200841220 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種輸入裝置,尤甘曰 者之持握習性變更按鍵輸入功倉匕之滑種可依照使用 【先前技術】 隨著計算學·展,輪人妓 接著出現有峨、光電滑氣、無線上鼠ί ^然而’因應使用者的雜,這些料產品上的功能鍵 大夕設計給慣用右手的人使用;因而對於慣用左手的使 用者而έ,相當的不方便。目前市面上雖然有左 滑^品問世,但因其市場需求有限,因此這類產品= 於其他產品來説是選擇性較少’無法有效地達到經濟效于 益0 、習知解決方法之-,储由調節電财縣設定的 式,而將右手慣用滑鼠的功能鍵切換成左手慣用滑鼠方 式。而當慣用右手的使用者欲使用同一滑鼠時,=須 特意將滑鼠功能鍵切換成右手慣用滑鼠的方式,既耗昉 相當的不便。 因此,有必要提供一種可因應使用者握持習性,自 變更按鍵輸入功能的滑鼠。 哥 4DARFON06012TW.doc C06142 200841220 【發明内容】 於ί前Ϊ術的缺失,本發明於—方面提供—種輸入 性 :左手鼠除了符合人體工學之外’還能自動判斷 =手或右手的使用者,藉此達到自動切換成左手或右手 慣用滑鼠’讓產品的設計能有更多的變化與使用上的彈 • …本發明之另一方面在於提供一種輸入裝置,其依據感 測㈣感測結果,利用控制單元自動地決定輸入單元的^ 入功能’以符合使用者的習性。 於一實施例,本發明提供一種輸入裝置,包含··一主 體,此主體包含-控制單元、一第一輸入單元預設具有輸 =一第一指令的功能、及一第二輸入單元預設具有輸入一 第一指令的功能;以及至少一感測單元,設置於此主體 上,用以感測一使用者對主體之握持;其中控制單元依據 _ 感測單元的感測結果,決定是否改由此第一輸入單元具有 輸入第二指令的功能;而由此第二輸入單元具有輪入此第 一指令的功能。 於另一實施例,本發明揭示一種輸入裝置輸入指令的 方法,此輸入裝置包含一第一輸入單元預設為具有輸入一 第一指令的功能、一第二輸入單元預設為具有輸入一第二 指令的功能、以及至少一感測單元。此方法包含··利用此 至少一感測單元,感測一使用者對輸入裝置之握持;以及 4DARFON06012TW.doc C06142 6 200841220 依據此至少一感測單元之感測結果,決定是否改變由第一 輸入單元具有輸入第二指令的功能,而由第二輸入單元具 有輸入該第一指令的功能。 配合以下之較佳實施例之敘述與圖式說明,本發明之 目的、實施例、特徵、與優點將更為清楚。 【實施方式】 本發明揭示一種輸入裝置,可因應使用者握持習性, 自動變更按鍵輸入功能,以快速達成使用者需求。請參照 圖1A-1D,於一實施例,顯示本發明之輸入裝置示意圖。 於此實施例,本發明提供之輸入裝置係以滑鼠為例說明, 然而本發明可適用於任何需要辨識使用者握持習性而變 更按鍵功能的裝置。於此實施例,此輸入裝置為滑鼠,例 如有線滑鼠、無線滑鼠、光電滑鼠、有線光電滑鼠、無線 光電滑鼠等等。此輸入裝置包含主體1以及至少一感測單 • 元31、32。主體1包含控制單元40、第一輸入單元21以 及第二輸入單元22。第一輸入單元21預設具有輸入第一 指令的功能;而第二輸入單元22預設具有輸入第二指令 的功能。舉例而言,當此滑鼠預設為右手慣用滑鼠時,輸 入單元21用以輸入的第一指令包含標準選擇指令及標準 拖曳方式指令;而輸入單元22用以輸入的第二指令包含 範圍功能表指令及特殊拖曳方式指令。第一輸入單元21 與第二輸入單元22位於主體1之上表面兩侧,並相對而 置。 4DARFON06012TW doc C06142 7 200841220 請參考圖1A及1C,於實施例係運用兩個感測單元 31、32,其分別設於主體1之左右兩侧並靠近主體1之前 部。感測單元31、32可包含溫度感測器、壓力感測器或 光線感測器’係用以感測使用者對主體1之握持。 請芩考圖1D,係圖1Β所示之滑鼠沿著αα面之剖面 圖。控制單元40係設置於主體1内部,且控制單元4〇一 端與感測單元31、32訊號連接。控制單元4〇係依據感測 單元31、32的感測結果,決定是否改變第一輸入單元以 及第二輸入單元22之指令輸入功能。此外,輸入裝置更 包含一啟動裝置50(見圖1D),係設置於主體ι(例如主體工 底部),供使用者選擇啟動裝置50的狀態,以決定是否啓 動變更第一輸入單元21及第二輸入單元22之輸入指令功 能。舉例而言,控制單元40之另一端與啓動裝置5〇連接, 用以接收啓動裝置50的狀態。在一較佳實施例中,當啓 動裝置50為開時,控制單元4〇可依據感測單元31、32 的感測結果,決定是否變更第一輸入單元21及第二輸入 單疋22之輸入功能。而當啓動裝置5〇為關時,控制單元 '不具有變更第-輸入單元2!及第二輸入單元22之輸入 功旎的作用。在此需注意,啓動裝置5〇為選擇性設置且 其^態可由使用者鋪,以方便使用者自行決定此輸入裝 置是否需發揮即時因應使用者握持而變更功能鍵的作、 用。以下將以啓動裝置5〇的狀態為開作說明。 4DARFON06012TW doc C06142 8 200841220 由於長期養成之習性,人們喜好藉由食指執行 - 擇指令及標準拖戈方式指令,而藉由中指執行範圍工:能表 指令及特殊拖曳方式指令。請參照圖2,當一左手慣用使 用者持握圖1B所示之右手慣用滑鼠時,使用者之^指將 觸及第二輸入單元22,中指將觸及第一輸入單元21。此 時若不變更第一及第二輸人單元21、22之輸入指令功能, 則極易輸入錯誤指令。假設感測單元31、32係一溫度减 測器時,使用者之無名指9將觸動左前侧之感測單元, 由於人體溫度與環境中之滑鼠溫度有差別,此時感測單元 31感測到溫度變化而產生一感測訊號;而主體丨右前側之 感測單元32因無手指觸動而感測不到溫度變化而無感測 訊號。此時感測單元31將感測訊號傳送給主體1内部之 控制單元40,控制單元4〇根據此訊號決定將第一輸入單 元21變更為具有輸入第二指令的功能,並將第二輸入單 元22變更為具有輸入第一指令的功能。亦即,使用者可 藉由食指而執行標準選擇指令及標準拖曳方式指令,可藉 由中指而執行範圍功能表指令及特殊拖曳方式指令,最終 將此滑鼠自動切換成適合於左手慣用使用者,而不需要人 工特別調節相應程式即可達到切換功能鍵的目的。 請參照圖3,當一右手慣用使用者持握圖1B所示之 滑鼠時’若感測單元31、32係一溫度感測器時,使用者 之無名指9將觸動右前側之感測單元32,此時感測單元 4DARFON06012TW doc C06142 9- 200841220 32將感測到溫度變化而有感測訊號;主體〗左前侧之咸測 單兀31因無任何觸動而感測不到溫度變化而無感測訊 號。此時感測單元32將感測訊號傳送給主體〗内部^控 制單元40,控制單元4〇根據此訊號而不變更第一輸入單 兀21以抑及第二輸入單元22之輸入指令的功能,因而,第 一輸入單元21仍具有輸入第一指令的功能(亦即標準選擇 指令及標準拖戈方式指令),第二輸入單元22具有輸入第 二指令的功能(亦即範圍功能表指令及特殊拖曳方式指 令),因此此滑鼠仍係適合右手慣用使用者之滑鼠。 若感測單元31、32係一壓力感測器時,同樣,參見 圖Γ一當一左手慣用使用者持握滑鼠時,主體1左前侧感 測,元31文使用者無名指9之壓迫,感測單元將感測 到,迫甙號,感測單元32將感測不到壓迫訊號,此時感 測單元31將感測訊號傳送給主體丨内部之控制單元恥, ,決定,第一輪入單元21變更為具有輸入第二指令的功 能,將第二輸入單元22變更為具有輸入第一指令的功能, 從而實現本發崎鼠自㈣換輸人指令之功能 。同理,若 右手慣用使用者持握此滑鼠時,控制單元4〇將不變更第 一輸入單元21與第二輸入單元22之輸入指令功能。 同理,感測單元31、32係光線感測器,控制單元4〇 ί可^據_單元31、32細⑽光線多寡,決定是否 艾更第一輸入單元21與第二輸入單元22之輸入指令功 4DARFON06012TW doc C06142 200841220 能,進而實現滑鼠自動切換輸入指令之功能,於此不再贅 述。 再者,感測單元31、32可為相同類型或不同類型的 感測器,包含但不限於例如溫度感測器、壓力感測器、光 線感測器,或者其他任意組合。 請參照圖4,顯示本發明另一實施例之滑鼠組成結構 示意圖。此實施例與圖1A-1D之實施例不同之處在於,僅 設置一感測單元31於主體i的左前侧。當一左手慣用使 用者持握滑鼠時,其無名指將致動感測單元31,使得感測 單元31感測到一訊號,而控制單元將依此感測結果變 更第一輸入單元21與第二輸入單元22之輸入指令功能, 最終將滑鼠自動切換成適合左手慣甩使用者來使用。