M289507 術生之傳回資訊,可即時了解運送 、交運地點、配送狀能、直紅/ 、扣'別、車號、駕駛員姓名 乂運也點配达狀恶、車輛位置及預定 路線、逾時停留等狀況。雖_星車隊的設計中== =能’但此處触駐_報是指㈣週 真正的即時性。 报刀月b,不具有 尋找或監控等功 關於運用全球衛星定位系統所構成的定位或 能的相關專利案有:M289507 The information returned by the doctor can instantly know the delivery, delivery location, delivery status, straight red /, deduction ', car number, driver's name, transportation, point, disposition, vehicle location and scheduled route. When staying and other conditions. Although the design of the _star team is == = can be 'but the _ newspaper here refers to the true immediacy of (four) weeks. Reporting the month b, does not have the power to find or monitor. The relevant patent cases concerning the positioning or energy of the use of the global satellite positioning system are:
、〜’’ ’專利4 I23267G號揭示—種以無線網際網路雙向聯網 ^車缺位監控裝置,係於車端主機内設有—微處理器與哪衛 星接收模組連結,以及_訊號輪人裝置與無線通訊模組。遠端 監控主機設有巾央處理I!及無線通賴組。射鱗端主機及遠 端監社狀無_賴_具有電酬路與贿麟通訊架構 ’可藉電話網路作IP交換再以網際網路進行雙向聯網。藉此利用 網際網路的雙向㈣傳輸,即可由監控端對車端進行即時的監控 。該專利案具有遠端監控及下達指令的功能,此外可透過電子地 圖上標不車輛所在位置,並作衛星導航之用。但顯然不具有主動 且即時回報的功能。 2、台灣專利第12217Π號揭示一種全球定位系統之收發裝置 及其相對應資料傳輸方法,其中收發裝置,係用來接收複數個定 位衛星所傳送之座標定位訊號,以及將該座標定位訊號傳輸至一 第一電腦系統,該收發裝置包含有··一微處理電路 M289507 (microprocessor),用來控制該收發裝置之運作;一第一資料接 收模組(GPS module)電連接於該微處理電路,用來經由一接收器 (receiver)接收該座標定位訊號,並將該座標定位訊號轉換為相 對應座標資料而傳輸至該微處理電路;以及一網路控制電路,電連 接於该微處理電路,用來將該第一資料接收模組所接收之座標資 料轉換為符合一傳輸控制/網路通訊協定(transmissi〇n protocol/internet protocol, TCP/IP)之相對應網路封包 (network package) ’ 並經由一封包交換(packet_switch)網路傳 輸至該第-電腦祕。在該專利案中並未揭示主動及即時傳輸訊 號的功能。 3、台灣專利第57_3號揭示-種應用於具Gps功能行動終 端設備間直接搜尋位置的方法,至少包括下列步驟:步驟一,查 為仃動〜端備產生-要求訊息;步驟二,查詢行動終端設備將 ν驟所產生之要求訊息魏給待查行祕端設備;步驟三,待 查行動終端設備根據要求訊息進行認證程序,並產生回應訊息;步 驟四’待查行動終端賴根據要求訊息傳送步驟三職生的回應 仃動終端設備。該專利案揭示由查詢端向待查詢^ :日令後,再由待查詢端回覆,顯然不具有絲且即時回覆 此外’台灣專利第Μ職6號揭示一種「自動回報 伽9913號揭示—種「GPS定位監控系統」;第122_號揭示 M289507 種:動通成回報監視系統」;第議748號揭示一種「電子 ^匕車隊g理之終職置」。各專利案皆涉及全球衛星定位系統的 應用。 【新型内容】 本創作的目的之—係在提供—種可移動物件之定位及尋找設 備1 又備係具有遠距動態訊號擷取的功能,配合無線傳輸方式 動且P時地提供被監控端的影像及聲音等即時資訊給監控端 是以本創作在讀供-可軸的物件贿端缝人員/設備 之間的訊號傳輸/記錄/檢視/主動通報等作用,該設備包括了 於一可移動的物件配置一第一裝置。該第—裴置至少包括一 訊號練模組、—訊號處理模組及—訊號傳輸模組。該第:裝置 用以取得職及發出減。其巾該職為-無線訊號。" 的功能 用以接收該第一裝置所傳輸出來的無線訊號的一伺服襞置。 該伺服裝置収記_減。❹卜該舰裝置具有向外傳輪域 可與該伺服裝置連線及可以接收該伺服裝置所傳出之气號、 一第二裝置。該第二裝置連接到該伺服裝置可取得該第一妒置所 傳出之歷程資料;而接收該伺服裝置之訊號為一第二訊號,勺 緊急訊號或即時訊號。 M289507 在一適當的裝置中絲-奴触。該設賴組可用以對該 可移_物件所處位置進行設定_條件。又在射贼置中設 比對拉组’该比對模組用以進行該第一訊號與已設定之限制條 件之間的比對工作。 田口亥第-喊與已設定之限制條件的比對發現異冑,則該第 々裝置立即透過該伺服裝置發出緊急訊號給該第二裝置,並由該 第二裝置的該訊雜收模組接收及顯示。 此外,根據本創作的使用,其實施程序可包括·· -汉疋程序’翻輯—可移動的物件的所處位置設定限制 條件。 -訊號傳輸/記練序,用崎該第—裝置所取得纖以無線 傳輸方式傳輸至一伺服裝置内加以記緣。 -訊號比對處理程序,係用以比對該第一裝置所傳輸的訊號 及限制條件之間的差異;當崎絲沒有異常,職第—裝置所 傳輸到該伺服裝置的訊號被記錄下;又當比對結果出現異常,則 該第一裝置所傳輸到該伺服裝置的訊號被記錄下,並由該伺服裝 置立即主動傳輸一訊號至遠端的第二裝置。 以下’係依本創作所描述之設備及實施方法,舉較佳實施 例並配合圖式,詳細說明。 【實施方式】 請參閱第一圖,本創作所揭示的設備包括一第一裝置1〇、一 M289507 該第二裝置30包括一訊號傳輸模組31及一訊號接收模組32 。其中該訊號傳輸模組31係用來與該伺服裝置2〇連線,包括有 線傳輸方式或無線傳輸方式。至於該訊號接收模組32用以接收來 自該伺服裝置20的緊急訊號ΐβ。當該第二裝置與該伺服裝置 20連線後,可以讀取儲存在該伺服裝置2〇内的歷程訊息。 另外,本創作包括-具有設定限制性條件功能的設定模組4〇 。所稱之限雛條件係指關可移_物件的所在位置坐標或活 動範圍或移動路線。該設定模組4〇在操作時,可以配合衛星地圖 直接選取坐標或範圍。 值得注意的是,該設定模組4〇可以安裝在該第一裝置1〇,由 被監控端自行設定限制條件;或該設定模組40安裝在値裝置20 ’被監控端及監控端皆可在進人糊職置2()後,進行設定限制 條件,·又或該設定模組40安裝在該第二裝置3〇,由監控端於於該 第二裝置30進行設定限制條件。以上所描述的限制性條件,必要 時需上傳給伺服裝置2〇。 其-人,本創作包括-比對模組5〇。該比對模組5〇用以比對第 一訊號15與限雜件之關差異。當該第—峨15與該限制條 件產生異常,職伽裝置2G立即傳前急訊號16給第二裝置 3〇的接收顯⑽。蝴㈣訊齡在鋪服裝錢㈣下記 。該比對模組5G可以安裝在該第-裝置10或該伺服裝置20 /、 又本創作包括安裝在該第一裝置1〇的一立即傳輸模組即 M289507 以及將即時訊號存人錬裝置20。 明參閱第三圖,當車子被惡意進入而形成不當情況7〇時,該 立即傳輪拉組6〇或訊號傳輸模組13立即將此狀況通知該伺服裝 置2〇,」然後由該伺服裝置2〇發出一緊急訊號16 (或稱為第二訊 號)給该第二裝置3〇。