200828835 九、發明說明: 【發明所屬之技術領域】 本發明涉及遙控電子裝置,尤其涉及紅外遙 置 【先前技術】 控電子裝 隨著多媒體技術之飛速發展,遊戲機、數位 像機及行動電話等攜帶型電子産品越來越受料者攝 當w’該等攜帶型電子産品之發展趨勢為“―機多用”, 即將盡可能多之功能集中於一部攜帶型電子産口上如 此,只需攜帶-部攜帶型電子產品,便可實現^功能。 例如,目前域之行動電話大多設置有相機模組,即可通 訊又可拍照,甚至某賴潮行動電話還㈣有各種音頻/視 頻播放器,極大程度上滿足消費者對娛樂魏之需求。、 另外,遊戲娛樂也越來越受消費者關注,特別係高仿 真遊戲,因極具現職,而深受歡迎。高仿真顯機通常 ^括-遊戲主機和-遙控手柄,域錢示器連接以 提供遊戲場面,遙控手柄則通職號收/發裝置控制遊戲主 機做出相應遊戲動作。由於不同主題遊戲之控制物件不 同,其適配之遙控手柄也不同,例如,射擊主題遊戲之遙 控手柄就無法與球類或搏擊主題遊戲之遙控手柄通用。為 此’肖費者乾同知配置兩種遙控器,消費成本高,且攜^ 極不方便,而幾乎人人必備之行動手機産品卻無法與=等 高仿真遊戲產品結合。 200828835 【發明内容】 • 、、有鑒於此,提供一種可同時適配射擊類遊戲及非射擊 • 崎戲之紅外遙麟㈣及具有所述紅外遙賴組之攜帶 型電子裝置。 種、,、工外遙控模組,其包括一紅外感測模塊、一訊號 处理拉塊及-控制反饋模塊。所述紅外感測模塊用於感測 =機發出之光訊號並輸出相應之數位訊號。所述紅外感測 , 1鬼匕括具有一入光口之套筒及自所述入光口起依次設 置於所述套闾内之一紅外帶通渡光片、一鏡片組及一紅夕卜 感測。所述套筒位於所述紅外帶通濾光片與所述鏡片組 間之筒壁開設有一開口,所述紅外感測模塊還包括一設置 於所述開口處之準直ϋ及—與所述準直器連接之推拉件, 所述推拉件用於推拉所述準直器以使所述準直器通過所述 開口進入或離開所述套筒。所述訊號處理模塊與所述紅外 感測模塊電連接,用於接收所述數位訊號並處理成目標訊 號。所述控制反饋模塊與所述訊號處理模塊電連接,用於 接收所述目標訊號及用戶命令以調制所述目標訊號進而產 生對應之控制訊號,並將所述控制訊號反饋到主機以實現 遙控功能。 一種紅外遙控模組,其包括一用於感測主機發出之光 訊號之紅外感測模塊。所述紅外感測模塊包括一具有一入 光口之套同及自所述入光口起依次設置於所述套筒内之一 紅外帶通濾光片、一鏡片組及一紅外感測器。所述套筒位 於所述入光口與所述紅外帶通濾光片之間之筒壁開設有一 200828835 =口’所述紅外感測模塊還包括一設置於所述開口處之準 ft—與所述準直11連接之推拉件,所述推拉件用於推 ^述準直n以使所群直騎過所述開口進人或離開所 述套筒,以感測不同類型之光訊號從而實現不同類型之控 制功能。 -種攜帶型電子裝置,其包括—殼體、—設置於所述 设體内之電路板、-與所述電路板電連接之移動通訊模組 及-紅外遙控模組。所述紅外遙控麵包括—紅外感測模 塊、-訊號處理模塊及-控制反饋模塊。所述紅外感測模 束用於感測主機發出之光訊號並輸出相應之數位訊號。所 述紅外感賴塊包括—具有—人光口之套筒及自所述入光 口起依次設置於所述套筒内之一紅外帶通濾光片、一鏡片 組及一紅外感測器。所述套筒位於所述紅外帶通濾光片與 所述鏡片組間之筒壁開設有一開口,所述紅外感測模塊還 包括一設置於所述開口處之準直器及一與所述準直器連接 之推拉件,所述推拉件用於推拉所述準直器以使所述準直 器通過所述開口進入或離開所述套筒。所述訊號處理模塊 一所述紅外感測模塊電連接,用於接收所述數位訊號並處 理成目標訊號。所述控制反饋模塊與所述訊號處理模塊電 連接,用於接收所述目標訊號及用戶命令以調制所述目標 訊號進而産生對應之控制訊號,並將所述控制訊號反饋到 主機以實現遙控功能。所述訊號處理模塊及控制反饋模塊 與所述電路板電連接,所述套筒之入光口設於所述殼體外 表面以接受主機發出之光訊號。所述外殼設置有一與所述 推拉件連接之彈性按鈕,以供用戶控制所述準直器進入或 200828835 離開所述套筒。 測模之準直器進入所述套筒成為所述紅外感 氺 °卩分,其將遊戲主機發射之紅外光收縮成 ,平行光經所述鏡片組聚焦,所述紅外感測器便可 W到小® 7〇區域峨,如轉畔點,所述控制反饋模 =制該射軸準點之行為便可進行縣賴戲。若所述 準直讀開所述套筒,所述紅外感職塊光路只保留所述 =片組將遊戲主機發射之紅外光成像於所述紅外感測器之 :^平面’所述紅外_模塊感剩較大區域訊號,如球 拍等’遊戲者便可進行球類等非射擊類遊戲。 、所述紅外遙域組可通過控制所群直H進入或離開 所述套筒達適配射擊類或非射擊類遊戲兩種不同主題遊戲 之目的’只需配置-所述紅外遙控模組便可進行射擊類或 非射擊類遊戲,消費成本低,攜帶方便。 、 【實施方式】 明參閱圖1,本發明較佳實施方式之紅外遙控模組10 包括紅外感測模塊u、一訊號處理模塊乜及一控制反饋 板塊13。所述紅外感測模塊11帛於感測主機(圖未示)發出 之光訊號並輸出相應數位訊號。所述紅外感測模塊11包括 一具有一入光口 111之套筒110及自所述入光口 111起依 次設置於所述套筒11G内之—紅外帶通遽光片 Π2'—鏡片 組us及一紅外感測器114。所述套筒11〇位於所述紅外帶 通遽'光片112與所述鏡片組113間之筒侧設有一開口 115,所述紅外感測模塊u還包括-設置於所述開口 115 200828835 處之準直器116及一與所述準直器116連接之推拉件117, 所述推拉件117用於推拉所述準直器116以使所述準直器 116通過所述開口 115進入或離開所述套筒。所述訊號 處理模塊12與所述紅外感測模塊11電連接,用於接收所 述數位訊號並處理成目標訊號。所述控制反饋模塊13與所 述訊號處理模塊12電連接,用於接收所述目標訊號及用戶 命令以調制所述目標訊號進而產生對應之控制訊號,並將 所述控制訊號反饋到主機以實現遙控功能。 所述套筒110包括一筒體1101及一筒座11〇2,所述紅 外帶通濾光片112及鏡片組113設於所述筒體1101内,而 所述紅外感測器114設置於所述筒座u〇2内。所述筒體 lioi以螺紋結合之方式安裝於所述筒座11〇2上,所述筒體 1101遠離所述筒座1102 —端還設有一筒蓋n〇3,所述入 光口 111開設於所述筒蓋11〇3中心處。所述入光口 ηι呈 倒圓台形,為防止灰塵或水滴從入光口 進入所述套筒 110,對所述套筒110内部之光路造成光學污染,本實施方 式之入光口 111設置有保護鏡片118。 所述紅外帶通濾光片112靠近所述筒蓋1103設置,用 於濾取紅外波段之光線進入所述入光口 ln而阻止其他波 段之光線,從而提高光訊號之信噪比。本實施方式之紅外 朮通濾光片112之濾波特性可參照以下設定:ρ帶通之波 長範圍為800-1100奈米;2)波峰寬度為40-80奈米,優先 的,波普I度為50-70奈米;3)波峰區之光穿透率大於 90% ; 4)帶通區外之其他波段之光穿透率小於2%。 11 200828835 、清參閱圖2,本實施方式之紅外帶通渡光片m包括-=基片1121及依次形成於所述基片上之多層氧化薄膜 "。具體的’多層氧化薄難22包括兩種折射率不同之 乳化薄膜,所述兩種氧化薄膜間隔交替沈積於所述透明基 片U21上便可形成所述紅外帶通遽光片112。優選的, :=Γ_50層二氧化鈦(Ti〇2)與二氧化矽问〇2)交替沈積 ;土片上便製成所述紅外帶通濾光片112。另外,可將 所述多層减賴1122沈積於所述賴鏡丨⑽與所述鏡 片、’且113相對之表面上’即所述保護玻璃⑽既可起保護 作用,同時可起濾光作用,從而可節省材料成本。 所述鏡片組113與所述紅外帶通渡光片ιΐ2間隔設 置’以預留空間收容所述準直器116。所述鏡片組ιΐ3可採 用球面鏡片或非球面鏡片,考慮到非球面鏡片具有更優越 性能,本實施方式之鏡片組m採用—片非球面鏡 。*然,所_^組113並靴於本實财式,如可採 用更多數目之非球面鏡,以感測畫面質量細腻之遊戲。 所述紅外感測器m可採用互補金屬氧化物半導 ^ ^(Complementary Metal Oxide Semiconductor, CM〇S),i ''荷轉 5 态件感測器(charge Couple Device,CCD),太者; 方式採用後者。 戶、& 所述開口 m形狀與所述準直器116之形狀相對庫, 如此可緊固限定所述準直器116在所述套筒11〇之位置 戶树準直器m包括-固定環1101及一設於所述固定學 161内之準直鏡1162,所述固定環1161外徑與所述套筒 12 200828835 110内徑大致相等。如此,當所述準直器11(5進入所述套筒 110時’其圓周側面1163與所述套筒110之内壁11〇4緊密 貼靠,所述準直器116可穩固地嵌設於所述套筒11〇。所述 推拉件117採用與所述固定環1161 一體形成之圓柱,當 然,所述推拉件117並不限於本實施方式,可採用其他形 狀。 可以理解,所述開口 115也可開設於所述筒體11〇位 於所述入光口 111與所述紅外帶通濾光片112間之筒壁。 