當一 右手t貝用使用者持握滑鼠時,由於感測單元31並無感測 訊號’控制單元40將不變更第一輸入單元21與第二輸入 單元22之輸入指令功能因而此滑鼠仍係一右手慣用滑鼠。 請麥照圖5A-5C,顯示本發明又一實施例之滑鼠組成 結構示意圖。此實施例與圖1A-1D之實施例不同之處在 於,係包含四個感測單元31、32、33、34。感測單元31、 32分別设於主體1之左右兩侧並靠近主體1之前部,感測 單元33、34分別設於主體〗之左右兩侧並靠近主體1之 後部。感測單元31、32、33、34分別隨意包含溫度感測 4DARFON06012TW.doc C06142 11 200841220 器、壓力感測器或光線感測器之其一。 請參照圖6,當-左手慣用使用者持握圖5B所示預 設為右手慣狀滑H個者之食細及第二輸入單元 22,^指觸及第一輸入單元21,無名指9將觸動左前侧之 感測單元31,使用者之大拇指8將觸動右後侧之感測單元 34,而右前感測單元32未被使用者觸動。此時感測單元 31、34將感測訊號傳送給主體1内部之控制單元4〇。控 制單元40依據接收自不同感測單元(例如31、34)的感測 訊號,而將第一輸入單元21變更為具有輸入第二指令的 功能,並將第二輸入單元22變更為具有輸入第一指令的 功能。從而,將此滑鼠自動切換成左手慣用滑鼠,不需要 人工特意調節相應程式而切換成適合左手慣用使用者。並 且此實施例藉由感測單元31、34之感測訊號以及感測單 元32無感測訊號,加強提升滑鼠自動切換功能鍵之準確 性’而不會受使用者不小心觸動感測單元而引起自動切換 滑鼠之誤動作。同理,當一右手慣用使用者持握此滑鼠 時,感測單元32、33將感測訊號傳送給主體1内部之控 制單元40,而感測單元31無感測訊號,從而控制單元4〇 決定不變更第一輸入單元21及第二輸入單元22之輸入指 令功能。 圖7顯示本發明之輸入裝置輸入指令的方法之流程 圖。於一實施例,係說明依據感測訊號決定是否切換之流 麵·d〇c 12 200841220 程圖,以便使本剌的精神得以更容易被 始於步驟_,持握右手慣用滑鼠之主體丨。在=開 :,判斷感測單元31、32、33(若有時)、3= ,否有感測訊號。若感測單元3卜34 (若有時)_丄 :虎,在步驟604中,控制單元4〇變更第—輪入單元幻盘 第二輸入單元22讀人齡魏,從 气、 到减在步驟604中,控制單元4〇不變 元^车與第二輸入單元22之輸入指令功能,則此滑ΐ仍Ϊ 一右手慣用滑鼠。 月_马 一=:或右手的使用者’利用控制單元自動地決 70的輸人功能,藉此達到自胸域左手或右手 !·貝用h鼠,誠品的設計能更增加朗上的彈性。 上述之實施例_以描述本發明,然本發明技術仍可 有許多之修改與變化。因此,本發不限於以上特定實 施例的描述’本發_申請侧細係欲包含所有此類修 改與變化,雜真正符合本發明之精神與範圍。 【圖式簡單說明】 圖 圖1A-1D顯示本發明一實施例之滑鼠組成結構示意 =;〇_〇1觀doc 16 200841220 圖2顯示圖1所 圖3顯示之—使用狀態示意圖; 圖200841220 IX. Description of the invention: [Technical field of the invention] The present invention relates to an input device, and the gripping habit of a key changer of a key changer can be used according to the prior art. Exhibition, the wheelman then appeared 峨, photoelectric slippery, wireless mouse ί ^ However, in response to the user's miscellaneous, the function keys on these materials are designed for the right-handed person; thus for the left-handed use It’s quite inconvenient. Although there are left-handed products on the market, due to their limited market demand, such products = less selective in other products, 'can not effectively achieve economic benefits, and the solution to the problem-- The storage is adjusted by the mode set by the electric power county, and the function key of the right-handed mouse is switched to the left-hand conventional mouse mode. When a right-handed user wants to use the same mouse, the method of switching the mouse function key to the right-handed mouse is particularly inconvenient. Therefore, it is necessary to provide a mouse that can change the key input function in response to the user's grip habit.哥 4DARFON06012TW.doc C06142 200841220 [Summary] In the absence of ί , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , In order to achieve automatic switching to a left- or right-handed mouse, the design of the product can be more varied and used. • Another aspect of the present invention is to provide an input device that is based on sensing (four) sensing. As a result, the control unit automatically determines the input function of the input unit to conform to the user's habit. In one embodiment, the present invention provides an input device comprising: a main body, the main body includes a control unit, a first input unit preset having a function of outputting a first command, and a second input unit preset Having a function of inputting a first instruction; and at least one sensing unit is disposed on the main body for sensing a user's grip on the main body; wherein the control unit determines whether the sensing unit is based on the sensing result of the sensing unit Thus, the first input unit has the function of inputting the second instruction; and thus the second input unit has the function of rotating the first instruction. In another embodiment, the present invention discloses a method for inputting an input command by an input