該緊急訊號16的表現包括簡訊或聲光警示 ,並藉由以上方式告知遠端人員/裝置或車主,__取車内影像 傳、、、6車主及5己錄於祠服裝置2〇。如此車主可以即時獲知車子的狀 况,而且留下明確的影像記錄。 又該立即傳輸模組60可以與該訊號傳麵組13整合。如此 藉由-啟軸制可以立即要求觀麟輸歡丨3將即時訊號傳給 該第二裝置30後,立即傳送給該第二裝置3()。例如在該第一裝置 10 e又置一緊急訊號按鍵,在該按鍵被觸動的同時,該第一裝置仞 立即傳送即時訊號給該伺服裝置20並再傳給該第二裝置30。 又以人員的活動範圍為限制條件為例,請再參閱第二圖,該 第-裝置1G配帶在社,且在電子細上設定好活練圍。在正 系狀况下’遠第-裝置1〇仍依時序變化將活動範圍内的影像或聲 曰的即時峨傳給該祠服裝i 2〇並記錄。遠端監控人員可藉該第 —裝置30連線到該伺服裝置2〇並讀取歷程資料。 此外’赫閱第-、四圖,遠端人員可以利用安裝在該第二 聚置30的立即傳輸模組6卜要求該第一裝置1〇之訊號擷取模組 11及訊號傳輸模組13立即將即時訊息傳送到該伺服裝置2〇後, M289507 服裝置20 ;或是該訊號擷取模組u取得該第一裝置ι〇所在位置 的影像貧訊或聲音資後,將該資訊轉換成無線訊號由該訊號傳 輸模組13傳輸到該伺服裝置2〇。 又該訊號擷取模組11與該訊號處理模組12可以接收水面下 訊號71。例如利用有線通訊技術或光纖通訊技術,將使用者的聲 音訊號傳給該訊號褐取模组u與訊號處理模組12。然後藉無線通 鲁訊技術將該訊號以-第一訊號ls的模式無線傳輸到該伺服裝置 20,或再由該伺服裝置2〇發出一第二訊號16傳輸到該第二裝置 30 〇 、 又請參閱第六圖,水面下訊號7卜_由使用者啟動的-緊 "w機制72 ’可以立即經由該訊號擷取模組11及訊號處理模組12 的作用,藉訊號傳輸模組13立即發出訊號給該祠服裝置2〇。該伺 服裝置20又立即發出一緊急訊號16傳輸到該第二裝置3〇。 % 是以’本創作用於浮潛時,係可針對使用者做活動範圍之限 制。請參閱第二圖,使用者或監控者可以透過該設定模组4〇及電 子地圖(未顯示),預先設定好使用者的活動範圍。再經該比對模 組50比對使用者的位置是否位在活動範圍内,並將歷程資料傳給 该飼服裝置20且存檔。一般情況下,監控人員可以查看伺服裝置 20内的歷程資料。也可以如第四圖所示,直接由該第二裝置2〇 下達指令’要求該訊號擷取模組U立即將使用者的即時訊號經過 該伺服裝置20傳到該第二裝置3〇。 15 M289507 又當使用者的活動位置超出預設的活動範圍,該比對模組5〇 發現異常,則該訊號傳輸模組13發出訊號到該伺服裝置20,並由 該伺服褒置20向該第二裝置3〇發出一緊急訊號i 6。此時監控人 貝可以立即做處理。 以上實施例,不論是在陸上使用或海上使用,該第一裝置10 與該第二裝置30的訊號傳輸皆需要透過該伺服裝置20。然而不排 除在特殊/特定的情況下,該第一装置1〇與該第二裝置3〇可以直 接傳輸訊號。 請參閱第七圖所示,該第一裝置1〇可以配設一功能鍵9〇。該 功能鍵90可以啟動該訊號傳輸模組13,用以將該訊號擷取模組 11及訊號處理模組12處理後的訊號,透過全球衛星定位系統或是 無線通訊系統,直接傳輸到該第二裝置3〇。同時,該訊號也傳輸 到伺服裝置20内留下記錄。如此一來,可以提高訊號傳輸的即時 性。 同理’該第二裝置30也可以配設一功能鍵91。該功能鍵91 啟動後,可以直接對該第一裝置1〇下達指令,讓該第一裝置1〇 將即時訊號傳回到該第二裝置3〇。該回傳的訊號同樣被記錄在該 伺服裝置20内。 然而第一裝置10與第二裝置3〇直接傳輸訊號的模式並非常 態模式,因此該功能鍵90可以與立即傳輸模組60或緊急機制72 結合。 M289507 该緊急訊號包括簡訊、聲光愈 y 耳九s不以及弟一裝置所在位置的即時 . 影像。 1作匕括立即傳輸程序13Q,係由該可移動的物件主動 啟動。例如前述的惡意侵人或赵不可抗力的時,者可以啟 動姐即傳輸程序,此時該第一裝置立即發出-訊號給該伺服裝 置,且該伺服裝置立即發出—緊急職(第二訊號)絲傳給該 第二裝置。 翁 在上述的方財,更包括—訊息查難序14G。姉序主要使 ,A第—裝置可以藉有線或無線傳輸方式與該伺服裝置連線,藉此 ★取得該可雜物件於翻服裝置的歷史資料。 又該設定該可移祕件所處位置的_條件,係可以藉由行 動通訊方式,由該第-裝置或該第m傳到鋪服裝置上。 換吕之,本創作的第一裝置10與該第二裝置3〇可以製成具 ,有相同模組,例如皆與行動電話模組結合,如此,該第一裝置1〇 與違第-裝置30便能具有影像及聲音的擷取的功能以及無線傳輸 訊號的能。另外,該第一裝置1〇與該第二裝置3〇的訊號傳輪模 組13或31以及該訊號接收模組32可以整合在一起。 上述實施例僅為例示性說明本創作之技術及其功效,而非用 於限制本創作。任何熟於此項技術人士在不違背本創作之技術原 理及精神的情況下,對上述實施例進行修改及變化,依法皆應屬 於本創作之等效實施,因此本創作之權利保護範圍應如後所述之 M289507 申請專利範圍所列。 【圖式簡單說明】 第一圖係本創作的設備示意圖之一。 第二圖係本創作的實施例經比對之使用狀況方塊圖。 第三圖係本創作偵測到不當情況所執行的流程方塊圖。 第四圖係本創作第二裝置對第一裝置下達命令取得即時訊號之流 程方塊圖。 第五圖係本創作的設備示意圖之二。 第六圖係本創作的另一實施例使用狀況方塊圖。 第七圖係本創作第一裝置與第二裝置訊號直接傳輪之示意圖。 第八圖係本創作所揭示之方法的程序方塊圖。 【主要元件符號說明】 10第一裝置 11訊號擷取模組 12訊號處理模組 13訊號傳輸模組 14原始訊號 15第一訊號 16緊急訊號/第二訊號 (¾) M289507 20伺服裝置 21存取單元 30第二裝置 31訊號傳輸模組 32訊號接收模組 40設定模組 50比對模組 • 60、61立即傳輸模組 70不當情況 71水面下訊號 72緊急機制 80浮力裝置 90、91功能鍵 100設定程序 • 110訊號傳輸/記錄程序 120訊號比對處理程序 130立即傳輸程序 140訊息查閱程序, ~ '' 'Patent 4 I23267G Revealed - a wireless Internet two-way network ^ car absence monitoring device, is set in the car host - the microprocessor and which satellite receiving module link, and _ signal wheel Human device and wireless communication module. The remote monitoring host is equipped with a towel handling I! and a wireless communication group. The shooting scale end host and the remote monitoring company have no _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ By using the two-way (four) transmission of the Internet, the vehicle can be monitored on the monitoring side in real time. The patent has the function of remote monitoring and commanding, and can also be used for satellite navigation through the location of the vehicle on the electronic map. But obviously it does not have the function of active and immediate return. 