201128362 1 w j /uir/\ 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種手持式電子裝置,且特別是有關 於一種具有可動的顯示器或觸控板的手持式電子裝置。 【先前技術】 目前市面上的智慧型手持式電子裝置可藉由外觀與 功能來區分成兩大類。其中一類的智慧型手持式電子裝置 φ 係以多媒體功能上的需求作為設計的主軸。因此,此類的 智慧型手持式電子裝置的顯示器係佔了高比例的空間。另 一類的手持式電子裝置係以上網或收發電子郵件作為設 計的主軸。因此,此類的智慧型手持式電子裝置通常係配 置有標準鍵盤,以便於使用者輸入資料。 一般來說,為了結合上述兩類智慧型手持式電子裝置 的優點,市面上係出現了兼具兩者特點的機種,也就是採 用上層係具有觸控面板,且下層係為標準鍵盤的雙層結 »構。如此一來,在避免手持式電子裝置的體積過大的前提 下,觸控面板與標準鍵盤的尺寸係可兼顧。然而,由於標 準鍵盤係配置於下層而需搭配收納式的控制器,使得智慧 型手持式電子裝置的厚度往往過大。另外,雙層結構的智 慧型手持式電子裝置需配置有觸控面板的控制器與標準 鍵盤的控制器,以分別控制觸控面板及標準鍵盤。如此一 來,觸控面板的控制器與標準鍵盤的控制器間可能會因使 用者的誤觸動而產生相互干擾的情況。再者,當智慧型手 持式電子裝置係配置有觸控面板的控制器與標準鍵盤的 201128362 _ _ _____ * -i 控制器時,針對落摔及重壓的預防的設計難度係大幅地提 高,而對應地提高了製造的成本。 另外,雖然尚有部份之智慧型手持式電子裝置係採用 去除標準鍵盤的配置方式。也就是說,觸控面板係顯示出 虛擬鍵盤,以供使用者直接以觸控的方式進行操作及輸入 資料。然而,觸控面板的顯示面的尺寸係固定的。因此, 當顯示面同時顯示虛擬鍵盤與使用者輸入的資料時,虛擬 鍵盤與輸入的資料的大小係受限。此外,由於使用者需直 接碰觸到觸控面板來進行操作,因此,觸控面板上容易沾 滿指紋及油潰而導致顯示的畫面不清楚,使得使用者往往 需頻繁地擦拭而造成不便。 【發明内容】 本發明主要係提供一種手持式電子裝置,其可在維持 操作與觀看的使用品質下,避免整體之體積過大及因使用 者的誤觸動而造成控制器相互干擾的情況。如此一來,使 用者操作上的便利性係可提高,且本發明之手持式電子裝 置的製造成本與設計的複雜度係可降低,使得產品的競爭 力可有效地提升。 根據本發明,提出一種手持式電子裝置,包括一機 體、一觸控板、一顯示器及一控制器。顯示器與觸控板之 一者係固定於機體上。顯示器與觸控板之另一者可動地耦 接於機體,以位於機體的上方或機體外。控制器設置於機 體中,且電性連接於觸控板以及顯示器。 為讓本發明之上述内容能更明顯易懂,下文特舉較佳 201128362 1 w j /uir/\ 實施例,並配合所附圖式,作詳細說明如下: 【實施方式】 本發明係提出-種手持式電子裝置,包括—機體、一 觸控板、-顯示器及-控制器。顯示器與觸控板之一者係 固定於機體上。顯示器與觸控板之另一者可動地搞接於機 體,以位於機體的上方或機體外。控制器設置於機體中, 且電性連接於觸控板以及顯示器。以下係舉出幾組實施 #例’配合圖式詳細說明本發明之手持式電子裝置。缺而, 熟悉此技藝者當可明瞭,此些圖式與文字僅為說明之用, 並不會對本發明之欲保護範圍造成限縮。 第一實施例 本實施例係以觸控板固定於機體上,且顯示器可動地 耦接於機體為例子說明。請參照第丨、2A、2B及第3圖, 第1圖繪示根據本發明第-實施例之手持式電子裝置的爆 籲炸圖’第2A圖緣示第!圖中的顯示器於手持式電子裝置 組設時位於機體之上方的示意圖,第⑼圖綠示第丄圖中 的顯示器於手持式電子裝置組設時位於機體外之示意 圖,且第3圖緣示第i圖中之手持式電子裝置的方塊圖。 手持式電子裝置100例如是智慧型行動裝置,包括機 體11〇、觸控板130、顯示器150及控制器170。觸控板 二固疋於機體11() i。顯示器15◦可動地輕接於機體 如此來,顯示器150可位於如第2A圖所示的機體 no的上方。更詳細地說’如第2A圖所示,顯示器⑽與 201128362 觸控板130係依序地疊設在於機體11〇上。或者顯示器 150可位於如第2B圖所示的機體11〇外。於本實施例中°, 顯示器150例如是藉由滑動件151來可滑動地麵接於機體 no。如此-來’顯示器15〇可藉由滑動件151來相對於 機體110滑動,以位於機體110的上方或機體11〇外。 控制器170設置於機體11〇中,且電性連接於觸控板 130與顯示器150。於本實施例中,控制器⑺係根據顯 示器150相對於觸控板13〇的位置來決定操作方式,以下 將進一步說明。 如第2A圖所示,顯示器15〇例如是顯示出數個鍵盤 符號。當顯示器150位於機體110之上方,也就是觸控板 130的下方時,使用者可透過透明的觸控板13〇觀看到顯 不器150顯示出的鍵盤符號。控制器17〇係根據觸控板13〇 被觸碰位置A1與被觸碰位置A1對應之顯示器15〇顯示的 鍵盤符號產生執行訊號S11。也就是說,觸控板13〇係根 據被觸碰位置A1產生並傳送觸碰訊號Si2至控制器170, 使得控制器170根據觸碰訊號si2來確認被觸碰位置。 此處被觸碰位置A1例如是對應到顯示器15〇顯示的鍵盤 符號「F」,因此,控制器17〇係產生對應的執行訊號su 來使得顯示器150顯示出「f」。 如第1圖及第2B圖所示,機體no具有圖形面u〇s。 圖形面110s例如是以雕刻的方式形成。圖形面11〇s係面 向觸控板130,且包括數個鍵盤符號。當顯示器15〇位於 機體110外時’使用者可透過透明的觸控板130觀看到位 於觸控板130下方的圖形面110s的鍵盤符號。控制器170 201128362 i w j /i/i r/\ 係根據觸控板130的被觸碰位置A2與被觸碰位置A2所對 應之鍵盤符號來產生執行訊號S13。此處被觸碰位置A2例 如是對應到圖形面ll〇s中的鍵盤符號「F」,因此,控制 器170係產生對應的執行訊號S13來使顯示器150顯示出 「F」。 另外,觸控板130可例如是電容式觸控板。如此一 來,控制器Π0可更根據觸控板130被觸碰的單一個或數 個位置來傳送顯示訊號S2到顯示器150,使得顯示器150 _ 根據接收的顯示訊號S2來顯示對應的影像《也就是說, 觸控板130係可例如作為手寫板,以供使用者在觸控板13〇 上以書寫的方式進行資料的輸入。或者,觸控板可例 如作為繪圖板,以供使用者在觸控板130上進行繪圖。又 或者,使用者可在觸控板130上以滑動的方式來產生翻頁 的效果,或者是以雙指相對移動的方式來放大或縮小顯示 器150所顯示之晝面。 一般之雙層結構的手持式電子裝置係具有兩個控制 器,以讓使用者可操作標準鍵盤及觸控面板。相較之下, 本實施例之手持式電子裝置1〇〇可藉由一個控制器17〇來 達成以往兩個控㈣來控㈣準鍵盤及觸控面板 方可進行的操作。因此,手持式電子展置咖係為單層的 結構而具有較小的體積,且手持式電子裝置100具有一個 控制器170而可避免以往的手持式電子震置因且料健 制器而產生誤操作及相互干擾的情況。另外, 以往 需對兩個控制器提供保護設計的手持式電子裴置來手 持式電子裝置100僅需對控制器17〇進行抗落摔㈣重塵 201128362 Λ ΤΤ 纛 j ί 的設計,而減少了製造成本及設計的複雜度。再者,本實 施之顯示器150係可相對於觸控板130移動至機體11〇外 (如第2Β圖所示)。因此,與以往需在同一晝面中顯示出 虛擬鍵盤及輸入之資料的電子裝置相較,本實施例之手持 式電子裝置100係透過機體110之圖形面ll〇s的配置來 具有鍵盤符號,使得顯示器150係可完全用以顯示出使用 者所輸入的資料。此外’即使本實施例之觸控板13〇因使 用者之操作而留有指紋或油潰,在第2B圖的情況下,顯 示器150所顯示的畫面係不受到觸控板13〇上之指紋及油 潰的影響。 ' 雖然本實施例係以顯示器150可滑動地耦接於機體 110作為例子說明,然而,此技術領域中具有通常知識者 ,明瞭’顯示器150亦可為可轉動地耦接於機體u〇,以 藉由轉動的方式來位於機體110的上方或機體110外。 第二實施例 與第〜實施例相較,本實施例同樣係以觸控板固定於 機體上’且顯示器可動地柄接於機體為例子說明。