201247175 •六、發明說明: , 【發明所屬之技術領域】 • 本伽縣-觀歧酸肌群触_,藉她置於受 測者體表_腔轉量檢知錢,得知制者_腔位移量, 並以顯示裝置呈現,並經由主機中訓練軟體之個人化呼吸參數 對應胸腔位移量資料庫建構、呼吸肌肌力訓練處方、呼吸肌肌 力訓練規範及呼吸肌肌力訓練成效評估等模組,達到個人化呼 吸肌肌力訓練及胸腔肌群強化之目的。 【先前技術】 根據台灣衛生署統計’每年約有一千位新增的脊驗損傷患 者,而美國也、棘里大學統§十全美母年約有一萬位新增的脊趙損 傷患者’ 一但脊髓受傷,將可能造成心血管、呼吸功能的損失, 其中,呼吸功能係因為肌肉無力或是失能而導致胸腔壓力不 足、胸腔活動度降低、胸壁彈性下降、肺容積降低等狀況。為 使患者恢復呼吸肌力,遂有數種量測與訓練方式,如下: 1、三球式呼吸tii丨練器:第1圖所示,此三球式啤吸訓練 器A係包括一吹管A1、三個管體A2及三個球體A3,其中 該吹管A1與該些管體A2相互連通,當使用者在進行訓練 時,可直接目視浮起的球體A3狀態,藉此直接了解目前的呼 吸肌力的力量,是一種鼓勵使用者以盡全力吸氣後,快速吐氣 的方式直接訓練呼吸肌力的簡易輔具,可以增加使用者呼吸肌 201247175 力強度、爆發力’進而提升心肺功能。但其無法直接量測啤吸 肌力的數據,其量測結果多由治療師主觀認^,對於實際復原 I#況難轉握,並an材直接與患者的口部接觸,有病菌感染 之虞。 肺功迠測試艙:如第2圖所示,此肺功能測試搶B 係^括1間B1及一餘門B2,患者在進入該空間μ關上 i餘門B2後’將會記錄呼氣與吸氣所造成該空間b1内壓力 與氣體成份的變化,藉此得到呼吸肌力的詳細數據,藉由每次 訓練的記錄’供醫師、患者了解其肺功能的狀態,然而,此種 〇 又備製造成本昂貴且佔據空間大。 3、彈力帶量測:如第3圖示之,其係為一種彈力帶匸, 於彈力帶C上設有整合式的訊號擷取器,該彈力帶c用以綁 在文測者的胸腔兩側,受測者在呼吸時會繃緊彈力帶C,使彈 力帶C内的中央管腔變窄而產生訊號的變化,將此變化傳遞 至連接的主機,以轉換得到進一步的數據。然,此種方式係不 利於臥躺或是需要進行翻身的患者,並且,其彈力帶c每次 綁扣在患者的步驟繁鎖,其鬆緊程度不一,亦會造成量測數據 不準確的問題。 201247175 【發明内容】 - 為克服上述之_,本拥雜供—種監控式胸腔肌群強 • 化系統’藉由胸腔位移量檢知裝置所感應到的胸腔位移量,且 透過訓練軟體的運算,呈現於顯示裝置,讓受測者能即時得知 訓練成果,且观賴巾时魏肌力爾處相組及呼吸肌 肌力訓練規範模組,分別安排受測者的訓練療程(包括訓練處 方及訓練規範),讓受測者得照表進行訓練,同時,呼吸肌肌 力訓練成效評估模組亦可將訓練結果記錄下來,供醫療人員評 估受測者的訓練狀況。 本發明提供_腔傅量檢知裝置,是和f料處理設備搭 配使用,達成辅助受測者訓練胸腔肌群的效果。資料處理設備 包括了主機及顯示裝置,主機還訊號連結了接收器,是用以接 收胸腔位移量檢知裝置所發出的資料,再由主機_Di丨練軟體 運算,而爾軟縣包含了:個人化呼吸錄賴胸腔位移量 資料庫建構模組、呼吸肌肌力訓練處方模組、呼吸肌肌力訓練 規範模組及呼吸肌肌力訓練成效評估模組。可藉由該些模組進 行個人化參數建構及呼吸訓練療程設定(包括訓練處方與訓練 規範)後Μ用顯示裝置之即時視覺回饋進行呼吸肌肌力訓 練。另外,訓練過程中取得之胸腔位移量可與個人化參數資料 比對換算求得受測者之平均肖力麟量(F。· νω Capa吻, FVC)與第一秒用力呼氣容積(porce Expiration Volume in 1st 201247175201247175 • Six, invention description: , [Technical field of invention] • Benga County - Guanyin acid muscle group touch _, by her placed on the body surface of the subject _ cavity transfer amount to check the money, know the maker _ The amount of cavity displacement is presented by the display device, and the individualized breathing parameters of the training software in the host computer correspond to the construction of the chest displacement amount database, the respiratory muscle strength training prescription, the respiratory muscle strength training norm and the respiratory muscle strength training effectiveness evaluation. The module can achieve the purpose of personalized respiratory muscle strength training and thoracic muscle group strengthening. [Prior Art] According to the statistics of the Taiwan Department of Health, there are about one thousand new patients with spine injuries every year, and the United States, the University of Spurs, and the 10,000 women in the United States