TW200915131A - Input apparatus and operating method thereof and electronic device using the same - Google Patents

Abstract

An input apparatus and an operating method thereof and an electronic device using the same are disclosed. The input apparatus includes a frame, a touchpad element, and a sensor element. The touchpad element is disposed on the frame and has a touch surface for contacting with an object so as to generate a first signal in a first state and a second state. As the sensor element detects that the touchpad element switches from the first state to the second state, a second signal is generated by the sensor element and sent to an electronic device. The electronic device actuates an operation mode according to a touch state of the object on the touch surface and the second signal. In the operation mode, the first signal generated by the touchpad element is used as an operation signal.

Description

200915131200915131

-...-- )49PA 九、發明說明： 【發明所屬之技術領域】 、本發明是㈣於-種輸人裝置，且制是有關於一種 以觸控感測控制之輸入裝置。 【先前技術】 r 通薪機、數位相機、pDA、筆記型電腦、音樂隨身 ^ '電，裝置都具有操作介面供給使用者執行操作。操作 二：：：以鍵盤、滑鼠、按鍵組或是觸控面板等輸入裝置 次社、:纟卩供使用者操作電子裝置内建的軟體、擷取 一貝料、輸 =資，與其他電子裝置進行訊息溝通、上網等。 用者的操作大二己型:腦都配備有觸控面板辅助使 ' 者以手指輕觸觸控面板時，隨即可被 用：移二：產生訊號’也因此觸控面板可以模擬使 為常見的2w 而執行類似於滑鼠的輸人功能。較 场動以择^反操作方式是’使用者的手指於觸控面板 =觸控面板，以產生類似於選取物=動= 際上僅就觸控面板㈣，其操控模式並不多^ 只 提供s者二偏上的輪人裝置搭配使用才可 者更夕不同的操作模式，除 外，對使用者而言並非較佳的設計方式。複雜 【發明内容】 200915131-...--) 49PA IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to (4) an input device, and is related to an input device controlled by touch sensing. [Prior Art] r Payroll, digital camera, pDA, notebook computer, music portable ^ 'Electric, the device has an operation interface for the user to perform operations. Operation 2::: Input device such as keyboard, mouse, button group or touch panel, etc.: 纟卩 for the user to operate the software built into the electronic device, to take a bedding material, to lose money, and other The electronic device communicates with the Internet, accesses the Internet, and the like. The user's operation is a sophomore type: the brain is equipped with a touch panel to help the user touch the touch panel with his finger, and then can be used: shift two: generate a signal, so the touch panel can be simulated to make it common. The 2w performs a mouse-like input function. The comparison action is to select the user's finger on the touch panel = touch panel to produce a similar touch object = motion = only the touch panel (four), its control mode is not much ^ only It is not a better design method for the user, except for the different operation modes of the wheeled device that is used on the second hand. Complex [invention content] 200915131

，49PA 本發明係有關於— 其之電子裝置，係裝置及其操作方法與應用 電子裝置内多種操作模=與物件之接觸狀態去啟動 本發明提出一種輪二操作之需求。 有-觸控面。此觸=::_置於底座上並具 二=至少一第，與 二當r元件感測到觸控; 第二訊號並輸出至電===件係據以產生- =妾觸狀態以及第二訊號去啟動一操作模式。於此操作 訊號。件輸出之第一訊號為此操作模式之-操作 元 一本:明另提出一種電子裝置，此裝置包括一顯示單 厂控職組與-輸人裝置。顯示單元係電性連接 裝置係電性連接至控制模組並包括-底座： 並且=及至少一感測元件。觸控元件設置於底座上 觸控面。此觸控面用以與至少—物件接觸，使觸 ^件據以於至少一第一狀態與一第二狀態下產生―： 二出至控制模組。其中，當感測元件感測到觸控 :二由弟-狀態轉換至第二狀態時，感測元件係據以產生 =二訊號並輸出至控制模組。控制模組會根據觸控面盘 物件之接觸狀態以及第二訊號去啟動顯示單元之一心乍 模式。於此操作模式下’觸控元件輸出之第一訊號為此操 20091513149PA The present invention relates to an electronic device, a device thereof, and a method of operating the same, and a plurality of operating modes in the electronic device. The contact state with the object is activated. The present invention provides a need for a wheeled operation. There is - touch surface. The touch =::_ is placed on the base and has two = at least one, and two when the r element senses the touch; the second signal is output to the electricity === according to the basis of the -= touch state and The second signal is used to initiate an operational mode. This operation signal. The first signal outputted by the device is the operation mode of the operation mode. One: The electronic device is further provided, and the device includes a display unit control group and an input device. The display unit is electrically connected to the control module and includes a base: and = and at least one sensing element. The touch component is disposed on the touch surface of the base. The touch surface is configured to be in contact with at least the object, such that the contact piece is generated in at least one of the first state and the second state: the second component is output to the control module. Wherein, when the sensing component senses the touch: the second component is switched to the second state, the sensing component generates the second signal and outputs the signal to the control module. The control module activates one of the display units according to the contact state of the touch panel object and the second signal. In this mode of operation, the first signal output by the touch component is for this operation.

MQPA ——八U · τ . ^ ^ 作模式下之操作訊號。 本發明再提出一種輸入裝置之操作方法，此方法包 括：提供一觸控元件用以與物件接觸以產生一第一訊號； 以一感測元件感測觸控元件之狀態，並於觸控元件由一第 一狀態轉換至一第二狀態時產生一第二訊號；輸出第二訊 號至一電子裝置；以及，根據觸控元件與物件之接觸狀態 以及第二訊號去啟動該電子裝置之一操作模式，該觸控元 件於此操作模式下輸出之第一訊號為此操作模式之操作 訊號。 為讓本發明之上述内容能更明顯易懂，下文特舉較佳 實施例，並配合所附圖式，作詳細說明如下： 【實施方式】 實施例一 本實施例之輸入裝置係可連接或應用於一電子裝置 以作為輸入介面使用，以執行電子裝置其顯示畫面上指標 〃 的移動、檔案的開啟與關閉、視窗的放大、縮小與捲動等 操作。請參照第1A圖，其繪示依照本發明實施例一的輸 入裝置之示意圖。輸入裝置10包括一底座100、一觸控元 件120以及至少一感測元件。本實施例係以一個感測元件 140做說明。觸控元件120設置於底座100上並具有一觸 控面120A。此觸控面120A用以與至少一物件OB接觸， 使觸控元件120據以於至少一第一狀態與一第二狀態下產 生一第一訊號以輸出至電子裝置（未繪示較佳地，感 8 200915131 測元件140設置於底座100上且位於觸控元件l2〇之下 方。其中，當感測元件140感測到觸控元件12〇由第一 態轉換至第二狀態時，感測元件14〇係據以產生—/ 號並輸出至電子裝置。電子裝|會根據肺面12Qa與 件OB之接觸狀態以及第二訊％啟動一操作模式。於此 作模式下，觸控元件HG輸出訊㈣此操作 = 之一操作訊號。MQPA - eight U · τ . ^ ^ The operation signal in the mode. The present invention further provides a method for operating an input device, the method comprising: providing a touch component for contacting a object to generate a first signal; sensing a state of the touch component by a sensing component, and applying the touch component to the touch component Generating a second signal from a first state to a second state; outputting the second signal to an electronic device; and, in response to the contact state of the touch element and the object, and the second signal, initiating operation of the electronic device In the mode, the first signal output by the touch component in this operation mode is an operation signal of the operation mode. In order to make the above description of the present invention more comprehensible, the preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. FIG. 1 Embodiment 1 The input device of this embodiment can be connected or It is applied to an electronic device for use as an input interface to perform operations such as movement of the indicator 〃 on the display screen of the electronic device, opening and closing of the file, enlargement, reduction and scrolling of the window. Referring to Figure 1A, there is shown a schematic diagram of an input device in accordance with a first embodiment of the present invention. The input device 10 includes a base 100, a touch element 120, and at least one sensing element. This embodiment is described with one sensing element 140. The touch component 120 is disposed on the base 100 and has a touch surface 120A. The touch surface 120A is configured to be in contact with the at least one object OB, so that the touch element 120 generates a first signal to output to the electronic device according to the at least one first state and the second state (not shown The sensing component 140 is disposed on the base 100 and located under the touch component 12, wherein the sensing component 140 senses that the touch component 12 is switched from the first state to the second state, and senses The component 14 is configured to generate the _/ sign and output to the electronic device. The electronic device will activate an operation mode according to the contact state of the lung surface 12Qa and the component OB, and the second operation mode. In this mode, the touch component HG Output (4) This operation = one of the operation signals.

本實施例之觸控元件120可以是-電阻式觸控板。於 電阻式觸控板中會有絕緣層將二個導電層隔開。 ^ 層會因觸控板被物件觸碰而導㈣路。當電阻式觸和^ 迴路導通後，便會使電壓降低以產生訊號。另外，觸^的 件120也可以是一電容式觸控 抆兀 面（例如是觸控面職）上上“式=其觸控 的物件接觸到觸控面時會帶走微量的電流，如此便 生訊號。本實_之物件〇Β可以是使用者的單根或 手指，亦可以是一觸控筆用以與觸控元件120相接觸而； 生第-訊號。於本實施例中，物件qB是以手指為例去十、 明觸控το件120與手指之接_關係與啟動的操作模式二 較佳地，係藉由改變觸控元件12〇於底座1〇〇上之位 置，來達到狀態改變的目的。而感測元件14G能夠藉由感 測到觸控元件12〇之位置改變，以適時地產生第二訊號。 於第一狀態時’觸控元件12〇例如是位於錢·上之第 -位置’·於第二狀態時’觸控元件m是位於底座1〇〇上 之第二位置。 200915131The touch element 120 of this embodiment may be a resistive touch panel. In the resistive touch panel, an insulating layer separates the two conductive layers. ^ The layer will guide (four) the road because the touchpad is touched by the object. When the resistive touch and the loop are turned on, the voltage is lowered to generate a signal. In addition, the touch device 120 can also be a capacitive touch surface (for example, a touch surface) on the upper side of the "type=the touch object will take a trace of current when it touches the touch surface, so The object may be a single or a finger of the user, or may be a stylus for contacting the touch element 120; the first signal is generated. In this embodiment, The object qB is a finger as an example. The touch control τ 120 is connected to the finger _ relationship and the activated operation mode 2 is preferably changed by changing the position of the touch component 12 on the base 1 ,. To achieve the purpose of the state change, the sensing component 14G can generate the second signal in time by sensing the change of the position of the touch component 12 。. In the first state, the touch component 12 is, for example, located in the money. · The first position - 'in the second state' of the touch element m is the second position on the base 1 2009.