然而, 本^施例之手持式電子裝置係藉由光學的方式來讓使用 在’4示器位於機體外時可觀看到鍵盤符號。以下將詳 細地說明。 π參照第4A圖及第4B圖,第4A圖繪示根據本發明 一實施例之手持式電子裝置的示意圖,且第4Β圖繪示 4Α圖中 <手持式電子裝置的方塊圖。 手持式電子裝置2〇〇包括數個發光件28〇及光激發層 201128362 2 9 0。發光件2 8 0後西?. φ α协.触11 λBACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to a hand-held electronic device, and more particularly to a handheld electronic device having a movable display or touch pad. [Prior Art] Intelligent handheld electronic devices currently available on the market can be distinguished into two categories by appearance and function. One of the smart handheld electronic devices φ is the main axis of the design with the requirements of multimedia functions. Therefore, the display of such smart handheld electronic devices accounts for a high proportion of space. Another type of handheld electronic device is the main axis of the design by surfing the Internet or sending and receiving e-mail. Therefore, such smart handheld electronic devices are usually equipped with a standard keyboard to facilitate user input of data. In general, in order to combine the advantages of the above two types of smart handheld electronic devices, there are two types of models on the market, that is, the upper layer has a touch panel, and the lower layer is a double layer of a standard keyboard. structure. In this way, the size of the touch panel and the standard keyboard can be taken into consideration while avoiding the oversize of the handheld electronic device. However, since the standard keyboard system is disposed on the lower layer and needs to be equipped with a storage type controller, the thickness of the smart handheld electronic device is often too large. In addition, the two-layer intelligent handheld electronic device needs to be equipped with a controller of a touch panel and a controller of a standard keyboard to separately control the touch panel and the standard keyboard. As a result, the controller of the touch panel and the controller of the standard keyboard may interfere with each other due to the user's erroneous touch. Furthermore, when the smart handheld electronic device is equipped with the controller of the touch panel and the 201128362 _ _ _____ * -i controller of the standard keyboard, the design difficulty for the prevention of falling and heavy pressure is greatly improved. Correspondingly, the cost of manufacturing is increased. In addition, although some smart handheld electronic devices are used to remove the standard keyboard configuration. In other words, the touch panel displays a virtual keyboard for the user to directly operate and input data in a touch manner. However, the size of the display surface of the touch panel is fixed. Therefore, when the display surface simultaneously displays the virtual keyboard and the data input by the user, the size of the virtual keyboard and the input data is limited. In addition, since the user needs to directly touch the touch panel to operate, the touch panel is easily covered with fingerprints and oily, which causes the displayed image to be unclear, so that the user often needs to wipe frequently and cause inconvenience. SUMMARY OF THE INVENTION The present invention generally provides a hand-held electronic device that avoids excessive volume of the whole and interference of controllers due to user's erroneous touch while maintaining the quality of operation and viewing. As a result, the user's operational convenience can be improved, and the manufacturing cost and design complexity of the handheld electronic device of the present