五、新型說明: ' 【新型所屬之技術領域】 本創作係㈣於—㈣控器,特別是指—種多功能 的遙控輸入裝置》 【先前技術】 按,隨著科技發展的突飛猛進及人輯更高生活品質的 追求,係發展出許多的電子產品,而為了使電子產品能發揮最 大的效此所以各式各樣具遠端功能的遙控器便應運而生,但 現今之遙控器僅僅只是在傳輪信號上作改良,除此之外遙控号 並無其他姐,麟㈣之基本舰已無法滿足現代人在電 子產。。上的^要’且遙控II亦僅能對專躲電進行控制,但現 今資訊家電_酬^__,聯代來臨,所以後續電 視螢幕的設計皆無有錄輸入介面方向魏,可供各種輸入 =備(如料辆播奸、較鮮、攝韻、树雜接收 為或數位電視接收H物及處理設備(如電腦确連接使 用,使輸入設備與處理設備可共同使用一個螢幕,減少佔用空 間擺設之問題’但輸人設備之遙㈣與處理設備之鍵盤有很大 2同,因為-般輸人設備之遙控器只具有複數功能按鍵(如 音®切換、選台切換、播放或快轉等),而處理設備之鍵盤則 必須是可供使用者輸人文字、數字或符鮮之㈣,以及進行 游標移動選擇之滑鼠。 所以輸入設備與處理設備共用—個螢幕時,因為遙控器 無法同時具有文字、數字或符號等輸入及游標移動選擇之功 能,所以產生桌面分別置放有遙控器、滑鼠及鍵盤之情形出 現,進而造成使用上的不方便性。 然而,-般滑鼠及_皆為有_式,f _傳輪線與 處理設備進行連接’但會受到傳輸線長度之闕,所以使用者 與處理設備之_轉,無法軸輕錄遠的輯,而如果 滑鼠及鍵盤使用無線型式的話,又會因為價格昂f,進 消費者的使用成本。 9 木引介人逐以其多年從事電腦鍵盤之製 及設計實務驗,而·研紐良,並⑽:欠實物樣品努纽 測試’進崎财良料紐器之上躲點,終蚊 【新型内容】 作 口此本創作的目的係在於解決上述問題而提俾一 種可切換不同模式,以遙控” 輸入裝置。 nt子“的#功能遙控 τπ π你抆出一楂遙控輸 衣置’包括:―本體,係大致呈手握式遙控器結構. 若干按鍵區塊,設置在該本體上,且各職鍵區塊且有 若干相對應不同圖案或字元功能的按鍵;-控制機 構’其係部分外露地設置在該本體内,包含有相互 電性連接的一切換開關 '一彳 k制早兀、一指標控制 杻組、-紅外線n „無線射頻模組、—藍芽模 M403851 組及一雷射光發射模組,該切換開關係控制切換該 紅外線模組、該無線射頻模組、該藍芽模組或該雷 射光發射模組的啟用,該控制單元係接收使用者按 壓的該等按鍵區塊的該等按鍵所相對應的不同圖案 或字元功能之訊號’再將訊號經由該紅外線模組、該 無線射頰模組、該藍芽模組或雷射光發射模組輸 出’以及—電池組’設置在該本體内’並提供電力 給該控制機構。 其中’該指標控制模組係為一電子陀螺儀、一執跡 球結構或一光學手指導航裝置(OFN)。 本創作上述之目的及優點,不難從下述所選用實施例之 詳細說明與附圖中,獲得深入瞭解。 當然,本創作在某些另件上,或另件之安排上容許有所 不同,但所選用之實施例,則於本說明書中,予以詳細說明, 並於附圖中展示其構造。 【實施方式] 關本創作藉以達到上述目的之技術手段,茲以下列實 施型態配合圖祕下文將崎明,俾令鈞上深人瞭解並認 同之。 請同時參相丨及圖3,其巾,圖丨縣示本創作 遙控輸入裝置H施例的外觀結構圖,圖2係表示 本創作遙控輪人裝置第-實施例之控制機構的架構方 5 塊圖,圖3係表示本創作遙控輸入裝置第一實施例之指 標控制模組為電子陀螺儀的立體圖。 本創作第一實施例的遙控輸入裝置1係包括一本體2、 若干按鍵區塊3、一控制機構4及一電池組5。 本體2係大致呈手握式遙控器結構,較佳者,可設 計成具人體工學的結構,以便於使用者手部的握持。 按鍵區塊3設置在本體2上,且各按鍵區塊3具有 若干相對應不同圖案或字元功能的按鍵33或者是由觸 控板所構成的虛擬按鍵(圖未示),而各按鍵區塊3至少 包含鍵盤區塊31、視聽控制按鍵區塊32等,鍵盤區塊 31係為類似電腦鍵盤功能,在該控制機構4中的藍芽 模組46與一電腦主機(圖未示)進行無線通訊時,即可 以本實施例遙控輸入裝置1的鍵盤區塊31當作是鍵 盤,進行資訊輸入的操作。 而視聽控制按鍵區塊32是利用紅外線(IR)或是無 線射頻(RF)對相對應的視聽器材(圖未式)進行遙控,視 聽器材可為電視(平面電視、數位電視等)及/或影音播放 氣等。 控制機構4係部分外露地設置在本體2内,包 含有相互電性連接的一切換開關41、一控制單元 42、一指標控制模組43、一紅外線模組44、一無線 射頻模組45、及一藍芽模組46及一雷射光發射模組 其中’本實施例的指標控制模組43係為—靜電 驅動、電容感測的微型振動式雙抽電子陀螺儀,其 裝設在一 Reintegrated circuit)晶片上,且包括一環 形基座432,位於基座432中心的一支撐桎433,從 支撐柱433向外輻射狀水平延伸的複數個(本實施例 以四個為例)懸臂434,於各懸臂434之間係等距且 懸臂434數目以2的整數倍為佳,各懸臂434的内 端與支撐柱433相連接,而其外端則以懸臂434為 中心分別向二側水平延伸成為一平台43卜各位於平 台431下方與基座432上方的複數(本實施例以四個 為例)個靜電驅動電極435,藉此,平台431即可作 為靜電電極,各平台431二端的頂部則分別設有一 以金屬為材質的電容感測電極436,其作用為電子陀 螺儀43的慣性重量塊。 當電壓施加在靜電驅動電極435時,懸臂434 及平台43 1會受靜電吸引而朝著z軸振動’且相鄰 一 4 # 434及平台431的振動相位差是180度,當 指標控制模組43之電子陀螺儀向χ軸或γ轴轉動 纷,因科氏力(Coriolis force)的作用而使得懸臂434 及平台43 1向χ軸或γ軸位移,而電容感測電極436 將因相鄰電容感測電極436之間距離的改變而產生 不同的電容值,藉由測量電容值的變化即可測出電 子陀螺儀43所受到的旋轉角速度或角加速度。 該切換開關41係控制切換該紅外線模組44、無 線射頻模組45、藍芽模組46或雷射光發射模組47 的啟用,而該控制單元42係接收使用者按壓的不同 按鍵區塊3的按鍵33所相對應的不同圖案或字元功 能之訊號,再將訊號經由紅外線模組44、無線射頻模 組45、藍芽模組46或雷射光發射模組47輸出。 當切換開關41切換至啟用釭外線模組44或無線射 頻模組45時,即可遙控如電視、影印撥放器或投影氣 等視聽器材;而當切換開關41切換至啟用藍芽模組46 時,即可對電腦主機進行無線通訊,並利用鍵盤區塊 31進行資料輸入;而當切換開關41切換至啟用雷射光 發射模組47,即可發出雷射指示光線至標的物上,在 此同時,指標或游標的控制,由於本實施例中的指標 控制模組43係為一電子陀螺儀,因此可藉由使用者 手部朝不同方向的移動或甩動進行控制指標或游標方 向。 電池組5設置在本體2内,並提供電力給控制機構4。 因此藉由上述的結構,可藉由切換開關41的控制以及不 同功能之按鍵區塊3的設置,分別地對不同電子器材(如電腦、 視聽器材等)進行遙控,達到一機多功能的遙控功效。 、請再同時參考ST4及圖6,其中,圖4係表示本創 作U工輸入裝置-第二實施例的外觀結構圖,圖$係 ^示本創作遙控輸人裝置第二實施例之控制機構的 、二構方塊®,圖6係表示本創料控輸人裝置第二 貫施例之指標控制模組為軌跡球結構的剖視圖。 本實施例的結構敍致與前述第__實施利的結構相同, 其差異係在於本實施例的指標控賴組43係為-轨跡球結 構’包括一紐20、—雷射光源產生器23、一執跡球26、一 光學感測元件27及一鍵蓋30。 