device. The input device includes a first input unit preset to have a function of inputting a first command, and a second input unit preset to have an input first. The function of the two instructions, and at least one sensing unit. The method includes: using the at least one sensing unit to sense a user's grip on the input device; and 4DARFON06012TW.doc C06142 6 200841220, according to the sensing result of the at least one sensing unit, determining whether to change by the first The input unit has a function of inputting a second instruction, and the second input unit has a function of inputting the first instruction. The objects, embodiments, features, and advantages of the present invention will become more apparent from [Embodiment] The present invention discloses an input device that can automatically change a key input function in response to a user's grip habit to quickly achieve user requirements. Referring to Figures 1A-1D, in an embodiment, a schematic diagram of an input device of the present invention is shown. In this embodiment, the input device provided by the present invention is exemplified by a mouse. However, the present invention is applicable to any device that needs to recognize the user's grip habit and change the function of the button. In this embodiment, the input device is a mouse, such as a wired mouse, a wireless mouse, an optical mouse, a wired optical mouse, a wireless optical mouse, and the like. The input device includes a main body 1 and at least one sensing unit 31, 32. The main body 1 includes a control unit 40, a first input unit 21, and a second input unit 22. The first input unit 21 is preset to have a function of inputting a first instruction; and the second input unit 22 is preset to have a function of inputting a second instruction. For example, when the mouse is preset as a right-handed mouse, the first instruction input by the input unit 21 includes a standard selection instruction and a standard drag mode instruction; and the second instruction input by the input unit 22 includes a range. Menu instructions and special drag mode commands. The first input unit 21 and the second input unit 22 are located on opposite sides of the upper surface of the main body 1, and are opposed to each other. 4DARFON06012TW doc C06142 7 200841220 Referring to Figures 1A and 1C, in the embodiment, two sensing units 31, 32 are provided, which are respectively disposed on the left and right sides of the main body 1 and adjacent to the front portion of the main body 1. The sensing units 31, 32 may include a temperature sensor, a pressure sensor or a light sensor' for sensing the user's grip on the body 1. Please refer to Figure 1D, which is a cross-sectional view of the mouse shown in Figure 1 along the αα plane. The control unit 40 is disposed inside the main body 1, and the control unit 4 is connected to the sensing unit 31, 32 by a signal. The control unit 4 determines whether to change the command input function of the first input unit and the second input unit 22 according to the sensing results of the sensing units 31, 32. In addition, the input device further includes an activation device 50 (see FIG. 1D) disposed on the main body ι (eg, the bottom of the main body) for the user to select the state of the activation device 50 to determine whether to initiate the change of the first input unit 21 and the The input command function of the two input unit 22. For example, the other end of the control unit 40 is connected to the activation device 5A for receiving the state of the activation device 50. In a preferred embodiment, when the activation device 50 is on, the control unit 4 determines whether