201026280 、發明說明: 【發明所屬之技術領域】 本發明係有關一種遠端即時心肺復健訓練與自動監控回 覆裝置及方法,其兼具可於居家或戶外直接進行訓練、語音導 引、減少醫護人員之負擔及攜帶方便等優點及功效。 【先前技術】 根據世界衛生組織的評估,到西元2020年,慢性阻塞性 肺疾(Chronic Obstruction Pulmonary Disease,COPD)將會成為 全球社會負擔的第五大疾病。 以藥巧治療來說,雖然各種長效吸入型支氣管擴張劑及吸 入型類固醇都可用來控制慢性阻塞性肺疾的症狀,且益明顯副 作用,但這些藥物對肺功能的改善十分有限,也無法&變疾病 的自然過程。而長期服用口服類固醇會造類固醇變 症慢性阻紐輕患者肌肉無力、呼吸功_12呼= 竭。 而以非藥物治療來說,各種上肢或下肢之復健運動訓練可 改善病人之健康狀況,若配合藥物,甚至可以達到減少發作, 降低死亡之目標。復健運動(例如:六分鐘行走測試、上下 肌力訓練及冑進式穿梭來回運動;漸進式穿梭來回運動簡稱 ISWT,為 Incremental Shuttle Walking Test 之縮寫)可在醫院 實施(hospital based rehabilitation)與居家實施(h〇me based rehabilitation)。前者可在醫療人員監測下實施,但病人 往返醫院及家中,造成不便;後者病人可免去舟車 但因無人監督,易生問題。 卞 國内雖有醫院利用手機簡訊之指令,達到在家訓 的it透過手機做問卷及簡訊節減令,我們無法得知病東是 否碎實運動,且這制柯,不但無法量職时之心跳二血 壓及血氧,訓練後的結果,也需要繁雜的按鍵指令才能 201026280201026280, invention description: [Technical Field] The present invention relates to a remote instant cardiopulmonary rehabilitation training and automatic monitoring and replying device and method, which can directly perform training, voice guidance and reduce medical care at home or outdoors The advantages and functions of the burden and convenience of personnel. [Prior Art] According to the World Health Organization's assessment, by 2020, Chronic Obstruction Pulmonary Disease (COPD) will become the fifth largest burden on the global community. In the case of medicinal therapy, although various long-acting inhaled bronchodilators and inhaled steroids can be used to control the symptoms of chronic obstructive pulmonary disease, and have obvious side effects, these drugs have limited improvement in lung function and cannot be used. & the natural process of becoming a disease. Long-term use of oral steroids can cause steroid dysfunction, chronic obstruction, lightness, muscle weakness, and respiratory work _12 call = exhaustion. In the case of non-medical treatment, rehabilitation exercises of various upper or lower limbs can improve the health of the patient. If the drug is combined, it can even reduce the onset and reduce the goal of death. Rehabilitation exercise (eg six-minute walking test, upper and lower muscle strength training and hyperactive shuttle back and forth; progressive shuttle back and forth movement ISWT, short for Incremental Shuttle Walking Test) can be implemented in hospital (hospital based rehabilitation) Implementation (h〇me based rehabilitation). The former can be implemented under the supervision of medical personnel, but the patient is inconvenient to and from the hospital and home; the latter patient can be exempted from the boat, but it is prone to problems due to unsupervised. Although there are hospitals in the country that use the instructions of mobile phone newsletters to reach home training, it is difficult to know whether the disease is broken or not, and we can’t know whether the disease is broken or not. Blood pressure and blood oxygen, the results after training, also need complicated button instructions to 201026280