明參閱圖3,為進行射擊類遊戲時之紅外光光路示意 圖’圖中各光學元件採用特徵線條表示。進行射擊類遊戲 ,將所述準直器116推進所述套筒成為所述紅外感測 模塊11統之一部分。主機訊號光源30發出訊號光31, 經所述準直器116收縮成平行光32,所述平行光32經所述 鏡片組113 ’交成匯聚光33,並投射於所述紅外感測器 之感光平面。如此’所述紅外感測器114便可感測到匯聚 之小圖,區域訊號34。所述紅外感測器m將所述小圖元 區域减34轉化成數位訊號,而所述訊號處理模塊則 將二述數位峨處理成目標喊,如醉點。所述控制反 饋核塊13接㈣戶命令並棚所述目標訊號進而産生對 應之控制緘,騎所述控舰敍_主_未示),從 而實現射擊類遊戲。 、考慮到所述平行光32經所述鏡片組m後將匯聚於所 述鏡片,'且113之像方主面,域測到更小圖元區域之訊號, 可設置所述紅114之位置使錢辭面靠近所述 13 200828835 鏡片組113之像方主面。本實施方式 〜她万式之紅外感測器114之 感先平面與所述鏡片組113之像方主面重合。200828835 IX. Description of the Invention: Technical Field of the Invention The present invention relates to remote control electronic devices, and more particularly to infrared remote control. [Prior Art] Electronic control devices with the rapid development of multimedia technology, game consoles, digital cameras, mobile phones, etc. Portable electronic products are increasingly being taken by people. The development trend of these portable electronic products is “------------------------------------------------------------------ - The portable electronic product can realize the function. For example, most of the current mobile phones in the domain are equipped with camera modules, which can be used for communication and photographing. Even a certain mobile phone (4) has various audio/video players, which greatly satisfy the consumer demand for entertainment Wei. In addition, game entertainment is getting more and more attention from consumers, especially high-fidelity games, which are very popular because of their current status. The high emulation display usually includes a game console and a remote control handle, and the field money display is connected to provide a game scene, and the remote control handle controls the game host to make a corresponding game action. Since the control objects of different theme games are different, the adapted remote control handles are different. For example, the remote control handle of the shooting theme game cannot be used with the remote control handle of the ball or the fight theme game. For this, the two remote controllers are equipped with high cost and are inconvenient to carry. However, almost all mobile mobile phone products that are necessary for people cannot be combined with the simulation game products of the same level. 200828835 [Summary of the Invention] In view of the above, there is provided a portable electronic device capable of simultaneously adapting a shooting game and a non-shooting • Sakiha Infrared (4) and the infrared remote group. The type, and the external control module include an infrared sensing module, a signal processing block and a control feedback module. The infrared sensing module is configured to sense the optical signal emitted by the machine and output a corresponding digital signal. Infrared sensing, a ghost sleeve having a light entrance port and an infrared band pass light sheet, a lens group and a red eve disposed in the sleeve from the light entrance port Bu Sen. The sleeve is located at an opening of the tube between the infrared band pass filter and the lens group, and the infrared sensing module further includes a collimating unit disposed at the opening and A collimator is coupled to the push-pull member for pushing and pulling the collimator to pass the collimator into or out of the sleeve through the opening. The signal processing module is electrically connected to the infrared sensing module for receiving the digital signal and processing the target signal. The control feedback module is electrically connected to the signal processing module, and configured to receive the target signal and a user command to modulate the target signal to generate a corresponding control signal, and feed the control signal to the host to implement a remote control function. . An infrared remote control module includes an infrared sensing module for sensing