M415364 五、新型說明: 【新型所屬之技術領域】 本創作有關於觸控面板控制裝置,尤其指具有加速效果之 方向功能鍵的觸控面板。 【先前技術】 觸控面板的技術已被運用於許多的工業、或消費性產品, 相關的前案技術可參考美國專利公開案2〇〇8/1〇22824Ai。 由美國專利公開案2008/1022824A1的圖3、4、5、15A、 15B、15C可知,該案提供一可傾斜的觸控控制面板,以便可 以由所偵測的觸控位置與壓力值,來判斷使用者的觸控功能。 該觸控控制面板包含位置偵測元件6〇 (如電容、阻抗式、光 學、聲學、壓電式)位於操控平面62下方。剛性載板58由彈 性兀件64所支持。壓力偵測元件54是被附屬件61所壓縮, 其係作為一施力的集中器。由該案的圖式可知,壓力偵測元件 5 4疋女排於觸控控制面板的中心位置。 壓力偵測元件54是位於位置偵測元件6〇下方,壓力偵測 元件54可以是可變形的碗型開關,或例如力偵測電阻(FSR)、 光學式阻斷器、壓電晶體或電容開關。根據使用者施力點於 LCD上所顯示選單項目上的位置,以及所測得的壓力值可以 將使用者的觸控動作解譯,例如解譯為、輸入(enter)'或'致能 (make it happen),而不需要使用者移動施力點到另外的位置, 此即為該案創作的目的之一。該案也揭露了多個先前技術,如 圖la、lb,圖2a、2b所揭示。 為了觸控面板控制裝置的進一步應用,本創作提出一種觸 控面板控制裝置、以及應用此觸控面板控制裝置的遊戲裝置的 技術。 【新型内容】 M415364 本創作的目的之一,是提供一種觸控面板控制裝置,當觸 控面板控制裝置某-位置受力較小時’受控制的游標得以較小 的速度移動’反之當受力較大時,受控制的游標得以較大的速 一種觸控面板控制裝置當應用於遊戲裝置時,當觸控面板 控制裝置某-位置受力較小時,遊戲的角色對應地低速移動, 反之當受力較大時,遊戲的角色對應地加速移動。 根據一實施例,觸控面板控制裝置包含:一位置感測元 件’其略成薄片狀’該位置感測元件的下方具有一底面;及一 可變形之支撐柱,其連接該底面的—約中央位置;複數個壓力 感測7G件,其分佈於該底面的周圍,且相對於該支撐柱,複數 個壓力感測元件呈軸對稱關係,每一個壓力感測元件可輸出一 ?比信號;複數個彈性元件’位於複數個壓力感測元件下方, 母-個彈性元件對應一個壓力感測元件;其中當一外力施加於 =位置感測元件且使某一壓力感測元件屢迫一對應的彈性元 件之時’該壓力感測元件會輸出—對應的類比信號。 根據一實施例,其中複數個壓力感測元件具有四個。其中 :個壓力感測元件分別操控一顯示器上的一游標的向右、向 左、向上、向下移動。 其中該類比信號的值增大時,該游標對應地加速移動。其 塵力感測元件為一種力偵測電阻(force sensor resistive-FSR)。 、故换,據第—實施例,本創作為包含前述觸控面板控制裝置的 一突μ置’其包含一顯示器,與觸控面板控制裝置相溝通,顯 = 遊戲的場景’該場景上顯示有-遊戲的角色,該 .“受一游標的控制;其中,壓力感測元件操控該游標 的移動,當該外力增大時,遊戲的角色對應地加速移動。 :創作之其他詳細特徵、及細節可由以下實施方式的說明 以及申請專利範圍得知。 5 M415364 【實施方式】 參考圖1,本創作一種觸控面板控制裝置〗包含一位置感 測元件11、一可變形之支撐柱15、複數個壓力感測元件17、 複數個彈性元件10、一外保護層可變形之支撐柱15、 數個彈性元件10座於一底板18上。 位置感測元件11略成薄片狀,該位置感測元件u的下方 具有一底面13。可變形之支撐柱15連接該底面13的一約中 央位置。參考圖2,複數個壓力感測元件17分佈於該底面13 的周圍,且相對於該支撐柱15,複數個壓力感測元件17呈軸 對稱關係,而每一個壓力感測元件17可輸出一類比信號。複 數個彈性元件10位於複數個壓力感測元件17下方,每一個彈 性/0件10對應一個壓力感測元件17。外保護層19係於位置 感測元件11上,供保護位置感測元件u。因此當一外力施加 於該位置感測元件11上且使某一壓力感測元件丨7壓迫一對應 的彈性元件10之時,該壓力感測元件17會輸出一對應的類= 信號。 根據一實施例如圖5,其中複數個壓力感測元件17具有 四個’因而複數個彈性元件10也具有四個。彈性元件1〇 ^ 一 實施例為橡皮碗體,其可隨受力的大小不同,而做不同的變形 量。 根據一實施例,其中複數個壓力感測元件17可為力偵測 電阻(force sensor resistive_FSR),此類力偵測電阻輸出一類比 信號’且隨著受力增加而使受力接觸面積增大時,其輸出類比 信號的值將會隨之變大。反之亦然。 先參考圖5的系統圖,四個壓力感測元件51a,51b,51c, 51d與一微控制器53電氣連結,每一壓力感測元件輸出一類 比信號59給微控制器53。經過微控制器53解譯後,將结果 傳給系統軟體55 ’由系統軟體55下指令去控制顯示器57上 的游標(cursor),該游標可右移、左移、上移、下移、加速、 M415364 減速等。 根據一實施例,所輸出類比信號59的值可用來控制游俨 移動的速度。例如圖2中’若使用者施力點是被備測在右邊: 壓力感測兀件17上(其對應—(右移)鍵),則顯示器”上游標會 因此往右移動,移動的速度則由該所接收到的類比信號5^的 值所決定。類比信號59的值大時,移動快,類比信號59 小時,移動慢。 圖3揭露—(右移)鍵對應的壓力感測元件17受力較小時 的狀態。圖4揭露—(右移)鍵對應的壓力感測元件17 大時的狀態。 根據一實施例,上述的觸控面板控制裝置丨可運用於一遊 戲裝置中。例如圖6所示的一種包含觸控面板控制裝置料 遊戲裝置6’遊戲裝置6包含一顯示器6〇,顯示器6〇與觸控 面板控制裝置64相溝通,顯示器6〇上顯示一遊戲的場景6^ 該場景66上顯示有一遊戲的角色62,該遊戲的角色Q的動 作受一游標的控制。其中’觸控面板控制裝置64上某一游標 控制區域68的至少一壓力感測元件可操控該游標的移動,: 所施外力增大時,遊戲的角色62對應地加速移動,例如向右田、 向左、向上、向下加速,或減速移動。觸控面板控制裝置Μ 的進一步細節請參閱圖1,2, 3, 4, 5的對應說明。 由以上說明,可知本創作的各個實施例確實可達成本創作 的目的與功效,具有產業的利用性^ 應了解的是,先前之說明是用於例示之用,而非用於限制 性的,本創作之範圍由後附申請專利範圍及其均等範圍所界 【圖式簡單說明】 圖1係以剖面圖方式揭露本創作觸控面板控制装置的 實施例。 7 M415364 圖2係以頂視圖方式揭露圖的觸控面板控制裝置。 圖3係以剖面圖方式揭露受力較輕時的觸控面板控制裝 置。 圖4係以剖面圖方式揭露受力較重時的觸控面板控制裝 置。 圖5揭露本創作的一系統方塊圖。 圖6揭露本創作的包含所述觸控面板控制裝置的遊戲裝 置。 