I ^ ^ ^200820724 5 M309299 J ? 來當齡傳輸制生理訊號或啊值等,只 ?ΐ 一定的訓練機制與監控的行為,因此,現行 傳#及簡創Γ並無這方面的功能);另外,手機多次 f 要額外的付出,由此可知,實施之效 【發=容】有必要研發新產品,以解決上述缺點及問題。 蛄的在於提供一種本發明係有關一種遠端即時 ==丨練、:!導引、減少醫護人員之負擔及= 1點及掀,啸決習知技術往返t院路程之不便、按鍵指 令繁雜及所需醫護人員過多等問題。 本發明解決上&問題之技術手段係祕一種遠端即時心 肺復健訓練與自動監控回覆裝置,其包括—主機、一檢測裝 置、-基準部、-傳送裝置及—定點感測部 回覆-使用者之訓練狀態; 勒皿衩及 該主機係具有一第一無線感測模組、一處理部、一記憶 參 體、一揚聲部及一啟動部,該揚聲部係用以播放訓練之音 導引該使用者動作之語音; 、 該檢測裝置係具有一第二無線感測模組、一檢測部及一活 動感測部;該檢測裝置係用以檢測該使用者之生理狀態,並由 該第二無線感測模組傳送一生理資料訊號至該第一無線感測 模組; 該基準部與該主機相隔一預定距離,且分別作為該使用者 來回走動之基準點; y該定點感測部係具有一第三無線感測模組;該定點感測部 係用以與該檢測裝置之活動感測部配合,檢測該使用者移動之 距離及速度,並由該第三無線感測模組傳送一移動資料訊號至 該第一無線感測模組;又,該主機之啟動部係用以使該第一、 201026280 ΐ第 該第三無線感測模組達到同步與訓練歸零,而該定點 感測4係可设於該主機及該基準部其中之一; *·、 竣由接收該生理熟職及該機將訊號後係 田本立0 Sx記憶體之比對,控制播放之音樂及導引該使 土該主機係將該生理資料訊號及該移動資料訊 “傳:==號並傳送至該傳送裝置’再由該傳送 ^發供—種遠端即時心肺復健訓練與自動 覆方法,其係包括下列步驟: θ蔑L]番準·準備一遠端即時心肺復健訓練與自動監控 ;及一-一主機、一檢測裝置、一基準部、一傳送裝 熊.疋,.感/i]°p,用以自動監控及回覆一使用者之訓練狀 辦ΐίΐίί有一第一無線感測模組、一處理部、一記憶 偏測·^置係具有—第二無線細模組、—檢測部及一活 二檢測裝置係用以檢測該使用者之生理狀態’並由 iir、观峨組傳送—生理雜峨至該第-無線感測 步ηΪί準ί與該主機相隔—預定距離,且分別作為該使用者 來回走動之基準點; 你田測部係具有—第三無線感測模組;該定點感測部 距錐二二二則裝置之5動感測部配合’檢測該使用者移動之 4楚一 由該第三錄感測模組傳送一鑛資料訊號至 ίΪ:ΐΪί測模組;又’該主機之啟動部係用以使該第-、 =、U —無線感測模組達到同步與訓練歸零,而該定點 感測部係可雜社觀絲轉其巾之—; 者設定步驟:機制裝置巾設定雜用者之身 伤及生理警戒值; 201026280 [3]裝置設置步驟:啟動該主機’將該檢測裝置配戴於該 使用者身上,而該基準部則設置於一預定位置上,並與該主^ 相隔一預定距離,再將該定點感測部設於該主機及該基準部其 中之一; ’、 [4] 量測步驟:該使用者於一預定距離内來回走動,而該 檢測裝置之活動感測部及該定點感測部則分別將所測得之^ 生理資料訊號及該距離資料訊號傳送至該主機; /I ^ ^ ^200820724 5 M309299 J ? The physiological signal or ah value of the age-old transmission system, only the certain training mechanism and monitoring behavior, therefore, the current transmission # and Jian Chuang Γ have no such function); In addition, the mobile phone has to pay extra time, so it can be known that the implementation effect [facilitate] is necessary to develop new products to solve the above shortcomings and problems. What is embarrassed is to provide a kind of remote instant==丨练, guide, reduce the burden on the medical staff, and = 1 point and 掀, the inconvenience of whistling the technique to and from the hospital, and the button instructions are complicated. And the problem of too many medical staff required. The technical means for solving the problem of the present invention is a remote instant cardiopulmonary rehabilitation training and automatic monitoring and replying device, which comprises a host, a detecting device, a reference portion, a transmitting device and a fixed point sensing portion. The training state of the user; the levitator and the mainframe have a first wireless sensing module, a processing unit, a memory component, a speaker part and a starting part, and the speaker part is used for playing training. The sound device guides the voice of the user's action; the detecting device has a second wireless sensing module, a detecting portion and a motion sensing portion; the detecting device is configured to detect the physiological state of the user. And transmitting, by the second wireless sensing module, a physiological data signal to the first wireless sensing module; the reference portion is separated from the host by a predetermined distance, and serves as a reference point for the user to walk back and forth; The fixed-point sensing unit has a third wireless sensing module; the fixed-point sensing unit is configured to cooperate with the activity sensing unit of the detecting device to detect the distance and speed of movement of the user, and the third wireless sense The module transmits a mobile data signal to the first wireless sensing module; and the activation portion of the host is used to synchronize and train the first, 201026280 third wireless sensing module to zero. The fixed point sensing 4 can be set in one of the host and the reference portion; *·, 竣 is controlled by the physiologically-accepted and the machine after the signal is tied to the field, and the SSD memory is controlled. Music and guidance to enable