201115342 六、發明說明: 【發明所屬之技術領域】 [0001]本發明涉及一種拼接電視牆之控制系統及方法 [先前技術3 [0002] [0003] [0004] 冤視牆是由多個電視單元拼接而叙—種超 牆體,是—種影像、圖文顯㈣統,目前在體育場Γ 證券市場以及監控領域等都有廣泛之應用。例如,安防 領域中傳統監視幕牆之設計,均是將多台 。 按-定之次序壘4起來,拼接成-個A 5皿視器 、…, 徊大螢幕電視幕牆。 廷種拼接電視幕_往使用-個遙㈣進行控制^是 ,當我們想料控H對其中之某—台電視進行控制時, 由於遙控器發出之紅外線訊號覆蓋之範圍比較大,因此 往往會誤操作到其他之電視。 【發明内容】 有蓉於此,有必要提供-種可―止誤操作之拼接電視 牆之控制系統及方法。 一種拼接電視牆之控制祕,其包括遙㈣以及設置在 每-台電視紅外接收器上之紅外線遮罩。所述遙控器用 於發射帶有❹m資就紅外線崎。所述紅外線遮罩 包括接收$ 4憶體’處理器及紅外線轉發器。所述接 收器用於接收所述遙控n發射之紅外i所述記憶體存 =有控制該紅外線遮罩之所述遙控器按鍵f訊該按鍵 •貝訊做為該紅外線遮罩之識別碼。所述處理器與所述接 收器及讀體連接,用於判斷所述接收器接收之紅外線 訊號中之識別碼是否與所述記憶體中存儲之識別瑪相同 098135009 表單編號A0101 第4頁/共15頁 0982059989-0 201115342 [0005] Ο [0006] [0007] [0008] ❹ [0009] [0010] 098135009 。當紅外線訊號中之朗碼與所述記憶體中存儲之識別 碼相同’所述紅外線轉發器將所述接收器接收之紅外線 訊號發送、賴述電視之紅外減!,m線訊號中之 識別碼與所述記憶體中存儲之識別碼不相同,所述紅外 線轉發器不發送紅外線訊號。 -種拼接電_之控制方法’拼接電視牆之控制系統包 括設置在電視牆中每台電視之紅外接收器上之紅外線遮 罩,所述紅外線遮罩中存儲有控制該紅外線遮罩之按鍵 之識別碼資訊,所述拼接電視牆之控制方法包括: 發射一帶有識別碼之紅外線.訊號給所述拼接電視牆中之 電視; 所述紅外線遮罩接收所述紅外線訊號,判斷該紅外線訊 號中之識別瑪是否與所述紅外線遮罩中存儲之按鍵之識 別碼相同; 若所述紅外線訊號中之識別碼與所述紅外線遮罩中存儲 之按鍵之識別碼相同》則轉發所述紅外線訊號給所述電 視之紅外接收器; 若所述紅外線訊號中之識別碼與所述紅外線遮罩中存儲 之按鍵之識別碼不相同,則不轉發所述紅外線訊號給所 述電視之紅外接收器。 相對於現有技術,本發明提供之拼接電視牆之控制系統 及方法籍由在電視牆中每一台畲視之紅外接收器上設置 一紅外線遮罩,紅外線遮罩中存儲有控制該紅外線遮罩 之遙控器按鍵之識別碼,利用遙控器發射一帶有識別碼 表單編號A0101 第5頁/共15頁 0982059989-0 201115342 之紅外線訊號給紅外線遮罩, 旱攸而對具有相同識別碼之 電現進行㈣,防錢操作其他電視。 【實施方式】 [0011] [0012] [0013] [0014] [0015] 下面將結合關對本發料-具體介紹。 清參閱圖1 ’ 一種拼接電葙睥 电晛私之控制糸統10,用於控制一 开接電視牆,所述拼接電視牆之控㈣㈣包括遙控器 i〇〇u及紅外線遮罩2QG。所述紅外線遮罩_設置在所 述拼接電減中之電梘之紅外接1述拼接電 視牆中之每、電視之㈣魏㈣均對應設置-紅 外線遮罩200。 所述遙控器m包括控制按鍵110、選擇按鍵12〇、按鍵 控制器13〇以及紅外線發射器14〇。在本實施方式中所 述遙控器100為電視機中使用之普通遙控器。 所述控制按鍵110與所述按鍵控制器130連接,其用於對 所述電視牆中之電視進行控制。 所述選擇按鍵12〇與所述按鍵控制器13〇連接,其用於對 所述紅外線遮罩2〇〇進行控制。當使用者按動不同之選擇 按鍵120時,可以選擇控制不同之紅外線遮罩2〇〇。另外 ,所述遙控器100還可以不設置所述選擇按鍵12〇,利用 所述控制按鍵11〇中之按鍵之組合鍵之形式對所述紅外線 遮罩200進行控制,例如,在實際使用當中可以按動遙控 器1〇〇中之功能表鍵和數位鍵“1”之組合鍵對第一個紅 外線遮罩200進行控制,按動功能表鍵和數位鍵“2”對 第二個紅外線遮罩2〇〇進行控制等等。按鍵之設定具體可 098135009 表箪編號A0101 第6頁/共15頁 0982059989-0 201115342 • [0016] 以根據用戶之使用需要進行設定。 所述按鍵控制器130與所述控制按鍵11〇、選擇按鍵12〇 以及紅外線發射器! 4〇連接’其用於控制所述紅外線發射 器140發射帶有與所述按鍵相對應之識別碼之紅外線訊號 。當使用者按動所述控制按鍵110或者是選擇按鍵12〇時 ,所述按鍵控制器130控制所述紅外線發射器14〇發射帶 有與所述按鍵相對應之識別碼之紅外線訊號。 [0017] Ο 所述紅外線發射器140用於根據所述按鍵控制器13〇之控 制訊號,發射紅外線訊號<» [0018] 所述紅外線遮罩200設置在所述拼接電視牆中之電視之紅 外接收器20上,所述紅外線遮罩2〇〇包括接收器21〇、記 憶體220 '處理器230、紅外線轉發器24〇以及電源25。 [0019] 所述接收器210用於接收所述遙控器之紅外線發射器 140發射之紅外線訊號,並將接收之紅外線訊號傳輸給所 述紅外線轉發器240。 ❹ 卿] 所述記憶體2 2 0内存儲有控制該紅外線遮罩2 〇 〇之所述遙 控器100按鍵資訊,做為該紅外線遮罩之識別碼。 [0021] 所述處理器230與所述接收器210以及所述記憶體22〇連 接’其用於判斷所述接收器210接收之紅外線訊號中之識 別碼是否與所述記憶體220中存儲之識別碼相同。若所述 接收器210接收之紅外線訊號中之識別碼與所述記憶體 220中存儲之識別碼相同’則所述處理器230發出訊號給 098135009 所述紅外線轉發器240 ;若所述接收器21〇接收之紅外線 訊號中之識別碼與所述記憶體220中存儲之識別碼不相同 表單編號軸1 第7頁/共15頁 0982059989-0 201115342 ,則所述處理器230不發出訊號。 [0022] 所述紅外線轉發器240連接所述處理器230以及所述接收 器210,所述紅外線轉發器240接收所述接收器210傳輸 之紅外線訊號,根據所述處理器230之控制訊號,轉發該 紅外線訊號’並將該紅外線訊號發送給所述電視之紅外 接收器2 0上’從而啟動該電視’實現對該電視之控制。 [0023] 所述電源250用於給所述接收器210、記憶體220、處理 器230以及紅外線轉發器240提供電力,在本實施方式中 a 〇 ’所述電源250為太陽能電池板。 [0024] 本發明實施方式提供之拼接電視牆之控制.系統10之工作 過程如下:使用者按動所述遙控器100上之選擇按鍵U0 選擇需要控制之電視,並發射紅外線訊號給該電視之紅 外線遮罩200,所述紅外線遮罩2〇〇中之接收器接收 所述紅外線訊號,所述紅外線遮罩2 〇 〇中之處理器2 3 〇判 斷所述紅外線訊號中之識別碼是否與控制該紅外線遮罩 200之選擇按鍵丨20之轉別碼相同,當所述紅外線訊號中 £) 之識別碼與所述紅外線遮罩200中存儲之識別碼一致時, 所述紅外線遮罩200將所接收之紅外線訊號轉發給所述電 視之紅外接收器20,從而實現對該電視之控制,當所述 紅外線訊號中之識別碼與所述紅外線遮罩2〇〇中存儲之識 別碼不一致時,所述紅外線遮罩200將所接收之紅外線訊 號不轉發給所述電視之紅外接收器2〇。