其中’基座20内係組裝有一雷射光學發射及感測模組, 而基座20之底板21係卡固定位於本體2之卡榫,於基座2〇 之-側板22係穿設有-粒孔,俾能職組裝—雷射光源產 生器23 ’而於基座20之頂板25係穿設有一承置孔,且承置 孔周緣係概呈孔徑義之圓隱曲面,俾能精確職承置轨跡 球26’於基座20之頂板25及底板21間係有—容置空間24, 且於谷置空間24内係組裝有光學感測元件π ;雷射光源產生 器23係屬於一雷射二極體(Laser Di〇de)以產生半導體雷射光 源,其雷射元件具有體積輕巧、消耗功率小及省電功效,且雷 射光係屬於單-頻率之冑效益料&綠,*其纟雷射光照射 於執跡球26所反射呈現之干涉條紋圖形,俾能經由一感測元 件及§fl號分析電路以精確計算出轨跡球%之移動方位;軌跡 球26係為可滾動地置設於基座2〇之承置孔内的球體,而且轨 跡球26之底轉係向奸綠承置孔,俾使飾辆、產生器 23所產生之雷射光得以直接黯於轨_26之絲面進而 月b產生反射之㈣光束,而祕球26係可為—直徑接近於 5mm之小體積球體;光學感測元件27係組裝於一電路板烈 上’且光學感測元件27係組設定位於基座2〇之容置空間% 内’而光學感測元件27則係於單位時間内擷取或感測由該轨 跡球26絲面所反射之雷射干涉條紋_,並進而藉由一訊 號分析電路(圖未示)以精破計算出轨跡球%之移動方向及距 離’且使得能同步控制於電腦螢幕上的游標位置者;鍵蓋3〇 係為完全罩義裝餘縣讀跡於織%頂面係 穿設有-圓孔’俾使得軌跡球26之頂表面能對應向上凸出於 圓孔,因而使用者能藉由手指以撥動軌酬^ 26及同步調整電 腦螢幕上的游標位置。 藉由上述結構,同樣與第—實_—樣,能達到—機多 功能的遙控功效。 請再同時參考圖7及圖9,其中,圖7係表示本創 作遙控輸入裝置-第三實施例的外觀結構圖,圖8係 表示本創作遙控輸人裝置第三實施例之控制機構的 結構方塊圖’圖9係、表示本創作遙控輸人裝置第三 實施例之指標控制模組為光學手指導航裝置的剖視 圖。 本貫施例的結構係大致與前述第—實施利的結構相同, 其差異係在於本實施例的指標控制模組43係為光學手指導 航裝置(optical finger navigation,OFN) 〇 光學手指導航(OFN)裝置包括一光學感測器1〇2、一電 路板104、一觸覺開關1〇6及一表面1〇8。 一般而言’光學感測器102可包括一光源與一像素陣列, 像素陣列捕獲用於移動循跡的影像資料之圖框。 電路板104經組態用以提供一表面,光學感測器1〇2可 附著至電路板104的表面’電路板1〇4包括一印刷電路板(pcb) 或一可撓性印刷電路板(FPCB),與電路板1〇4之印刷電路板 (PCB)相比較,電路板1〇4之可撓性印刷電路板(FpcB)經組態 用以回應於在光學感測器1〇2之一封裝結構上之一力而提供 實質增加撓曲量;另,電路板1〇4經組態用以包括一雙側電路 板以允許在該雙側電路板之任一側上置放一組件及/或電連 接0 光學感測器102經組態用以附著至電路板1〇4,更明確地 說,光學感測器10 2經組態用以附著至一引線框封裝之一晶粒 附著墊;光學感測器102經組態用以循跡一物體於一手指介面 表面處之一移動,手指介面表面係與光學感測器1〇2分開一距 離’或者手指介面表面可更接近或更遠離光學感測器102,且 光學感測器102經組態用以偵測光並產生對應於偵測的光之 一導航信號。 藉由上述結構’同樣與第—實施例―樣,能達到—機多 M403851 功能的遙控功效。 ’ 以上所述實施型態之揭示係用以說明本創作,並非用以 限制本創作,故舉凡數值之變更或等效元件之置換仍應隸屬本 創作之範疇。 由以上詳細說明,可使熟知本項技藝者明瞭本創作的確 可達成前述目的,實已符合專利法之規定,紐出專利申請。V. New description: ' 【New technology field】 This creation department (4) is in (-) controller, especially refers to a multi-functional remote input device. [Previous technology] Press, with the rapid development of science and technology and people The pursuit of higher quality of life has led to the development of many electronic products, and in order to make the most effective effects of electronic products, various remote control devices with remote functions have emerged, but today's remote controls are only In the improvement of the transmission signal, in addition to the remote control number, there is no other sister, and the basic ship of Lin (4) can no longer meet the modern people's electronic production. . On the ^ ^ and 'remote control II can only control the special escape, but today's information appliances _ reward ^__, the coming generation, so the follow-up TV screen design has no input interface direction Wei, available for various inputs = Equipment (such as the material broadcast, fresher, rhyme, tree reception or digital TV reception H and processing equipment (such as the computer is connected to use, so that the input device and the processing device can use a screen together, reducing the space The problem 'but the loss of the device (4) and the keyboard of the processing device are very different, because the remote control of the input device only has multiple function buttons (such as tone ® switching, channel switching, playback or fast forwarding, etc. ), and the keyboard of the processing device must be a mouse that can be used by the user to input text, numbers or symbols (4), and a slider for moving the cursor. Therefore, when the input device is shared with the processing device, the screen cannot be used because the remote controller cannot At the same time, it has the functions of inputting characters and cursors, such as text, numbers or symbols. Therefore, the situation that the desktop is placed with a remote controller, a mouse and a keyboard respectively appears, thereby causing use. Convenience. However, the general mouse and _ are all _ type, f _ transmission line is connected with the processing device 'but will be affected by the length of the transmission line, so the user and the processing device _ turn, can not be recorded If you use the wireless type, the mouse and the keyboard will enter the consumer's cost because of the high price. 