have about 10,000 new patients with vertebral injuries. Once the spinal cord is injured, it may cause loss of cardiovascular and respiratory function. Among them, the respiratory function is caused by insufficient muscle pressure or disability, resulting in insufficient chest pressure, decreased chest activity, decreased chest wall elasticity, and decreased lung volume. In order to restore the patient's respiratory muscle strength, there are several kinds of measurement and training methods, as follows: 1. Three-ball breathing tii training device: As shown in Figure 1, the three-ball beer training device A includes a blowing tube A1. The three tubes A2 and the three balls A3, wherein the blow tube A1 and the tubes A2 are in communication with each other. When the user is training, the floating ball A3 state can be directly visually observed, thereby directly understanding the current breathing. The strength of muscle strength is a simple aid that encourages the user to directly train the respiratory muscles by inhaling the breath after exhausting the full force. It can increase the strength and explosiveness of the user's respiratory muscles 201247175 and thus improve the heart and lung function. However, it is not possible to directly measure the data of the beer muscle strength. The measurement results are mostly subjectively recognized by the therapist. For the actual recovery, I# is difficult to turn, and the an material is directly in contact with the patient's mouth, and there is a bacterial infection. Hey. Pulmonary function test chamber: As shown in Figure 2, this lung function test grabs B system and includes 1 B1 and 1 remaining door B2. After entering the space μ, the patient will record exhalation and Inhalation causes changes in pressure and gas composition in the space b1, thereby obtaining detailed data of respiratory muscle strength, by recording the record of each training for the physician and the patient to understand the state of their lung function, however, It is expensive to manufacture and takes up a lot of space. 3, elastic belt measurement: As shown in the third figure, it is an elastic belt 匸, on the elastic belt C is equipped with an integrated signal picker, the elastic belt c is used to tie the chest of the tester On both sides, the subject will tighten the elastic band C while breathing, so that the central lumen in the elastic band C is narrowed to produce a signal change, and the change is transmitted to the connected host to convert further data. However, this method is not conducive to lying down or patients who need to turn over, and its elastic band c each time the buckle is cumbersome in the patient's steps, the degree of tightness is different, and the measurement data is inaccurate. problem. 