an optical signal emitted by a host. The infrared sensing module includes an infrared light pass filter, a lens group and an infrared sensor, which are provided with an optical port and are sequentially disposed in the sleeve from the light inlet. . The sleeve is located at a wall between the light entrance port and the infrared band pass filter, and has a 200828835=port. The infrared sensing module further includes a quasi-ft-shaped portion disposed at the opening. The collimator 11 is connected to the push-pull member, and the push-pull member is used to push the collimation n to cause the group to ride directly through the opening into or out of the sleeve to sense different types of optical signals. Implement different types of control functions. A portable electronic device comprising: a casing, a circuit board disposed in the body, a mobile communication module electrically connected to the circuit board, and an infrared remote control module. The infrared remote control surface includes an infrared sensing module, a signal processing module, and a control feedback module. The infrared sensing module is configured to sense an optical signal emitted by the host and output a corresponding digital signal. The infrared sensing block includes: a sleeve having a human optical port, and an infrared band pass filter, a lens group and an infrared sensor disposed in the sleeve from the light entrance port. . The sleeve is located at an opening of the tube between the infrared band pass filter and the lens group, and the infrared sensing module further includes a collimator disposed at the opening, and a A collimator is coupled to the push-pull member for pushing and pulling the collimator to cause the collimator to enter or exit the sleeve through the opening. The signal processing module is electrically connected to the infrared sensing module for receiving the digital signal and processing the target signal. The control feedback module is electrically connected to the signal processing module, and configured to receive the target signal and a user command to modulate the target signal to generate a corresponding control signal, and feed the control signal to the host to implement a remote control function. . The signal processing module and the control feedback module are electrically connected to the circuit board, and the optical entrance of the sleeve is disposed on an outer surface of the housing to receive the optical signal emitted by the host. The housing is provided with a resilient button coupled to the push-pull member for the user to control the entry of the collimator or the 200828835 to exit the sleeve. The collimator of the die enters the sleeve to become the infrared sensation, which shrinks the infrared light emitted by the game console into two, and the parallel light is focused by the lens group, and the infrared sensor can To the small ® 7〇 area, such as the turning point, the control feedback mode = the behavior of the punctuality of the shooting axis can be used for county play. If the collimation reads the sleeve, the infrared sensor block optical path only retains the = chip group to image the infrared light emitted by the game host to the infrared sensor: ^ plane 'the infrared _ The module feels that there is a large area signal, such as a racket, etc. The player can play non-shooting games such as balls. The infrared remote domain group can control the group H to enter or leave the sleeve to meet the purpose of two different theme games of the shooting type or the non-shooting type game. It can be used for shooting or non-shooting games, with low cost and easy to carry. The infrared remote control module 10 of the preferred embodiment of the present invention includes an infrared sensing module u, a signal processing module, and a control