9 The wooden introduction person has been engaged in the computer keyboard design and design practice for many years. New Zealand, and (10): Under-the-kind sample Nunu test's entry into the Qiqi Cailiang New Material, the end of the mosquito [new content] The purpose of this creation is to solve the above problems and to improve a switchable Mode, to remote control "Input device. nt" "Function remote control τπ π you pull out a remote control clothes set 'includes: ― body, is roughly a hand-held remote control structure. Several button blocks, set in On the main body, each of the job key blocks has a plurality of buttons corresponding to different patterns or character functions; the control mechanism is partially exposed in the body, and includes a switch that electrically connects to each other.彳k system early , an indicator control group, an infrared ray „radio frequency module, a blue modal M403851 group and a laser light emitting module, the switching relationship control switches the infrared module, the wireless frequency module, the blue bud The module or the activation of the laser light emitting module, the control unit receives the signal of the different pattern or character function corresponding to the buttons of the button blocks pressed by the user, and then transmits the signal through the infrared mode a set, the wireless buccal module, the Bluetooth module or the laser light emitting module output 'and the battery pack' are disposed in the body and provide power to the control mechanism. wherein the indicator control module is An electronic gyroscope, a rotatable ball structure or an optical finger navigation device (OFN). The above objects and advantages of the present invention are not difficult to understand from the detailed description of the selected embodiments below and the accompanying drawings. Of course, the present invention is allowed to differ in some of the parts, or the arrangement of the parts, but the selected embodiments are described in detail in the present specification, and the construction thereof is shown in the drawings. [Embodiment] The technical means to achieve the above objectives by means of the following works, and the following implementations, together with the drawings, will be clarified and clarified. Please refer to Fig. 3, the towel, Fig. 2 shows the appearance structure of the remote control input device H, and Fig. 2 shows the structure of the control mechanism of the first embodiment of the remote control wheel device. FIG. 3 is a perspective view showing the indicator control module of the first embodiment of the present invention as an electronic gyroscope. The remote control input device 1 of the first embodiment of the present invention comprises a body 2, a plurality of button blocks 3, a control mechanism 4 and a battery pack 5. The body 2 is generally of a hand held remote control structure. Preferably, it can be designed to be ergonomically designed to facilitate the grip of the user's hand. The button block 3 is disposed on the body 2, and each