invention can be reduced, so that the competitiveness of the product can be effectively improved. According to the present invention, a handheld electronic device is provided, comprising a body, a touchpad, a display and a controller. One of the display and the touchpad is fixed to the body. The other of the display and the touchpad is movably coupled to the body to be located above or outside the body. The controller is disposed in the body and electrically connected to the touch panel and the display. In order to make the above-mentioned contents of the present invention more comprehensible, the following is a preferred embodiment of 201128362 1 wj /uir/\, and is described in detail with reference to the accompanying drawings: [Embodiment] The present invention proposes Handheld electronic devices, including a body, a touchpad, a display, and a controller. One of the display and the touchpad is attached to the body. The other of the display and the touchpad is movably coupled to the body to be located above or outside the body. The controller is disposed in the body and electrically connected to the touch panel and the display. The following is a series of implementations of the hand-held electronic device of the present invention. It is to be understood that those skilled in the art will understand that the drawings and text are for illustrative purposes only and do not limit the scope of the invention. The first embodiment is a case in which a touch panel is fixed to a body, and the display is movably coupled to the body as an example. Please refer to FIGS. 2A, 2B and 3, and FIG. 1 is a diagram showing the explosion of the hand-held electronic device according to the first embodiment of the present invention. The display in the figure is a schematic diagram of the display above the body when the handheld electronic device is assembled, and the display in the green image of the (9) figure is located outside the machine body when the handheld electronic device is assembled, and the third figure shows A block diagram of the handheld electronic device in Figure i. The handheld electronic device 100 is, for example, a smart mobile device, including a body 11, a touch panel 130, a display 150, and a controller 170. The touchpad is fixed to the body 11() i. The display 15 is movably lightly attached to the body. Thus, the display 150 can be located above the body no as shown in FIG. 2A. More specifically, as shown in Fig. 2A, the display (10) and the 201128362 touch panel 130 are sequentially stacked on the body 11''. Alternatively, the display 150 can be located outside the body 11 as shown in Fig. 2B. In the embodiment, the display 150 is slidably connected to the body no by the slider 151, for example. Thus, the display 15 can be slid relative to the body 110 by the slider 151 to be positioned above the body 110 or outside the body 11. The controller 170 is disposed in the body 11A and electrically connected to the touch panel 130 and the display 150. In the present embodiment, the controller (7) determines the mode of operation according to the position of the display 150 relative to the touch panel 13A, which will be further described below. As shown in Fig. 2A, the display 15 〇 displays, for example, a plurality of keyboard symbols. When the display 150 is located above the body 110, that is, below the touchpad 130, the user can view the keyboard symbols displayed by the display 150 through the transparent touchpad 13. The controller 17 generates an