2. Taiwan Patent No. 12217A discloses a global positioning system transceiver device and a corresponding data transmission method thereof, wherein the transceiver device is configured to receive a coordinate positioning signal transmitted by a plurality of positioning satellites, and transmit the coordinate positioning signal to the a first computer system, the transceiver device includes a micro processing circuit M289507 (microprocessor) for controlling the operation of the transceiver device; a first data receiving module (GPS module) is electrically connected to the micro processing circuit, The method is configured to receive the coordinate positioning signal via a receiver, and convert the coordinate positioning signal into corresponding coordinate data for transmission to the micro processing circuit; and a network control circuit electrically connected to the micro processing circuit. The coordinate data received by the first data receiving module is converted into a corresponding network package conforming to a transmissi〇n protocol/internet protocol (TCP/IP). And transmitted to the first computer secret via a packet exchange (packet_switch) network. The function of actively and instantaneously transmitting signals is not disclosed in the patent. 3. Taiwan Patent No. 57_3 discloses a method for directly searching for a location between mobile terminal devices with GPS functions, including at least the following steps: Step one, check for 仃 〜 端 端 端 端 端 要求 要求 ; ; ; ; ; ; ; ; ; ; 查询 查询 查询 查询The terminal device sends the request message generated by the v to the secret device to be checked; in step 3, the terminal device to be checked performs the authentication process according to the request message, and generates a response message; and step 4: the action terminal to be checked depends on the request message The transmission step three students responded by inciting the terminal device. The patent case reveals that the query is to be queried by the query: after the date, and then by the to-be-queried end, it is apparent that it does not have silk and immediately responds. In addition, the 'Taiwan Patent No. 6 揭示 揭示 reveals an automatic return gamma 9913. "GPS Positioning Monitoring System"; No. 122_ reveals M289507: Moving into a Reward Monitoring System; No. 748 reveals an "Electronic ^匕 Team's final position". Each patent case deals with the application of global satellite positioning systems. [New content] The purpose of this creation is to provide a kind of movable object positioning and finding equipment 1 and to have the function of remote dynamic signal acquisition, and to provide the monitored end with the wireless transmission mode. Instant information such as images and sounds are provided to the monitoring terminal by means of signal transmission/recording/inspection/active notification between the person who is reading the supply and the axis of the article, and the device is included in a movable The object is configured with a first device. The first device includes at least a signal training module, a signal processing module and a signal transmission module. The first: the device is used to obtain the job and issue the reduction. The towel is the job - wireless signal. The function of " is used to receive a servo device of the wireless signal transmitted by