M440296 五、新型說明: 【新型所屬之技術領域】 本創作係捕-種智慧行動監控電統,尤指—種以可攜式電 子裝置驅動電梯系統做出相應操縱運作的電梯控制技術。 【先前技術】 按,使用者在縣電科’大K透職鬆統之触装置(例 如位於車麻内的開門、關門、樓層選擇、指令重新輸入、照明及對講 鲁機啟動等按鈕,以及位於各樓層搭乘口的上樓及下樓等她)來操縱 電梯系統之車料祕至所需的制。再者,騎進大樓社區的管理 效能及安全監控的防護性,於現階段的社區大樓電梯大多裝設有無線 麵辨識系、統(RFID)。大樓住戶僅需以感應知(即即⑺標鐵)靠近位 於車_之讀卡機(RFID),讀卡機(RFID)即可感應到感應知的識別 碼,當識別碼判定為正確時,讀卡機⑽D)則啟動車厢内之上述操縱 裝置,進而使操縱裝置處於待命而可被觸發的狀態,此時住戶僅需按 ’下所欲抵達的抵達樓層選擇按奴,車庙即可抵達設定的該樓層^該習 用結構雖然具有電梯的門禁管制功能,惟,住戶必須以手指觸摸操縱 裝置的方式來選擇樓層按鈕,或是開、關門按鈕,於此會有個人清潔 衛生的疑慮產生,因為病毒細菌容易藏匿且孳生在電梯之上述該等按 紐之上。不僅如此,該習用結構並無自動化之樓層觸發選擇的機能設 置’因而造成電梯搭乘上的時間延宕以及使用上的不便與困擾情事的 產生。 除此之外’本國發明公開第201210304號『用行動電話操控電梯 M440296 的方法』所示的專利,其主要是以行動電話感測電梯車厢所在的樓· 層’並以内部廣播系統取得電梯運轉的資訊,且依據運行資訊選擇可 最快到達的車庙,在由行動電話輸出一車庙選擇訊息至控制系統,使 被選擇的車厢停罪在使用麵在的樓層。該專利前案係界定在多數車 厢的架構下’且從中選擇最_達使用者所在樓層知,雖然可於搭 乘電梯時節省等待耗費的時間,惟,同樣地,住戶仍然必須以手指觸 摸操縱裝置的域觀選獅她關、關按紐,於此會有個人清 潔衛生的疑慮產生’因為病秦細菌容易藏匿且孳生在車庙内之該等按籲 鈕上。不僅如此’該習用結構無自動化之樓層觸發選擇的機能設置, 因而造成電梯搭乘上的時間延君以及使用上的不便與困擾等情事產 生。 有鑑於此’上述習用結構確實有再改良的必要性,故本創作人經 努力的研發之下’終於研再次發出一套可以改善上述缺失的本創作。 【新型内容】 本創作第-目的在於提供-種智慧行動健電梯系統,除了具備鲁 電梯門禁管制功能外,並可透過可攜式電子裝置之操作界面來操控電 梯系統的運作’以避免因碰觸電梯操縱按靖致的傳染疾病發生情 事。達成上述功效,本創作之技術+段係包括可攜式電子裝置及與電 梯系統電性連接的控制裝置。可攜式電子裝i之操作介面可供使用者 操控而由第-城處理触產生控做m—無·發模組將 控制訊號傳輸出去。控概置奴第二無線收發模組接收控制訊號, 並以第二峨處理模轉讀控舰號後產生用轉發電獅統之操 M440296 縱震置的控制齡,俾使操縱裝置驅動電梯系統做出與控制指令相應 的操縱運作。 * 本創作第二目的在於提供—種具備自細發獅樓層功能的智 慧打動監控電梯系統,主要是依據所設定之摟層而自動觸發相應的抵 達樓層選擇按#’藉以節省電梯操縱所致的時間及體力上的耗費。達 成上述功效,本創作之技術手段係於操作介面設置包括一觸控面板, 該觸控面板顯林至少-個可縣個者撤__㈣塊,當該 •使用者觸碰該觸控區塊時,則於該第二訊號處理模組產生與該觸控區 塊相應的該㈣指令,該控制訊號包括至少一組内建在該第一訊號處 理模組的辨識資料,及至少一由該操作界面輸入而於該第一訊號處理 模組輸Λ的指令訊號’該控制裝置之該第二訊號處理模組於確認該辨 識資料為JL確時’賴始解讀該指令喊,鋪㈣塊顯示包括有樓 層鎖定以及自動操縱等區塊,該樓層鎖定區塊可供該使用者選擇欲鎖 _定的樓層,當該使用者將該自動操縱區塊設定為執行模式時,在該第 二訊號處理模組確認該辨識資料為正確後,該第一訊號處理模組則將 該樓層鎖定區塊鎖定的該樓層自動設定為該指令訊號。 本創作第三目的在於提供一種具備後台訊息傳輸功能的智慧行 動監控電梯系統’主要是讓可攜式電子裝置接收來自後台管理系統的 即期公告資訊,以提升社區大樓的資訊管理效能。達成上述功效,本 創作之技術手段係於控制裝置設置包括一可供儲存複數該使用者之 複數該辨識資斜的資料管理模組’該資料管理模組可將公告之即期訊 息透過一無線通訊模組傳送至該控制裝置,再由該控制裝置傳送至該 M440296 可攜式電子裝置中。 【實施方式】 壹.本創作第一實施例 1.1基本架構 本創作係為達成第一目的之基本實施例。圖1' 2及圖4所示之 架構係包括可攜式電子裴置2〇及控制裝置30等技術特徵。其中,圖 1所示之控制裝置30係襄設在車庙内。圖2所牟之控制裝置3〇則裝 設在車廂外。可攜式電子裝置20的具體架構可以是一般的智慧型手鲁 機平板電腦或是個人數位助理器PDA。進一步來說,可攜式電子裝 置20包括一第一無線收發模組21、一第一訊號處理模組四及一操 作介面23,該猶介面23可供-使用者操控*由該第—訊號處理模 組22產生至少一種控制訊號,並以該第一無線收發模組21將該控制 訊號傳輸出去。控制裝置30則與一電梯系統1〇電性連接,該控制裳 置30包括一用以接收該控制訊號的第二無線收發模組,及一第二 訊號處理餘32,該第二城處賴組32觸該蝴訊驗產生至· 少-種用以觸發該電梯系統1〇之操縱裝置12的控制指令,使該操縱 裝置12驅動魏梯系統〗Q做出與該控輸令械的操縱運作。至於 上述操縱裝置12係指包括位於電梯系統1()之車厢u⑽車庙u 開門餘、關門按紅、抵達樓層選擇按紐、指令重新輸入按紐、照明 按鈕及對講顧_.及倾各樓層搭細的上樓触及下樓按钮 等餘而言。另,第—無線收發模組21與第二無線收發模組31的具 體實施架構可以是-般的鮮無線通訊模组、紅外線無線通訊模組或 6 196 疋近%通訊技術(Near Field Communication,NFC)。 1.2具體架構 本創作圖4所示之操作介面23可以是一種可供使用者輸入語音 訊號的sf音輸人單元23G ;或是-種可供制者手細控的觸控面板 231。於觸控面板231的實施架構中,觸控面板231顯示有至少一個 可供親用者操控賴稿控區塊。當使用者以手細酬觸控區塊 時則於第一訊號處理模組32產生一與觸控區塊相應的控制指令。 至於上述的㈣訊酬包括至少—朗建在第—訊號處理模組22的 辨識^料及至少-由操作介面23輸入而於第一訊號處理模組22 輸出的指令訊號,該控讎置3〇之㈣二訊號處理模組32於確認該 辨識資料為正確時,則開始解讀該指令訊號。 於-種的運作實_中,圖6、7所示之難區塊顯示包括 有手動操縣軌自輯驅塊可供錢者蚊,當·將該手 動操縱區塊設定為執械式時,第一訊號處理模組22隨即將辨識資 料經第-無線收聽㈣傳送出去,再由第二錄收賴組31接收 後傳送至第二訊麟理餘32巾,崎,f二峨處賴組犯於確 認該辨識資料為正確後則傳送一確認訊號經第二無線收發模組31及 第一無線收發模組21而至第一訊號處理模組22中,第—訊號處理模 組22驅使觸控面板231顯示有一複數個樓層的選擇區塊,當使用者 觸碰方式選擇欲抵達的樓層區塊後,經第一訊號處理模組犯解讀後 轉換成械触令職,並㈣—絲錄模組21、第二無線收發 模組幻而傳送至第二訊號處理模組32中,再經第二訊號處理模組 32解讀後輸出-議令·—驅動模組耶,並以軸模組犯來驅 ,電梯祕H) _職置12,滅即可使電_七升或降進而 抵達至所設定的樓層。 此外,必須說明的是,上述辨識資料可以是指字元資料或是圖像 資料而言。至於圖像資料有可以是人臉、指紋、虹膜或其他部位的生 物特徵圖像。 貳·本創作第二實施例 圖1、2所示為本創作可以達成第二目的之具體實施例。