200916936 九、發明說明: - 【發明所屬之技術領域】 . 本發明涉及一種顯像裝置和顯像系統以及顯像方法。 【先前技術】 先前之數位顯像裝置,如液晶投影機。於使用時,所 述液晶投影機係通過一條資料訊號線與電腦連接,並通過 該育料訊號線接收所述電腦之影像訊號,然後所述液晶投 影機進行投影顯像。然而於某些場合,由於空間之限制, 需要液晶投影機與所述電腦之距離較遠,而該距離可能超 出所述貢料訊號線之長度。此時便不得不通過延長貢料訊 號線,或縮短所述液晶投影機與所述電腦之間之距離,以 達到使用之目的。但若多個會議室公用一台液晶投影機和 一台電腦,而該多個會議室中電腦與液晶投影機之間之距 離不同’這樣會導致根據每個會議室中電腦與液晶投影機 之間之距離來配置資料訊號線之長度,這會給使用者帶來 極大之不方便。 f v 【發明内容】 有鑒於此,有必要提供一種顯像裝置和顯像系統以及 顯像方法。 一種顯像裝置,其包括:顯像模組,用於顯示影像資 訊;無線接收器,用於接收一外部電子裝置發射之無線數 位資訊,並從所述無線數位資訊中提取出影像資訊;晝面 縮放控制器,用於獲取所述影像資訊,並控制所提取之顯 像模組顯示所述影像資訊。 200916936 置,所2像系統’其包括—個控制端電腦和-個顯像裝 ί送要t 包ΐ ··無線發送器,用於以數位訊號 組,用於:’:象之影像纽’所述顯像裝置包括:顯像模 端電腦發射無:接收器’用於接收所述控制 触⑽,亚於料触喊巾提取影像資 ;顧:二縮放控制器’用於獲取所述影像資訊,並控制所 述顯不杈組顯示所述影像資訊。 '雜系統之顯像方法,㈣統包括-個控制端電 ®山口一固顯像裝置,該顯像系統之顯像方法包括:所述控 _之將產生具有景彡像訊號之無線數位訊號,並發送 輯述顯像H料顯縣置触料無缝位訊號, 並&取出影像資訊;所述顯像裝置之晝面縮放控制器控制 該顯像裝置之顯像模蝴補述影像資訊。 與先前技術相比較,所述顯像裝置和顯像系統以及顯 像去於使用日^無需資料訊號線來傳輸資料,這樣於電 腦與顯像裝置之訊號傳輸範圍内,均可以正常使用,給使 用者帶來了便利。 【實施方式】 二參閱圖1 ’為本發明實施例提供之一種顯像系統1〇〇 之力月b模組圖。所述顯像系統1〇〇包括控制端電腦和顯 像裝置20。 所述控制端電腦1〇可以為個人電腦、筆記本電腦、個 人數位助理、數位相機、數位攝像機以及手機等電子裝置。 於本實施例中,所述控制端電腦1〇為一個pc機(個人電 200916936 腦)。 所述控制端電腦1〇具有一個無線發送器11和一個控 制介面12。 發送器11用於發送要進行顯像之影像資 線發、、;:二送身訊時以數位訊號進行發送。優選地,所述無 置11可以為—個無線收發器,可以接收所述顯像裝 产、1,出之狀態資訊。所述狀態資訊包括照明系統之亮 又、知、明系統中燈泡之照明時數以及系統警告資訊等,其 用於供使用者參考瞭解所述顯像裝置之狀態。 ^於本實施例中,所述無線發送器11為一個無線接取點 系統單晶片。所述無線接取點系統單晶片將無線網路處理 益、媒體存取控制器、所有收發功能以及天線等功能整合 於一個晶片中。該無線接取點系統單晶片可以實現對所述 影像資訊封包以及拆包。所述影像資訊為所述控制端電腦 10發出之影像顯示資訊,所述無線發送器n獲取所述影 像貧訊之後,根據無線傳輸之協定對所述影像顯示訊號進 行封包處理,然後發送給所述顯像裝置。 所述控制介面12用於產生所述顯像裝置之控制命 令。所述控制介面12為一個視窗功能表介面,於該控制介 面12上通過設置按鈕之方式來啟發控制命令。例如,所述 控制命令包括增加圖像亮度命令以及減少圖像亮度命令。 所述控制命令通過所述無線發送器η發送給所述顯像裝 置。 當所述無線發送器11為一個無線收發器時,所述控制 200916936 介面12可以顯示所述無線收發器接受之所述狀態資訊。 所述顯像裝置20包括一個顯像模組2;[’ 一個無線接 收器25和一個晝面縮放控制器(Scaler ) 29。 所述顯像裝置20可以為一個顯示器,也可以為一個投 影機’於本實施例中’所述顯像裝置2〇為一個LCD(Liquid Crystal Display,液晶顯示屏)投影機。 所述顯像模組21用於顯示影像資訊。所述顯像模組 21可以為LCD也可以為CRT(Cathode Ray Tube,陰極射線 管)。於本實施例中,其為LCD。 所述無線接收益25用於接收所述控制端電腦1〇發射 之數位訊豸ϋ於所述數位訊號中提取影像資訊。另,所 述無線接收器29可以接收所述控制端電腦發送之控制 命令0200916936 IX. Description of the invention: - [Technical field to which the invention pertains] The present invention relates to a developing device, a developing system, and a developing method. [Prior Art] A prior digital imaging device such as a liquid crystal projector. In use, the liquid crystal projector is connected to the computer through a data signal line, and receives the image signal of the computer through the feed signal line, and then the liquid crystal projector performs projection display. However, in some cases, due to space constraints, the liquid crystal projector is required to be far away from the computer, and the distance may exceed the length of the tributary signal line. At this time, it is necessary to extend the tributary signal line or shorten the distance between the liquid crystal projector and the computer for the purpose of use. However, if multiple conference rooms share a single LCD projector and a computer, and the distance between the computer and the LCD projector in the multiple conference rooms is different, this will result in the computer and LCD projector according to each conference room. The distance between the data signal lines is configured to be extremely inconvenient for the user. f v [Summary of the Invention] In view of the above, it is necessary to provide a developing device, a developing system, and a developing method. A developing device includes: a developing module for displaying image information; a wireless receiver for receiving wireless digital information transmitted by an external electronic device, and extracting image information from the wireless digital information; And a surface scaling controller, configured to acquire the image information, and control the extracted imaging module to display the image information. 