因此對所述電視 牆中電視進行控制時,若紅外線遮罩2〇〇中存儲之識別碼 與所述遙控器100發出之紅外線訊號中之識別碼相同,則 所述電視才會文到控制,其他電視不會受到干擾,防止 098135009 表單編號AG101 第8頁/共15頁 η〇89ηΗ〇〇8(}-η 201115342 誤操作。 剛當,然可以想到之是,也可以將所述電視牆中之多個電視 進行分組’每-組進行統—之編碼,例如所述電視踏中 之電視之數量為9,如下表所示: [0026]表 1 [0027] 1 ΓΤ ~~-— --- 2 3 〇 . -—丨 δ__9 當使用 時,可對所述電視牆t最週邊(卜2,3,6,9,8,7, 4號電視)電視進行控制。當按動按鍵B時可對所述電 視牆中\冑角線(卜5,9號電視)之電視進行控制 。當按動按鍵C時,可對所述電視牆中《/,,對角線(3 ,5,7號電視)之電視進行控制等等。另外還可以利用 所述控制按鍵1 10中之按鍵之组合鍵之形式對所述紅外線 〇 遮罩200進行控制’例如,在實際使用,中可以按動功能 表鍵和數位鍵“1”之組合鍵對最週邊電視進行控制,按 動功能表鍵和數位鍵“2”之組合鍵對所述電視牆中“ \”對角線之電視進行控制,按動功能表鍵和數位鍵“3 之組合鍵對所述電視牆中對角線之電視進行 控制等等。可以根據具體之情況進行設定。 [0028]請參閲圖2,其為一種拼接電視牆之控制方法之流程圖, 所述拼接電視牆之控制系統包括設置在電視牆中每台電 視之紅外接收器上之紅外線遮罩,所述紅外線遮罩中存 098135009 表單編號A0101 第9頁/共15頁 0982059989-0 201115342 儲有控制該紅外線遮罩之按鍵之識別碼資訊,所述拼接 電視牆之控制方法包括: [0029] 步驟S101 :發射一帶有識別碼之紅外線訊號給所述拼接 電視牆中之電視; [0030] 步驟S102 :所述紅外線遮罩接收所述紅外線訊號,判斷 該紅外線訊號中之識別碼是否與所述紅外線遮罩中存儲 之按鍵之識別碼相同; [0031] 步驟S103 :若所述紅外線訊號中之識別碼與所述紅外線 遮罩中存儲之按鍵之識別碼相同,則轉發所述紅外線訊 號給所述電視之紅外接收器; [0032] 步驟S1 04 :若所述紅外線訊號中之識別碼與所述紅外線 遮罩中存儲之按鍵之識別碼不相同,則不轉發所述紅外 線訊號給所述電視之紅外接收器。 [0033] 在步驟S101中,所述帶有識別碼之紅外線訊號由一遙控 器發出。 [0034] 相對於現有技術,本發明提供之拼接電視牆之控制系統 及方法籍由在電視牆中每一台電視之紅外接收器上設置 一紅外線遮罩,紅外線遮罩中存儲有控制該紅外線遮罩 之遙控器按鍵之識別碼,利用遙控器發射一帶有識別碼 之紅外線訊號給紅外線遮罩,從而對具有相同識別碼之 電視進行控制,防止誤操作其他電視。 [0035] 另外,本領域技術人員還可在本發明精神内做其他變化 ,當然,這些依據本發明精神所做之變化,都應包含在 098135009 表單編號A0101 第10頁/共15頁 0982059989-0 201115342 本發明所要求保護之範圍之内.。 【圖式簡單說明】 [0036] 圖1係本發明提供之拼接電視牆之控制系統功能模組圖。 [0037] 圖2係本發明提供之拼接電視牆之控制方法流程圖 【主要元件符號說明】 [0038] 10 拼接電視牆之控制系統 [0039] 20 紅外接收器 [0040] 100 遙控器 [0041] 200 紅外線遮罩 [0042] 110 控制按鍵 [0043] 120 選擇按鍵 [0044] 130 按鍵控制器 [0045] 140 紅外線發射器 I〆:》":,、/'.',.;, [0046] 210 接收器 。十 Hct;: [0047] 220 記憶體 [0048] 230 處理器 [0049] 240 紅外線轉發器 [0050] 250 電源 098135009 表單編號A0101 第11頁/共15頁 0982059989-0201115342 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a control system and method for splicing a video wall [Prior Art 3 [0002] [0004] The Vision Wall is composed of a plurality of TV units The splicing and narration-type super wall is a kind of image and graphic display (four) system. It is widely used in the stadium, the securities market and the monitoring field. For example, the design of traditional surveillance curtain walls in the security field will be more than one. In accordance with the order of 4, spliced into an A 5 dish, ..., 徊 big screen TV curtain wall. Ting-type splicing TV screen _ to use - a remote (four) to control ^ Yes, when we want to control H to control one of them - TV, because the range of infrared signal emitted by the remote control is relatively large, so often Mishandled to other TVs. [Summary of the Invention] In view of this, it is necessary to provide a control system and method for splicing a TV wall that can be operated without any mistakes. A control secret for splicing a video wall, which includes a remote (four) and an infrared mask disposed on each of the television infrared receivers. The remote controller is used to transmit infrared rays with a ❹m. The infrared mask includes a $4 memory' processor and an infrared repeater. The receiver is configured to receive the infrared light emitted by the remote control n. The memory is stored. The remote control button of the infrared mask is controlled. The button is used as the identification code of the infrared mask. The processor is connected to the receiver and the reading body, and is configured to determine whether the identification code in the infrared signal received by the receiver is the same as the identification code stored in the memory. 