the first device. The servo device is _ subtracted. The ship device has an outward transmission wheel field that can be connected to the servo device and can receive the air number and a second device transmitted from the servo device. The second device is connected to the servo device to obtain the history data transmitted by the first device; and the signal for receiving the servo device is a second signal, a scoop emergency signal or an instant signal. M289507 Silk-slave in a suitable device. The set of settings can be used to set the position of the movable object. In addition, the matching thief set is used to perform the comparison between the first signal and the set restriction condition. When the comparison between the Taguchi and the set conditions is found, the third device immediately sends an emergency signal to the second device through the servo device, and the communication device of the second device is Receive and display. Further, according to the use of the present creation, the implementation program may include a sequel to the position setting of the movable object. - Signal transmission/reporting sequence, the fiber obtained by the first device is transmitted to a servo device by wireless transmission and recorded. - the signal comparison processing program is used to compare the difference between the signal and the restriction condition transmitted by the first device; when there is no abnormality, the signal transmitted by the job-device to the servo device is recorded; When the comparison result is abnormal, the signal transmitted by the first device to the servo device is recorded, and the servo device immediately actively transmits a signal to the remote second device. The following is a detailed description of the apparatus and the method of implementation described in the present application, with reference to the preferred embodiments and drawings. [Embodiment] Please refer to the first figure. The device disclosed in the present application includes a first device 1 and a M289507. The second device 30 includes a signal transmission module 31 and a signal receiving module 32. The signal transmission module 31 is used to connect to the servo device 2, including a wired transmission mode or a wireless transmission mode. The signal receiving module 32 is configured to receive an emergency signal ΐβ from the servo device 20. After the second device is connected to the servo device 20, the history message stored in the servo device 2 can be read. In addition, this creation includes a setting module 4 having a function of setting restrictive conditions. The so-called limited condition refers to the coordinate or activity range or moving route of the position where the object can be moved. The setting module 4〇 can directly select coordinates or ranges in conjunction with the satellite map during operation. It should be noted that the setting module 4〇 can be installed in the first device 1〇, and the monitoring terminal can set the limiting condition by itself; or the setting module 40 can be installed on the monitoring device 20′ both the monitored end and the monitoring end. After the user enters the job 2 (), the setting restriction condition is performed, or the setting module 40 is installed in the second device 3, and the monitoring terminal sets the restriction condition on the