the host to transmit the physiological data signal and the mobile data message to the transmitting device and then to the remote device for immediate cardiopulmonary rehabilitation The automatic covering method comprises the following steps: θ蔑L] 准准·Preparing a remote instant cardiopulmonary rehabilitation training and automatic monitoring; and one-to-one host, one detecting device, one reference part, one transmitting and loading bear. Sense/i]°p, used to automatically monitor and respond to a user's training situation ΐίΐίί has a first wireless sensing module, a processing unit, a memory bias measurement, and the system has a second wireless The module, the detecting unit and the second detecting device are used for detecting the use The physiological state 'is transmitted by the iir, the Guanlan group - the physiological hybrid to the first wireless sensing step ηΪ ί ί is separated from the host by a predetermined distance, and serves as a reference point for the user to walk back and forth; The department has a third wireless sensing module; the fixed-point sensing unit is coupled with the 5 motion sensing unit of the cone 22 device to detect the movement of the user and is transmitted by the third recording module. A mine data signal to Ϊ Ϊ ΐΪ 测 测 module; and 'the starter of the host is used to synchronize the first, -, U - wireless sensing module to zero, and the fixed point sensing department You can turn the towel into the towel--the setting step: the mechanism device towel sets the body injury and physiological warning value of the miscellaneous person; 201026280 [3] device setting step: start the host's wear the detection device a user's body, and the reference portion is disposed at a predetermined position and spaced apart from the main body by a predetermined distance, and the fixed point sensing portion is disposed in one of the main body and the reference portion; ', [4] Measurement step: the user walks back and forth within a predetermined distance And the movable sensing unit of the detecting means and said sensing portion designated respectively by measurement of the physiological data signals and ^ from the data signals transmitted to the host; /
[5] 輔助步驟:該主機依該使用者設定之生理警戒值,與 該生理資料訊號、該距離資料訊號作一比對,播放適當節奏之 音樂及導引之語音。 [6] 回傳步驟:該主機係將該生理資料訊號及該移動資料 訊號整合成一使用者狀態訊號,並自動傳送至該傳送裝置,再 由該傳送裝置回傳至相關醫療機構。 本發明之上述目的與優點,不難從下述所選用實施例之詳 細說明與附圖中,獲得深入瞭解。 兹以下列實施例並配合圖式詳細說明本發明於後: 【實施方式】 如第一及第二圖所示,一種遠端即時心肺復健訓練與自動 監控回覆裝置,其包括一主機10、一檢測裝置20、一基準部 30、一傳送裝置4〇及一定點感測部5〇,用以自動監控及回覆 一使用者70之訓練狀態; ^該主機10係具有一第一無線感測模組11、一處理部12、 一記憶體13、一揚聲部14及一啟動部15,該揚聲部14係用 以播J訓練之音樂及導引該使用者%動作之語音;該主機1〇 一第一空間1〇1及一第二空間102,分別用以枚納該 ^裝置2G及該基準部30,使該使用者7G可更方便的攜帶; ” ^檢裝置2G係具有—第二無線感測模組2卜一檢測部 Γ活,感測部23 ;該檢測裝置20係用以檢測該使用者 ί ’並由财二無賴職組21傳送-生理資料 ° G、匕括使用者之心跳與血氧)至該第一無線感測模組 201026280 11 ; 該使點相隔-預定距紙,且分別作為 心係具有一第三無線感測模組51;該定點 ===以與該檢測裝置2G之活動感測部23配合,檢 i 之雜錢度,並減第三無_測模組 移動資料訊號嫩至該第—無線感測模組n;又, ,主機10之啟動部15係用以使該第—、該第二及該第三 、21、51達到同步與訓練歸零,而該定點感測部 50係可设於該主機10及該基準部3〇其中之一; 藉此,該主機10接收該生理資料訊號2〇A及該移動資料 =號50A後係經由該處理部12及該記憶體13之比對,控= 導引該使用者7〇之語音;又,該主機10係將該 生理貝料訊唬20Α及該移動資料訊號5〇Α整合成一使用者 態訊號10Α並傳送至該傳送裝£ 4〇,再由該傳送裝£ 4〇回傳 ^相關醫療機構80(例如:該使用者7〇之訓練地點係位於一偏 遠之鄉間,而相關醫療機構80係位於都會區,利用本發明 可節省來回往返之時間)。 更詳細的說,本發明又設有一無線耳機16,當該使用者 參 70於戶外(例如:操場或公園)進行訓練時,可能因為環境過於 吵雜而無法完全清楚該揚聲部14所發出之音樂及語音,而使 用該無線耳機16則可避免外界聲音之影響,確實接收該主機 10所傳達之音樂及語音。 關於該檢測裝置20之活動感測部23與該定點感測部5〇 間’係以接收訊號強度(Received signal strength Indicate!·,RSSI) 功率換算距離或收訊時間法(Time ofArrival,TOA)之時間差來 量測該使用者70所移動之距離。 