feedback block 13. The infrared sensing module 11 senses the optical signal emitted by the host (not shown) and outputs a corresponding digital signal. The infrared sensing module 11 includes a sleeve 110 having a light entrance 111 and an infrared band pass Π 2 ′ - lens group disposed in the sleeve 11G from the light inlet 111 Us and an infrared sensor 114. The sleeve 11 is disposed on the side of the tube between the infrared band-passing light sheet 112 and the lens group 113. The infrared sensing module u further includes a hole 115 disposed at the opening 115 200828835. a collimator 116 and a push-pull member 117 coupled to the collimator 116, the push-pull member 117 for pushing and pulling the collimator 116 to cause the collimator 116 to enter or leave through the opening 115 The sleeve. The signal processing module 12 is electrically connected to the infrared sensing module 11 for receiving the digital signal and processing it into a target signal. The control feedback module 13 is electrically connected to the signal processing module 12, and configured to receive the target signal and a user command to modulate the target signal to generate a corresponding control signal, and feed the control signal to the host to implement Remote control function. The sleeve 110 includes a barrel 1101 and a barrel seat 11〇2. The infrared band pass filter 112 and the lens group 113 are disposed in the barrel body 1101, and the infrared sensor 114 is disposed on the sleeve The inside of the cylinder block u〇2. The cylindrical body is mounted on the sleeve 11 〇 2 in a threaded manner. The cylinder 1101 is further provided with a sleeve cover n 〇 3 away from the end of the sleeve 1102 , and the light inlet 111 is opened. At the center of the cylinder cover 11〇3. The light-injecting port η is in the shape of a rounded table. In order to prevent dust or water from entering the sleeve 110 from the light-injecting port, the optical path inside the sleeve 110 is optically contaminated. The lens 118 is protected. The infrared band pass filter 112 is disposed adjacent to the cover 1103 for filtering light in the infrared band into the light entrance port ln to block light of other bands, thereby improving the signal to noise ratio of the optical signal. The filtering characteristics of the infrared pass filter 112 of the present embodiment can be referred to the following settings: the wavelength range of the ρ band pass is 800-1100 nm; 2) the peak width is 40-80 nm, and the priority is the wave I degree. 50-70 nm; 3) The light penetration rate of the peak region is greater than 90%; 4) The light transmittance of other bands outside the band pass region is less than 2%. 11 200828835, and referring to FIG. 2, the infrared band pass light sheet m of the present embodiment includes a -= substrate 1121 and a multilayer oxide film sequentially formed on the substrate. The specific 'multilayer oxidation thin film 22' includes two kinds of emulsified films having different refractive indices, and the two oxidized films are alternately deposited on the transparent substrate U21 to form the infrared band pass louver 112. Preferably, :=Γ_50 layer of titanium dioxide (Ti〇2) and cerium oxide 2) are alternately deposited; the infrared band pass filter 112 is formed on the soil sheet. In addition, the multilayer subtraction 1122 may be deposited on the surface of the lens (10) opposite to the lens, 'and 113', that is, the protective glass (10) can both protect and filter. This saves material costs. The lens group 113 is spaced apart from the infrared band pass light sheet ι 2 to reserve the space for housing the collimator 116. The lens group ι 3 may be a spherical lens or an aspherical lens. In view of the superior performance of the aspherical lens, the lens group m of the present embodiment employs