execution signal S11 based on the keyboard symbol displayed by the touch panel 13A touched position A1 and the display 15A corresponding to the touched position A1. That is, the touch panel 13 generates and transmits the touch signal Si2 to the controller 170 according to the touched position A1, so that the controller 170 confirms the touched position based on the touch signal si2. Here, the touched position A1 is, for example, a keyboard symbol "F" corresponding to the display 15', so that the controller 17 generates a corresponding execution signal su to cause the display 150 to display "f". As shown in Fig. 1 and Fig. 2B, the body no has a graphic surface u 〇 s. The graphic surface 110s is formed, for example, in an engraving manner. The graphic surface 11 〇 is oriented toward the touch panel 130 and includes a plurality of keyboard symbols. When the display 15 is located outside the body 110, the user can view the keyboard symbol of the graphic surface 110s located below the touch panel 130 through the transparent touch panel 130. The controller 170 201128362 i w j /i/i r/\ generates the execution signal S13 according to the keyboard symbol corresponding to the touched position A2 of the touch panel 130 and the touched position A2. Here, the touched position A2 corresponds to the keyboard symbol "F" in the graphic surface lls, and therefore, the controller 170 generates a corresponding execution signal S13 to cause the display 150 to display "F". In addition, the touch panel 130 can be, for example, a capacitive touch panel. In this way, the controller Π0 can further transmit the display signal S2 to the display 150 according to the single or several positions touched by the touch panel 130, so that the display 150_ displays the corresponding image according to the received display signal S2. That is to say, the touch panel 130 can be used, for example, as a tablet for the user to input data in a writing manner on the touch panel 13A. Alternatively, the touchpad can be used, for example, as a graphics tablet for the user to draw on the touchpad 130. Alternatively, the user can slide the touch panel 130 to produce the effect of turning the page, or the relative movement of the two fingers to enlarge or reduce the face displayed by the display 150. A typical two-layer handheld electronic device has two controls for the user to operate a standard keyboard and touch panel. In contrast, the handheld electronic device 1 of the present embodiment can realize the operations of the previous two controls (four) to control the (four) quasi-keyboard and the touch panel by using one controller 17〇. Therefore, the handheld electronic display is a single-layer structure and has a small volume, and the handheld electronic device 100 has a controller 170 to avoid the occurrence of the conventional handheld electronic shock and the health controller. Misuse and mutual interference. In addition, in the past, the hand-held electronic device that needs to provide protection design for the two controllers has to reduce the design of the controller 17 抗 ( 四 四 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 Manufacturing costs and design complexity. Furthermore, the display 150 of the present embodiment can be moved to the outside of the body 11 with respect to the touch panel 130 (as shown in Fig. 2). Therefore, the handheld electronic device 100 of the present embodiment has a keyboard symbol through the configuration of the graphic surface of the body 110, as compared