關於該傳送裝置40,其係可為日常生活之通訊裝置,例 如.手機或電腦等,如第三A及第三B圖所示,該主機1〇與 該傳送裝置40之資料傳送,係可利用無線傳輸(如紅外線、藍 201026280 ιϋ或如傳财之連結);⑽者狀態訊號 該朗者7G观過程之血氧、域及移動距離, 士傳达裝置40可傳送之内容範圍大小而分為重點擷取之 以:等/麵作傳送)及完 究妨士 a胃得送裂置40為電腦時,可傳送之内 曝過程有任何警告,端】ί 機時,貝ΐίίΐ 料庫);若該傳送裝置40係為一手 狀熊1自内谷較小’係可利用網路或簡訊將該使用者 顯 3〇疋否達到一適當之距離;舉 :二x丞早邛 基準部30之適當距離設定為十公尺°,則當及該 超過十公尺時,該顯示燈係顯示紅 wH或 該顯示燈係顯示綠燈。 而田距離為十公尺時, 覆方即時心肺復健訓練與自動監控回 控回時心肺復健訓練與自動監 用者70之訓練狀態; ^自動▲控及回覆一使[5] Auxiliary step: The host compares the physiological data signal set by the user with the physiological data signal and the distance data signal to play the music of the appropriate rhythm and the voice of the guidance. [6] Backhaul step: The host integrates the physiological data signal and the mobile data signal into a user status signal, and automatically transmits the signal to the transmitting device, and then the device returns to the relevant medical institution. The above objects and advantages of the present invention will be readily understood from the following detailed description of the preferred embodiments illustrated herein. The present invention will be described in detail below with reference to the following embodiments: [Embodiment] As shown in the first and second figures, a remote instant cardiopulmonary rehabilitation training and automatic monitoring and replying device includes a host 10, A detecting device 20, a reference portion 30, a transmitting device 4, and a certain sensing portion 5 are configured to automatically monitor and respond to the training state of a user 70. The host 10 has a first wireless sensing a module 11, a processing unit 12, a memory 13, a speaker portion 14, and a starting portion 15, the speaker portion 14 is used for playing the music of the J training and guiding the voice of the user's % action; The host 1 has a first space 1〇1 and a second space 102, respectively for naming the device 2G and the reference portion 30, so that the user 7G can be more conveniently carried; - a second wireless sensing module 2, a detecting unit, a sensing unit 23; the detecting device 20 is for detecting the user ί ' and transmitted by the second vain group 21 - physiological data ° G, 匕Including the user's heartbeat and blood oxygen) to the first wireless sensing module 201026280 11; Predetermined distance paper, and each has a third wireless sensing module 51 as a heart system; the fixed point === cooperates with the activity sensing part 23 of the detecting device 2G, checks the miscellaneous degree of i, and reduces the third The no-measurement module moves the data signal to the first-wireless sensing module n; and, the activation unit 15 of the host 10 is configured to synchronize the first, the second and the third, 21, 51 And the training point is 50, and the fixed point sensing unit 50 can be disposed in the host 10 and the reference unit 3; thereby, the host 10 receives the physiological data signal 2〇A and the mobile data=No. 50A After the comparison between the processing unit 12 and the memory 13, the control=guides the voice of the user; and the host 10 signals the physiological data and the mobile data signal. The user state signal 10 is integrated and transmitted to the transport device, and then the transport device is transferred back to the relevant medical institution 80 (for example, the user's 7-inch training location is located in a remote country. The related