【主要元件符號說明】 1觸控面板控制裝置 11位置感測元件 13 底面 15可變形之支撐柱 17 壓力感測元件 19 外保護層 10 彈性元件 18底板 55 系統軟體 57 顯示器 59類比信號 51a, 51b, 51c, 51d 壓 53 微控制器 力感測元件(對應游標 的上,下,左,右移動) 62 角色(游標) 60 顯示器 64觸控面板控制裝置 66 場景 68游標控制區域 6 遊戲裝置M415364 V. New description: [New technical field] This creation has touch panel control devices, especially touch panels with acceleration function keys. [Prior Art] The technology of the touch panel has been applied to many industrial or consumer products. For related prior art, reference is made to U.S. Patent Publication No. 2/8/228228Ai. As can be seen from Figures 3, 4, 5, 15A, 15B, and 15C of U.S. Patent Publication No. 2008/1022824A1, the present invention provides a tiltable touch control panel so that the detected touch position and pressure value can be used. Determine the user's touch function. The touch control panel includes position detecting elements 6 (eg, capacitive, resistive, optical, acoustic, piezoelectric) located below the control plane 62. The rigid carrier plate 58 is supported by a resilient member 64. The pressure detecting element 54 is compressed by the attachment 61 as a concentrator for applying force. As can be seen from the drawing of the case, the pressure detecting element is located at the center of the touch control panel. The pressure detecting element 54 is located below the position detecting element 6〇, and the pressure detecting element 54 can be a deformable bowl type switch, or for example, a force detecting resistor (FSR), an optical blocker, a piezoelectric crystal or a capacitor. switch. The user's touch action can be interpreted according to the position of the user's point of application on the menu item displayed on the LCD, and the measured pressure value, for example, interpreting, input, or enabling ( Make it happen), without requiring the user to move the force point to another location, which is one of the purposes of the case creation. The case also discloses a number of prior art, as disclosed in Figures la, lb, and Figures 2a, 2b. For further application of the touch panel control device, the present invention proposes a touch panel control device and a technique of a game device to which the touch panel control device is applied. [New Content] M415364 One of the purposes of this creation is to provide a touch panel control device that allows a controlled cursor to move at a lower speed when the position of the touch panel control device is less stressed. When the force is large, the controlled cursor can be driven at a relatively high speed. When the touch panel control device is applied to the game device, when the touch panel control device has a small force, the character of the game moves at a low speed correspondingly. Conversely, when the force is large, the character of the game accelerates accordingly. According to an embodiment, the touch panel control device includes: a position sensing element 'which is slightly flaky', the bottom of the position sensing element has a bottom surface; and a deformable support column that connects the bottom surface a central position; a plurality of pressure sensing 7G members distributed around the bottom surface, and a plurality of pressure sensing elements are in an axisymmetric relationship with respect to the support column, and each of the pressure sensing elements can output a ratio signal; A plurality of elastic elements are located under a plurality of pressure sensing elements, and a female elastic element corresponds to a pressure sensing element; wherein an external force is applied to the position sensing element and a certain pressure sensing element is forced to correspond At the time of the elastic element, the pressure sensing element outputs a corresponding analog signal. According to an embodiment, wherein the plurality of pressure sensing elements