►49PA *人 I /1 ill Li V/y u ~ .—>〆 I ^ Λ. Λ ^ 請參照第IB、1C圖，其繪示第1A圖的觸控元件於 不同狀態下之示意圖。觸控元件120例如是以可動之方式 裝設於底座100上。較佳地，第一狀態例如是觸控元件120 裝設於底座100時的一般狀態，亦即觸控元件120尚未移 動前的初始狀態。此時，觸控元件120例如是位於底座100 上較高的第一位置T1 (見第1A圖）。至於第二狀態，其 係可根據觸控元件120與物件OB接觸的方式去決定觸控 元件120移動後的第二位置。如第1B圖所示，觸控元件 120會因為受到物件OB的按壓而向下移動到第二位置 T2。或是如第1C圖所示，觸控元件120與底座100之間 是以柩轴160結合。如此，當物件OB按壓觸控元件120 時，觸控元件120會相對於底座100旋轉一角度。 本實施例中，感測元件140是直接連接到觸控元件 120上與觸控面120A相對的下表面120B，因而當觸控元 件120由第一位置T1變換到第二位置T2時，感測元件 140會因為觸控元件120的狀態改變而隨即輸出第二訊 號。此類型之感測元件140可以是一分段開關、觸鍵開關 或微動開關等。如此，當觸控元件120移動到第二位置T2 時，觸控元件120會直接按壓到感測元件140而產生第二 訊號。 另請參照第2A、2B圖，第2A圖繪示感測元件直接 設置於觸控元件下表面之示意圖，第2B圖繪示感測元件 與觸控元件具有間隔之示意圖。如第2A圖所示，感測元 件是一直接貼附於觸控元件120下表面120B之壓力感測 10 200915131►49PA*人 I /1 ill Li V/y u ~ .—>〆 I ^ Λ. Λ ^ Please refer to Figures IB and 1C for a schematic diagram of the touch elements of Figure 1A in different states. The touch element 120 is movably mounted on the base 100, for example. Preferably, the first state is, for example, a general state when the touch element 120 is mounted on the base 100, that is, an initial state before the touch element 120 has been moved. At this time, the touch element 120 is, for example, a higher first position T1 on the base 100 (see FIG. 1A). As for the second state, the second position after the touch element 120 is moved can be determined according to the contact of the touch element 120 with the object OB. As shown in Fig. 1B, the touch element 120 is moved downward to the second position T2 by the pressing of the object OB. Alternatively, as shown in FIG. 1C, the touch element 120 and the base 100 are coupled by a yoke 160. As such, when the object OB presses the touch element 120, the touch element 120 is rotated by an angle relative to the base 100. In this embodiment, the sensing component 140 is directly connected to the lower surface 120B of the touch component 120 opposite to the touch surface 120A, and thus senses when the touch component 120 is changed from the first position T1 to the second position T2. The component 140 will output a second signal because the state of the touch component 120 changes. Sensing element 140 of this type can be a segmented switch, a touch switch or a micro switch or the like. Thus, when the touch element 120 moves to the second position T2, the touch element 120 directly presses the sensing element 140 to generate a second signal. Please refer to FIG. 2A and FIG. 2B. FIG. 2A is a schematic diagram showing the sensing element directly disposed on the lower surface of the touch element, and FIG. 2B is a schematic diagram showing the distance between the sensing element and the touch element. As shown in FIG. 2A, the sensing element is a pressure sensing directly attached to the lower surface 120B of the touch element 120. 10 200915131

—綱m · a ” 〜49PA 元件171。壓力感測元件171例如是一壓電傳感器，其由 壓電材料製作而成，會在觸控元件120移動的過程中受力 變形，如此便可測得觸控元件120之狀態改變。 如第2B圖所示，感測元件是一設置於底座1 〇〇上但 不連接到觸控元件120之位移感測元件173。位移感測元 件173可以是一影像感測器，其例如為電荷輕接元件 (Couple Charged Device ’ CCD)或互補型金屬氧化半導 體（Complementary Metal-Oxide- Semiconductor，CMOS) 影像感測器。影像感測器會直接發出電波偵測觸控元件 120,並根據電波的回饋去判斷觸控元件12〇的狀態是否 改變。 請參照第3A圖’其繪示依照本發明實施例—的電子 裝置之不思圖’弟3B圖繪不第3A圖電子裝置之電路方塊 圖。本實施例之電子裝置係以一筆記型電腦為例做說明。 電子裝置200包括一顯示單元220、一控制模組24〇與一 ; 輸入裝置1〇。顯示單元220與輸入模組1〇係電性連接至 控制模組240。觸控元件120產生之第一訊號S1係輸出至 控制模組240。感測元件14〇產生之第二訊號S2亦係輸出 至控制模組240。控制模組240會根據觸控面i2〇A與物 件0B之接觸狀態以及第二訊號S2啟動顯示單元220特定 之操作模式。操作模式啟動後，觸控元件120輸出之第一 訊號S1為此操作模式下之操作訊號。 顯示單元220例如是一液晶顯示螢幕。控制模組24〇 例如包括一主機板，其具有中央處理器、記憶體與晶片組 11 200915131-m" a"~49PA element 171. The pressure sensing element 171 is, for example, a piezoelectric sensor which is made of a piezoelectric material and is deformed during the movement of the touch element 120. The state of the touch component 120 is changed. As shown in FIG. 2B, the sensing component is a displacement sensing component 173 disposed on the chassis 1 but not connected to the touch component 120. The displacement sensing component 173 can be An image sensor, such as a Coupled Charged Device (CCD) or a Complementary Metal-Oxide-Semiconductor (CMOS) image sensor. The image sensor directly emits a wave detector. The touch element 120 is measured, and the state of the touch element 12 is changed according to the feedback of the electric wave. Please refer to FIG. 3A, which depicts the electronic device in accordance with the embodiment of the present invention. The electronic device of the present embodiment is illustrated by taking a notebook computer as an example. The electronic device 200 includes a display unit 220, a control module 24 and an input device. The display unit 220 is electrically connected to the input module 1 to the control module 240. The first signal S1 generated by the touch component 120 is output to the control module 240. The second signal generated by the sensing component 14 S2 is also output to the control module 240. The control module 240 activates the specific operation mode of the display unit 220 according to the contact state of the touch surface i2〇A and the object 0B and the second signal S2. After the operation mode is started, the touch element is activated. The first signal S1 outputted by 120 is an operation signal in this operation mode. The display unit 220 is, for example, a liquid crystal display screen. The control module 24 includes, for example, a motherboard having a central processing unit, a memory and a chipset 11 200915131

—u r. w ^'49PA 等電子元件以執行比對、邏輯運算等。輸入裝置i〇產生 之第一訊號S1與第二訊號S2傳送到控制模組240後，則 由前述之電子元件執行指令的操作，並於顯示單元220的 顯示畫面中顯示出執行指令下的結果。 另外，本實施例提出輸入裝置10之操作方法。請參 照第3 C圖，其續示依照本發明實施例一的輸入裝置其操 作方法之流程圖。輸入裝置10之操作方法包括步驟310 〜340。於步驟310中，係提供觸控元件120用以與物件 OB接觸以產生第一訊號S1。於步驟320中，是以感測元 件140感測觸控元件120之狀態，於觸控元件120由第一 狀態轉換至第二狀態時產生第二訊號S2。於步驟330中， 係輸出第二訊號S2至電子裝置200。以及步驟340，根據 觸控元件120與物件〇B之接觸狀態以及第二訊號S2以啟 動顯示單元之一操作模式。於此操作模式下，觸控元件120 輸出之第一訊號S1為此操作模式之操作訊號。 本實施例是以觸控元件120樞接於底座100之方式， 進一步說明物件OB與觸控元件120之接觸狀態與操作模 式的關係。為簡化敘述與圖示，直接以手指P作為物件 0B與觸控元件120之接觸點去說明各種接觸狀態。 請參照第4A圖，其繪示以單指於觸控面上移動之示 意圖。當手指P1僅在觸控面120A上移動時，觸控元件 120產生之第一訊號S1會傳送到電子裝置200的控制模組 240中，以操控顯示單元220其顯示晝面上之指標移動。 此㈠'係為「一般指標平移模式」。 12—u r. w ^'49PA and other electronic components to perform alignment, logic operations, and so on. After the first signal S1 and the second signal S2 generated by the input device are transmitted to the control module 240, the operation of the command is performed by the electronic component, and the result of the execution command is displayed on the display screen of the display unit 220. . In addition, the present embodiment proposes an operation method of the input device 10. Referring to FIG. 3C, a flowchart of an operation method of the input device according to the first embodiment of the present invention is continued. The method of operation of the input device 10 includes steps 310-340. In step 310, the touch element 120 is provided for contacting the object OB to generate the first signal S1. In step 320, the sensing component 140 senses the state of the touch component 120, and generates a second signal S2 when the touch component 120 transitions from the first state to the second state. In step 330, the second signal S2 is output to the electronic device 200. And step 340, according to the contact state of the touch element 120 and the object 〇B and the second signal S2 to start an operation mode of the display unit. In this operation mode, the first signal S1 output by the touch component 120 is an operation signal for this operation mode. In this embodiment, the relationship between the contact state of the object OB and the touch component 120 and the operation mode is further described by the way in which the touch component 120 is pivotally connected to the base 100. To simplify the description and illustration, the finger P is directly used as the contact point of the object 0B with the touch element 120 to describe various contact states. Please refer to FIG. 4A, which illustrates the intention of moving with a single finger on the touch surface. When the finger P1 moves only on the touch surface 120A, the first signal S1 generated by the touch component 120 is transmitted to the control module 240 of the electronic device 200 to control the display unit 220 to display the index movement on the display surface. This (a)' is the "general indicator translation mode". 12

»49PA 200915131 於步驟320中，當手指PI碰觸觸控面120A，並向下 按壓觸控元件120使觸控元件120停留於第二位置T2(見 第1C圖）時，由於觸控元件12之狀態改變，感測元件140 會產生第二訊號S2並傳送至電子裝置200的控制模組 240，控制模組240會根據手指Ρ1與觸控面120Α之接觸 狀態以及第二訊號S2以啟動顯示單元220特定之操作模 式。以下附圖說明不同接觸狀態與操作模式之運作。 請參照第4Β圖，其繪示以單指按壓觸控元件之示意 圖，於圖示上侧表達的是觸控元件120移動情形，下侧則 為手指Ρ1擺放於觸控面120Α上的情形。第4Β圖中，當 手指Ρ1向下按壓觸控元件120,使觸控元件120向下移動 並觸發感測元件140 (見第1C圖）後，便隨即釋放觸控元 件120使之恢復原位。此時，感測元件140產生的第二訊 號S2傳送到控制模組240後，係啟動顯示單元220之特 定操作模式例如是「左鍵功能模式」或「右鍵功能模式」。 當操作模式被啟動後，手指Ρ1於觸控面120Α上移動使觸 控元件120產生之第一訊號S1即為此操作模式下之操作 訊號。 以「左鍵功能模式」為例，係如同使用者按壓滑鼠的 左鍵一般，於顯示單元220之顯示晝面中可執行點選物 件、變換指標於視窗晝面中的位置等功能。至於「右鍵功 能模式」，其係如同使用者按壓滑鼠右鍵一般，使用者得 以在指標所處視窗下開啟一功能選單。另外，先以手指Ρ1 按壓住觸控元件120，再以另一手指點擊觸控面120Α之 13 200915131»49PA 200915131 In step 320, when the finger PI touches the touch surface 120A and presses the touch element 120 downward to cause the touch element 120 to stay at the second position T2 (see FIG. 1C), the touch element 12 The state of the sensor 140 is generated by the sensing component 140 and transmitted to the control module 240 of the electronic device 200. The control module 240 activates the display according to the contact state of the finger 1 and the touch surface 120 and the second signal S2. Unit 220 specifies the mode of operation. The following figures illustrate the operation of different contact states and modes of operation. Referring to FIG. 4, a schematic diagram of pressing a touch element with a single finger is shown. The upper side of the figure shows the movement of the touch element 120, and the lower side is the case where the finger Ρ1 is placed on the touch surface 120Α. . In the fourth figure, when the finger Ρ1 presses down the touch element 120 to move the touch element 120 downward and triggers the sensing element 140 (see FIG. 1C), the touch element 120 is released and restored to the original position. . At this time, after the second signal S2 generated by the sensing component 140 is transmitted to the control module 240, the specific operation mode of the startup display unit 220 is, for example, a "left button function mode" or a "right button function mode". When the operation mode is activated, the finger Ρ1 moves on the touch surface 120Α to cause the first signal S1 generated by the touch control element 120 to be an operation signal for this operation mode. For example, in the "left button function mode", as the user presses the left button of the mouse, the function of selecting an object, changing the position of the index in the window surface, and the like can be performed in the display surface of the display unit 220. As for the "right-click function mode", it is like the user pressing the right mouse button, and the user has to open a function menu under the window where the indicator is located. In addition, first press the touch element 120 with the finger Ρ 1 and then click the touch surface 120 with the other finger. 13 200915131