medical institutions 80 are located in the metropolitan area, and the invention can save time for round trips and back and forth.) In more detail, The invention is further provided with a wireless earphone 16. When the user participant 70 is training outdoors (for example, a playground or a park), the music and voice emitted by the speaker portion 14 may not be completely understood because the environment is too noisy. The wireless earphone 16 can be used to receive the music and voice transmitted by the host computer 10. The activity sensing unit 23 of the detecting device 20 and the pointing sensing unit 5 are configured to receive signals. Strength (Resived Signal Strength Indicate!, RSSI) The time difference between the power conversion distance or the Time of Arrival (TOA) to measure the distance moved by the user 70. The transmission device 40 can be a communication device for daily life, such as a mobile phone or a computer. As shown in the third and third B diagrams, the data transmission between the host computer and the transmission device 40 can be performed. Use wireless transmission (such as infrared, blue 201026280 ιϋ or link to pass the money); (10) status signal The blood oxygen, domain and moving distance of the 7G process, the size of the content range that can be transmitted by the teacher transmission device 40 In order to focus on: to wait for / face to transmit) and after the swearing of a stomach to send a split 40 to the computer, there is any warning that the internal exposure process can be transmitted, end] ί 机, 贝ΐ ίί 料 ) If the transmitting device 40 is a small bear 1 from the inner valley, the user can use the network or the short message to display the user to a suitable distance; The appropriate distance is set to 10 meters, and when it is more than ten meters, the display light shows red wH or the display light shows green light. When the distance between the fields is 10 meters, the immediate cardiopulmonary rehabilitation training and automatic monitoring and return control time cardio-rehabilitation training and automatic monitor 70 training state; ^ automatic ▲ control and reply
々Ϊί機1〇係具有一第一無線感測模、组1卜-處理邱D 以播放訓練之音樂及導引該使用者70動作之聲。1^係用 該檢測裝置20係具有一第二無線感測模^ ’、 22及一活動感測部23 ;該檢測裝用二檢夠部 冗之生理㈣,並_二編聰 201026280 訊號20A至該第一無線感測模組η ; 該基準部30與該主機1〇相隔一預定距離L,且分別作為 該使用者70來回走動之基準點; 該定點感測部50係具有一第三無線感測模組51 ;該定點 感測部50係用以與該檢測裝置20之活動感測部23配合,檢 測該使用者70移動之距離及速度,並由該第三無線感測模組 ' 51傳送一移動資料訊號50Α至該第一無線感測模組11 ;又’ - 該主機10之啟動部15係用以使該第一、該第二及該第三無線 感測模組11、21、51達到同步與訓練歸零,而該定點感測部 Φ 50係可設於該主機10及該基準部30其中之一; Ρ]使用者設定步驟62 :於該檢測裝置20中設定該使用 者70之身份及生理警戒值(一般在醫院開立處方簽後植入); [3] 裝置設置步驟63 :啟動該主機1〇(即啟動該啟動部 15) ’將該檢測裝置20配戴於該使用者7〇身上,而該基準部 30則設置於一預定位置上,並與該主機1〇相隔一預定距離]^, 再將該定點感測部50設於該主機1〇及該基準部3〇其中之一; [4] 量測步驟64:該使用者70於一預定距離内來回走動, 而該檢測裝置20之活動感測部23及該定點感測部5〇則分別 將所測得之該生理資料訊號20Α及該距離資料訊號50Α傳送 ❿ 至該主機10 ; [5] 輔助步驟65:該主機1〇依該使用者7〇設定之生理警 戒值,與該生理資料訊號20Α、該距離資料訊號5〇Α作一& 對,播放適當節奏之音樂及導引之語音。 ,·- [6]回傳步驟66 :該主機10係將該生理資料訊號20Α及 該移動資料訊號50Α整合成一使用者狀態訊號1〇Α,並自動 傳送至該傳送裝置4G,再由該傳送裝置4G回傳至相關醫療機 構80。 關於音樂之節奏及導引之語音,係可隨該使用者7〇之需 求而有不同之狀(if常在醫院作評估後,依生理值及個人資 訊而有不同之音樂設定),再配合該主機⑴接收訊息而驅動, 201026280 3機走树度餸胁音粒祕速度時, 聲部14發出提醒之語音,鼓勵該使:者 則該主機係驅動該揚聲部14 田/7’ ,,相關醫療機構發80出= 警因告該使用者7。 第-按H檢峨置2G又設有-電源_24、一 、一第一按鍵26及一顯示部27,該電源開關24 係控制該檢測裝置2〇之啟動與關Μ 一枱i Γ關閉而该第一按鍵25及該第 ❿ 參 it ^ if^語音作—峨之回細如:該第一按 鍵25及该第二按鍵26分別為「 使用者70對輔助之扭咅作餘罝否」之按鍵,可供該 _ -斗/1 作1車之確認),而該顯示部27係用 =不該主機H)所傳達之訊息(如:充電狀態、 手用 侍该使用者70之血軋濃度,進而得到心跳值。 準邻之i?