098135009 Form No. A0101 Page 4 / Total 15 pages 0982059989-0 201115342 [0005] [0007] [0008] [0009] [0010] 098135009. When the radiance code in the infrared signal is the same as the identification code stored in the memory, the infrared transponder transmits the infrared signal received by the receiver, and the infrared of the television is reduced! The identification code in the m-line signal is different from the identification code stored in the memory, and the infrared repeater does not transmit the infrared signal. - Control method for splicing electricity _ splicing video wall control system includes an infrared ray mask disposed on an infrared receiver of each television in a video wall, wherein the infrared ray mask stores a button for controlling the infrared ray mask The identification code information, the control method of the spliced video wall comprises: transmitting an infrared signal with an identification code to the television in the spliced video wall; the infrared ray receiving the infrared signal, determining the infrared signal Whether the identification horse is the same as the identification code of the button stored in the infrared mask; if the identification code in the infrared signal is the same as the identification code of the button stored in the infrared mask, the infrared signal is forwarded to the The infrared receiver of the television; if the identification code in the infrared signal is different from the identification code of the button stored in the infrared mask, the infrared signal is not forwarded to the infrared receiver of the television. Compared with the prior art, the control system and method for splicing a video wall provided by the present invention are provided with an infrared mask disposed on each illuminating infrared receiver in the video wall, and the infrared mask is stored with the infrared ray mask. The identification code of the remote control button, using the remote control to transmit an infrared signal with the identification code form number A0101 5th / 15 pages 0982059989-0 201115342 to the infrared mask, the flooding and the electricity with the same identification code (D), anti-money operation of other TV. [Embodiment] [0012] [0015] [0015] [0015] The following is a description of the present invention. Refer to Figure 1 ’ A splicing electric smashing control system 10 for controlling a video wall, the control of the splicing video wall (4) (4) includes a remote control i〇〇u and an infrared mask 2QG. The infrared mask _ is disposed in the infrared splicing of the splicing power reduction, and each of the television (four) Wei (four) is correspondingly disposed - the infrared mask 200. The remote controller m includes a control button 