with an electronic device that previously displays the virtual keyboard and the input data in the same plane. The display 150 is fully operative to display the data entered by the user. In addition, even if the touch panel 13 of the present embodiment leaves fingerprints or oily due to the operation of the user, in the case of FIG. 2B, the screen displayed by the display 150 is not subjected to the fingerprint on the touch panel 13 And the impact of oil collapse. Although the present embodiment is slidably coupled to the body 110 as an example, the person skilled in the art will understand that the display 150 can also be rotatably coupled to the body. It is located above the body 110 or outside the body 110 by means of rotation. Second Embodiment Compared with the first embodiment, the present embodiment is also described by way of example in which the touch panel is fixed to the body and the display is movably attached to the body. However, the handheld electronic device of the present embodiment optically allows the keyboard symbol to be viewed when the '4' is placed outside the body. The details will be explained below. π refers to FIG. 4A and FIG. 4B. FIG. 4A is a schematic diagram of a handheld electronic device according to an embodiment of the present invention, and FIG. 4 is a block diagram of the handheld electronic device in FIG. The handheld electronic device 2 includes a plurality of light-emitting members 28 and a light-exciting layer 201128362 2 9 0. Light-emitting part 2 8 0 after west?. φ α-co. Touch 11 λ
130之側邊。光激發層29〇配 於本實施例中’光激發層290 板130之表面上的鍵盤符號, 280係產生光線L1。為螢光材料的光激發層29〇係在接收 到來自發光件280的光線L1時’激發電子到高能階狀態。 當電子由高能階狀態回到原有的低能階狀態時,能量即以 光的形式釋放出來’也就是產生光線L2。如此一來,使用 • 者係可觀看到鍵盤符號。 控制器270設置於機體110中,且電性連接於觸控板 130、顯示器150與發光件280。當發光件280例如是藉由 使用者的操控或自動致能的方式致能而發光時,使用者可 觀看到光激發層290所顯示出的鍵盤符號。控制器270係 於顯示器150位於機體110外時,根據觸控板130之被觸 碰位置A3及被觸碰位置A3對應之鍵盤符號產生執行訊號 S3。此處被觸碰位置A3例如是對應到光激發層290之鍵 ® 盤符號「F」,因此,控制器270係產生對應的執行訊號S3 來使顯示器150顯示出「F」。如此一來,本實施例之手持 式電子裝置200係可具有類似於第一實施例之手持式電子 裝置100之優點。 第三實施例 與第一實施例相較,本實施例係以顯示器固定於機體 上,且觸控板可動地耦接於機體為例子說明。請參照第 5A〜5C圖,第5A圖繪示根據本發明第三實施例之觸控板位 , 7 201128362 於機體之上方的示意圖,第5B圖繪示第5A圖中之觸控板 位於機體外的示意圖,且第5C圖繪示第5A圖中之手持式 電子裝置的方塊圖。 手持式電子裝置3〇〇包括機體31〇、觸控板33〇、顯 不器350及控制器370。顯示器350固定於機體310上。 觸控板330可動地耦接於機體31卜如此一來,觸控板330 可位於如第5A圖所示的機體31〇的上方。更詳細地說, 如第5A圖所示’顯示器35〇與觸控板33〇係依序地疊設 在於機體310上。或者’觸控板330可位於如第5B圖所 示的機體310外。 控制器370設置於機體310中,且電性連接於觸控板 330與顯示器350。於本實施例中,控制器370係根據顯 示器350與觸控板330的相對位置來決定操作方式,以下 將進一步說明。 如第5A圖所示,當觸控板330位於機體310上時, 手持式電子裝置300的觸控板330、顯示器350與機體310 之相對位置係類似於第2A圖中之手持式電子裝置100之 觸控板130、顯示器150與機體110之相對位置。因此, 在第5A圖中之配置關係下,控制器370的操作方式係可 類似於第一實施例之控制器170的操作方式。 手持式電子裝置300更包括發光件380及第一導光組 390。例如是發光二極體之發光件380係配置於觸控板330 處’用以產生光線。例如是光導纖維之第一導光組390配 置於為剛化破螭材質的透明觸控板330中。第一導光組390 用以導引光線,以顯示出鍵盤符號於觸控板330。如此一 201128362 1 vv j / ui r/\ 來’使用者係可觀看到鏠盤符號。 當發光件380例如是藉由使用者的操控或自動致能 的方式致能而發光時,使用者可觀看到第一導光組39〇在 觸控板330所顯示出的鍵盤符號。控制器37〇係於觸控板 330位於機體310外時’根據觸控板33〇之被觸碰位置A4 及被觸碰位置A4對應之鍵盤符號產生執行訊號。此處被 觸碰位置A4例如是對應到第一導光組39〇在觸控板33〇 之表面上所形成的鍵盤符號「F」。因此,控制器370係產 鲁生對應的執行sfl丨虎來使顯不器3 5 0顯示出「F」。如此一來, 本實施例之手持式電子骏置3〇〇係可具有類似於第一實施 例之手持式電子裝置100的優點。 第四實施例 相較於第三實施例’本實施例之手持式電子裝置包括 兩個導光組’以顯示出不同配置方式之鍵盤符號。請參照 第6A圖及第6B圖,第6A圖繪示藉由第一導光組顯示出 • 之一種鍵盤符號的示意圖’且第6B圖繪示藉由第二導光 組顯示出之另一種鍵盤符號的示意圖。 手持式電子裝置400包括發光件480、第一導光組491 及第二導光組492。發光件480係配置於觸控板430處, 用以產生光線。第一導光組491及第二導光組492配置於 觸控板430中。第一導光組491及第二導光組492用以導 引光線,以顯示出不同之鍵盤符號於觸控板430。