a sheet aspherical mirror. * However, the _^ group 113 boots in the real money, such as the use of a larger number of aspherical mirrors to sense the quality of the game. The infrared sensor m can be a Complementary Metal Oxide Semiconductor (CM〇S), i ''charge couple device (CCD), the singular; The latter is adopted. The opening m shape is opposite to the shape of the collimator 116, so that the collimator 116 can be fastened to define the position of the collimator 116 at the position of the sleeve 11 The ring 1101 and a collimating mirror 1162 disposed in the fixed 161, the outer diameter of the fixing ring 1161 is substantially equal to the inner diameter of the sleeve 12 200828835 110. Thus, when the collimator 11 (5 enters the sleeve 110), its circumferential side 1163 closely abuts the inner wall 11〇4 of the sleeve 110, and the collimator 116 can be firmly embedded in The push-pull member 117 adopts a cylinder integrally formed with the fixing ring 1161. Of course, the push-pull member 117 is not limited to the embodiment, and other shapes may be adopted. It can be understood that the opening 115 is The cylinder 11 〇 is located between the light inlet 111 and the infrared band pass filter 112. Referring to FIG. 3, a schematic diagram of the infrared light path for performing a shooting game Each optical component is represented by a characteristic line. A shooting game is performed, and the collimator 116 is pushed into the sleeve to become a part of the infrared sensing module 11. The host signal light source 30 emits signal light 31, The collimator 116 is contracted into parallel light 32, which is intersected by the lens group 113' into a concentrated light 33 and projected onto the photosensitive plane of the infrared sensor. Thus the infrared sensor 114 The small picture of the convergence, zone signal 34, can be sensed. The infrared sensor m converts the small pixel area minus 34 into a digital signal, and the signal processing module processes the two digits into a target call, such as a drunk point. The control feedback core block 13 is connected to (4) The user orders and hangs the target signal to generate a corresponding control, and rides the control ship _main_not shown, thereby implementing a shooting game. Considering that the parallel light 32 will converge on the lens after passing through the lens group m, and the image of the main surface of the image is detected, the position of the red 114 can be set. The money is reminiscent of the main face of the lens group 113 of the 13 200828835. In the present embodiment, the sensing plane of the infrared sensor 114 of the present invention overlaps with the image main surface of the lens group 113.
所述訊魏理概12 _龍健賴理成目標訊號,如 球拍,所述控制反饋模塊13接收用戶命令並調制所述目標 祝號進而産生對應之控觀號,再將所魅制訊號反饋到 請參閱圖4 ’為進行非射擊類_時之紅外光光路示 意圖,财各光學元件採用特徵線條絲。進行射擊類遊 戲需將所述準直器116拉離所述套筒則,所述紅外感測模 塊U之光路只保留所述鏡片、組113將訊號光&於成像於 所述紅外感測器114之感光平面。如此,所述紅外感測器 114將感測到大圖元區域訊號35,並輸出對應數位訊號, 主機,從而實現球類等非射擊遊戲。 綜上,所述紅外遙控模組可通過控制所述準直器進入 或離開所述套筒達適崎雜或非射_賴兩種不同主 題遊戲之目的,只需配置一所述紅外遙控模組便可進行射 擊類或非射擊類遊戲,消費成本低,攜帶方便。 請同時參閱圖5及圖6,所述攜帶型電子裝置2〇包括 一设體21、一設置於所述殼體21内之電路板22、一與所 述電路板22電連接之移動通訊模組23及一所述紅外遙控 模經。所述訊號處理模塊12及控制反饋模塊13與所述電 路板22電連接,所述套筒no之入光口 m設於所述殼體 21外表面以接收主機(圖未示)發出之光訊號。所述外殼21 設置有一與所述推拉件117連接之彈性按鈕24,以供用戶 控制所述準直器116進入或離開所述套筒no。另外,所述 14 200828835 攜帶型電子裝置20還包括一與所述電路板22電連接之加 速度感測模組25,用於感測所述攜帶型裝置2〇之運動並 轉化為用戶命令。優選的,本實施方式之攜帶型電子裝置 20還具備以下功能:顯示功能、藍牙收發功能、廣播接收 功能、音頻收錄功能、拍照功能、音頻播放功能、視頻播 放功能、硬碟讀寫功能及光碟讀寫功能。 具體的,所述攜帶型電子裝置2〇包括一主側面2〇1、 一次侧面202及一前端面203。所述主侧面201設置有控 制面板211、顯示面板212、相機鏡頭213、揚聲器214及 麥克風215。所述次側面202設置有硬碟機(Hani Disk Drive, HDD)216、光碟機(Digital Video Disk,DVD)217 及記憶卡插 槽218。所述如端面203設置有藍牙槔219,所述入光口 111 設置於所述前端面203靠近所述次侧面202邊緣處,而所 述彈性按鈕24設置於所述次侧面2〇2靠近前端面203之邊 緣處,兩者位置相對應。另外,所述電路板22還設置音頻 處理模組、視頻處理模組及廣播模組等電路模組(圖未示)。 所述控制面板211與所述顯示面板212構成用戶介 面,用戶可通過所述控制面板211選擇所述攜帶型電子裝 置20所能實現之功能。