110, a selection button 12A, a button controller 13A, and an infrared emitter 14A. In the present embodiment, the remote controller 100 is an ordinary remote controller used in a television set. The control button 110 is coupled to the button controller 130 for controlling a television in the video wall. The selection button 12 is connected to the button controller 13A for controlling the infrared mask 2〇〇. When the user presses the different selection button 120, it is possible to selectively control different infrared masks 2 〇〇. In addition, the remote controller 100 may also control the infrared mask 200 in the form of a combination of the keys of the control buttons 11 without setting the selection button 12, for example, in actual use. Press the function key of the remote control 1〇〇 and the combination key of the digit key “1” to control the first infrared mask 200, press the menu key and the digit key “2” to the second infrared mask. 2〇〇 Control and so on. The setting of the button can be specifically 098135009 Table No. A0101 Page 6 of 15 0982059989-0 201115342 • [0016] Set according to the user's needs. The button controller 130 and the control button 11 选择, the selection button 12 〇 and the infrared emitter! The 〇 connection is used to control the infrared ray transmitter 140 to emit an infrared signal having an identification code corresponding to the button. When the user presses the control button 110 or the selection button 12, the button controller 130 controls the infrared emitter 14 to emit an infrared signal with an identification code corresponding to the button. [0017] 红外线 the infrared emitter 140 is configured to emit an infrared signal according to the control signal of the button controller 13〇. The infrared mask 200 is disposed on the television in the mosaic video wall. On the infrared receiver 20, the infrared mask 2 includes a receiver 21A, a memory 220' processor 230, an infrared repeater 24A, and a power source 25. [0019] The receiver 210 is configured to receive an infrared signal emitted by the infrared emitter 140 of the remote controller, and transmit the received infrared signal to the infrared repeater 240.卿 ]] The memory 200 2 stores therein the button information of the remote controller 100 that controls the infrared mask 2 , , as the identification code of the infrared mask. [0021] The processor 230 is connected to the receiver 210 and the memory 22 to determine whether the identification code in the infrared signal received by the receiver 210 is stored in the memory 220. The identification code is the same. If the identification code in the infrared signal received by the receiver 210 is the same as the identification code stored in the memory 220, the processor 230 sends a signal to the infrared repeater 240 of 098135009; if the receiver 21 The identification code in the received infrared signal is different from the identification code stored in the memory 220. Form number axis 1 page / 15 pages 0982059989-0 201115342, the processor 230 does not emit a signal. [0022] The infrared repeater 240 is connected to the processor 230 