button block 3 has a plurality of buttons 33 corresponding to different patterns or character functions or virtual buttons (not shown) formed by the touch panel, and each button region The block 3 includes at least a keyboard block 31, an audio-visual control button block 32, and the like. The keyboard block 31 is similar to a computer keyboard function, and the Bluetooth module 46 in the control mechanism 4 is performed with a computer host (not shown). In the case of wireless communication, the keyboard block 31 of the remote control input device 1 of the present embodiment can be regarded as a keyboard for information input operation. The audio-visual control button block 32 uses infrared (IR) or radio frequency (RF) to remotely control the corresponding audio-visual equipment (not shown), and the audio-visual equipment can be a television (flat television, digital television, etc.) and/or Audio and video playback, etc. The control unit 4 is partially disposed in the body 2, and includes a switch 41, a control unit 42, an indicator control module 43, an infrared module 44, and a radio frequency module 45. And a Bluetooth module 46 and a laser light emitting module, wherein the indicator control module 43 of the present embodiment is an electrostatically driven, capacitively sensed miniature vibrating double-drawing electronic gyroscope installed in a Reintegrated On the wafer, and including a ring base 432, a support 桎 433 at the center of the pedestal 432, a plurality of (four in this embodiment) cantilever 434 extending horizontally from the support post 433, Preferably, the lengths of the cantilever 434 are equal to an integral multiple of 2, the inner ends of the cantilevers 434 are connected to the support post 433, and the outer ends thereof are horizontally extended to the two sides centering on the cantilever 434. A plurality of electrostatic driving electrodes 435 are disposed on the bottom of the platform 431 and above the pedestal 432 (four in the embodiment), whereby the platform 431 can serve as an electrostatic electrode, and the top of each end of each platform 431 Then separately A capacitive sensing electrode metal material 436, which acts as an electronic gyroscope inertial mass of the block 43. When a voltage is applied to the electrostatic driving electrode 435, the cantilever 434 and the platform 43 1 are attracted by the static electricity and vibrate toward the z-axis, and the vibration phase difference between the adjacent one of the 4 #434 and the platform 431 is 180 degrees, when the index control module The electronic gyroscope of 43 rotates toward the x-axis or the γ-axis, and the cantilever 434 and the platform 43 1 are displaced toward the x-axis or the γ-axis due to the Coriolis force, and the capacitive sensing electrode 436 will be adjacent to each other. The capacitance between the capacitance sensing electrodes 436 changes to produce different capacitance values, and the rotational angular velocity or angular acceleration received by the electronic gyroscope 43 can be measured by measuring the change in the capacitance value. The switch 41 controls the activation of the infrared module 44, the radio frequency module 45, the Bluetooth module 46 or the laser light emitting module 47, and the control unit 42 receives different button blocks 3 pressed by the user. The signal of the different pattern or character function