所述攜帶型電子裝置2〇可通過所 述移動通訊模組23實現移動通訊功能;通過所述紅外遙控 模組實現紅外遙控功能;通過所述顯示面板212實現顯示 功能;通過所述藍牙埠219實現藍牙功能;通過所述廣播 模組實現廣播接收功能;通過所述麥克風215及音頻處理 模組實現音頻收錄功能;通過所述相機鏡頭213實現拍照 15 200828835 功能’·通過所述音頻處理模組及揚聲器214實現音頻播放 功能,通過所述視頻處理模組及顯示器216實現視頻播放 功能,通過所述硬碟機216及光碟機217實現硬碟讀寫功 能及光碟讀寫功能;通過所述記憶卡插槽21 儲容量。 牙仔 為了縮小所述攜帶型電子裝置20之體積,所述硬碟機 =6採用微型硬碟機,所述光碟機217採用微型藍光光碟 所述加速度感測H 25可感測所述攜帶型電子裝置 之移動執迹、速度等參數,並將其所述參數轉化為用戶命 令並輸至所述㈣反麵塊13調酬述崎處理模塊Η 輸出之目標訊號,實現運動遙控功能。如,進行射擊類遊 戲k ’用戶只需像使肝搶—樣雜所述攜帶型電子襄置 20 ’遊戲場面中之瞒準點(圖未示)將作出對應移動,從^實 現控制所賴準點之魏。又如,進行高爾夫球遊戲時, 用戶只需像揮尚爾夫球桿一樣揮舞所述攜帶型電子裝置, 遊戲場面中之高爾夫轉(目未示)將做出對雜作,^而實 現控制而爾夫球桿之遙控功能。 、 更加具體的,所述紅外感測模塊u與所述殼體21及 所述彈性按紐24可參以下設置:所述所述前端面勘開設 有對應入光Π m之通孔細,將所述紅外感測模塊u 固定於所述外殼2:上,所述人光n m解所述通孔 2101。所述外殼21向内延伸一抵板21〇2,所述抵板雇 開設有通孔供所述推拉件117插設。所述彈性按紐24包括 16 200828835 -按練242及-彈簧241,所述按紐體242嵌設於所述 次側面202對應所述推拉件117之位置,並與所述推拉件 U7轉動連接’所述彈簧241套設於所述推拉件ιΐ7並處於 壓縮狀態。所述她體242$有—卡鎖期,對應的,所 述殼體設有-與所述卡銷勘相配合之卡勾細。 …所述餘24未下按時’處於壓縮狀態之彈菁對所 ,按叙體242施加沿遠離所述外殼21方向之彈力,所述彈 η體242在彈力作用下通過所述推拉件m將所述準直器 6拉離所述套筒11〇 ’所述準直器加抵壓於所述抵板 2102上並固定,此時用戶可進行非射擊類遊戲。若用 =力將下按所述按紐體242,將所述準直器ιΐ6推進所述 套二110,並通過轉動所述按蝴242,將所述卡鎖期 又於=述卡勾2103 ’通過所述卡銷2421及卡勾21〇3之 酉^疋所述按叙體242,從而將所述準直器116固定於所 〜^ 110内,此時用戶可進行射擊類遊戲。 理解,所述紅外感測模塊11與所述殼體21及所 ^結構m4之結構配合並不限於本實施方式,可採用其 式,’所_帶型電子裝置2〇不限於本實施方 一刪少零 實於里解,所述鎖固部及鎖固件之配合也不限於上述 &疒工,可以採用其他可壓縮所述彈簧之鎖固組合。 述本發明確已符合發明專利要件,爰依法提 17 200828835 内 述者僅為本發明之較佳實施方式, 牛“本案技藝之人士,於援依本案發明精神所作之等 效修飾或變化,皆應包含㈣下之中請專纖目 【圖式簡單說明】 圖1為較佳實财叙紅外絲漁之示意圖; 圖2為較佳實财式之紅特通濾光k剖面示意圖 圖3為進摘擊_戲時之紅外光光路示意圖; 圖4為進行_擊崎_之紅外絲路示意圖; 圖5為較佳實施方叙鮮㈣子裝置之立體示意圖 圖6為圖5所示沿VI_VI方向之剖面示意圖。 殼體 21 通孔 2101 抵板 2102 卡勾 2103 控制面板 211 顯示面板 212 相機鏡頭 213 揚聲器 214 麥克風 215 $更碟機 216 光碟機 217 記憶卡插槽 218 【主要組件符號說明】 紅外遙控模組 10 紅外感測模塊 11 套筒 110 筒體 1101 筒座 1102 筒蓋 1103 内壁 1104 入光口 111 紅外帶通濾、光片 112 透明基片 1121 氧化薄膜 1122 鏡片組 113 18 200828835 紅外感測器 114 藍牙埠 219 開口 115 電路板 22 準直器 116 移動通訊模組 23 固定環 1161 彈性按鈕 24 準直鏡 1162 彈簧 241 圓周側面 1163 鈕體 242 推拉件 117 卡銷 2421 保護鏡片 118 加速度感測模組 25 訊號處理模塊 12 主機訊號光源 30 控制反饋模塊 13 訊號光 31 攜帶型電子裝置 20 平行光 32 主側面 201 匯聚光 33 次側面 202 小圖元區域訊號 34 前端面 203 大圖兀區域訊號 35 19The control signal module 13 receives the user command and modulates the target number to generate a corresponding control number, and then feeds back the charm signal to the reference picture. 4 'For the infrared light path diagram when performing non-shooting class _, the optical components of the financial use feature line. When the shooting game is required to pull the collimator 116 away from the sleeve, the optical path of the infrared sensing module U only retains the lens, the group 113, and the image light is applied to the infrared sensing. Photosensitive plane of the device 114. In this way, the infrared sensor 114 will sense the large cell area signal 35 and output a corresponding digital signal to the host to implement a non-shooting game such as a ball. In summary, the infrared remote control module can control the collimator to enter or leave the sleeve for the purpose of two different themed games, such as the infrared remote control mode. The group can be used for shooting or non-shooting games, which is low in cost and easy to carry. Referring to FIG. 5 and FIG. 6 , the portable electronic device 2 includes a device 21 , a circuit board 22 disposed in the housing 21 , and a mobile communication module electrically connected to the circuit board 22 . Group 23 and one of the infrared remote control modes. The signal processing module 12 and the control feedback module 13 are electrically connected to the circuit board 22. The light entrance m of the sleeve no is disposed on the outer surface of the housing 21 to receive light from a host (not shown). Signal. The outer casing 21 is provided with a resilient button 24 coupled to the push-pull member 117 for the user to control the collimator 116 to enter or exit the sleeve no. In addition, the portable electronic device 20 further includes an acceleration sensing module 25 electrically connected to