舉例來 說,如第6A圖所示,第一導光組491例如是導引發光件 480所發出之光線’以在觸控板43〇顯示出QWERT形式之 201128362The side of 130. The photoexcited layer 29 is provided with a keyboard symbol on the surface of the photoexcited layer 290 plate 130 in this embodiment, and 280 is a light ray L1. The photoexcited layer 29 of the phosphor material is tethered to the high-energy state when the light L1 from the light-emitting member 280 is received. When the electron returns from the high-energy state to the original low-energy state, the energy is released in the form of light, that is, the light L2 is generated. In this way, the keyboard symbol can be viewed using the • system. The controller 270 is disposed in the body 110 and electrically connected to the touch panel 130, the display 150, and the illuminating member 280. When the illuminating member 280 is illuminated by, for example, a user's manipulation or automatic enabling, the user can view the keyboard symbol displayed by the photoexcited layer 290. The controller 270 generates an execution signal S3 according to the touched position A3 of the touch panel 130 and the keyboard symbol corresponding to the touched position A3 when the display 150 is located outside the body 110. Here, the touched position A3 is, for example, the key symbol "F" corresponding to the light-exciting layer 290. Therefore, the controller 270 generates a corresponding execution signal S3 to cause the display 150 to display "F". As such, the handheld electronic device 200 of the present embodiment can have advantages similar to the handheld electronic device 100 of the first embodiment. The third embodiment is similar to the first embodiment in that the display is fixed to the body, and the touch panel is movably coupled to the body as an example. Please refer to FIG. 5A to FIG. 5C , FIG. 5A is a schematic diagram of a touch panel position according to a third embodiment of the present invention, 7 201128362 is located above the body, and FIG. 5B is a diagram showing the touch panel of FIG. 5A located at the body. The external schematic diagram, and FIG. 5C is a block diagram of the handheld electronic device of FIG. 5A. The handheld electronic device 3 includes a body 31, a touch panel 33, a display 350, and a controller 370. The display 350 is fixed to the body 310. The touch panel 330 is movably coupled to the body 31. The touch panel 330 can be located above the body 31〇 as shown in FIG. 5A. More specifically, the display 35A and the touch panel 33 are sequentially stacked on the body 310 as shown in Fig. 5A. Alternatively, the touchpad 330 can be located outside of the body 310 as shown in Fig. 5B. The controller 370 is disposed in the body 310 and electrically connected to the touch panel 330 and the display 350. In this embodiment, the controller 370 determines the mode of operation according to the relative position of the display 350 and the touchpad 330, which will be further described below. As shown in FIG. 5A, when the touch panel 330 is located on the body 310, the touch panel 330 of the handheld electronic device 300, the relative position of the display 350 and the body 310 are similar to the handheld electronic device 100 of FIG. 2A. The touch panel 130 and the relative position of the display 150 and the body 110. Therefore, in the configuration relationship in Fig. 5A, the operation mode of the controller 370 can be similar to that of the controller 170 of the first embodiment. The handheld electronic device 300 further includes a light emitting member 380 and a first light guiding group 390. For example, the light-emitting diode 380 of the light-emitting diode is disposed at the touch panel 330 to generate light. For example, the first light guiding