200916936 Set, the 2 image system's include a console computer and a video display device to send packets to the package. · Wireless transmitter for digital signal groups, used for: ': Image Image New The developing device comprises: a developing terminal computer transmitting no: a receiver 'for receiving the control touch (10), and a sub-touching towel extracting image; a: two zoom controller 'for acquiring the image Information, and controlling the display group to display the image information. The imaging method of the miscellaneous system, (4) includes a control terminal electric® Yamaguchi one solid imaging device, and the developing method of the developing system includes: the control _ will generate a wireless digital signal with a scene signal And sending a series of images to display the H-signaling touch-free seamless bit signal, and & extracting the image information; the face-up zoom controller of the developing device controls the image-capturing image of the developing device News. Compared with the prior art, the developing device and the developing system and the developing image are used to transmit data without using a data signal line, so that the signal transmission range of the computer and the developing device can be normally used, The user brings convenience. [Embodiment] FIG. 1 is a block diagram of a power module b of a developing system according to an embodiment of the present invention. The developing system 1 includes a console computer and a developing device 20. The console computer 1 can be an electronic device such as a personal computer, a notebook computer, a number of assistants, a digital camera, a digital camera, and a mobile phone. In this embodiment, the console computer 1 is a PC (personal power 200916936 brain). The console computer 1 has a wireless transmitter 11 and a control interface 12. The transmitter 11 is configured to send the image transmission to be developed, and to transmit the digital signal when the second transmission is sent. Preferably, the device 11 can be a wireless transceiver that can receive status information of the display device and the output device. The status information includes the illumination system, the illumination time of the bulb in the knowing system, and the system warning information, etc., which are used for the user to refer to the state of the imaging device. In the embodiment, the wireless transmitter 11 is a wireless access point system single chip. The wireless access point system single chip integrates functions such as wireless network processing, media access controllers, all transceiver functions, and antennas into one chip. The wireless access point system single chip can realize the information packet unpacking and unpacking. The image information is image display information sent by the control terminal computer 10, and after the wireless transmitter n acquires the image poor message, the image display signal is packetized according to a protocol of wireless transmission, and then sent to the office. Said imaging device. The control interface 12 is used to generate a control command for the imaging device. The control interface 12 is a window function table interface on which the control commands are inspired by setting buttons. For example, the control commands include an increase image brightness command and a reduce image brightness command. The