the circuit board 22 for sensing the motion of the portable device 2 and converting it into a user command. Preferably, the portable electronic device 20 of the present embodiment further has the following functions: a display function, a Bluetooth transceiver function, a broadcast receiving function, an audio recording function, a photographing function, an audio playing function, a video playing function, a hard disk reading and writing function, and a compact disc. Read and write function. Specifically, the portable electronic device 2 includes a main side surface 2, a primary side surface 202, and a front end surface 203. The main side 201 is provided with a control panel 211, a display panel 212, a camera lens 213, a speaker 214, and a microphone 215. The secondary side 202 is provided with a Hani Disk Drive (HDD) 216, a Digital Video Disk (DVD) 217, and a memory card slot 218. The end surface 203 is provided with a Bluetooth port 219, the light entrance port 111 is disposed at the front end surface 203 near the edge of the secondary side surface 202, and the elastic button 24 is disposed at the front side surface 2〇2 near the front end. At the edge of the face 203, the positions of the two correspond. In addition, the circuit board 22 further includes circuit modules (not shown) such as an audio processing module, a video processing module, and a broadcast module. The control panel 211 and the display panel 212 form a user interface, and the user can select a function that the portable electronic device 20 can implement through the control panel 211. The portable electronic device 2 can realize a mobile communication function through the mobile communication module 23; realize an infrared remote control function through the infrared remote control module; realize a display function through the display panel 212; and pass the Bluetooth 219 Implementing a Bluetooth function; implementing a broadcast receiving function through the broadcast module; implementing an audio recording function through the microphone 215 and the audio processing module; and performing a photographing through the camera lens 213 15 200828835 Function '·through the audio processing module And the speaker 214 implements an audio playing function, and the video playing function is implemented by the video processing module and the display 216, and the hard disk reading and writing function and the optical disk reading and writing function are implemented by the hard disk drive 216 and the optical disk drive 217; Card slot 21 storage capacity. In order to reduce the volume of the portable electronic device 20, the hard disk drive=6 uses a mini hard disk drive, and the optical disk drive 217 uses a miniature blue light disk. The acceleration sensing H25 can sense the portable type. The parameters such as the movement indication, the speed of the electronic device, and the parameters thereof are converted into user commands and input to the target signal outputted by the (4) reverse block 13 to adjust the feedback processing module to realize the motion remote control function. For example, the shooting game k 'user only needs to make the liver robbing - the portable electronic device 20' game scene in the punctual point (not shown) will make the corresponding movement, from the realization of the control Wei. For example, when performing a golf game, the user only needs to wave the portable electronic device like a golf club, and the golf turn in the game scene will not make a miscellaneous work. The remote control function of the golf club. More specifically, the infrared sensing module u and the housing 21 and the elastic button 24 may be disposed as follows: the front end surface is provided with a through hole corresponding to the entrance pupil, and The infrared sensing module u is fixed