group 390 of the optical fiber is disposed in the transparent touch panel 330 which is a rigid-breaking material. The first light guiding group 390 is used to guide light to display the keyboard symbol on the touch panel 330. Such a 201128362 1 vv j / ui r/\ come to the user to view the disc symbol. When the illuminating member 380 is illuminated by, for example, a user's manipulation or automatic enabling, the user can view the keyboard symbol displayed by the first light guiding group 39 on the touch panel 330. The controller 37 is configured to generate an execution signal according to the touched position A4 of the touch panel 33 and the keyboard symbol corresponding to the touched position A4 when the touch panel 330 is located outside the body 310. Here, the touched position A4 is, for example, a keyboard symbol "F" formed on the surface of the touch panel 33A corresponding to the first light guide group 39. Therefore, the controller 370 generates a "F" for the display device 355 to generate the "F". As such, the handheld electronic device of the present embodiment can have advantages similar to the handheld electronic device 100 of the first embodiment. Fourth Embodiment A handheld electronic device of the present embodiment includes two light guiding groups ' to display keyboard symbols of different configurations as compared with the third embodiment. Please refer to FIG. 6A and FIG. 6B , FIG. 6A is a schematic diagram showing a keyboard symbol displayed by the first light guiding group, and FIG. 6B is a diagram showing another type displayed by the second light guiding group. Schematic diagram of the keyboard symbol. The handheld electronic device 400 includes a light emitting member 480, a first light guiding group 491 and a second light guiding group 492. The illuminating member 480 is disposed at the touch panel 430 for generating light. The first light guiding group 491 and the second light guiding group 492 are disposed in the touch panel 430. The first light guiding group 491 and the second light guiding group 492 are used to guide light to display different keyboard symbols on the touch panel 430. For example, as shown in FIG. 6A, the first light guiding group 491 is, for example, guiding the light emitted by the light emitting member 480 to display the QWERT form on the touch panel 43.
英文字母的鍵盤符號。此外,如第6B圖所示,第二導光 組492例如導引發光件480所發出之光線,以在觸控板43〇 顯示出數字之鍵盤符號。 I 如此一來,手持式電子裝置400除了可具有類似於第 一實施例之手持式電子裝置100的優點之外,更可藉由第 一導光組491及第二導光組492來具有不同之鍵盤^的 配置,以提供操作上的彈性。另外,相較於第一至第三 施例之橫向操作及觀看的手持式電子裝置,本實施例之 持式電子裝置400係為直向操作及觀看的裝置。當然,吁 述之第-至第三實施例之手持式電子 操作及觀看。 汉以k向 本發明上述實施例所揭露之手持式 =板之-者係固定於機體’且顯示器與觸置 式可接於機體,使得手持式電子I置的操作方 籍由4不器與觸控板的位置關係來決定。如此一來, 子,持操作與觀看的使用品質下,上述實關之手持式電 置的成本支出及設計複雜度係可減少,使得產品 ♦力可有效地提升。 〈競 复纟上所述,雖然本發明已以較佳實施例揭露如上,然 八、非用以限定本發明。本發明所屬技術領域中具有通常 知識者,在不脫離本發明之精神和範圍内,當可作各種之 ㈣與潤飾。因此’本發明之保護 後 利範圍所界定者為準。 月專 12 201128362English alphabet keyboard symbol. In addition, as shown in FIG. 6B, the second light guiding group 492 guides, for example, the light emitted by the light emitting member 480 to display a numeric keyboard symbol on the touch panel 43A. In this case, the handheld electronic device 400 can have different advantages from the handheld electronic device 100 of the first embodiment, and can be different by the first light guiding group 491 and the second light guiding group 492. The keyboard ^ is configured to provide operational flexibility. In addition, the handheld electronic device 400 of the present embodiment is a device for direct operation and viewing