corresponding to the button 33 is outputted via the infrared module 44, the radio frequency module 45, the Bluetooth module 46 or the laser light emitting module 47. When the switch 41 is switched to enable the external line module 44 or the radio frequency module 45, the audio-visual equipment such as a television, a photocopying device or a projection gas can be remotely controlled; and when the switch 41 is switched to enable the Bluetooth module 46. When the computer host can communicate wirelessly, and the keyboard block 31 is used for data input; when the switch 41 is switched to enable the laser light emitting module 47, the laser indicating light can be emitted to the target object. At the same time, the index or cursor control, since the index control module 43 in this embodiment is an electronic gyroscope, the control index or the cursor direction can be performed by moving or tilting the user's hand in different directions. The battery pack 5 is disposed within the body 2 and provides power to the control mechanism 4. Therefore, with the above structure, the control of the switch 41 and the setting of the button block 3 of different functions can be used to remotely control different electronic devices (such as computers, audio-visual equipment, etc.) to achieve a multi-function remote control. efficacy. Please refer to ST4 and FIG. 6 at the same time, wherein FIG. 4 is a schematic structural view of the second embodiment of the present invention, and FIG. 4 is a control mechanism of the second embodiment of the present remote control input device. The two-frame squares, Figure 6 shows a cross-sectional view of the trackball structure of the index control module of the second embodiment of the present invention. The structure of the present embodiment is the same as the structure of the foregoing __ implementation, and the difference is that the index control group 43 of the present embodiment is a trackball structure including a button 20, a laser light source generator. 23. A track ball 26, an optical sensing element 27 and a key cover 30. Wherein the pedestal 20 is provided with a laser optical transmitting and sensing module, and the bottom plate 21 of the pedestal 20 is fixed to the card body of the body 2, and the side plate 22 of the pedestal 2 is provided with - The granule hole, the arbitrarily assembled assembly, the laser source generator 23' and the top plate 25 of the pedestal 20 are provided with a receiving hole, and the peripheral edge of the receiving hole is a circular hidden surface of the aperture, which can accurately serve The track ball 26' is disposed between the top plate 25 and the bottom plate 21 of the base 20 with an accommodation space 24, and an optical sensing element π is assembled in the valley space 24; the laser light source generator 23 belongs to a Laser Di〇de (Laser Di〇de) to produce a semiconductor laser light source, the laser element has a light volume, low power consumption and power saving effect, and the laser light system belongs to the single-frequency effect material & * The laser beam is irradiated on the interference fringe pattern reflected by the obstruction ball 26, and the moving position of the trackball can be accurately calculated through a sensing element and a §fl analysis circuit; the trackball 26 is scrollable. The ball is placed in the receiving hole of the base 2, and the bottom