have four. Wherein: a pressure sensing element respectively controls a right, left, up, and down movement of a cursor on a display. When the value of the analog signal increases, the cursor accelerates correspondingly. The dust sensing component is a force sensor resistive (FSR). According to the first embodiment, the present invention is a cover device including the touch panel control device, which includes a display, and communicates with the touch panel control device, and displays the scene of the game. There is a game character, which is "controlled by a cursor; wherein the pressure sensing element manipulates the movement of the cursor, and as the external force increases, the character of the game accelerates accordingly. : Other detailed features of the creation, and The details can be seen from the description of the following embodiments and the scope of the patent application. 5 M415364 Embodiments Referring to FIG. 1 , a touch panel control device includes a position sensing component 11 , a deformable support column 15 , and a plurality of The pressure sensing element 17, the plurality of elastic elements 10, the outer protective layer deformable support column 15, and the plurality of elastic elements 10 are seated on a bottom plate 18. The position sensing element 11 is slightly flaky, and the position sensing The lower side of the element u has a bottom surface 13. The deformable support column 15 is connected to an approximately central position of the bottom surface 13. Referring to Figure 2, a plurality of pressure sensing elements 17 are distributed around the bottom surface 13 And a plurality of pressure sensing elements 17 are in an axisymmetric relationship with respect to the support column 15, and each of the pressure sensing elements 17 can output an analog signal. The plurality of elastic elements 10 are located below the plurality of pressure sensing elements 17, Each of the elastic/zero members 10 corresponds to a pressure sensing element 17. The outer protective layer 19 is attached to the position sensing element 11 for protecting the position sensing element u. Therefore, when an external force is applied to the position sensing element 11 and When a certain pressure sensing element 丨7 is pressed against a corresponding elastic element 10, the pressure sensing element 17 outputs a corresponding class=signal. According to an embodiment, such as FIG. 5, wherein the plurality of pressure sensing elements 17 have The four 'and thus the plurality of elastic elements 10 also have four. The elastic element 1 〇 ^ one embodiment is a rubber bowl, which can be differently deformed according to the magnitude of the force. According to an embodiment, the plural The pressure sensing element 17 can be a force sensor resistive (FSR), and the force detecting resistor outputs an analog signal 'and the output contact area increases as the force is increased. The value of the specific signal will become larger, and vice versa. Referring first to the system diagram of Figure 5, the four pressure sensing elements 51a, 51b, 51c, 51d are electrically coupled to a microcontroller 53, each pressure sensing The component outputs an analog signal 59 to the microcontroller 53. After being interpreted by the microcontroller 53, the result is passed to the system software 55'. The system software 