groove which is a transmission and coupling core in the overall design. When the user pushes the hand piece by external force, the button is fixed to the second portion of the sliding groove, and the sliding member is also indirectly fixed to be pushed by the elastic member to complete the storage of the hand piece. When the button is pressed, the button can leave the second portion' and when the sliding member is pushed by the elastic member to the first position, the button is moved along the second portion of the rib to the first portion, and the whole operation is performed. As a result, the hand piece will be ejected into the receiving slot for the user to access. Among them, the button is slidable in the sliding groove, and the operation is of course more stable and smooth. Compared with the prior art, the invention not only makes the hand piece easy to take out through the design of the linkage of the machine parts, so the user needs to push the hand by the hand, and the hand piece can be quickly taken out at the time of 201230916. When applied to an electronic device, the present invention does not require designing a recess or a recess in the housing, so that the design of the electronic device can be free from restrictions, flexibility, and space. In addition, since the present invention can control the hand-held ejection by only pressing the button, it is convenient for the user to operate with one hand in practical application, and is advantageous for use in an environment such as answering a call or other environments requiring multiple tasks at the same time. Therefore, the present invention is an ejecting module which is convenient to take out, has a smooth operation, and has better applicability of the handpiece, and at the same time takes into consideration the design of the product casing and an electronic device thereof. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of the invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic rear view of an electronic device having a stylus; FIG. 2A is a perspective view of an electronic device according to an embodiment of the present invention; FIG. 2B is an exploded view of the electronic device shown in FIG. 2C is a schematic view of the sliding element, the elastic element and the lower casing shown in FIG. 2B; FIG. 2D is the internal part of the electronic device when the sliding element of the embodiment shown in FIG. 2A is in the first position; 2E is a schematic view of the internal portion of the electronic device when the sliding member of the embodiment shown in FIG. 2A is in the second position; and FIG. 2F is the first embodiment of the present invention shown in FIG. 2A. 201230916 Schematic diagram of the internal part of the sub-device. [Main component symbol description] 1, 2: electronic device II: stylus III: head 112: bump 12, 22: housing 121: jack 122: recess 21: hand piece 211: body 212: touch End 213 : Engagement groove 221 : Upper case 222 : Lower case 223 : Abutment portion 224 : Side plate 225 : Mounting groove 226 : Bracket 23 : Sliding member 231 : Sliding groove 232 : accommodating groove 233 : Projection portion 234 : Shrapnel 201230916 235 : First part 236 : Second part 24 : Button 241 : Connection part 25 : Elastic element 26 : Space piece A : External force C : Groove E : Ejection module OP : Opening