of the trackball 26 is turned The green hole is placed so that the laser light generated by the car and the generator 23 can be directly smashed on the wire surface of the track _26, and the moon b produces a reflected (four) light beam, and the secret ball 26 can be - the diameter is close to 5 mm. a small volume sphere; the optical sensing element 27 is assembled on a circuit board and the optical sensing element 27 is set within the housing space % of the base 2' and the optical sensing element 27 is tied to the unit time The laser interference fringe _ reflected by the surface of the trackball 26 is captured or sensed, and the moving direction and distance of the trackball % is calculated by a signal analysis circuit (not shown). And the position of the cursor can be synchronously controlled on the screen of the computer; the key cover 3 is a full cover, and the reading of the Yuxian County is provided on the top surface of the weave. The round hole '俾 enables the top surface of the trackball 26 to be Correspondingly, it protrudes upward from the circular hole, so that the user can adjust the position of the cursor on the computer screen by using the finger to dial the track. With the above structure, the same as the first-real-like, can achieve the multi-function remote control effect. Please refer to FIG. 7 and FIG. 9 at the same time, wherein FIG. 7 is a structural view showing a third embodiment of the present remote control input device, and FIG. 8 is a structure showing a control mechanism of the third embodiment of the present remote control input device. FIG. 9 is a cross-sectional view showing the index control module of the third embodiment of the present remote control input device as an optical finger navigation device. The structure of the present embodiment is substantially the same as the structure of the first embodiment described above, and the difference is that the index control module 43 of the present embodiment is an optical finger navigation (OFN) and an optical finger navigation (OFN). The device comprises an optical sensor 1 2, a circuit board 104, a tactile switch 1〇6 and a surface 1〇8. In general, optical sensor 102 can include a light source and a pixel array that captures a frame of image data for moving the tracking. The circuit board 104 is configured to provide a surface to which the optical sensor 1 2 can be attached. The circuit board 1 4 includes a printed circuit board (PCB) or a flexible printed circuit board ( FPCB), compared to the printed circuit board (PCB) of the circuit board 1-4, the flexible printed circuit board (FpcB) of the circuit board 1-4 is configured to respond to the optical sensor 1 〇 2 One of the components of the package provides a substantially increased amount of deflection; in addition, the circuit board 1-4 is configured to include a double-sided circuit board to allow placement of a component on either side of the two-sided circuit board And/or electrical connection 0 The optical sensor 102 is configured to be attached to the circuit board 1〇4, more specifically, the optical sensor 102 is configured to be attached to one of the lead frame packages An attachment pad; the optical sensor 102 is configured to track an object moving at one of the surfaces of a finger interface, the finger interface surface being separated from the optical sensor 1 〇 2 by a distance 'or the finger interface surface