on the outer casing 2: the human light nm solves the through hole 2101. The outer casing 21 extends inwardly through a plate 21〇2, and the through plate is provided with a through hole for the push-pull member 117 to be inserted. The elastic button 24 includes 16 200828835 - 242 and - spring 241, and the button body 242 is embedded in the position of the second side 202 corresponding to the push-pull member 117, and is rotatably connected with the push-pull member U7. The spring 241 is sleeved on the push-pull member ΐ7 and is in a compressed state. The body 242$ has a latching period, and correspondingly, the housing is provided with a hook that is matched with the card pin. The remaining 24 is not pressed, and the elastic body in the compressed state is applied, and the elastic body 242 is applied in the direction away from the outer casing 21, and the elastic body 242 passes through the push-pull member m under the elastic force. The collimator 6 is pulled away from the sleeve 11〇', and the collimator is pressed against the abutting plate 2102 and fixed, and the user can perform a non-shooting game. If the button body 242 is pressed down by the force, the collimator ι 6 is pushed into the sleeve 210, and by rotating the button 242, the card lock period is again indicated by the hook 2103. 'The said collimator 242 is fixed by the bayonet 2421 and the hook 2121, so that the user can perform a shooting game. It is to be understood that the configuration of the infrared sensing module 11 and the structure of the housing 21 and the structure m4 is not limited to the embodiment, and the type of the electronic device 2 is not limited to the first embodiment. The combination of the locking portion and the locking member is not limited to the above-mentioned & completion, and other locking combinations that can compress the spring can be used. The present invention has indeed met the requirements of the invention patent, and is described in accordance with the law. 2008 20083535 The above description is only a preferred embodiment of the present invention, and the cows "the person skilled in the case, the equivalent modification or change in the spirit of the invention according to the invention" It should include (4) the following special fiber catalogue [simple description of the schema] Figure 1 is a schematic diagram of the better real wealth of the infrared silk fishing; Figure 2 is a schematic diagram of the red and white filter of the better real money type. FIG. 4 is a schematic diagram of an infrared wire path for performing _ akisaki _; FIG. 5 is a schematic perspective view of a sub-device of a preferred embodiment (four) sub-device. FIG. 6 is a cross-sectional view of FIG. Schematic diagram of the direction. Housing 21 Through hole 2101 Abutment plate 2102 Hook 2103 Control panel 211 Display panel 212 Camera lens 213 Speaker 214 Microphone 215 $CD player 216 CD player 217 Memory card slot 218 [Main component symbol description] Infrared Remote control module 10 Infrared sensing module 11 Sleeve 110 Cylinder 1101 Cylinder block 1102 Cylinder cover 1103 Inner wall 1104 Inlet port 111 Infrared band pass filter, light sheet 112 Transparent substrate 1121 Oxide film 1 122 Lens Group 113 18 200828835 Infrared Sensor 114 Bluetooth 埠219 Opening 115 Circuit Board 22 Collimator 116 Mobile Communication Module 23 Retaining Ring 1161 Elastic Button 24 Collimating Mirror 1162 Spring 241 Circumferential Side 1163 Button Body 242 Push-pull 117 Card Pin 2421 Protective lens 118 Acceleration sensing module 25 Signal processing module 12 Host signal light source 30 Control feedback module 13 Signal light 31 Portable electronic device 20 Parallel light 32 Main side 201 Converging light 33 Secondary side 202 Small picture area signal 34 Front end Face 203 Large map area signal 35 19