本實施 例除了包括第-實施例本架構的技術特徵外,其中,於操作介面 3由軟體產生於-觸控面板231上,而該觸控面板231顯示有至 少一個可供該個者操無觸_控區塊,當該使用者觸碰該觸控區 ^時,·該第二訊號處理模組32產生與該觸控區塊相應的該控制 指令,該控制訊號包括至少-組内建在該第—訊號處_組22的辨 識資料’及至少-由該操齡面23輸人而於該第—訊號處理模組益 輸出的指令訊號,該控制裝置30之該第二訊號處理模組32於確認該 辨識資正確時,酬始解讀該指令訊號,並依該指令訊號產生相 對的控令’使舰裝置12驅動f懸統1G做出與_指令相應 的操縱運作纽财設完細可纽姆應的各控制指令 後’廄商可將用以產生操作介面的軟體掛載於網站上供下載至使用者 的電子裝置’或&供軟體光碟或由監控巾心提供而安裝於電子裝置 上’同時安裝辨識f料於電子裝置上,其電子裝置在經過辨識而取得 使用授權後,即可進行電梯的操控。 M440296 於一種具體的運作實施例中,如圖6所示之觸控區塊顯示包括有 樓層鎖扣及自麟轉區塊,職定區塊可偏㈣者選擇欲 鎖定的樓層,假設使用者將自動操縱區塊設定為執行模式時,當使用 者攜帶可攜式電子裝置20靠近電梯系統1〇時,第一訊號處理模組 22隨即將辨識資料經第-無線收發模組21傳送出去,再由第二無線 收發模組31接收後傳送至第二訊號處理模組犯中,此時,第二訊號 處理模組32於確認該辨識資料為正確後則傳送一顧訊號經第二無 •線收發模組31及第-無線收發模組灯而至第一訊號處理模組泣 中,此時,該第-訊號處理模!且22將該樓層鎖定區塊鎖定的該樓層 自動設定频指令訊號,並經第一無線收發模组2卜第二無線收發 模組31而傳送至第二訊號處理模組32中,再經第二訊號處理模組 32解讀後輪Λ-控制指令,以觸發一驅動模組33,並以軸模組羽 來驅動電梯系統10的操縱裝置12,如此即可使電梯車厢U自動升 或降進而抵達至所設定的樓層。 參·本創作第三實施例 圖3、5所示為本創作可以達成第三目的之具體實施例。本實施例 除了包括第-實施例的基本架構的技術特徵外,更包括一可供儲存複 數該使用者之複數該辨識資料的資料管理模組4〇(如電腦或祠服 器),及-可受該控制指令觸發而驅動該電梯系統1〇運作的驅動模組 33(如訊號轉換界面或是驅動電路)。資料管理模組4()可將社區大樓之 尸期Α β訊息透過-無線通訊模版5〇(如無線區域網路聊j)傳送至 該控制裝置30,再由該控織傳之第二無線收發模腿傳送至該 可攜式電子裝置20之第-無綠收發模組21中,再由第一訊號處理模組- 22將該訊息由峨面板231M齡,如此賴者即可麟即期最新 的公告訊息。 肆.結論 因此,藉由上述結構設置,本創作確實具有下列的特點: 1·本創作除了賤電梯門禁管㈣能外,並可透過可攜式電子裳 置之操作界面來操控電梯系統的運作,以避免因碰觸電梯操縱按紐所 致的傳染疾病發生情事。 赢 2·本創作確實為具備自動觸發選擇樓層功能的智慧行動監控電 梯系統’並可依據所設定之樓層而自動觸發相應的抵達樓層選擇按 紐’藉以節省電梯操縱所致的時間及體力上耗費❶ 3.本創作確實為具備後台訊息傳輸功能的智慧行動監控電梯系 統’並可讓可攜式電子裝置可接收來自後台管理系統的即期公告資 訊’以提升社區大樓的資訊管理效能。 以上所述’僅為本創作之一可行實施例,並非用以限定本創作之鲁 專利範圍,凡舉依據下列請求項所述之内容、特徵以及其精神而為之 其他變化的等效實拖’冑應包含於本創作之專利範圍Θ。本創作所具 體界定於請求項之結構特徵’未見於醜物品,且具實用性與進步 性,已符合新型專利要件,爰依法具文提出申請,謹請鈞局依法核 予專利’以維護本申請人合法之權益。 【圖式簡單說明】 圖1係本創作基本架構的實施示意圖。 M440296 圖2係本創作基本架構的另一實施示意圖。 圖3係本創作具體架構的實施示意圖。 圖4係本創作基本架構的功能方塊示意圖。 圖5係本創作具體架構的功能方塊示意圖。 圖6係本創作具體架構的觸控區塊示意圖。 圖7係本創作基本架構的觸控區塊示意圖。 【主要元件符號說明】 10電梯系統 12操縱裝置 21第一無線收發模組 23操作介面 231觸控面板 31第二無線收發模組 33驅動模組 50無線通訊模組 11車廂 20可攜式電子裝置 22第一訊號處理模組 230語音輸入單元 30控制裝置 32第二訊號處理模組 40資料管理模組 11M440296 V. New description: [New technical field] This creation is a type of intelligent mobile surveillance system, especially an elevator control technology that uses a portable electronic device to drive the elevator system to operate accordingly. [Prior Art] Press, the user in the county electric department 'Da K through the loose touch device (such as the door opening, closing, floor selection, command re-input, lighting and intercom to start the machine, etc.) And she is located on the upper and lower floors of the boarding gates on each floor) to control the car system to the required system. In addition, the management efficiency and security monitoring of the building community are mostly equipped with wireless face recognition systems (RFID) at the current community building elevators. The building occupant only needs to know (ie, the (7) standard iron) to be close to the card reader (RFID) located in the car, and the card reader (RFID) can sense the inductive identification code. When the identification code is determined to be correct, The card reader (10) D) activates the above-mentioned operating device in the vehicle compartment, so that the operating device is in a state of being able to be triggered and can be triggered. At this time, the household only needs to press the slave on the arrival floor that is desired to arrive. Arriving at the set floor ^The customary structure has the access control function of the elevator. However, the household must select the floor button by means of a finger touch on the operating device, or open or close the door button, and there will be personal hygiene concerns. Because