and the receiver 210, and the infrared repeater 240 receives the infrared signal transmitted by the receiver 210, and forwards according to the control signal of the processor 230. The infrared signal 'transmits the infrared signal to the infrared receiver 20 of the television to activate the television to implement control of the television. [0023] The power source 250 is used to supply power to the receiver 210, the memory 220, the processor 230, and the infrared repeater 240. In the present embodiment, the power source 250 is a solar panel. [0024] The control of the spliced video wall provided by the embodiment of the present invention. The working process of the system 10 is as follows: the user presses the selection button U0 on the remote controller 100 to select a television to be controlled, and transmits an infrared signal to the television. Infrared mask 200, the receiver in the infrared mask 2 receives the infrared signal, and the processor 2 3 in the infrared mask 2 determines whether the identification code in the infrared signal is controlled or not The transcoding code of the selection button 丨20 of the infrared ray mask 200 is the same. When the identification code of the infrared ray signal is the same as the identification code stored in the infrared ray mask 200, the infrared ray mask 200 will be Receiving the infrared signal is forwarded to the infrared receiver 20 of the television, thereby implementing control of the television, when the identification code in the infrared signal is inconsistent with the identification code stored in the infrared mask 2 The infrared mask 200 does not forward the received infrared signal to the infrared receiver 2 of the television. Therefore, when the television in the video wall is controlled, if the identification code stored in the infrared mask 2 is the same as the identification code in the infrared signal sent by the remote controller 100, the television will be controlled. Other TVs will not be disturbed, preventing 098135009 Form No. AG101 Page 8 of 15 η〇89ηΗ〇〇8(}-η 201115342 Misuse. Just when, of course, it can be thought that it can also be in the TV wall A plurality of televisions are grouped into a 'per-group system', for example, the number of televisions in the television step is 9, as shown in the following table: [0026] Table 1 [0027] 1 ΓΤ ~~---- 2 3 〇. -—丨δ__9 When used, the TV around the TV wall t (Bu 2, 3, 6, 9, 8, 7, 4) can be controlled. When button B is pressed Control the TV of the corner line (Bu 5, 9 TV) in the video wall. When the button C is pressed, the //, diagonal line (3, 5, 7) in the video wall can be The television of the television is controlled, etc. In addition, the combination of the keys of the control buttons 1 10 can also be utilized. The infrared ray mask 200 is controlled to be 'for example, in actual use, the combination of the function table key and the digit key "1" can be used to control the most peripheral television, and the function table key and the digit key are pressed. The combination of 2" controls the "\" diagonal TV in the video wall, and presses the combination