to change the input of the first input unit 21 and the second input unit 22 according to the sensing result of the sensing unit 31, 32. Features. When the starting device 5 is off, the control unit ' does not have the function of changing the input function of the first input unit 2! and the second input unit 22. It should be noted that the starting device 5 is selectively set and can be laid by the user, so that the user can decide whether the input device needs to change the function key in response to the user's grip. Hereinafter, the state of the starting device 5A will be described as an explanation. 4DARFON06012TW doc C06142 8 200841220 Due to the long-term cultivation habits, people prefer to use the index finger to execute instructions and standard drag-and-drop instructions, while the middle finger performs range work: can be commanded and special drag-and-drop instructions. Referring to FIG. 2, when a left-handed user holds the right-handed mouse shown in FIG. 1B, the user's finger will touch the second input unit 22, and the middle finger will touch the first input unit 21. In this case, if the input command functions of the first and second input units 21 and 22 are not changed, it is easy to input an error command. Assuming that the sensing unit 31, 32 is a temperature damper, the user's ring finger 9 will touch the sensing unit on the left front side. Since the temperature of the human body is different from the temperature of the mouse in the environment, the sensing unit 31 senses at this time. A sensing signal is generated when the temperature changes, and the sensing unit 32 on the right front side of the main body senses no temperature change and no sensing signal because there is no finger touch. At this time, the sensing unit 31 transmits the sensing signal to the control unit 40 inside the main body 1. The control unit 4 determines to change the first input unit 21 to have the function of inputting the second instruction according to the signal, and the second input unit 22 is changed to have the function of inputting the first instruction. That is, the user can execute the standard selection command and the standard drag mode command by the index finger, and can execute the range function table command and the special drag mode command by the middle finger, and finally automatically switch the mouse to be suitable for the left-handed user. The purpose of switching function keys can be achieved without the need to manually adjust the corresponding program. Referring to FIG. 3, when a right-handed user holds the mouse shown in FIG. 1B, if the sensing unit 31, 32 is a temperature sensor, the user's ring finger 9 will touch the sensing unit on the right front side. 32, at this time, the sensing unit 4DARFON06012TW doc C06142 9- 200841220 32 will sense the temperature change and have the sensing signal; the main part of the left front side of the salt meter 31 does not sense any temperature change without feeling Test signal. At this time, the sensing unit 32 transmits the sensing signal to the main body control unit 40, and the control unit 4 does not change the first input unit 21 according to the signal to suppress the function of the input instruction of the second input unit 22. Therefore, the first input unit 21 still has the function of inputting the first instruction (that is, the standard selection instruction and the standard drag mode instruction), and the second input unit 22 has the function of inputting the second instruction (that is, the range function table instruction and the special The drag mode command), so this mouse is still suitable for the right-handed user's mouse. If the sensing