—M9PA 手勢，亦可在控制模組240中設定為開啟「右鍵功能模式」 之方式。 請參照第5A、5B圖，其繪示以單指執行拖拉模式之 示意圖。當使用者以手指P1按壓觸控元件120,並使觸控 元件120停留於第二位置T2處時，若是控制模組240判 斷手指P1停留在觸控面120A上一段時間且皆接收到第二 訊號S2,控制模組240便會啟動顯示單元220特定之操作 模式，其可以是一「拖拉模式」。於「拖拉模式」被啟動 "：· 後，可接著以同一手指P1於觸控面120A上移動以變換指 標的位置。若是指標位於文件編輯視窗或是繪圖視窗等視 窗中，當「拖拉模式」開啟時，指標移動範圍内的文字、 線條等編輯中物件都會被選取起來。 請參照第6A、6B圖，其繪示以雙指按壓觸控元件之 示意圖。第6A、6B圖的差異之處在於，第6 A圖中的二 個手指PI、P2是併攏再觸碰觸控元件120，而第6B圖中 的二個手指P卜P2是相隔一段距離並觸碰觸控元件120。 控制模組240係藉由判讀手指PI、P2之位置或距離以及 第二訊號S2以啟動不同操作模式。舉例來說，以併攏或 分開的二個手指PI、P2按壓觸控元件120以觸發感測元 件140後，並釋放觸控元件120之手勢，於控制模組240 中係可被設定為啟動顯示單元220之「左鍵功能模式」或 「右鍵功能模式」之方式。 另外，於二個手指PI、P2併攏或分開的狀態下，同 時以二個手指PI、P2按壓觸控元件120時，於控制模組 14 200915131- The M9PA gesture can also be set in the control module 240 to enable the "right-click function mode" mode. Please refer to Figures 5A and 5B for a schematic diagram of the drag mode performed with a single finger. When the user presses the touch component 120 with the finger P1 and causes the touch component 120 to stay at the second position T2, the control module 240 determines that the finger P1 stays on the touch surface 120A for a period of time and receives the second. At signal S2, control module 240 initiates a particular mode of operation of display unit 220, which may be a "drag mode". After the "drag mode" is activated ":·, the same finger P1 can then be moved on the touch surface 120A to change the position of the pointer. If the indicator is located in a window such as a file editing window or a drawing window, when the "drag mode" is turned on, objects such as characters and lines in the moving range of the indicator are selected. Please refer to FIGS. 6A and 6B, which are schematic diagrams showing the pressing of the touch elements with two fingers. The difference between the figures 6A and 6B is that the two fingers PI and P2 in Fig. 6A are close together and touch the touch element 120, and the two fingers P2 in Fig. 6B are separated by a distance and Touch the touch element 120. The control module 240 activates different modes of operation by interpreting the position or distance of the fingers PI, P2 and the second signal S2. For example, after the touch finger 120 is pressed by the two fingers PI, P2 that are pressed or separated to trigger the sensing component 140, and the gesture of the touch component 120 is released, the control module 240 can be set to start display. The mode of "left button function mode" or "right button function mode" of unit 220. In addition, when the two fingers PI and P2 are close together or separated, and the touch element 120 is pressed by the two fingers PI and P2, the control module 14 200915131

- _ 49PA L40丄亦可㈣為啟動顯示軍元220之「左鍵… 鍵功此楱式」或「左鍵加Ctrl鍵功能模式」之方式。 以指標位於文件編輯視窗中為例，於」「左鍵加㈣ 鍵功能模式」了，此功能模式被啟動前後之指標移動範圍 内的文字會被選取起來。於「左鍵加Ctd鍵功能模式」下， 指標對應到的完整句子會被選取起來。 、請參照第7A、7B目，其繪示以雙指執行拖拉、捲動- _ 49PA L40丄 can also (4) be the way to start the display of the "left button... key function" or "left button plus Ctrl key function mode" of the military element 220. For example, in the file editing window, the "left button plus (four) key function mode" is used, and the text in the range of the indicator before and after the function mode is activated is selected. Under the "Left key plus Ctd key function mode", the complete sentence corresponding to the indicator will be selected. Please refer to items 7A and 7B, which show that dragging and rolling are performed with two fingers.

視窗、縮放視窗或縮放視窗内容模式之示意圖。手指Η 先按壓觸控元件120並使觸控元件120維持於第二位^τ2 處以產生第二訊號S2,另一手指Ρ2再於觸控面12〇八上 移動以產生第一訊號S1。此先以手指P1按壓觸控面 120A，再以另一手指P2於觸控面12〇A上移動之手^， 係同樣可於控制模組240中設定為開啟顯示單元22〇之 「拖拉模式」，亦或是在控制模組240中設定為開啟「捲 動視窗模式」、「縮放視窗模式」、或「縮放視窗内容楔 之方式。 、式」 於「捲動視窗模式」下，手指P1、P2同時觸碰觸控 面120A ,其中手指P1用以將觸控元件120維持在第_上 置T2，手指P2則用以於觸控面12〇八向上或向下移 以將視窗對應地向上或向下捲動。 啟動「縮放視窗模式」前，手指P1較佳地是先 標移動到一視窗邊緣，再按壓觸控元件12〇以啟動「縮私 現窗模式」。啟動後，手指P1係持續按壓著觸控元件12〇玫 使之維持在第二位置T2，手指P2則可移動以將指棹由0视 15 20091—5131 機 窗邊緣向外移動以放大視窗，或是將指標由視窗邊緣向内 移動以縮小視窗。 至於「縮放視窗内容模式」，當指標例如位於繪圖視 窗内，可先以手指P1按壓觸控元件120觸發感測元件 140,以傳送第二訊號S2至控制模組240啟動顯示單元220 之「縮放視窗内容模式」。此時，手指P1係持續按壓著觸 控元件120,觸控元件120則感應手指P2之移動以產生第 一訊號S1作為放大或縮小視窗内容之操作訊號。舉例來A schematic of a window, zoom window, or zoom window content mode. The finger Η first presses the touch element 120 and maintains the touch element 120 at the second position ^τ2 to generate the second signal S2, and the other finger Ρ 2 moves on the touch surface 12 to generate the first signal S1. The hand that first presses the touch surface 120A with the finger P1 and then moves the touch finger 12A with the other finger P2 can also be set to the drag mode of the display unit 22 in the control module 240. Or, in the control module 240, it is set to "scroll window mode", "zoom window mode", or "scroll window content wedge mode.", in "scroll window mode", finger P1 The P2 touches the touch surface 120A at the same time, wherein the finger P1 is used to maintain the touch element 120 at the upper T2, and the finger P2 is used to move the touch surface 12 to the top or the bottom to move the window correspondingly. Scroll up or down. Before the "zoom window mode" is activated, the finger P1 is preferably moved to the edge of a window, and then the touch element 12 is pressed to activate the "private window mode". After the startup, the finger P1 continues to press the touch element 12 to maintain the second position T2, and the finger P2 is movable to move the finger outward from the edge of the window of the window of the window to enlarge the window. Or move the indicator inward from the edge of the window to reduce the window. As for the "zoom window content mode", when the indicator is located in the drawing window, for example, the touch component 120 is pressed by the finger P1 to trigger the sensing component 140 to transmit the second signal S2 to the control module 240 to start the zooming of the display unit 220. Window content mode." At this time, the finger P1 continuously presses the touch control element 120, and the touch element 120 senses the movement of the finger P2 to generate the first signal S1 as an operation signal for enlarging or reducing the window content. For example

說，當手指P2移動使指標在視窗中向外移動係可放大視 窗内容，亦即視窗中顯示物件會被放大而視窗顯示的範圍 良小，反之，當手指P2移動而使指標在視窗中向内移動 則可縮小視窗内容，此時顯示物件會被縮小而視窗顯示的 範圍變大。 ’ 睛參照第8A、8B圖 向杈式之連續示意圖。於控制模組24〇中係可設定以手护 P1、P2併攏並同時按壓觸控元件雇為啟動顯示單元^ 其「捲動視窗模式」之手勢。按職，手指ρι係持 力以將觸控元件i 2 0維持在第二位置T 2冑，手才匕p 2則 ΤΙ; 12〇A上下移動’如此便可於「捲動視窗曰模式：‘ 將視窗向上或向下捲動。 卜 第9A、9B圖’其㈣以分開雙指執行縮玫视 南内各杈式之連續示意圖。於控制模組2 4 〇中係可設定r 16 200915131It is said that when the finger P2 moves to move the indicator outward in the window, the window content can be enlarged, that is, the object displayed in the window is enlarged and the window display range is small. Conversely, when the finger P2 moves, the index is in the window. The inner movement can reduce the window content, and the displayed object will be reduced and the window display range will be larger. Refer to Figures 8A and 8B for a continuous schematic diagram of the 杈 type. In the control module 24, it is possible to set the gestures of the "rolling window mode" to start the display unit by pressing the touch elements together and simultaneously pressing the touch elements. On the job, the finger ρι is holding the force to maintain the touch element i 2 0 in the second position T 2 胄, the hand 匕 p 2 is ΤΙ; 12 〇 A moving up and down 'so can be in the scrolling window : mode: ' Scroll up or down the window. pp. 9A, 9B' (4) to separate the two fingers to perform a continuous schematic diagram of the various styles in the south. In the control module 2 4 〇 can be set r 16 200915131