丨部50,除可設於該主機1〇及該基 準邛30其中之-外(利用單點之距離變化來測得該使 之移動離),亦可_兩個定__ 5G,分職於該 ,該基準部30,利用該使用者7〇 g己戴之檢測裝置2〇之活 感測部23細個定喊卿50間之雜變化_的該使用者 70之移動距離 當然,利用該主機10之設定,可於該基準部3〇作 整時發出獅語音,使該使用者1G藉由語音之辅助而 ^ 準部30與該主機10調整至一最適當之距離(約為1〇公尺土 明參閱第七及第八圖’其係分別為本發明之訓練準 流程及訓練過程之監控、記錄之關係圖,由此可知,該使 可於居豕、戶外專地點進行測試,再由遠端之醫戶人員進行p 控,在流程上相當方便;如第七圖所示,當裝置校正與生二 正通過後,即進入自動測試(以該啟動部15啟動);^第八^ 所不’在訓練過程右有警告訊號’醫護人員亦可即時作校正動 作;另外,第七及第八圖中之感測器係包括該檢測裴置及 201026280 3 ’感測模組係包括該第-、該第二及該第三 線組11、21、51 ’而感測裝置為指本發明之遠端 時心肺復健訓練與自動監控回覆裝置。 Ρ 綜上所述,本發明之優點及功效可歸納為: 院由外直接進行訓練。以往復健方式是在醫 人貝i控卽拍下,對病患在距離1G公尺之角錐作 ^態作監控,但該使用者需來回往返醫院及家 中’在實施上相虽不便;而本發明利用遠端監控,該使用 ❹ ===峨W綱點進行訓練 ,$但沒有 eiL語音導5卜國峰有醫院_手機簡訊之指令,達到 ίίϊίϋΓ但按鍵指令過為繁雜,使_當不便;而本 可依該使用者之狀態驅動適當節奏之音樂 及導引之3。a,達到良好之訓練效果。 的醫之貞擔。雖復健方式需要耗費相當多 發明可真實反應紀錄狀況,只需少數醫護人 員ΡΤ達到監控,故,可減少醫護人員之負擔。 八攜帶方便。本發明之該第一空間及該第二空間,係可 收納該檢測裝置及該基準部,使該使用者可更方便的攜 所二Ζΐΐΐ巧ί實施例詳細說明本發明’對於該實施例 ^任何簡單修改與變化,皆不脫離本發明之精神盘範圍。 詳細·’可使熟知本項娜者明瞭本發明的確可 已符合專利法之規㈣提出發明專利申請。 第-圖係本發日月之翻㈣心肺復健訓練與自動監控回覆裝 一置之主機結構之示意圖 第圖係本發明之遠端即時心肺復健訓練與自動監控回覆裝 置之示意圖 第一A圖係本發明之遠端即時心肺復健訓練與自動監控回覆 11 201026280 t 方式一之示意圖 裝置職物自_回覆 第四圖ίίίίίίί即時^肺復賴練與自動監控回覆方 第五圖自输回覆方 第六圖,本發明之翻㈣轉復_ _自動監控回覆裝 置之檢測裝置之示意圖The 々Ϊ 机 机 具有 has a first wireless sensing mode, a group 1 - processing Qi D to play the training music and guide the user 70 action sound. The detection device 20 has a second wireless sensing module ^', 22 and a motion sensing portion 23; the detection device uses two to check the physiology of the redundant part (4), and _ second editor Cong 201026280 signal 20A To the first wireless sensing module η; the reference portion 30 is separated from the host 1 by a predetermined distance L, and serves as a reference point for the user 70 to move back and forth; the fixed point sensing unit 50 has a third The wireless sensing module 51 is configured to cooperate with the activity sensing unit 23 of the detecting device 20 to detect the distance and speed of movement of the user 70, and the third wireless sensing module is used. '51 transmits a mobile data signal 50Α to the first wireless sensing module 11; and '- the activation portion 15 of the host 10 is configured to enable the first, second, and third wireless sensing modules 11 21, 51, synchronization and training return to zero, and the fixed point sensing unit Φ 50 can be set in one of the host 10 and the reference portion 30; Ρ] user setting step 62: set in the detecting device 20 The identity and physiological alert value of the user 70 (usually implanted after the hospital opens a prescription); [3] Device setup step Step 63: Start the host 1 (ie, activate the starting portion 15) 'wearing the detecting device 20 to the user 7〇, and the reference portion 30 is disposed at a predetermined position, and the host 1 is 〇 a predetermined distance], and then the fixed point sensing unit 50 is disposed in one of the main body 1〇 and the reference portion 3; [4] measuring step 64: the user 70 is back and forth within a predetermined distance Moving, the activity sensing unit 23 and the fixed point sensing unit 5 of the detecting device 20 respectively transmit the measured physiological data signal 20Α and the distance data signal 50Α to the host 10; [5] Step 65: The host 1 converts the physiological data value set by the user 7 to the physiological data signal 20 Α and the distance data signal 5 to play the appropriate rhythm music and the guided voice. [6] Returning step 66: The host 10 integrates the physiological data