of the menu key and the digit key "3" to control the diagonal TV in the video wall, etc. [0028] Please refer to FIG. 2, which is a flowchart of a method for controlling a spliced video wall, and the control system of the spliced video wall includes an infrared set for each television in the video wall. Infrared mask on the receiver, the infrared mask is stored in 098135009 Form No. A0101 Page 9/15 pages 0982059989-0 201115342 The identification code information of the button for controlling the infrared mask is stored, and the splicing video wall is The control method includes: [0029] Step S101: transmitting an infrared signal with an identification code to the television in the spliced video wall; [0030] Step S102: the infrared mask receives the infrared signal Determining whether the identification code in the infrared signal is the same as the identification code of the button stored in the infrared mask; [0031] step S103: if the identification code in the infrared signal and the button stored in the infrared mask If the identification code is the same, the infrared signal is forwarded to the infrared receiver of the television; [0032] Step S1 04: if the identification code in the infrared signal and the identification code of the button stored in the infrared mask are not Similarly, the infrared signal is not forwarded to the infrared receiver of the television. [0033] In step S101, the infrared signal with the identification code is sent by a remote controller. [0034] Compared with the prior art, the control system and method for splicing a video wall provided by the present invention is provided with an infrared mask disposed on an infrared receiver of each television in the video wall, and the infrared ray is stored in the infrared mask to control the infrared ray. The identification code of the remote control button of the mask is used to transmit an infrared signal with an identification code to the infrared mask by the remote controller, thereby controlling the television with the same identification code to prevent misoperation of other televisions. In addition, those skilled in the art can make other changes within the spirit of the present invention. Of course, these changes according to the spirit of the present invention should be included in 098135009 Form No. A0101 Page 10 / Total 15 Page 0892059989-0 201115342 Within the scope of the claimed invention. BRIEF DESCRIPTION OF THE DRAWINGS [0036] FIG. 1 is a functional block diagram of a control system for a spliced video wall provided by the present invention. 2 is a flow chart of a control method for a spliced video wall provided by the present invention. [Main component symbol description] [0038] 10 splicing video wall control system [0039] 20 infrared receiver [0040] 100 remote control [0041] 200 Infrared Mask [0042] 110 Control Button [0043] 120 Select Button [0044] 130 Button Controller [0045] 140 Infrared Emitter I〆: "":,, /'.',.;, [0046] 210 receiver. Ten Hct;: [0047] 220 Memory [0048] 230 Processor [0049] 240 Infrared Repeater [0050] 250 Power Supply 098135009 Form No. A0101 Page 11 of 15 0982059989-0