二违獅肌.i vvj749PA 手指P1用以將觸控元件120維持在第二位置T2處，手指 Ρ2則於觸控面120Α上移動。同樣地，當手指Ρ2移動使 指標在視窗中向外移動時，手指Ρ2於觸控面120Α上移動 產生的第一訊號S1係為放大視窗内容之操作訊號，此時 視窗中顯示物件會被放大而視窗顯示範圍變小。當手指Ρ2 移動使指標在視窗中向内移動時，手指Ρ2於觸控面120Α 上移動產生的第一訊號S1則為縮小視窗内容之操作訊 號，此時顯示物件會被縮小而視窗顯示的範圍變大。 除了上述以單指Ρ1或雙指PI、Ρ2觸碰觸控元件120 以啟動顯示單元220的不同操作模式外，亦可藉由多指接 觸觸控元件120而產生更多的操作模式。舉例來說，請參 照第10Α、10Β圖，其繪示以三指執行右鍵功能模式之示 意圖。於控制模組240中，可設定當三指PI、Ρ2與Ρ3同 時觸碰觸控面120Α，再向下按壓觸控元件120之步驟為 啟動顯示單元220其「右鍵功能模式」之方式。 另外，藉由三指Ρ卜Ρ2與Ρ3與觸控元件120以不同 ：? " 方式接觸，例如以其中二指按壓而一指移動，或是以一指 按壓而二指移動等組合，亦可在控制模組240中設定為上 述啟動「拖拉模式」、「左鍵功能模式」、「右鍵功能模式」、 「左鍵加Shift鍵功能模式」、「左鍵加Ctrl鍵功能模式」、 「捲動視窗模式」、「縮放視窗模式」與「縮放視窗内容模 式」之手勢。 雖然本實施例中的電子裝置200係以筆記型電腦作 說明，但本發明並不以此為限定。輸入裝置10亦可應用 17 200915131Second, the lion muscle. i vvj749PA finger P1 is used to maintain the touch element 120 at the second position T2, and the finger Ρ 2 is moved on the touch surface 120Α. Similarly, when the finger Ρ 2 moves to move the indicator outward in the window, the first signal S1 generated by the finger Ρ 2 moving on the touch surface 120 系 is an operation signal for enlarging the window content, and the object displayed in the window is enlarged. The window display range becomes smaller. When the finger Ρ 2 moves to move the indicator inward in the window, the first signal S1 generated by the movement of the finger Ρ 2 on the touch surface 120 为 is an operation signal for reducing the content of the window, and the displayed object is reduced and the range of the window is displayed. Become bigger. In addition to the different operation modes in which the touch element 120 is touched by the single finger Ρ 1 or the two fingers PI and Ρ 2 to activate the display unit 220, more operation modes can be generated by touching the touch element 120 with the multi-finger. For example, please refer to the 10th and 10th drawings, which show the intention of executing the right-click function mode with three fingers. In the control module 240, the three-finger PI, the Ρ2 and the Ρ3 can be set to touch the touch surface 120Α at the same time, and then the step of pressing the touch element 120 downwards is to start the “right-click function mode” of the display unit 220. In addition, by means of the three-finger Ρ 2 Ρ 2 and the Ρ 3 and the touch element 120, the contact is different, for example, by one finger pressing and one finger moving, or by one finger pressing and two fingers moving, etc. The control module 240 can be set to the above-mentioned "drag mode", "left button function mode", "right button function mode", "left button plus Shift key function mode", "left button plus Ctrl key function mode", " The gestures of scrolling window mode, zoom window mode, and zoom window content mode. Although the electronic device 200 in this embodiment is described by a notebook computer, the present invention is not limited thereto. The input device 10 can also be applied 17 200915131

)4QPA 於其他例如是桌上型電腦或一般行動裝置、PDA等可攜式 電子裝置中，以執行輸入的動作。另外，雖然輸入裝置10 是以觸控元件與感測元件搭配組合之簡易結構，然其於不 同手勢的操作下是可以準破地模擬多種輸入裝置之功 能，而具有啟動多種不同操作模式的特點。如此，使配備 有輸入裝置10之各種電子裝置具有更多的功能用途。 實施例二 r：- 請參照第11圖，其繪示依照本發明實施例二的輸入 裝置之示意圖。輸入裝置10’包括底座100’、觸控元件 120’、二個感測元件140’、142’與樞轴160’。觸控元件120’ 係藉由樞軸160’設置於底座100’上，如此觸控元件120’ 可相對於底座100’移動。感測元件140’、142’設置於觸控 元件120’之下方以感測觸控元件120’之狀態。感測元件 140’、142’設置於枢軸160’之二侧，如此一來，無論觸控 元件120’是順時針擺動或逆時針擺動，都會被感測元件 140’、142’感測到而產生訊號。 本實施例是以感測元件140’、142’直接接觸到觸控元 件120’之下表面120B’做說明。此類型的感測元件可以是 分段開關、觸鍵開關或微動開關等，其會因觸控元件120’ 向下移動直接被按壓到而產生訊號，然本發明並不以此為 限定。感測元件140’、142’亦可為壓力感測元件，如壓電 傳感器，或是為位移感測元件，如影像感應器等。 當觸控元件120’靜止於底座100’時，觸控元件120’ 18 2009151314QPA is used in other portable electronic devices such as desktop computers or general mobile devices, PDAs, etc. to perform input operations. In addition, although the input device 10 is a simple structure in which a touch element and a sensing element are combined and combined, the function of simulating a plurality of input devices can be pseudo-destroyed under different gestures, and has the characteristics of starting a plurality of different operation modes. . Thus, the various electronic devices equipped with the input device 10 have more functional uses. Embodiment 2 r: - Please refer to FIG. 11, which is a schematic diagram of an input device according to Embodiment 2 of the present invention. The input device 10' includes a base 100', a touch element 120', two sensing elements 140', 142' and a pivot 160'. The touch element 120' is disposed on the base 100' by a pivot 160' such that the touch element 120' can move relative to the base 100'. The sensing elements 140', 142' are disposed below the touch element 120' to sense the state of the touch element 120'. The sensing elements 140', 142' are disposed on two sides of the pivot 160', such that the sensing element 140', 142' is sensed regardless of whether the touch element 120' is clockwise or counterclockwise. Generate a signal. This embodiment is described with the sensing elements 140', 142' directly contacting the lower surface 120B' of the touch element 120'. The sensing element of this type may be a segment switch, a touch switch or a micro switch, etc., which will directly generate a signal due to the downward movement of the touch element 120', but the invention is not limited thereto. The sensing elements 140', 142' may also be pressure sensing elements, such as piezoelectric sensors, or displacement sensing elements such as image sensors. When the touch element 120' is stationary at the base 100', the touch element 120' 18 200915131

54QPA —-a/ u -»· *» —· X iv 係位於底座100’上之第一位置T1而呈現初始之第一狀 態。若物件OB於觸控面120A’上移動，觸控元件120’會 產生相應之第一訊號並傳送到電子裝置（未繪示）。當物 件OB按壓觸控元件120’使觸控元件120’逆時針擺動時， 由第一狀態轉換到第二狀態之觸控元件120’會直接按壓 到感測元件140’而產生第二訊號。此時，觸控元件120’ 例如是位於底座100’上之第二位置T2 (見第12A圖）。另 外，當觸控元件120’順時針擺動時，轉換到第三狀態之觸 控元件120’將按壓到感測元件142’而產生第三訊號。此 時，觸控元件120’例如是位在底座100’上之第三位置T3 (見第12B圖）。 由於觸控元件120’是經由被按壓的動作觸發感測元 件140’、142’，上述第二位置T2與第三位置T3較佳係位 於第一位置T1之下方，且第二位置T2與第三位置T3係 位於樞轴160’所處位置之二侧。當觸控元件120’擺動而觸 發感測元件140’、142’產生第二訊號與第三訊號時，係各 " 別啟動電子裝置不同之操作模式。另外，物件OB係可為 單根或多根手指，亦或是觸控筆。本實施例的物件OB是 以手指為例作說明。 請參照第12A、12B圖，其繪示實施例二以單指執行 不同操作模式之示意圖。如第12A圖所示，以手指P1按 壓觸控元件120’，使其左侧向下而右側向上移動時，觸控 元件120’的左侧會按壓到感測元件140’，使之產生第二訊 號；接著釋放觸控元件120’後，可視為啟動電子裝置一特 19 20091513154QPA —-a/ u —»· *» —· X iv is in the first position T1 on the base 100' and assumes the initial first state. If the object OB moves on the touch surface 120A', the touch element 120' generates a corresponding first signal and transmits it to an electronic device (not shown). When the object OB presses the touch element 120' to cause the touch element 120' to swing counterclockwise, the touch element 120' that is switched from the first state to the second state directly presses the sensing element 140' to generate a second signal. At this time, the touch element 120' is, for example, at a second position T2 on the base 100' (see Fig. 12A). In addition, when the touch element 120' is swung clockwise, the touch element 120' that transitions to the third state will press to the sensing element 142' to produce a third signal. At this time, the touch element 120' is, for example, at a third position T3 on the base 100' (see Fig. 12B). Since the touch element 120' triggers the sensing elements 140', 142' via the pressed action, the second position T2 and the third position T3 are preferably located below the first position T1, and the second position T2 and the second position The three position T3 is located on either side of the position where the pivot 160' is located. When the touch element 120' is swung to trigger the sensing elements 140', 142' to generate the second signal and the third signal, each of the " different operating modes of the electronic device is activated. In addition, the object OB can be a single or multiple fingers or a stylus. The object OB of this embodiment is described by taking a finger as an example. Please refer to FIG. 12A and FIG. 12B, which illustrate a schematic diagram of the second embodiment performing different operation modes with a single finger. As shown in FIG. 12A, when the touch element 120' is pressed by the finger P1 to move the left side downward and the right side upward, the left side of the touch element 120' is pressed to the sensing element 140', so that the first Second signal; after releasing the touch element 120', it can be regarded as activating the electronic device one special 19 200915131