signal 20Α and the mobile data signal 50Α into a user status signal 1〇Α, and automatically transmits it to the transmitting device 4G, and then transmits the data. Device 4G is passed back to the relevant medical facility 80. The rhythm of the music and the voice of the guide can be different depending on the needs of the user (if often in the hospital for evaluation, depending on the physiological value and personal information, there are different music settings), and then cooperate The host (1) receives the message and drives, and the sound of the sound is raised by the voice part 14 when the speed of the sound is increased, and the voice is encouraged to: the host system drives the speaker part 14 field/7', , the relevant medical institutions issued 80 out = the police told the user 7 . The first-press H check device 2G is further provided with a power source _24, a first button 26 and a display portion 27, and the power switch 24 controls the start and close of the detecting device 2, and an i Γ is turned off. And the first button 25 and the third parameter are used to make the 回 峨 : : 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一The button can be used for the confirmation of the _-bucket/1 for 1 car, and the display unit 27 uses the message conveyed by the host H) (eg, the state of charge, the hand of the user 70) The blood pressure concentration, and then the heartbeat value. The quasi-adjacent i? 丨 50, in addition to the host 1 〇 and the reference 邛 30 - (using a single point of distance change to measure the movement away ), or two __ 5G, divided into the division, the reference portion 30, using the user's 7 〇 g wearing detection device 2 活 the living sensing unit 23 to make a detailed call 50 Of course, with the setting of the host 10, the lion voice can be issued when the reference portion 3 is finished, so that the user 1G is assisted by voice. The unit 30 and the host 10 are adjusted to an optimum distance (about 1 〇 土 土 参阅 第七 第七 第七 第七 第七 第七 第七 第七 第七 第七 第七 第七 第七 第七 ' , , , , , , , , , , , , , , , , , , , , , It can be seen that the test can be carried out in the outdoor and outdoor places, and then controlled by the remote medical staff, which is quite convenient in the process; as shown in the seventh figure, when the device is corrected and the second is passed After that, the automatic test is started (started by the start-up unit 15); ^8th ^No' there is a warning signal right in the training process', the medical staff can also make corrective actions immediately; in addition, the senses in the seventh and eighth pictures The measuring device includes the detecting device and the 201026280 3 'sensing module includes the first, the second and the third wire group 11, 21, 51 ' and the sensing device refers to the distal end of the present invention Health training and automatic monitoring of the reply device. 