second device 30. The restrictive conditions described above are uploaded to the servo unit 2 if necessary. Its - person, this creation includes - comparison module 5 〇. The comparison module 5 is used to compare the difference between the first signal 15 and the limit. When the first 峨15 and the restriction condition are abnormal, the gantry device 2G immediately transmits the urgency signal 16 to the reception of the second device 3 (10). Butterfly (four) the age of the shop in the clothing money (four) under the record. The comparison module 5G can be installed on the first device 10 or the servo device 20 /, and the creation includes an immediate transmission module M289507 installed in the first device 1 and an instant signal storage device 20 . Referring to the third figure, when the car is maliciously entered to form an improper situation, the immediate transmission group 6 or the signal transmission module 13 immediately notifies the servo device 2 to the situation, and then the servo device 2, an emergency signal 16 (or referred to as a second signal) is sent to the second device. The performance of the emergency signal 16 includes a short message or an audible and visual warning, and the remote person/device or owner is informed by the above method, __ taking the in-vehicle image transmission, , 6 vehicle owners and 5 recorded in the service device 2〇. In this way, the owner can immediately know the condition of the car and leave a clear image record. In addition, the immediate transmission module 60 can be integrated with the signal transmission group 13. Thus, the on-axis system can immediately request that the instant signal be transmitted to the second device 30 and immediately transmitted to the second device 3 (). For example, the first device 10 e is further provided with an emergency signal button, and the first device 传送 immediately transmits an instant signal to the servo device 20 and then to the second device 30 while the button is touched. For example, the scope of the activities of the personnel is a restriction condition. Please refer to the second figure. The first device 1G is equipped with a living room, and the living quarter is set on the electronic fine. In the normal situation, the far-end device 1 still transmits the image or sound of the active range to the clothing i 2〇 and records it according to the time series. The remote monitoring personnel can connect to the servo device 2 by the first device 30 and read the history data. In addition, in the case of the first and fourth figures, the remote personnel can use the immediate transmission module 6 installed in the second aggregation 30 to request the signal acquisition module 11 and the signal transmission module 13 of the first device 1 Immediately after the instant message is transmitted to the server device 2, the M289507 is served to the device 20; or the signal capture module u obtains the image poor or audio resource at the location of the first device ι, and then converts the information into The wireless signal is transmitted by the signal transmission module 13 to the servo device 2A. The signal capture module 11 and the signal processing module 12 can receive the subsurface signal 71. For example, the user's voice signal is transmitted to the signal browning module u and the signal processing module 12 by using wired