—一 49PA 定操作模式之方式。由於前述按壓觸控元件120’左侧並釋 放觸控元件120’的手勢非常類似於點擊滑鼠左鍵的手 勢，因而可將第12A圖中，手指P1與觸控面120A’之接 觸方式指定為開啟「左鍵功能模式」之方式。 如第12B圖所示，當手指P1按壓觸控元件120’使其 右侧向下而左側向上移動時，觸控元件120’的右侧會按壓 到感測元件142’使之產生第三訊號。同樣地，前述按壓觸 控元件120’右側並釋放觸控元件120’的手勢非常類似於 ' 點擊滑鼠右鍵的手勢，因而可將第12B圖中，手指P1與 觸控面120A’之接觸方式指定為開啟「右鍵功能模式」之 方式。 當使用者以雙指操作時，藉由雙指與觸控元件120’ 之接觸方式，亦可設定電子裝置中其他的操作模式。請參 照第13A、13B圖，其繪示實施例二以雙指執行不同操作 模式之示意圖。如第13A圖所示，將雙指PI、P2併攏同 時按壓觸控元件120’的左侧，使觸控元件120’的左側向下 而右側向上移動時，感測元件140’會產生第二訊號並傳送 到電子裝置中，接著再釋放觸控元件120’使之回復到第一 位置T1。上述雙指PI、P2與觸控面120A’之接觸方式係 可被指定為開啟「左鍵加Ctrl鍵功能模式」之方式。 如第13B圖所示，分開雙指PI、P2 —段距離再按壓 觸控元件120’，使其左侧向下而右侧向上移動，之後再釋 放觸控元件120’。於雙指PI、P2同時按壓時，觸控元件 120’會感測雙指PI、P2之位置，且感測元件140’會產生 20— A way of operating the 49PA mode of operation. Since the gesture of pressing the touch element 120' on the left side and releasing the touch element 120' is very similar to the gesture of clicking the left mouse button, the contact manner between the finger P1 and the touch surface 120A' in FIG. 12A can be specified. To open the "Left Key Function Mode" mode. As shown in FIG. 12B, when the finger P1 presses the touch element 120' to move the right side downward and the left side upward, the right side of the touch element 120' presses the sensing element 142' to generate a third signal. . Similarly, the gesture of pressing the touch element 120' to the right and releasing the touch element 120' is very similar to the gesture of clicking the right mouse button, so that the contact between the finger P1 and the touch surface 120A' in FIG. 12B can be Specify the mode to enable the "right-click function mode". When the user operates with two fingers, other modes of operation in the electronic device can also be set by the contact of the two fingers with the touch element 120'. Please refer to FIG. 13A and FIG. 13B, which illustrate a schematic diagram of performing different operation modes with two fingers in the second embodiment. As shown in FIG. 13A, when the two fingers PI and P2 are pressed together and the left side of the touch element 120' is pressed, and the left side of the touch element 120' is moved downward and the right side is moved upward, the sensing element 140' generates a second. The signal is transmitted to the electronic device, and then the touch element 120' is released to return to the first position T1. The manner in which the two fingers PI, P2 and the touch surface 120A' are contacted can be designated as the "left button plus Ctrl key function mode" mode. As shown in Fig. 13B, the two-finger PI, P2-segment distance is further pressed to press the touch element 120' so that the left side is moved downward and the right side is moved upward, and then the touch element 120' is released. When the two fingers PI and P2 are simultaneously pressed, the touch element 120' senses the position of the two fingers PI, P2, and the sensing element 140' generates 20

49PA 200915131 第二訊號並傳送到電子裝置中，如此，電子裝置可判讀為 啟動一特定操作方式之手勢，其例如被指定為開啟「左鍵 加Shift鍵功能模式」之方式。 請參照第14A、14B圖，其繪示實施例二以雙指執行 拖拉模式之示意圖。手指P1先按壓觸控元件120’並使觸 控元件120’維持於第二位置T2處以產生第二訊號，另一 手指P2再觸碰觸控面120A’，並移動以產生第一訊號。當 手指P1按壓觸控元件120’時，觸控元件120’會感應手指 P1之位置，於下一瞬間第二訊號傳送到電子裝置後且觸控 元件120’會感應手指P2之位置，如此電子裝置可判讀為 啟動另一特定操作方式之手勢，其例如被指定為開啟「拖 拉模式」之方式。於此模式下，手指P2於觸控面120A’ 上之移動會對應執行拖拉動作。另外，類似於實施例一， 前述之手勢亦可被設定為開啟「捲動視窗模式」、「縮放視 窗模式」、或「縮放視窗内容模式」之方式。 請參照第15A、15B圖，其繪示實施例二以併攏雙指 執行捲動視窗内容模式之示意圖。雙指PI、P2併攏同時 按壓觸控元件120’的右侧，使觸控元件120’的右侧向下而 左侧向上移動時，除了觸控元件120’會感應雙指P1、P2 之位置外，感測元件142’產生第三訊號並傳送到電子裝置 後，電子裝置係可判讀為啟動「捲動視窗内容模式」之手 勢。接著便可移動手指P1或P2執行捲動視窗内容的動作。 請參照第16A、16B圖，其繪示實施例二以分開雙指 執行縮放視窗内容模式之示意圖。雙指PI、P2是分隔一 21 200915131The 49PA 200915131 second signal is transmitted to the electronic device. Thus, the electronic device can be interpreted as a gesture for initiating a specific mode of operation, which is, for example, designated as the "left button plus Shift key function mode" mode. Please refer to FIG. 14A and FIG. 14B, which illustrate a schematic diagram of the second embodiment in which the drag mode is performed by two fingers. The finger P1 first presses the touch element 120' and maintains the touch element 120' at the second position T2 to generate a second signal, and the other finger P2 touches the touch surface 120A' again and moves to generate the first signal. When the finger P1 presses the touch element 120', the touch element 120' senses the position of the finger P1, and after the second signal is transmitted to the electronic device at the next moment, the touch element 120' senses the position of the finger P2, such that the electronic The device can be interpreted as a gesture to initiate another particular mode of operation, which is for example designated as the manner in which the "drag mode" is turned on. In this mode, the movement of the finger P2 on the touch surface 120A' corresponds to the drag operation. In addition, similar to the first embodiment, the aforementioned gesture can also be set to open the "scroll window mode", "zoom window mode", or "zoom window content mode" mode. Please refer to FIG. 15A and FIG. 15B, which illustrate a schematic diagram of the second embodiment of the scrolling window content mode. When the two fingers PI and P2 are pressed together and press the right side of the touch element 120' to move the right side of the touch element 120' downward and the left side upward, the touch element 120' senses the positions of the two fingers P1 and P2. In addition, after the sensing component 142' generates the third signal and transmits it to the electronic device, the electronic device can be interpreted as a gesture of starting the "scrolling window content mode". Then, the finger P1 or P2 can be moved to perform the action of scrolling the window contents. Please refer to FIG. 16A, FIG. 16B, which illustrates a schematic diagram of the second embodiment of performing zooming the content mode of the window by separating the two fingers. Two fingers PI, P2 are separated by one 21 200915131

49PA 段距離再同時按壓觸控元件12〇，，使觸控元件12〇，的右側 向下而左侧向上移動時，除了觸控元件12〇，會感應雙指 pi、P2之位置外，感測元件142，產生第三訊號並傳送到 私子裝置後，電子裝置可根據雙指p丨、p2間的距離與第 三訊號，將前述手勢判讀為啟動「捲動視窗内容模式」之 手勢。接著’便可移動手指P1或P2執行縮放視窗内容的 動作。 本實施例二之輸入裝置10，可應用於電子裝置例如是 筆3己型電腦、行動裝置、或其他類型之可攜式電子裝置以 提供輸入的功能。 本發明上述實施例所揭露之輸入裝置及其操作方法 與應用其之電子裝置，係於輸人裝置巾裝設觸控S件與至 少-個感測7L件。感測元件用以感測觸控元件的狀態，並 於觸控元件的狀態改變時適時地輸出訊號。同時，電子裝 置會根據觸控it件與物件之接觸狀態去判斷啟動的操作 模式。由於物件與觸控元件的接觸狀態具有非常多的變 化’使電子裝置内部能夠設定的操作模式相對地 元。如此-來，電子裝置便具有更多的用途。 ，紅上所述，雖然本發明已以較佳實施例揭露如上，然 其並非用以限定本發明。本發明所屬技術領域巾且有通^ 知識者，在不脫離本發明之精神和範圍内，當可作各種之 更動與潤飾。因此’本發明之保護範圍當 利範圍所界定者為準。 月專 22 200915131When the distance between the 49PA segment and the touch element 12 is simultaneously pressed, the right side of the touch element 12 向下 is moved downward and the left side is moved upward, except for the touch element 12 〇, the position of the two fingers pi and P2 is sensed. After the third component signal is generated and transmitted to the private device, the electronic device can interpret the gesture as a gesture of starting the "scrolling window content mode" according to the distance between the two fingers p丨 and p2 and the third signal. Then, the action of zooming the window contents can be performed by moving the finger P1 or P2. The input device 10 of the second embodiment can be applied to an electronic device such as a pen-type computer, a mobile device, or other types of portable electronic devices to provide input functions. The input device and the operating method thereof and the electronic device using the same are used in the input device to install the touch S and at least one sensing 7L. The sensing component is configured to sense the state of the touch component and output a signal timely when the state of the touch component changes. At the same time, the electronic device determines the starting operation mode according to the contact state between the touch object and the object. Since the contact state of the object and the touch element has a very large change, the operation mode that can be set inside the electronic device is relatively horizontal. In this way, electronic devices have more uses. The invention has been described above by way of a preferred embodiment, and is not intended to limit the invention. It is to be understood that those skilled in the art can make various modifications and refinements without departing from the spirit and scope of the invention. Therefore, the scope of the invention is defined by the scope of the invention. Monthly special 22 200915131

二;I3EJT細WC · ivvjy49PA 【圖式簡單說明】 第1A圖繪示依照本發明實施例一的輸入裝置之示意 圖。 第IB、1C圖繪示第1A圖的觸控元件於不同狀態下 之示意圖。 第2A圖繪示感測元件直接設置於觸控元件下表面之 示意圖。 第2B圖繪示感測元件與觸控元件具有間隔之示意 圖。 第3A圖繪示依照本發明實施例一的電子裝置之示意 圖。 第3B圖繪示第3A圖電子裝置之電路方塊圖。 第3C圖繪示依照本發明實施例一的輸入裝置其操作 方法之流程圖。 第4A圖繪示以單指於觸控面上移動之示意圖。 第4B圖繪示以單指按壓觸控元件之示意圖。 ' 第5A、5B圖繪示以單指執行拖拉模式之示意圖。 第6A、6B圖繪示以雙指按壓觸控元件之示意圖。 第7A、7B圖繪示以雙指執行拖拉、捲動視窗、縮放 視窗或縮放視窗内容模式之示意圖。 第8A、8B圖繪示以併攏雙指執行捲動視窗模式之示 意圖。 第9A、9B圖繪示以分開雙指執行縮放視窗内容模式 之示意圖。 23 200915131 —' ί »τ-^^49ΡΑ 第10A、10B圖繪示以三指執行右鍵功能模式之示意 圖。 第11圖繪示依照本發明實施例二的輸入裝置之示意 圖。 第12A、12B圖繪示實施例二以單指執行不同操作模 式之不意圖。 第13A、13B圖繪示實施例二以雙指執行不同操作模 式之示意圖。 第14A、14B圖繪示實施例二以雙指執行拖拉模式之 示意圖。 第15A、15B圖繪示實施例二以併攏雙指執行捲動視 窗内容模式之示意圖。 第16A、16B圖繪示實施例二以分開雙指執行縮放視 窗内容模式之示意圖。 200915131 (ΑΟΡΔII; I3EJT Fine WC · ivvjy49PA [Schematic Description of the Drawing] Fig. 1A is a schematic view showing an input device according to the first embodiment of the present invention. Figures IB and 1C are schematic views showing the touch elements of Figure 1A in different states. FIG. 2A is a schematic view showing the sensing element directly disposed on the lower surface of the touch element. FIG. 2B is a schematic diagram showing the spacing between the sensing element and the touch element. Fig. 3A is a schematic view showing an electronic device according to a first embodiment of the present invention. FIG. 3B is a circuit block diagram of the electronic device of FIG. 3A. FIG. 3C is a flow chart showing the operation method of the input device according to the first embodiment of the present invention. FIG. 4A is a schematic diagram showing the movement of a single finger on the touch surface. FIG. 4B is a schematic view showing the pressing of the touch element with a single finger. '5A, 5B are schematic diagrams showing the drag mode with a single finger. 6A and 6B are schematic views showing the pressing of the touch element with two fingers. 7A, 7B are schematic diagrams showing the dragging, scrolling, zooming, or zooming window content mode with two fingers. Figs. 8A and 8B are diagrams showing the execution of the scroll window mode by the double fingers. 9A, 9B are schematic diagrams showing the scaling of the window content mode by separating the two fingers. 23 200915131 —' ί »τ-^^49ΡΑ Figures 10A and 10B show schematic diagrams of the right-click function mode with three fingers. Figure 11 is a schematic view of an input device in accordance with a second embodiment of the present invention. 12A and 12B illustrate the intention of the second embodiment to perform different operation modes with a single finger. 13A and 13B are schematic diagrams showing the operation modes of the second embodiment with two fingers. 14A and 14B are schematic views showing the second embodiment in which the drag mode is performed by two fingers. 15A and 15B are schematic diagrams showing the mode of scrolling the content of the scroll window by the two fingers in the second embodiment. 16A and 16B are schematic diagrams showing the mode of zooming the window content by the two fingers in the second embodiment. 200915131 (ΑΟΡΔ