control command is sent to the developing device via the wireless transmitter n. When the wireless transmitter 11 is a wireless transceiver, the control 200916936 interface 12 can display the status information accepted by the wireless transceiver. The developing device 20 includes a developing module 2; [' a wireless receiver 25 and a face scale zoom controller (Scaler) 29. The developing device 20 can be a display or a projector. In the present embodiment, the developing device 2 is an LCD (Liquid Crystal Display) projector. The development module 21 is configured to display image information. The developing module 21 may be an LCD or a CRT (Cathode Ray Tube). In this embodiment, it is an LCD. The wireless receiving benefit 25 is configured to receive the digital signal transmitted by the control computer 1 to extract image information from the digital signal. In addition, the wireless receiver 29 can receive the control command sent by the control terminal computer.
當所述控制端電腦1〇之無線發送器n為一個無線收 毛益時所述顯像農置2〇之無線接收器25也可以係一個 無線收& : ^所述晝面縮放控制器29可以採集所述液晶投 影機之狀態資訊’如照明系統之亮度、照明系統中燈泡之 照明時數以^統警告資訊等。所述晝面縮放控制器29採 市到之該狀㈣訊可以通過所述無線收發器發送給所述控 皮L也所述無線接收器25為-個無線接取點系統單 該無線接取點“單W對減狀數位訊號進行 拆包處理,提取出影像資訊。 所述旦面縮放控制器29用於獲取所述影像資訊,並控 200916936 制所述顯像模組顯示所迷影像資訊。於本實施例中,所述 -晝面職控制11 29獲取所述無線純ϋ 25提取之影像資 •訊,並將所述影像資訊擴展到所述LCD上。所述液晶投影 機之照明系統之光線穿過所述LCD之後,通過所述液晶投 影機之鏡頭將圖像投影到螢幕上,實現顯示該影像資訊。 :以理解,所述晝面縮放㈣^ 29可以獲取所述無線 收發器25接收之控制命令,並執行該控制命令。比如,所 述無線接收器25接收到之控制命令為—個增加圖像亮度 ' 命令,則晝面縮放控制益29獲取所述增加圖像亮度命令之 後,可以控制所述LCD中液晶之旋轉角度,增加通過所述 LCD之光線提高投影圖像之亮度。所述晝面縮放控制器29 也可以發出訊號給所述LCD投影機之照明系統,通過提高 照明系統之照明亮度,來實現提高投影圖像之亮度。優遞 地,所述晝面縮放控制器29於控制所述LCD中液晶之旎 轉角度使通過之光線增加之同時,也發出訊號給所述LCP 照明系統,提高照明系統之亮度。 /.· 、 可以理解,所述畫面縮放控制器29可以根據訊號格式 之不同,來區分所述控制命令與所述影像資訊。 所述晝面縮放控制器22與所述無線接收器21之間< 以採用非同步傳輸模式進行資料傳輸。於本實施例中,戶斤 述畫面縮放控制器22與所述無線接收器21之間採用通用 非同步收發器(UART)進行傳輸資料。 請參閱圖2,為本發明實施例提供之顯像系統πο ! 顯像方法之流程圖。 200916936 步驟S37:所述控制端電腦10產生具有影像訊號之無 線數位訊號,並發送給所述顯像裝置2〇。於本實施例中, 為所述控制端電腦10之無線發送器將由所述控制端電 腦10產生之影像訊號轉換成無線數位訊號,再發送給所述 顯像裝置20。 步驟S45 :所述顯像裝置20之無線接收器25接收所 述無線數位訊號,並提取出影像資訊。 步驟S51 :所述顯像裝置20之晝面縮放控制器29獲 取所提取之影像資訊’並控制所述顯像裝置2〇之顯像模= 21進行顯示。 、 與先前技術相比較,所述顯像系统及方法, 無需資料訊號線來傳輸資料’這樣於電腦與顯 法之訊號傳輸範圍内,均可以正常使用,终‘ ”統及方 便利 、、Ό 1定用者帶來了 綜上所述,本發明符合發明專利要件,爰佐 利申請。惟,以上所述者僅為本發明之較仵去提出專 發明之範圍並不以上述實施方式為限,與 方式’本 舉凡熟籴汰电 之人士援依本發明之精神所作之等效修飾或㈣%承案技藝 盡於以下申睛專利範圍内。 -w 自應涵 【圖式簡單說明】 圖1係本發明實施例提供之一種無線投影系統 圖2係圖1中之無線投影系統之投影方=之功能楔缸圖。 【主要元件符號說明】 顯像系統 100控制端電腦 10 11 200916936 無線發送器 顯像裝置 晝面縮放控制器 11 控制介面 12 20 無線接收器 25 29 顯像模組 21 12When the wireless transmitter n of the control terminal computer is a wireless receiver, the wireless receiver 25 of the display device can also be a wireless receiver & : ^ 29 can collect state information of the liquid crystal projector, such as the brightness of the illumination system, the number of illumination hours of the light bulb in the illumination system, and the warning information. The kneading zoom controller 29 picks up the signal (four) can be sent to the skin control through the wireless transceiver. The wireless receiver 25 is also a wireless access point system. Click “Single W to unpack the subtractive digital signal to extract image information. The surface scaling controller 29 is configured to acquire the image information, and control the imaging module of the 200916936 system to display the image information. In this embodiment, the image management device 11 29 acquires the image information extracted by the wireless wireless device 25, and extends the image information to the LCD. The illumination of the liquid crystal projector After the light of the system passes through the LCD, the image is