the virus bacteria are easy to hide and are born on the above-mentioned buttons of the elevator. Moreover, the conventional structure does not have the function setting of the automated floor triggering selection' thus causing delays in the ride on the elevator and inconveniences in use and troubles. In addition, the patent shown in the 'National Invention Disclosure No. 201210304 "Method of Controlling Elevator M440296 by Mobile Phone" mainly uses the mobile phone to sense the floor and floor of the elevator car and obtains the elevator by the internal broadcasting system. According to the operation information, the fastest-reaching car temple is selected according to the operation information, and a message is outputted from the mobile phone to the control system, so that the selected car is suspended at the floor where the face is used. The patent is defined in the framework of most cars and selects the most from the floor of the user. Although it can save time waiting for the elevator, the same must still be touched by the finger. The domain view of the device selects the lion to close and close the button, and there will be personal hygiene concerns. 'Because the disease is easy to hide and the bacteria are in the car temple. Not only that, 'the utility structure does not have the function setting of the floor triggering of the automation, which causes the time delay in the elevator ride and the inconvenience and troubles in use. In view of the fact that the above-mentioned conventional structure does have the necessity of further improvement, the author has worked hard to develop a new set of works that can improve the above-mentioned defects. [New Content] The purpose of this creation is to provide a kind of intelligent mobile elevator system. In addition to the elevator access control function, the operation of the elevator system can be controlled through the operation interface of the portable electronic device to avoid collision. Touching the elevator to control the occurrence of infectious diseases according to Jing. To achieve the above effects, the technology + segment of the creation includes a portable electronic device and a control device electrically connected to the elevator system. The operation interface of the portable electronic device i can be controlled by the user, and the control device can be controlled by the first-city processing to make the m-no-send module transmit the control signal. The second wireless transceiver module receives the control signal, and uses the second processing mode to read and control the ship number, and then generates the control age of the M440296 longitudinal vibration device for forwarding the electric lion system, so that the operating device drives the elevator system. Make manipulation operations corresponding to the control instructions. * The second purpose of this creation is to provide a smart-sense monitoring elevator system with a self-removing lion floor function, which is mainly based on the set layer to automatically trigger the corresponding arrival floor selection by #' to save the elevator operation. Time and physical cost. In order to achieve the above-mentioned effects, the technical means of the creation is that the operation interface includes a touch panel, and the touch panel is at least one of the county-level __(four) blocks, when the user touches the touch block. The (4) command corresponding to the touch block is generated by the second signal processing module, the control signal includes at least one set of identification data built in the first signal processing module, and at least one of the The operation interface inputs an instruction signal transmitted by the first signal processing module. The second signal processing module of the control device confirms that the identification data is JL, and immediately interprets the instruction, and displays the (four) block display. The utility model comprises a floor lock and an automatic control block, wherein the floor lock block is adapted for the user to select a floor to be locked, and when the user sets the automatic control block to the execution mode, the second signal is After the processing module confirms that the identification data is correct, the first signal processing module automatically sets the floor locked by the floor locking block as the command signal. The third objective of the present invention is to provide a smart mobile monitoring elevator system with background message transmission function. The main purpose is to enable the portable electronic device to receive the immediate announcement information from the background management system to improve the information management efficiency of the community building. In order to achieve the above, the technical means of the creation is that the control device is configured to include a plurality of data management modules for storing the plurality of users of the identification profile. The data management module can transmit the spot information of the announcement through a wireless device. The communication module is transmitted to the control device, and then transmitted to the M440296 portable electronic device by the control device. [Embodiment] The first embodiment of the present creation 1.1 Basic structure The present invention is a basic embodiment for achieving the first object. The architecture shown in Fig. 1'2 and Fig. 4 includes technical features such as a portable electronic device 2 and a control device 30. The control device 30 shown in FIG. 1 is disposed in the temple. The control unit 3〇 shown in Fig. 2 is installed outside the vehicle compartment. The specific architecture of the portable electronic device 20 can be a general smart hand-held tablet or a personal digital assistant PDA. Further, the portable electronic device 20 includes a first wireless transceiver module 21, a first signal processing module 4, and an operation interface 23, and the interface 23 is available for the user to control* from the first signal. The processing module 22 generates at least one type of control signal, and transmits the control signal by the first wireless transceiver module 21. The control device 30 is electrically connected to an elevator system 1 . The control device 30 includes a second wireless transceiver module for receiving the control signal, and a second signal processing module 32. The group 32 touches the butterfly to generate a control command for triggering the operating device 12 of the elevator system, so that the operating device 12 drives the Weitage system to make manipulation with the control device. Operation. As for the above-mentioned