-.xrt-mmjj/u ι，τ / Τ/i 厂X 【主要元件符號說明】 10、10’ ：輸入裝置 100、100’ ：底座 120、120’ ：觸控元件 120A、120A’ ：觸控面 120B、120B’ ：下表面 140、140’、142’ ：感測元件 160、160’ ：樞軸 f：-,, 171 :壓力感測元件 173 :位移感測元件 200 :電子裝置 220 :顯示單元 240 :控制模組 OB :物件 PI、P2、P3 :手指 S1 :第一訊號 d S2:第二訊號 T1 :第一位置 T2 :第二位置 T3 :第三位置 25-.xrt-mmjj/u ι,τ / Τ/i Factory X [Main component symbol description] 10, 10': Input device 100, 100': Base 120, 120': Touch elements 120A, 120A': Touch Faces 120B, 120B': lower surface 140, 140', 142': sensing elements 160, 160': pivot f: -,, 171: pressure sensing element 173: displacement sensing element 200: electronic device 220: display Unit 240: control module OB: object PI, P2, P3: finger S1: first signal d S2: second signal T1: first position T2: second position T3: third position 25

Claims (1)

200915131 4QPA —u 冬· · -^ ^ ~y i. r\. 十、申請專利範圍： 1. 一種輸入裝置，包括： 一底座； 一觸控兀件，設置於該底座上，該觸控元件具有一觸 控面’該觸控面用以與至少—物件接觸，使該觸控 以於至少-第一狀態與一第二狀態下產生—第一訊號以 輸出至一電子裝置；以及200915131 4QPA —u Winter · · ^ ^ ~ y i. r\. X. Patent application scope: 1. An input device comprising: a base; a touch device disposed on the base, the touch component Having a touch surface for contacting the at least one object such that the touch generates at least a first state and a second state to output the first signal to an electronic device; 一第一感測兀件，當該第一感測元件感測到該觸控元 件由該第一狀態轉換至該第二狀態時，該第— ς 據以產生一第二訊號，該第二訊號係輸出至該電子裝置了 其中，該電子裝置係根據該觸控面與該物件之一接觸 狀悲以及3亥第二訊號去啟動一操作模式，該觸控元件於該 操作模式下輸出之該第—訊號為該操作模式之操作訊號Γ 2.如申請專利範圍第i項所述之輸入裝置，其中"： 於該第一狀態下，該觸控元件係位於該底座上之一 一位置； 於°亥第二狀態下，該觸控元件係位於該底座上之一第 二位置，而該第二位置係位於該第一位置之下方。 3. 如申請專利範圍第2項所述之輸入裝置，其中該 接觸狀態係包括該物件觸碰該觸控面使該物件與該觸控 ' 弟接觸點’该物件並按壓該觸控元件，使該觸 控兀件維持停留於該第二位置處，並啟動該電子裝置之該 操作模式。 4. 如申請專利範圍第3項所述之輸入裝置，其中該 26 200915131 -·-- >49PA 操作模式係一左鍵功能模式或一右鍵功能模式。 5·如申請專利範圍第3項所述之 接觸狀態更包括於該觸控面上移 其中該 該第-訊號。 秒I亥弟接觸點以產生 6.如申請專利範圍第5項 操作模式係一拖拉模式。 翰入波置’其中該 接觸請專利範園第3項所述之輸入裝置，其中該 〜二=該物件觸碰該觸控面，使該物件與該觸控 /、有第—接觸點以產生該第一訊號。 操作專利範_、7項所述之輸入裝置，其中該 、、’、左鍵功此模式或一右鍵功能模式。 9.如申請專利範圍第7項所述之輸入裝置， =觸碰該觸控面係同時產生該第—接觸點及該第二接/ 摔作請專觀圍第9項所狀輸人裝置，其中該 ’、、式係—左鍵加Ctrl鍵功能模式。 U.如申請專利範圍第9項所述之輸入裝置，其中 呆作核式係-左鍵加Shift鍵功能模式。 ^ 12·如申請專利範圍第9項所述之輸入裝置，其中該 —接觸點及該第二接觸點係相隔一距離。 13. 如申請專利範圍第12項所述之輸入裝置，其中 桑作拉式係—左鍵加Ctrl鍵功能模式。 14. 如申請專利範圍第12項所述之輸入裝置，其中 以操作模式係—左鍵加Shift鍵功能模式。 27 200915131 二建嘛航· i wjy49PA i5.如中請專利範圍第12項所述之輸人裝置，里中 該接觸狀態更包括於該觸控面上移動該第二接觸點以 生該第一訊號。 如申請專利範圍第15項所述之輸入裝置，其中 該操作模式係一縮放視窗内容模式。 A如申請專利範㈣9項所述之輸入裝置，盆中士亥 接觸狀態更包括於該觸控面上移動該第二 該第一訊號。 。18.如申請專利範圍第17項所述之輸入裝置，其中 該操作模式係一捲動視窗模式。 19.如申請專利範圍第7項所述之輸入裝置，其中該 接觸狀態更包括該物件觸碰該觸控面使該物件與該觸控 面，有一第二接觸點以產生該第一訊號，且該第一、第二 及弟—接觸點係同時於該觸控面產生。 上。20.如申請專利範圍第19項所述之輸入裝置，其中 5亥操作模式係一右鍵功能模式。 21. 如申請專利範圍第7項所述之輸入裝置，其中該 接觸狀錢包括於該觸控面上移動該第二接觸點以產生 該第一訊號。 22. 如申請專利範圍第21項所述之輸入裝置，豆中 該操作模式係一拖拉模式。 /、 。23.如申請專利範圍第21項所述之輸入裝置，其中 該操作模式係—捲動視窗模式。 24.如申請專利範圍第21項所述之輸入裝置，其中 28 200915131 dQPA ' ·»*»»ί_/|7ΓΓΟ -JU li * · · — ·* ' y i»· 該操作模式係一縮放視窗模式。 25. 如申請專利範圍第21項所述之輸入裝置，其中 該操作模式係一縮放視窗内容模式。 26. 如申請專利範圍第2項所述之輸入裝置，更包括： 一第二感測元件，其中當該觸控元件由該第一狀態或 該第二狀態轉換至一第三狀態時，該第二感測元件係更據 以產生一第三訊號，該第三訊號係輸出至該電子裝置以啟 動該電子裝置之另一操作模式。 ' 27.如申請專利範圍第26項所述之輸入裝置，其中 於該第三狀態下，該觸控元件係位於該底座上之一第三位 置，而該第三位置係位於該第一位置之下方。 28. 如申請專利範圍第27項所述之輸入裝置，其中 該觸控元件係樞接於該底座上，該第二位置與該第三位置 係位於該枢接處之^一侧。 29. 如申請專利範圍第27項所述之輸入裝置，其中 於該另一操作模式下，該觸控元件係根據該觸控面與該物 ； 件之另一接觸狀態以輸出該第一訊號。 30. 如申請專利範圍第29項所述之輸入裝置，其中 該另一接觸狀態係包括該物件觸碰該觸控面並按壓該觸 控元件，使該觸控元件維持停留於該第三位置處，並啟動 該電子裝置之該另一操作模式。 31. 如申請專利範圍第30項所述之輸入裝置，其中 該另一操作模式係一左鍵功能模式或一右鍵功能模式。 32. 如申請專利範圍第1項所述之輸入裝置，其中該 29 200915131 —"〜,w‘〜,.49ΡΛ 第一感測元件係連接至該觸控元件之一下表面，該下表面 係相對於該觸控面。 ’如申请專利範圍第32項所述之輸入裝置，其中 °玄第一感測元件係包括至少一分段開關、一觸鍵開關或一 微動開關。 a ★ 34.如申請專利範圍第32項所述之輸入裝置，其中 5亥第一感測元件係包括至少一壓力感測元件，用以感測該 觸控元件所受之壓力。 ^ 3、5.如申請專利範圍第1項所述之輸入裝置，其中該 第=感測兀件係包括至少一位移感測元件，用以感測該觸 控元件之位移。 36. —種電子裝置，包括： 一顯示單元； 控制模組’係電性連接至該顯示單元；以及 一輸入裝置，係電性連接至該控制模組，並包括： ϋ n 一觸控元件，設置於該底座上，該觸控元件具 有觸控面，该觸控面用以與至少一物件接觸，使該觸控 ρ件據以於至少一第一狀態與一第二狀態下產生一第一 訊號以輸出至該控制模組；以及 一第一感測元件，當該第一感測元件感測到該 觸控元件由該第-狀態轉換至該第二狀態時，該第一感測 凡件係據以產生-第二訊號，該第二訊號係輸出至該控制 模組； 30 200915131 /49PA 狀離以、^龍組健據簡控面與該物件之一接觸 訊號以啟動一操作模式，該觸控元件於該 第一訊號為該操作模式之操作訊號。 、·= σ叫專利範圍第36項所述之電子裝置，其中. ，一狀態下，該觸控元件係位於該底座上之、一第 直， 二j該第二狀態τ，該觸控7^係位於該底座上之一第 ，而該第二位置係位於該第一位置之下方。 ^ 4申°月專利範圍第37項所述之電子穿晋，苴由 二Ξι:’”包括該物件觸碰該觸控面使該物件與該觸 ^ 弟—接觸點，該物件並按壓該觸控元件，使該 上兀件維持停留於該第二位 —X 該操作模式。 & I㈣鶴不早几之 該操二範圍第38項所述之電子裝置’其中 ' 、工”左鍵功能模式或一右鍵功能模式。 令接請專利範圍第38項所述之電子裝置，其中 2 更包括於該觸控面上移動該第—接觸點 玍5亥第一訊號。 展 該操二圍第40項所述之電子裝置’其中 节忭衩式係一拖拉模式。 兮垃a如申明專利範圍第38項所述之電子裝置，复中 ==包=件;碰該觸控面，使該物件與二 啕第一接觸點以產生該第一訊號。 43.如申請專利範圍第42項所述之電子裝置，其中 31 200915131 —迁綱机 * 1 該操作模式係-左鍵功能模式或—右鍵功能模式。 ^ 44.如申請專利範圍第42項所述之電子裝置，其令 該物件觸碰該觸控面係同時產生該第—接觸點及二 接觸點。 > 。45.如申請專利範圍第44項所述之電子裝置，其中 °亥操作換式係—左鍵加Ctrl鍵功能模式。 ^ 46.如申請專利範圍第44項所述之電子裝置，其 "亥操作杈式係一左鍵加Shift鍵功能模式。 二★ 47.如申請專利範圍第44項所述之電子裝置，其中 °亥第接觸點及該第二接觸點係相隔一距離。 。48.如申請專利範圍第47項所述之電子裝置，其 該才呆作模式係一左鍵加Ctrl鍵功能模式。 、 具中 ^ 49.如申請專利範圍第47項所述之電子裝置 5玄操作模式係一左鍵加Shift鍵功能模式。 λ 5〇.如申請專利範圍第47項所述之電子裝置，复中 狀態更包括於該觸控面上移動㈣二接觸㈣產 生該第一訊號。 51如申睛專利範圍第50項所述之電子裝置，其中該 才呆作模式係一縮放視窗内容模式。 '、^ 处如申請專利範圍第44項所述之電子裝置，复中 狀態更包括於該觸控面上移動該第二接觸點以 玍该弟一訊號。 200915131 —川丨峙外“ 49PA 54.如中請專利範圍第42項所述之電子裝置， 件觸碰該觸控面使該物件與該: 一 _弟一接觸點以產生該第一訊號，且該第—、第 二及第三接觸點係同時於該觸控面產生。 ^ 55.如申請專利範圍第50項所述之電子裝置，复 δ亥操作模式係一右鍵功能模式。 ^ 56.如申請專利範圍第42項所述之電子裝置，直 :接觸狀態更包括於該觸控面上移動該第二接觸點：產 生該第一訊號。 厓 57.如申請專利範圍第56項所述之電子裝置，其中 該操作模式係一拖拉視窗模式。 八 士。58.如申請專利範圍第兄項所述之電子裝置，其中 5亥操作模式係一捲動視窗模式。 59.如申請專利範圍第56項所述之電子裝置，其中 該操作模式係一縮放視窗模式。 上。60.如申請專利範圍第56項所述之電子裝置，其中 5亥操作模式係一縮放視窗内容模式。 上_ 61.如申請專利範圍第37項所述之電子裝置，其中 β輸入裝置更包括—第二感測元件，其中當該觸控元件由 該第狀態或該第二狀態轉換至一第三狀態時，該第二感 測兀件係更據以產生—第三訊號，該第三訊號係輸出至該 顯示單元以啟動該顯示單元之另一操作模式。 62.如申請專利範圍第61項所述之電子裝置，其中 於忒第二狀態下，該觸控元件係位於該底座上之一第三位 33 200915131 ~~--- Ϊ-9ΡΑ 置’而該第三位置係位於該第-位置之下方。 ^ 63.如申請專利範圍第幻項所述之電子裝置，其中 該觸控树係樞接於該底座上，二位 ς 係位於該樞接處之二侧。 弟—位置 、二64·如申請專利範圍第62項所述之電子裝置，其中 於°玄另—操作模式下’該觸控元件係根據該觸控面與該物 件之另—接觸狀態讀出該第-訊號。 、a first sensing component, when the first sensing component senses that the touch component is switched from the first state to the second state, the first signal generates a second signal, the second The signal is outputted to the electronic device, and the electronic device activates an operation mode according to the touch surface of the touch surface and the second signal of the object, and the touch element outputs the operation mode. The first signal is an operation signal of the operation mode. 2. The input device of claim i, wherein ": in the first state, the touch component is located on the base Position: In the second state of the second phase, the touch component is located at a second position on the base, and the second position is located below the first position. 3. The input device of claim 2, wherein the contact state comprises the object touching the touch surface to cause the object to contact the touch object and pressing the touch component. The touch device is maintained at the second position and the operating mode of the electronic device is activated. 4. The input device according to claim 3, wherein the 26 200915131 -·-- >49PA operating mode is a left key function mode or a right key function mode. 5. The contact state described in item 3 of the patent application scope further includes moving the first signal to the touch surface. Second I Haidi contact point to generate 6. As in the scope of patent application, the operating mode is a drag mode. The input device described in the third item of the Patent Fan Park, wherein the object touches the touch surface so that the object and the touch/have contact point The first signal is generated. The input device described in the patents _, 7 is operated, wherein the , , ', left button function mode or a right button function mode. 9. If the input device described in claim 7 is touched, the contact surface is touched and the first contact point and the second connection/fall are generated. , where the ', , the system - left button plus Ctrl key function mode. U. The input device of claim 9, wherein the core mode is left-key plus the Shift key function mode. The input device of claim 9, wherein the contact point and the second contact point are separated by a distance. 13. The input device according to claim 12, wherein the mulberry pull type-left key plus Ctrl key function mode. 14. The input device of claim 12, wherein the operating mode is a left key plus a Shift key function mode. 27 200915131 二建海航· i wjy49PA i5. The input device of claim 12, wherein the contact state further comprises moving the second contact point on the touch surface to generate the first Signal. The input device of claim 15, wherein the mode of operation is a zoomed window content mode. A. The input device of the patent application (4), wherein the contact state of the basin is further included on the touch surface to move the second first signal. . 