综 In summary, the advantages and effects of the present invention can be summarized as follows: The hospital is directly trained from the outside. The reciprocating method is taken under the control of the doctor, and the patient is The angle of the 1G meter cone is monitored, but the user Need to go back and forth between the hospital and the home 'in the implementation of the phase is not convenient; and the invention uses remote monitoring, the use of ❹ ===峨W class training, but no eiL voice guide 5 Bu Guofeng has a hospital _ mobile phone newsletter instructions , ίίϊίϋΓ, but the button command is too complicated, so that _ is inconvenient; and this can be driven by the user's state of the appropriate rhythm music and guidance 3 a, to achieve a good training effect. The rehabilitation method requires a considerable amount of inventions to truly reflect the record status, and only a few medical personnel can achieve monitoring, so the burden on the medical staff can be reduced. Eight portable. The first space and the second space of the present invention are The detecting device and the reference portion can be accommodated, so that the user can carry out the present invention more conveniently. The present invention is described in detail with respect to the present invention. Any simple modifications and changes to the embodiment can be omitted without departing from the spirit disk of the present invention. range. The details of the invention can be made by the person who knows the subject of this invention and who has indeed complied with the provisions of the Patent Law (4). The first picture is the schematic diagram of the host structure of the cardiopulmonary rehabilitation training and the automatic monitoring and returning device. The figure is the schematic diagram of the remote instant cardiopulmonary rehabilitation training and automatic monitoring and replying device of the present invention. The invention is the remote instant cardiopulmonary rehabilitation training and automatic monitoring reply of the present invention. 11 201026280 t The way of the first schematic device is from the _ reply to the fourth figure ί 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 ^ ^ ^ ^ 肺 肺 肺 肺 肺 肺 肺 肺 肺 肺The sixth figure, the schematic diagram of the detecting device of the automatic monitoring and replying device of the present invention
第七圖係本發明之遠端即時心肺復健訓練與自動監控回覆裝 置之訓練準備流程之示意圖 第八圖係本發明之遠端即時心肺復健訓練與自動監控回覆裝 置之訓練過程之監控及記錄之示意圖 【主要元件符號說明】 ❹ 10主機 30基準部 50定點感測部 11第一無線感測模組 13記憶體 15啟動部 21第二無線感測模組 22檢測部 50A移動資料訊號 l〇A使用者狀態訊號 102第二空間 62使用者設定步驟 64量測步驟 66回傳步驟 25第一按鍵 27顯示部 20檢測裝置 40傳送裝置 70使用者 12處理部 14揚聲部 16無線耳機 20A生理資料訊號 23活動感測部 51第三無線感測模組 101第一空間 61準備步驟 63裝置設置步驟 65辅助步驟 24電源開關 26第二按鍵 80醫療機構 12 201026280 L預定距離The seventh figure is a schematic diagram of the training preparation process of the remote instant cardiopulmonary rehabilitation training and automatic monitoring and replying device of the present invention. The eighth figure is the monitoring process of the remote instant cardiopulmonary rehabilitation training and automatic monitoring and replying device of the present invention. Schematic diagram of recording [Description of main component symbols] ❹ 10 host 30 reference unit 50 fixed point sensing unit 11 first wireless sensing module 13 memory 15 activation unit 21 second wireless sensing module 22 detecting unit 50A moving data signal l 〇A user status signal 102 second space 62 user setting step 64 measurement step 66 return step 25 first button 27 display portion 20 detecting device 40 transmitting device 70 user 12 processing portion 14 speaker portion 16 wireless earphone 20A Physiological data signal 23 activity sensing unit 51 third wireless sensing module 101 first space 61 preparation step 63 device setting step 65 auxiliary step 24 power switch 26 second button 80 medical mechanism 12 201026280 L predetermined distance