201247175 [Summary of the Invention] - In order to overcome the above-mentioned problems, the monitoring of the thoracic muscle group strengthening system by the thoracic cavity displacement detecting device and the operation of the training software through the training software It is presented on the display device, so that the subject can immediately know the training results, and the Wei Mu Lier phase group and the respiratory muscle strength training specification module are arranged to arrange the training courses (including training) of the subject. Prescription and training specifications), the subject can be trained according to the table, at the same time, the respiratory muscle strength training effectiveness evaluation module can also record the training results for medical personnel to assess the training status of the subject. The invention provides a device for detecting the volume of the cavity, which is used in combination with the f-material processing device to achieve the effect of assisting the test subject to train the thoracic muscle group. The data processing device includes a host and a display device, and the host also connects the receiver to receive the data sent by the chest displacement detecting device, and then the host _Di 丨 software software, and Ersoft County includes: The personalized breathing records the thoracic cavity displacement database construction module, the respiratory muscle strength training prescription module, the respiratory muscle strength training specification module and the respiratory muscle strength training effectiveness evaluation module. Respiratory muscle strength training can be performed by using the module's personal parameter construction and breathing training course settings (including training prescriptions and training specifications) with instant visual feedback from the display device. In addition, the amount of chest displacement obtained during the training can be compared with the individualized parameter data to obtain the average of the subject's average force (F.· νω Capa kiss, FVC) and the first second forced expiratory volume (porce Expiration Volume) In 1st 201247175