18. The input device of claim 17, wherein the mode of operation is a scrolling window mode. The input device of claim 7, wherein the contact state further comprises that the object touches the touch surface such that the object and the touch surface have a second contact point to generate the first signal, And the first, second and younger-contact points are generated simultaneously on the touch surface. on. 20. The input device of claim 19, wherein the 5H operation mode is a right-click function mode. 21. The input device of claim 7, wherein the contact money comprises moving the second contact point on the touch surface to generate the first signal. 22. In the input device of claim 21, the mode of operation in the bean is a drag mode. /, . 23. The input device of claim 21, wherein the mode of operation is a scrolling window mode. 24. The input device according to claim 21, wherein 28 200915131 dQPA ' ·»*»» ί_/|7ΓΓΟ -JU li * · · — ·* ' yi»· The operation mode is a zoom window mode . 25. The input device of claim 21, wherein the mode of operation is a zoom window content mode. 26. The input device of claim 2, further comprising: a second sensing component, wherein when the touch component is switched from the first state or the second state to a third state, The second sensing component is further configured to generate a third signal that is output to the electronic device to initiate another mode of operation of the electronic device. 27. The input device of claim 26, wherein in the third state, the touch element is located in a third position on the base, and the third position is in the first position Below it. 28. The input device of claim 27, wherein the touch element is pivotally mounted to the base, the second position and the third position being located on a side of the pivotal connection. 29. The input device of claim 27, wherein in the another mode of operation, the touch component outputs the first signal according to another contact state of the touch surface and the object; . The input device of claim 29, wherein the other contact state comprises the object touching the touch surface and pressing the touch component to maintain the touch component in the third position And launching the other mode of operation of the electronic device. 31. The input device of claim 30, wherein the another mode of operation is a left button function mode or a right button function mode. 32. The input device of claim 1, wherein the 29 200915131 -"~, w'~,.49ΡΛ first sensing component is connected to a lower surface of the touch component, the lower surface system Relative to the touch surface. The input device of claim 32, wherein the first sensing element comprises at least one segment switch, a touch button switch or a micro switch. The input device of claim 32, wherein the first sensing element comprises at least one pressure sensing element for sensing the pressure applied to the touch element. The input device of claim 1, wherein the first sensing element comprises at least one displacement sensing element for sensing a displacement of the touch element. 36. An electronic device, comprising: a display unit; a control module is electrically connected to the display unit; and an input device electrically connected to the control module, and comprising: ϋ n a touch component The touch element has a touch surface for contacting the at least one object, so that the touch ρ is generated according to at least a first state and a second state. The first signal is output to the control module; and a first sensing component, when the first sensing component senses that the touch component is switched from the first state to the second state, the first sense The measurement unit generates a second signal, and the second signal is output to the control module; 30 200915131 /49PA is separated from the body, and the group is contacted with one of the objects to start a signal. In the operation mode, the touch component is the operation signal of the operation mode in the first signal. 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 ^ is located on one of the bases, and the second position is below the first position. ^ 4 The application of the electronic patent of the 37th paragraph of the patent range, the second ι: '" includes the object touching the touch surface to make the object and the touch point - the object and press the object The touch element maintains the upper member in the second position - X. The operation mode. & I (4) The crane does not have the operation of the electronic device 'where', the work left button Function mode or a right-click function mode. The electronic device of claim 38, wherein 2 further comprises moving the first contact point of the first contact point on the touch surface. The electronic device described in Item 40 of the above exercise is a throttling mode. In the electronic device of claim 38, the electronic device is in the middle of the invention, and the touch surface is touched to make the first contact point of the object and the second contact point to generate the first signal. 43. The electronic device of claim 42, wherein 31 200915131 - moving machine * 1 the operating mode is - left key function mode or - right key function mode. 44. The electronic device of claim 42, wherein the object touches the touch surface to simultaneously generate the first contact point and the second contact point. > . 45. The electronic device of claim 44, wherein the operating mode is a left key plus a Ctrl key function mode. ^ 46. The electronic device of claim 44, wherein the "Hai operation type is a left button plus a Shift key function mode. The electronic device of claim 44, wherein the °H contact point and the second contact point are separated by a distance. . 48. The electronic device of claim 47, wherein the mode of staying is a left button plus a Ctrl key function mode. 49. The electronic device described in claim 47 is a left-click plus Shift key function mode. λ 5〇. The electronic device of claim 47, wherein the intermediate state further comprises moving (4) two contacts (4) on the touch surface to generate the first signal. The electronic device of claim 50, wherein the mode of staying is a zoom window content mode. The electronic device of claim 44, wherein the intermediate state further comprises moving the second contact point on the touch surface to modulate the younger one signal. 200915131—the external electronic device of the above-mentioned Japanese Patent Application No. 42. The touch of the touch surface makes the object contact with the first contact signal to generate the first signal. And the first, second and third contact points are simultaneously generated on the touch surface. ^ 55. The electronic device according to claim 50, wherein the complex δ hai operation mode is a right-click function mode. The electronic device of claim 42, wherein the contact state further comprises moving the second contact point on the touch surface: generating the first signal. Cliff 57. As claimed in claim 56 The electronic device, wherein the mode of operation is a drag-and-drop mode. Eighth. 58. The electronic device as described in the patent application, wherein the 5H operation mode is a scroll window mode. The electronic device of claim 56, wherein the operating mode is a zoom window mode. The electronic device of claim 56, wherein the 5H operating mode is a zoom window content mode. _ 61. If you apply for a special The electronic device of claim 37, wherein the beta input device further comprises a second sensing component, wherein the second component is when the touch component is switched from the first state or the second state to a third state The measuring device is further configured to generate a third signal, the third signal being output to the display unit to activate another operating mode of the display unit. 62. The electronic device of claim 61, wherein In the second state of the second state, the touch component is located on a third position of the base 33 200915131 ~~--- Ϊ-9ΡΑ' and the third position is below the first position. ^ 63. The electronic device of claim 1, wherein the touch tree is pivotally connected to the base, and the two tethers are located on two sides of the pivot. The electronic device of claim 62, wherein the touch element reads the first signal according to another contact state of the touch surface and the object in the mode of operation. ^ 65.如申請專利範圍第64項所述之電子裝置，其中 °亥另—接觸I態係包括該物件觸碰該觸控面並按壓該觸 件’使朗控元件轉停留於該第三位置處，並啟動 0‘,、、員不單元之該另一操作模式。 二66.