55 commands the cursor to control the display 57. The cursor can be right. Shift, left shift, up shift, down shift, acceleration, M415364 deceleration, etc. According to an embodiment, the value of the output analog signal 59 can be used to control the speed at which the cursor moves. For example, in Figure 2, if the user applies a force point Being tested on the right: On the pressure sensing element 17 (the corresponding - (right shift) button), the display "upstream" will therefore move to the right, and the speed of the movement is determined by the received analog signal 5^ The value is determined. When the value of the analog signal 59 is large, the movement is fast, the analog signal is 59 hours, and the movement is slow. Fig. 3 discloses a state in which the pressure sensing element 17 corresponding to the (right shift) key has a small force. Fig. 4 discloses the state in which the pressure sensing element 17 corresponding to the (right shift) key is large. According to an embodiment, the touch panel control device described above can be used in a game device. For example, the game device 6 including the touch panel control device shown in FIG. 6 includes a display 6 〇, the display 6 沟通 communicates with the touch panel control device 64, and the scene 6 of the game is displayed on the display 6 ^ The character 66 is displayed on the scene 66, and the action of the character Q of the game is controlled by a cursor. The at least one pressure sensing element of a cursor control area 68 on the touch panel control device 64 can control the movement of the cursor. When the applied external force increases, the character 62 of the game accelerates correspondingly, for example, to the right field. Accelerate to the left, up, down, or slow down. For further details of the touch panel control device 请, refer to the corresponding description of Figures 1, 2, 3, 4, and 5. From the above description, it can be seen that the various embodiments of the present invention can achieve the purpose and effect of cost creation, and have industrial applicability. It should be understood that the foregoing description is for illustrative purposes and not for limitation. The scope of the present invention is defined by the scope of the appended claims and its equal scope. [FIG. 1] FIG. 1 is a cross-sectional view showing an embodiment of the touch panel control device of the present invention. 7 M415364 Figure 2 is a top view of the touch panel control device. Fig. 3 is a cross-sectional view showing the touch panel control device when the force is light. Fig. 4 is a cross-sectional view showing the touch panel control device when the force is heavy. Figure 5 discloses a system block diagram of the present creation. Fig. 6 discloses a game device including the touch panel control device of the present invention. [Main component symbol description] 1 touch panel control device 11 position sensing element 13 bottom surface 15 deformable support column 17 pressure sensing element 19 outer protective layer 10 elastic element 18 bottom plate 55 system software 57 display 59 analog signal 51a, 51b , 51c, 51d pressure 53 microcontroller force sensing component (corresponding to the cursor up, down, left, right movement) 62 character (cursor) 60 display 64 touch panel control device 66 scene 68 cursor control area 6 game device