operating device 12, it refers to the car u (10) in the elevator system 1 () car door u open the door, close the door press red, reach the floor selection button, command re-entry button, lighting button and intercom _. The floor upstairs on each floor touches the button on the lower floor. In addition, the specific implementation architecture of the first wireless transceiver module 21 and the second wireless transceiver module 31 may be a general fresh wireless communication module, an infrared wireless communication module, or a 6 196% near field communication technology (Near Field Communication, NFC). 1.2 Specific Architecture The operation interface 23 shown in FIG. 4 can be an sf sound input unit 23G for the user to input a voice signal, or a touch panel 231 which can be finely controlled by the manufacturer. In the implementation of the touch panel 231, the touch panel 231 is displayed with at least one available for the user to manipulate the control block. When the user touches the touch block by hand, the first signal processing module 32 generates a control command corresponding to the touch block. The above-mentioned (4) remuneration includes at least the identification of the signal processing module 22 and at least the command signal output by the operation interface 23 and outputted by the first signal processing module 22, the control device 3〇 When the (4) two-signal processing module 32 confirms that the identification data is correct, it begins to interpret the command signal. In the operation of _, the difficult block shown in Figures 6 and 7 includes a hand-operated county-level self-propelled block for the mosquitoes, when the manual control block is set to the armed type The first signal processing module 22 then transmits the identified data via the first-to-wireless listening (4), and then receives it from the second recording and collecting group 31 and transmits it to the second Weilin Li 32 towel. After confirming that the identification data is correct, the group sends a confirmation signal to the first signal processing module 22 via the second wireless transceiver module 31 and the first wireless transceiver module 21, and the first signal processing module 22 drives The touch panel 231 displays a selection block of a plurality of floors. After the user touches the selected floor block, the first signal processing module interprets and converts into a mechanical touch, and (4)-silk The recording module 21 and the second wireless transceiver module are spoofed and transmitted to the second signal processing module 32, and then interpreted by the second signal processing module 32, and outputted by the commander-drive module, and the axis module is Group commits to drive, the elevator secret H) _ position 12, can be used to make electricity _ seven liters or drop and then arrive at the place Given the floor. In addition, it must be noted that the above identification data may refer to character data or image data. As for the image data, there are biometric images which can be faces, fingerprints, irises or other parts. BRIEF DESCRIPTION OF THE PREFERRED EMBODIMENT A second embodiment of the present invention is shown in Figs. In addition to the technical features of the present embodiment, the operating interface 3 is generated by the software on the touch panel 