如申請專利範圍第65項所述之電子裝置，其中 /另操作核式係一左鍵功能模式或一右鍵功能模式。 67.、如申請專利範圍第36項所述之電子裝置，其中 感測元件係連接至該觸控元件之一下表面，該下表 面係相對於該觸控面。 如申請專利範圍第67項所述之電子裝置，其中 件係包括至少—分段開關、鍵開關或一 微動開關。 該μ 如申請專利範圍第67項所述之電子裝置，其中 感測元件係包括至少—壓力感測元件，用以感測該 觸控元件所受之壓力。 該第二如申請專利範圍第36項所述之電子裝置，其中 ^ 感测7°件係包括至少一位移感測元件，用以感測該 34 200915131 一u 49PA 觸控元件之位移。 雷子人裝置之操作方法，係用於輸入訊號至 電子裝置，該操作方法包括： a)提供 一訊號； 觸控元件用以與一物件接觸以產生一第 相= 第—感測元件感職觸控元件之狀態，於 ::ί 第一狀態轉換至-第二狀態時產生-第 (〇輸出該第二訊號至該電子裝置；以及 第-二=亥觸控元件與該物件之-接觸狀態以及該 二啟動該電子裝置之一操作模式，該觸控元件於 =_式下輸出之該第—訊號為該操作模式之一操作 料驟：月專利耗圍第71項所述之操作方法，其中 n:該物件與該觸控元件接觸產生該第一訊號。 料: 利麵第71項所述之操作方法，並中 於該觸控面上移動該第-接觸點以產生該第步驟替aH係 74.如申請專利範圍第71項所述之操 蝴該觸控元件使該物件與該二 面具有一弟一接觸點以產生該第二訊號。 兮第75=巾請專利㈣第74項所述之操作方法，其中 測元件係感測該觸控元件所受之堡力以產生： 35 200915131 lgpA —-i/J U *· · · — L **· 76. 如申請專利範圍第74項所述之操作方法，其中 該第一感測元件係感測該觸控元件之位移以產生該第二 訊號。 77. 如申請專利範圍第74項所述之操作方法，其中 於該步驟（c)中，該操作模式係一左鍵功能模式或一右 鍵功能模式。 78. 如申請專利範圍第74項所述之操作方法，其中 該步驟（d)之該接觸狀態更包括於該觸控面上移動該第 一接觸點以產生該第一訊號。 79. 如申請專利範圍第78項所述之操作方法，其中 該操作模式係一拖拉模式。 80. 如申請專利範圍第74項所述之操作方法，其中 該步驟（d)之該接觸狀態更包括該物件觸碰該觸控面而 具有一第二接觸點以產生該第一訊號。 81. 如申請專利範圍第80項所述之操作方法，其中 該操作模式係一左鍵功能模式或一右鍵功能模式。 J 82.如申請專利範圍第80項所述之操作方法，其中 於該步驟（d)中，該物件觸碰該觸控面係同時產生該第 一接觸點及該第二接觸點。 83. 如申請專利範圍第82項所述之操作方法，其中 該操作模式係一左鍵加Ctrl鍵功能模式。 84. 如申請專利範圍第82項所述之操作方法，其中 該操作模式係一左鍵加Shift鍵功能模式。 85. 如申請專利範圍第82項所述之操作方法，其中 36 200915131 '49PA 於該步驟（d)中，該第 一距離。 隔 接觸點及該第二接觸點係相 該操Γ模料鄉圍第85項所述之操作方法，其中 '、、式係一左鍵加Ctrl鍵功能模式。 該操二^請專利範圍第％項所述之操作方法，其中 ^ 、式係一左鍵加Shift鍵功能模式。 88.如申請專利範圍第85項 =狀態更包括於該觸控面上移動該;:二2 生該第一訊號。 接觸點以產 操作料·目第8 8賴述之操作料，其中节 '、乍拉式係一縮放視窗内容模式。 人 該步/料觀圍第82項所狀操料法，其中 —接觸點以產生該第一訊號。 部人务 如申請專利範圍第90項所述之操作方法，” η亥知作模式係一捲動視窗模式。 无/、中 兮牛=如申請專利範圍第8〇項所述之操作方法，发中 該:狀態更包括該物件觸碰該觸控面使 號，且該、第 ΐι第三接觸點以產生該第—訊 μ 及第二接觸㈣時於該觸控面產生。 該择作模專利範圍第92項所述之操作方法，其中 '、乍杈式係一右鍵功能模式。 於該m申請Λ利範圍第80項所述之操作方法，其中 ⑷中係以於該觸控面上移動該第二接觸點以 37 200915131 一疋棚爲…，，一49PA 產生該第一訊號。 95. 如申請專利範圍第94項所述之操作方法，其中 該操作模式係一拖拉視窗模式。 96. 如申請專利範圍第94項所述之操作方法，其中 該操作模式係一捲動視窗模式。 97. 如申請專利範圍第94項所述之操作方法，其中 該操作模式係一縮放視窗模式。 98. 如申請專利範圍第94項所述之操作方法，其中 該操作模式係一縮放視窗内容模式。 99. 如申請專利範圍第71項所述之操作方法，更包 括： (e)以一第二感測元件感測該觸控元件之狀態，當 該觸控元件由該第一狀態或該第二狀態轉換至一第三狀 態時，該第二感測元件更據以產生一第三訊號並輸出至該 電子裝置以啟動該電子裝置之另一操作模式。 100. 如申請專利範圍第99項所述之操作方法，其中 # 於該另一操作模式下，該觸控元件係根據該觸控面與該物 件之另一接觸狀態以輸出該第一訊號。 101. 如申請專利範圍第99項所述之操作方法，其中 該另一操作模式係一左鍵功能模式或一右鍵功能模式。 38The electronic device of claim 64, wherein the contact-contact I state comprises the object touching the touch surface and pressing the contact to cause the control element to stay in the third At the position, and start 0', the other mode of operation of the unit is not. 2. The electronic device of claim 65, wherein the operation mode is a left key function mode or a right key function mode. 67. The electronic device of claim 36, wherein the sensing component is coupled to a lower surface of the touch component, the lower surface being opposite the touch surface. The electronic device of claim 67, wherein the device comprises at least a segment switch, a key switch or a micro switch. The electronic device of claim 67, wherein the sensing component comprises at least a pressure sensing component for sensing the pressure experienced by the touch component. The electronic device of claim 36, wherein the sensing 7° component comprises at least one displacement sensing component for sensing the displacement of the 34 200915131-u 49PA touch component. The operation method of the Leiziren device is for inputting signals to the electronic device, and the operation method comprises: a) providing a signal; the touch component is used to contact an object to generate a phase = the first sensing element The state of the touch component is:: ί when the first state is switched to the second state - (the second signal is output to the electronic device; and the second - second touch component is in contact with the object) The state and the operation mode of the electronic device are activated, and the first signal outputted by the touch element in the __ mode is one of the operation modes: the operation method described in Item 71 of the monthly patent consumption Where n: the object is in contact with the touch element to generate the first signal. Material: The operation method described in Item 71 of the face, and moving the first contact point on the touch surface to generate the first step For the aH system 74. The touch element is as described in claim 71, such that the object has a contact point with the two masks to generate the second signal. 兮第75=巾请专利(四)第The operation method described in item 74, wherein the measuring component is sensing The operating force of the touch element is: 35 200915131 lgpA —-i/JU *· · · · L ** 76. The method of operation of claim 74, wherein the first sensing element Sensing the displacement of the touch element to generate the second signal. 77. The method of claim 74, wherein in the step (c), the operation mode is a left key function mode or The operating mode of the method of claim 74, wherein the contacting state of the step (d) further comprises moving the first contact point on the touch surface to generate the first signal 79. The method of operation of claim 78, wherein the mode of operation is a drag mode. 80. The method of operation of claim 74, wherein the contact state of the step (d) The method further includes: the object touches the touch surface and has a second contact point to generate the first signal. 81. The operating method of claim 80, wherein the operation mode is a left key function mode or A right-click function mode. The operation method of claim 80, wherein in the step (d), the object touches the touch surface to simultaneously generate the first contact point and the second contact point. The operation method of claim 82, wherein the operation mode is a left key plus a Ctrl key function mode. 84. The operation method of claim 82, wherein the operation mode is a left key The Shift key function mode is added. 85. The method of operation of claim 82, wherein 36 200915131 '49PA is in the step (d), the first distance. The contact point and the second contact point are the operation methods described in Item 85 of the mold material, wherein the ', , type is a left key plus a Ctrl key function mode. The operation method described in item % of the patent scope, wherein ^, the system is a left button plus a Shift key function mode. 88. If the application scope is in the 85th item, the state is further included in the touch surface; the second signal is the second signal. The contact point is the operating material of the operating material, and the section ', the pull type is a zoom window content mode. This step/material view of the method of the 82nd item, where - the contact point to generate the first signal. The Ministry of Personnel applies the operation method described in item 90 of the patent scope," η海知作模式 is a scrolling window mode. No /, medium yak = as described in the application scope of the patent application, In the event, the state further includes that the object touches the touch surface, and the third contact point is generated on the touch surface when the third contact point and the second contact (four) are generated. The operation method described in the 92th patent range, wherein 'the 乍杈 type is a right-click function mode. The m is applied to the operation method described in the 80th item of the profit-making range, wherein (4) is for the touch surface The first contact point is generated by moving the second contact point to 37, 200915131, and a 49PA generates the first signal. 95. The operation method of claim 94, wherein the operation mode is a drag window mode. The method of operation of claim 94, wherein the mode of operation is a scrolling window mode. 97. The method of operation of claim 94, wherein the mode of operation is a zoom window mode. 98. If applying for a patent The operating method of claim 94, wherein the operating mode is a zooming window content mode. 99. The operating method of claim 71, further comprising: (e) sensing a second sensing component Measuring the state of the touch component, when the touch component is switched from the first state or the second state to a third state, the second sensing component generates a third signal and outputs the signal to the electronic device. The operation mode of the device of claim 99, wherein the operation method of claim 99, wherein in the another operation mode, the touch component is based on the touch surface and the object The other mode of operation is to output the first signal. The operating method of claim 99, wherein the other mode of operation is a left button function mode or a right button function mode.