unit 31, 32 is a pressure sensor, similarly, when referring to the figure, when the left hand is used by the user to hold the mouse, the left front side of the main body 1 senses, and the user of the user's ring finger 9 is pressed. The sensing unit will sense that the sensing unit 32 will not sense the compression signal. At this time, the sensing unit 31 transmits the sensing signal to the control unit inside the main body, shame, determining, the first round The entry unit 21 is changed to have the function of inputting the second command, and the second input unit 22 is changed to have the function of inputting the first command, thereby realizing the function of the squirrel (4) replacement command. Similarly, if the right-handed user holds the mouse, the control unit 4 will not change the input command function of the first input unit 21 and the second input unit 22. Similarly, the sensing units 31 and 32 are light sensors, and the control unit 4 determines whether the input of the first input unit 21 and the second input unit 22 is the same. Command function 4DARFON06012TW doc C06142 200841220 can, in turn, realize the function of automatically switching the input command of the mouse, and will not be described here. Furthermore, the sensing units 31, 32 can be the same type or different types of sensors, including but not limited to, for example, temperature sensors, pressure sensors, light sensors, or any other combination. Referring to Figure 4, there is shown a schematic diagram of the structure of a mouse according to another embodiment of the present invention. This embodiment differs from the embodiment of Figs. 1A - 1D in that only one sensing unit 31 is provided on the left front side of the main body i. When a left-handed user holds the mouse, the ring finger will actuate the sensing unit 31, so that the sensing unit 31 senses a signal, and the control unit changes the first input unit 21 and the second according to the sensing result. The input command function of the input unit 22 finally automatically switches the mouse to be suitable for the left-handed user. When a right hand t is held by the user, since the sensing unit 31 does not sense the signal 'the control unit 40 will not change the input command function of the first input unit 21 and the second input unit 22, the mouse Still a right-handed mouse. Referring to Figures 5A-5C, there is shown a schematic diagram of the structure of a mouse according to still another embodiment of the present invention. This embodiment differs from the embodiment of Figures 1A-1D in that it comprises four sensing units 31, 32, 33, 34. The sensing units 31 and 32 are respectively disposed on the left and right sides of the main body 1 and adjacent to the front portion of the main body 1. The sensing units 33 and 34 are respectively disposed on the left and right sides of the main body and close to the rear of the main body 1. The sensing units 31, 32, 33, 34 respectively include one of temperature sensing 4DARFON06012TW.doc C06142 11 200841220, a pressure sensor or a light sensor. Referring to FIG. 6, when the left-handed user holds the food thinner and the second input unit 22 preset as the right-handed H-sliding as shown in FIG. 5B, the finger touches the first input unit 21, and the ring finger 9 will be touched. In the sensing unit 31 on the left front side, the thumb 8 of the user will touch the sensing unit 34 on the right rear side, and the right front sensing unit 32 is not touched by the user. At this time, the sensing unit 31, 34 transmits the sensing signal to the control unit 4A inside the main body 1. The control unit 40 changes the first input unit 