communication technology or optical fiber communication technology. Then, the signal is wirelessly transmitted to the servo device 20 in the mode of the first signal ls by the wireless communication technology, or a second signal 16 is transmitted from the servo device 2 to the second device 30. Please refer to the sixth figure, the subsurface signal 7b_user-activated-tight"w mechanism 72' can immediately pass the function of the signal capture module 11 and the signal processing module 12, the signal transmission module 13 Immediately send a signal to the service device 2〇. The servo device 20 in turn immediately transmits an emergency signal 16 to the second device 3. % is based on the fact that when this creation is used for snorkeling, it is limited to the scope of the user's activities. Please refer to the second figure. The user or monitor can pre-set the user's range of activities through the setting module 4 and the electronic map (not shown). Then, the alignment module 50 compares whether the position of the user is within the active range, and transmits the history data to the feeding device 20 and archives. In general, the monitoring personnel can view the history data in the servo device 20. Alternatively, as shown in the fourth figure, the second device 2A may issue an instruction to request the signal acquisition module U to immediately transmit the user's instant signal to the second device through the servo device 20. 15 M289507 When the user's active position exceeds the preset range of motion, and the comparison module 5 detects an abnormality, the signal transmission module 13 sends a signal to the servo device 20, and the servo device 20 is used to The second device 3 sends an emergency signal i6. At this point, the monitoring person can do the processing immediately. In the above embodiment, the signal transmission of the first device 10 and the second device 30 needs to be transmitted through the servo device 20, whether it is used on land or at sea. However, in the special/specific case, the first device 1 and the second device 3 can directly transmit signals. Referring to the seventh figure, the first device 1 can be equipped with a function key 9 〇. The function key 90 can activate the signal transmission module 13 for transmitting the signal processed by the signal acquisition module 11 and the signal processing module 12 to the first through a global satellite positioning system or a wireless communication system. Two devices are 3 〇. At the same time, the signal is also transmitted to the servo device 20 to leave a record. In this way, the immediacy of signal transmission can be improved. Similarly, the second device 30 can also be provided with a function key 91. After the function key 91 is activated, the first device 1 can be directly commanded, and the first device 1 传 transmits the instant signal back to the second device 3〇. The returned signal is also recorded in the servo device 20. However, the first device 10 and the second device 3 directly transmit the mode of the signal and the abnormal mode, so the function key 90 can be combined with the immediate transmission module 60 or the emergency mechanism 72. M289507 The emergency signal includes the newsletter, the sound and light more than the ear, and the instant location of the device. 