as compared with the lateral operation and viewing of the handheld electronic device of the first to third embodiments. Of course, the hand-held electronic operation and viewing of the first to third embodiments are appealed. The hand-held=board of the above-mentioned embodiments of the present invention is fixed to the body', and the display and the touch-type can be connected to the body, so that the operation state of the handheld electronic I is controlled by 4 The positional relationship of the control board is determined. In this way, under the quality of operation and viewing, the cost and design complexity of the above-mentioned hand-held power system can be reduced, so that the product can effectively improve. The present invention has been described above in terms of preferred embodiments, and is not intended to limit the invention. It will be apparent to those skilled in the art that the invention can be practiced in various ways without departing from the spirit and scope of the invention. Therefore, the definition of the scope of the protection of the present invention shall prevail. Monthly special 12 201128362
1 WJ/UITA 【圖式簡單說明】 貫施例之手持式電子裝 第1圖繪示根據本發明第一 置的爆炸圖。 第2A圖繪示第1圖中的顯示器於手持式電子裝置组 設時位於機體之上方的示意圖。 第2B圖繪示第1圖中的顯示器於手持式電子裝置組 設時位於機體外之示意圖。 第3圖繪示第1圖中之手持式電子裝置的方塊圖。 • 第4A圖繪示根據本發明第二實施例之手持式電子裝 置的示意圖。 第4B圖繪示第4A圖中之手持式電子裝置的方塊圖。 第5A圖繪示根據本發明第三實施例之觸控板位於機 體之上方的示意圖。 第5B圖繪示第5A圖中之觸控板位於機體外的示意 圖。 第5C圖繪示第5A圖中之手持式電子裝置的方塊圖。 第6A圖繪示藉由第一導光組顯示出之一種鍵盤符號 的示意圖。 第6B圖繪示藉由第一導光組顯示出之另一種鍵盤符 號的示意圖。 【主要元件符號說明】 100、200、300、400 :手持式電子裝置 110、310 :機體 110s :圖形面 13 201128362 l TT / V 1 * 130、330、430 :觸控板 150、350 :顯示器 151 :滑動件 170、270、370 :控制器 280 :發光件 290 :光激發層 380、480 :發光件 390、491 :第一導光組 492 :第二導光組1 WJ/UITA [Simplified Schematic Description] Handheld electronic device of the present embodiment Fig. 1 is a view showing an exploded view according to the first aspect of the present invention. Fig. 2A is a schematic view showing the display of Fig. 1 positioned above the body when the handheld electronic device is assembled. FIG. 2B is a schematic view showing the display of FIG. 1 located outside the machine body when the handheld electronic device is assembled. FIG. 3 is a block diagram of the handheld electronic device of FIG. 1. Figure 4A is a schematic illustration of a handheld electronic device in accordance with a second embodiment of the present invention. FIG. 4B is a block diagram of the handheld electronic device of FIG. 4A. FIG. 5A is a schematic view showing the touch panel disposed above the body according to the third embodiment of the present invention. Fig. 5B is a schematic view showing the touch panel of Fig. 5A located outside the machine body. FIG. 5C is a block diagram of the handheld electronic device in FIG. 5A. Figure 6A is a schematic diagram showing a keyboard symbol displayed by the first light guiding group. Figure 6B is a schematic diagram showing another keyboard symbol displayed by the first light guiding group. [Description of main component symbols] 100, 200, 300, 400: Handheld electronic device 110, 310: Body 110s: Graphic surface 13 201128362 l TT / V 1 * 130, 330, 430: Touch panel 150, 350: Display 151 Sliding member 170, 270, 370: controller 280: illuminating member 290: photoexcited layer 380, 480: illuminating member 390, 491: first light guiding group 492: second light guiding group
Al、A2、A3 :被觸碰位置 LI、L2 :光線Al, A2, A3: Touched position LI, L2: Light
Sll、S13、S3 :執行訊號 S12 :觸碰訊號 S2 :顯示訊號S11, S13, S3: Execution signal S12: Touch signal S2: Display signal