21 to have the function of inputting the second instruction according to the sensing signals received from the different sensing units (eg, 31, 34), and changes the second input unit 22 to have the input The function of an instruction. Therefore, the mouse is automatically switched to the left-handed mouse, and it is not necessary to manually adjust the corresponding program to switch to the left-handed user. In this embodiment, the sensing signals of the sensing units 31 and 34 and the sensing unit 32 have no sensing signals, and the accuracy of the automatic mouse function switching function key is enhanced, and the sensing unit is not accidentally touched by the user. And cause the automatic switching of the mouse's malfunction. Similarly, when a right-handed user holds the mouse, the sensing unit 32, 33 transmits the sensing signal to the control unit 40 inside the main body 1, and the sensing unit 31 has no sensing signal, so that the control unit 4 It is determined that the input command functions of the first input unit 21 and the second input unit 22 are not changed. Fig. 7 is a flow chart showing a method of inputting an instruction to an input device of the present invention. In an embodiment, it is explained whether the flow surface of the switch is determined according to the sensing signal, so that the spirit of the present is easier to start from the step _, holding the right hand of the mouse. . At = on :, it is judged that the sensing units 31, 32, 33 (if any), 3 =, there is a sensing signal. If the sensing unit 3 34 (if any) _ 丄: tiger, in step 604, the control unit 4 〇 changes the first wheel input unit, the second input unit 22 reads the age of Wei, from gas, to subtract In step 604, the control unit 4 inputs the command function of the unchanging element and the second input unit 22, and the slider is still a right-handed mouse. Month _ Ma Yi =: or right-handed user's use of the control unit to automatically determine the input function of 70, thereby reaching the left or right hand from the chest field! · With the mouse, Eslite's design can be further increased elasticity. The above-described embodiments are described to describe the present invention, and many modifications and variations of the present invention are possible. Therefore, the present invention is not limited to the description of the specific embodiments described above. The present invention is intended to cover all such modifications and variations, which are in accordance with the spirit and scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A to FIG. 1D are diagrams showing the structure of a mouse according to an embodiment of the present invention; 〇 〇 〇 1 doc 16 200841220 FIG. 2 is a schematic view showing the state of use shown in FIG.
圖4顯示本二j之另-使用狀態示意圖; X乃另一貝施例之滑鼠之使用狀態示意 圖 5A_5C + 士炊 意圖 • 4不本發明又一實施例之滑鼠組成結構示 y 圖6顯二圖5B所示滑鼠之-使用狀態示意圖; 圖7顯示本發明滑鼠感測訊號並決定是否切換之流程 【主要元件符號說明】 1 主體 8 大拇指 9 無名指 21第一輸入單元 22第二輸入單元 • 31、32、33、34感測單元 40控制單元 50啓動裝置 4DARFON06012TW.doc C06142 14Fig. 4 is a view showing the other state of use of the present invention; X is a schematic diagram of the state of use of the mouse of another embodiment of the present invention. 5A_5C + gentry intentions 4: The structure of the mouse is not shown in another embodiment of the present invention. Figure 2 shows the mouse-using state diagram shown in Figure 5B; Figure 7 shows the mouse sensing signal of the present invention and determines whether the switching process [main component symbol description] 1 main body 8 thumb 9 ring finger 21 first input unit 22 Two input unit • 31, 32, 33, 34 sensing unit 40 control unit 50 starting device 4DARFON06012TW.doc C06142 14