231, and the touch panel 231 is displayed with at least one for the one. Touching the control block, when the user touches the touch area ^, the second signal processing module 32 generates the control command corresponding to the touch block, the control signal includes at least a group built-in The second signal processing mode of the control device 30 is at least the identification data of the group information group 22 and at least the command signal outputted by the operating area 23 and outputted by the first signal processing module. When the group 32 confirms that the identification value is correct, the compensation begins to interpret the command signal, and generates a relative control command according to the command signal. The ship device 12 drives the f suspension system 1G to make a corresponding operation operation corresponding to the _ command. After the control instructions of the fine-near Neum, the software can be used to mount the software for generating the operation interface on the website for download to the user's electronic device' or & for the software CD or by the monitoring towel. 'Installing the identification material at the same time on the electronic device On the child device, the electronic device after the identification and authorized to use, you can manipulate the elevator. M440296 In a specific operational embodiment, the touch block display shown in FIG. 6 includes a floor lock and a self-propelled block, and the user may select a floor to be locked. When the automatic control block is set to the execution mode, when the user carries the portable electronic device 20 to the elevator system 1 , the first signal processing module 22 transmits the identification data through the first wireless transceiver module 21 . After receiving the second wireless transceiver module 31, the second signal processing module 32 transmits the signal to the second signal processing module. At this time, the second signal processing module 32 transmits the same signal to the second wireless line after confirming that the identification data is correct. The transceiver module 31 and the first wireless transceiver module light are sent to the first signal processing module, and at this time, the first signal processing module! 22 automatically sets the frequency command signal on the floor locked by the floor locking block. And transmitted to the second signal processing module 32 via the first wireless transceiver module 2 and the second wireless transceiver module 31, and then interpreted by the second signal processing module 32 to the rear wheel rim-control command to trigger a Drive module 33 and the shaft module To drive the elevator system 12 of the operating device 10, so that the elevator car can be raised or lowered automatically U turn to the arrival floor the set. Third Embodiment of the Present Creation FIG. 3 and FIG. 5 show a specific embodiment in which the creation can achieve the third object. In addition to the technical features of the basic architecture of the first embodiment, the present embodiment further includes a data management module 4 (such as a computer or a server) for storing a plurality of the identification data of the user, and The driving module 33 (such as a signal conversion interface or a driving circuit) that can be driven by the