may be closer Or further away from the optical sensor 102, and the optical sensor 102 is configured to detect light and generate light corresponding to the detection A navigation signal. With the above structure 'also similar to the first embodiment', the remote control effect of the M403851 function can be achieved. The disclosure of the above-described embodiments is intended to be illustrative of the present invention and is not intended to limit the present invention, so any changes in numerical values or substitution of equivalent elements are still within the scope of this creation. From the above detailed description, it will be apparent to those skilled in the art that the present invention can achieve the foregoing objectives, and has been in compliance with the provisions of the Patent Law, and has filed a patent application.
【圖式簡單說明】 ® 1 係表示本創作遙控輸入裝 結構圖。 置一第一實施例的外觀[Simple description of the diagram] ® 1 indicates the structure of the remote control input device. Setting the appearance of the first embodiment
係表示本創作遙控輸人裝置第—實施例之控制 機構的架構方塊圖。 巧表示本創作遙控輸人裝置第—實施例之指標控制 模組為電子陀螺儀的立體圖。 係表示本_遙⑽4置―第二實施例的外觀 結構圖。It is an architectural block diagram of the control mechanism of the present embodiment of the remote control input device. The index control module of the first embodiment of the present invention is a stereoscopic view of the electronic gyroscope. The appearance structure diagram of the second embodiment is shown.
=表不本創作遙控輪人衫第二實施例之控制機 構的結構方塊圖。 =f 丁本創作遙控輸人裝H實關之指標控制 核組為轨跡球結構的剖視圖。 it本創作遙控輪入裝置—第三實施例的外觀 、”。稱圖。 ===本創作遙控輪入裝置第三實施例之控制機 構的結構方塊圖。 ' 12 M403851 圖9 係表示本創作遙控輸入裝置第三實施例之指標控制 模組為光學手指導航裝置的剖視圖。 【主要元件符號說明】= The block diagram of the control mechanism of the second embodiment of the present invention. =f Dingben creation remote control input device H real-off indicator control The nuclear group is a sectional view of the trackball structure. The present invention creates a remote-controlled wheel-in device - the appearance of the third embodiment, ". Fig. === The block diagram of the control mechanism of the third embodiment of the present invention remote control wheel-in device. ' 12 M403851 Figure 9 shows the creation The index control module of the third embodiment of the remote control input device is a cross-sectional view of the optical finger navigation device.
[第一 實施例] 1 遙控輸入裝置 2 本體 3 按鍵區塊 31 鍵盤區塊 32 視聽控制按鍵區塊 33 按鍵 4 控制機構 41 切換開關 42 控制單元 43 指標控制模組 431 平台 432 基座 433 支撐柱 434 懸臂 435 驅動電極 436 電容感測電極 44 紅外線模組 45 無線射頻模組 46 藍芽模組 47 雷射光發射模組 5 電池組 13 M403851 [第二 實施例]’ 20 基座 21 底板 22 側板 23 雷射光源產生器 24 容置空間 25 頂板 26 轨跡球 27 光學感測元件 28 電路板 30 鍵蓋 [第三實施例] 102 光學感測器 104 電路板 106 觸覺開關 108 表面[First Embodiment] 1 Remote control input device 2 Main body 3 Key block 31 Keyboard block 32 Audiovisual control button block 33 Button 4 Control mechanism 41 Switch 42 Control unit 43 Index control module 431 Platform 432 Base 433 Support column 434 cantilever 435 drive electrode 436 capacitive sensing electrode 44 infrared module 45 wireless radio frequency module 46 Bluetooth module 47 laser light emitting module 5 battery pack 13 M403851 [second embodiment] '20 base 21 bottom plate 22 side plate 23 Laser light source generator 24 accommodating space 25 top plate 26 track ball 27 optical sensing element 28 circuit board 30 key cover [third embodiment] 102 optical sensor 104 circuit board 106 tactile switch 108 surface
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