projected onto the screen through the lens of the liquid crystal projector to display the image information. By understanding, the zooming (4) 29 can obtain the wireless transceiver. The controller 25 receives the control command and executes the control command. For example, if the control command received by the wireless receiver 25 is an increase image brightness command, the face zoom control gain 29 obtains the increased image brightness. After the command, The rotation angle of the liquid crystal in the LCD can be controlled to increase the brightness of the projected image by the light of the LCD. The face zoom controller 29 can also send a signal to the illumination system of the LCD projector to improve illumination. The illumination brightness of the system is used to improve the brightness of the projected image. Preferably, the face zoom controller 29 controls the angle of the liquid crystal in the LCD to increase the light passing through, and also sends a signal to the camera. The LCP illumination system is used to improve the brightness of the illumination system. /.·, it can be understood that the picture zoom controller 29 can distinguish the control command from the image information according to different signal formats. Between the device 22 and the wireless receiver 21, data transmission is performed in a non-synchronous transmission mode. In the present embodiment, the general non-synchronization between the picture scaling controller 22 and the wireless receiver 21 is adopted. The transceiver (UART) transmits data. Please refer to FIG. 2, which is a flowchart of a method for developing a πο! development system according to an embodiment of the present invention. 200916936 Step S37: The control terminal computer 10 generates a wireless digital signal having an image signal and transmits it to the developing device 2. In this embodiment, the wireless transmitter of the control terminal computer 10 will be generated by the control terminal computer 10. The image signal is converted into a wireless digital signal, and then sent to the developing device 20. Step S45: The wireless receiver 25 of the developing device 20 receives the wireless digital signal and extracts image information. Step S51: The facet zoom controller 29 of the developing device 20 acquires the extracted image information 'and controls the display mode of the developing device 2 to display 21. The developing system and method are compared with the prior art. , no data signal line is needed to transmit data', so that it can be used normally in the signal transmission range of the computer and the display method, and the end of the system is convenient and convenient, and the user is brought into consideration. In line with the invention patent requirements, 爰佐利 applied. However, the above description is only for the purpose of the present invention, and the scope of the invention is not limited to the above embodiment, and the equivalent modification of the method of the present invention is based on the spirit of the present invention. Or (4)% of the contracting skills are within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a wireless projection system according to an embodiment of the present invention. FIG. 2 is a functional wedge diagram of a projection side of the wireless projection system of FIG. [Main component symbol description] Development system 100 console computer 10 11 200916936 Wireless transmitter Imaging device Zoom controller 11 Control interface 12 20 Wireless receiver 25 29 Imaging module 21 12