control command to drive the elevator system 1 . The data management module 4() can transmit the corpse period β message of the community building to the control device 30 through the wireless communication template 5 (such as the wireless local area network chat j), and then transmit the second wireless The transceiver module is transmitted to the first-non-green transceiver module 21 of the portable electronic device 20, and then the first signal processing module 22 uses the panel to be 231M, so that the viewer can immediately The latest announcement message.肆. Conclusion Therefore, with the above structure setting, this creation does have the following characteristics: 1. In addition to the elevator access control (4), this creation can control the operation of the elevator system through the operation interface of the portable electronic display. In order to avoid the occurrence of infectious diseases caused by touching the elevator control button. Win 2·This creation is indeed a smart action monitoring elevator system with automatic trigger selection of floor function' and can automatically trigger the corresponding arrival floor selection button according to the set floor to save time and physical cost caused by elevator operation. ❶ 3. This creation is indeed a smart mobile monitoring elevator system with background messaging function, and allows portable electronic devices to receive immediate announcement information from the back-end management system to enhance the information management effectiveness of the community building. The above description is only one of the possible examples of this creation, and is not intended to limit the scope of the patents of this creation. Any equivalents of other changes based on the content, characteristics and spirit of the following claims. '胄 should be included in the scope of this patent. This creation is specifically defined in the structural characteristics of the request item 'not found in ugly items, and has practicality and progress, has met the new patent requirements, and filed an application according to law. Please ask the bureau to approve the patent according to law. The legal rights of the applicant. [Simple description of the diagram] Figure 1 is a schematic diagram of the implementation of the basic architecture of the creation. M440296 Figure 2 is another schematic diagram of the implementation of the basic architecture of this creation. Figure 3 is a schematic diagram of the implementation of the specific architecture of the present creation. Figure 4 is a functional block diagram of the basic architecture of the present creation. Figure 5 is a functional block diagram of the specific architecture of the present creation. FIG. 6 is a schematic diagram of a touch block of a specific architecture of the present invention. FIG. 7 is a schematic diagram of a touch block of the basic architecture of the present creation. [Main component symbol description] 10 elevator system 12 operating device 21 first wireless transceiver module 23 operation interface 231 touch panel 31 second wireless transceiver module 33 drive module 50 wireless communication module 11 compartment 20 portable electronic device 22 first signal processing module 230 voice input unit 30 control device 32 second signal processing module 40 data management module 11