1 Assume that the immediate transfer program 13Q is actively activated by the movable object. For example, in the case of the above-mentioned malicious intrusion or Zhao force majeure, the sender can initiate the transmission process, and at this time, the first device immediately sends a signal to the servo device, and the servo device immediately sends out the emergency (second signal) wire. Passed to the second device. Weng In the above-mentioned Fangcai, it also includes - the message is difficult to order 14G. The order mainly enables the A-device to be connected to the servo device by wired or wireless transmission, thereby obtaining the historical data of the closable device on the device. Further, the condition for setting the position of the removable secret member can be transmitted from the first device or the mth to the service device by means of mobile communication. In the case of Lu, the first device 10 and the second device 3 can be made into the same device, for example, combined with a mobile phone module, such that the first device is incompatible with the device. 30 can have the function of capturing images and sounds and the ability of wireless transmission of signals. In addition, the first device 1A and the signal transmitting module 13 or 31 of the second device 3 and the signal receiving module 32 can be integrated. The above embodiments are merely illustrative of the techniques of the present invention and their effects, and are not intended to limit the present invention. Anyone who is familiar with this technology does not violate the technical principles and spirit of this creation, and the above embodiments are modified and changed. The law should belong to the equivalent implementation of this creation. Therefore, the scope of protection of this creation should be as The M289507 patent application scope is described later. [Simple description of the diagram] The first diagram is one of the schematic diagrams of the device. The second figure is a block diagram of the usage status of the present embodiment. The third picture is a block diagram of the process performed by the author in detecting the improper situation. The fourth picture is a flow block diagram of the second device of the present invention for issuing a command to the first device to obtain an instant signal. The fifth picture is the second schematic of the device of this creation. The sixth figure is another embodiment of the present use using a status block diagram. The seventh figure is a schematic diagram of the direct transmission of the first device and the second device signal of the present invention. The eighth diagram is a block diagram of the method disclosed in the present creation. [Main component symbol description] 10 first device 11 signal capture module 12 signal processing module 13 signal transmission module 14 original signal 15 first signal 16 emergency signal / second signal (3⁄4) M289507 20 servo device 21 access Unit 30 second device 31 signal transmission module 32 signal receiving module 40 setting module 50 comparison module • 60, 61 immediate transmission module 70 improper situation 71 water surface signal 72 emergency mechanism 80 buoyancy device 90, 91 function key 100 setting program • 110 signal transmission/recording program 120 signal comparison processing program 130 immediately transmits program 140 message review program