Second,FEV1)等臨床呼吸功能指標,並將訓練結果記錄於資 料處理設備中。受測者透過觀察顯示裝置上即時胸腔位移量數 據及圖表,可知曉自身的呼吸肌肌力訓練表現狀況。本發明可 提供受測者一個不斷且反覆的呼吸肌肌力訓練硬軟體環境,胸 腔位移量訓練結果藉由量化的數據及圖表呈現,讓受測者及醫 療人員更易了解受測者訓練狀況。 根據前述内容,為使相關領域的技術人士對本發明能進一 步的瞭解,故揭露一較佳之實施方式如下。 【實施方式】 本發月疋種監控式胸腔肌群強化系統,當一受測者p欲 訓練其胸腔料,可藉著改變驗娜量的動作(如透過呼氣 及吸氣的辑触),以賴赠呼吸職力之效果。 如第4圖及第5騎示,本發明包括胸腔位移量檢知裝 1、資料處理設備2、主機2卜接收器211及顯示裝置 量檢知|置1用以獲得受測者p的胸腔位移量 朗亍=料處理設備2的接收器211,進行處聲 21中包含有…2,讓制者Ρ觀察量測結果。另,該知 ,3观軟體3,該訓練軟體3包括個人化呼吸‘ 數對應胸腔位移量雜«構模㈣ 201247175 模組3 2、呼吸肌肌力繼規範麵3 3及啊職力訓 效汗估模組3 4。這些模組域作方式分述如下: 。(1)個人化呼吸參數對應胸腔位移量轉庫雜模組3 1操作方式: 於該受測者Ρ的體表附著—胸腔位移量檢知裝置】,並同 日夺使用臨絲狀呼鱗制受财p在不时魏用她 態下的胸腔位移量,以及_之平均用力肺活量和第_秒用力 呼氣容積’並整理成龍D傳送給該資料處理設備2社機2 1 ’且該個人化啊參數對_餘移量㈣庫雜模㈣丄 會根據該資料D計算相關回歸係數、建立函數關係及資料庫, 並繪製呼吸肌肌力對應平均用力肺活量及第一秒用力呼氣容 積曲線如第6圖所示。 (2)呼吸肌肌力訓練處方模組3 2操作方式: 在訓練初期,對於呼吸功能損傷的受測者而言,不適宜要 求其在單次訓練中,每個回合皆用全力讓自身的胸腔位移量達 到最大值’除了易讓該受測者P感到不適’亦可能還因此加重 病情,故,臨床之訓練方式皆採用循序漸進的訓練模式。 本發明所提供的該呼吸肌肌力訓練處方模組3 2,會根據 上述的呼吸肌肌力對應平均用力肺活量及第一秒用力呼氣容 積曲線(第6圖),為該名受測者p設計個人化的訓練處方, 7 201247175 該訓練處謂參财7騎*,該呼魏肌力姆處方模組3 2係以該名麵者p錄侧人化呼吸參麟細腔位移量 資料庫建翻組3 1時’賴得麟驗移制最大值,取其 百分之九十的數值做為單次訓練的訓練目標,並且會設訂單次 訓練所需的訓練回合數,每回合將依序提升訓練難度,訓練難 度是取上軸錄移量的最大值之百分之九十醜值,將其由 低到高切分不同的百分比,訂出該受測者P於每回合所需產生 的胸腔位移量β (3)呼吸肌肌力訓練規範模組3 3操作方式: 在短時間内,透過由弱至強且不斷地的吸氣及呼氣、吸氣 及錢’此種观方式對於—般正常人都會_吃力,更遑論 是呼吸功能有職傷的制者,—旦鱗咖較長或訓練的間 隔時間太短,都有可騎該受測者造成傷害。 菱此,呼吸肌肌力訓練規範模組3 3會為該名受測者ρ設 定訓練規範,包__練_、每週訓練辭、每 ^重覆回合數、前後兩次崎回合咖咖及崎閥值,如 第8圖所㈣狀峨,物丨練物卿3次(每週 訓練頻率),而在單次爾+,亦有观_合數(依昭 卩係每次訓練步驟重覆回合數),二 早次訓練結束後,該呼吸肌肌力規範模組3 _ 201247175 測者P是否已結束單週所需完成的單次訓練次數,或是已完成 所有的訓練;若尚未完成,酿過了咖咖(前後兩次訓練 回合間隔時間)後’則會讓該受測者p繼續訓練, (4)呼吸肌肌力訓練成效評估模組3 4操作方式: 請參閱第9 ®,該受測者P每個單次訓練之成效(即胸腔 位移量)时被記錄下來,該呼吸肌肌力訓練成效評估模組3 4依照多次訓練所獲得的資料D會轉出圖表(即呼吸肌肌力 訓練績效曲線),將和個人化呼吸參數對應胸腔位移量資料庫 建構模組3 1所得A时吸祕力對解_力肺活量及第 -秒用力魏容積曲線(第6圖)相互比對,即可明確知道, ㈣長期下來_練後’該制者p平均用力肺活量及第一秒 用力呼氣容積的前後差異,並舒s療人員t作評斷該受測者 療效的依據。 前述内容為丨練倾3内各·_作方式,然,欲讓 該受測者P能在訓練過程中,即時知曉自身訓練的成效,則可 而透過該顯喊置2 2 ’由該訓練軟體3的運算,以圖表及數 據的結杲呈現方式讓該受測者p得知其訓練過程即時表現與 I)丨丨練成杜。 ' 請參閱第10圖、第U圖及第12圖,觸示裝置2 201247175 疋Γ,直條圖圖表S F及量化的數據D 1呈現該訓練軟體3 運算後的貝料D ;該胸腔位移量檢知裝置丄所量測到的是該受 ^者P的_位移量,其倾所代表的意献該受測者p在呼 乳吸氣時肺活量改變的量絲現,並得依此為參考依據進行 訓練,虽該文測者P進行訓練時,該直條圖圖表s F中的各直 條圖S F 1之呈财^,有如傳統呼吸繼^吹氣三顆球依序 上升的視覺效果,讓受測者P可以快速且清楚了解目前訓練的 表現。另外,亦提供數個燈號S F 2以及數個目標刻度s F 3,除了該直條圖S F丄可連續呈現視覺效果的變化外,亦可 透過該燈號S F 2之改變(紅燈表示未達目標;絲表示已達 目標)與是否超過該目標刻度” 3,讓該受測者?在每個回 合都有追求的訓練目標值’以提高該受測者p的使用動機。此 外,該顯示裝置22亦可呈現數個量化的數據框D2,並以數 值顯示該受測者P每個單次吸/呼氣的量;該量化的數據框〇 2之數值有單次胸腔位移量(該受測者p於當次呼吸動作產生 的胸腔位移量)、目標胸腔位移量(由該訓練處方訂出的每個 回合應呼吸動作產生的胸腔位移量)、回合達成率(由單次呼 吸動作產生的胸腔位移量所佔目標胸腔位移量的百分比而算 出),並記錄於該呼吸肌肌力訓練成效評估模組3 4,並供該 呼吸肌肌力訓練成效評估模組3 4作為該受測者p訓練成效 評估之參考。 201247175 -進者细本發明所提供的雖式胸腔肌群強化系統,於 該受測者p進行訓練時,該顯示装置2 2還可以另一實施方式 呈現併參閱第1 3圖至第1 8圖;可利_彳者p胸腔 位移量推算求得相對應之呼氣量,並可以孤形圖式$ F枝量 化的數據D 1呈現該訓練軟體3運算後的資料d,該受測者p 的胸腔位移量改變,可使該弧式S F 4 _徑隨之變化, 而量化的數助1亦會—併更改補孤形圖式S F 4如同補 充熱氣般將氣球逐_起,在此過程中,為提升該受測者P 胸腔肌群的訓練難度,亦可設定熱氣球域的流量,讓受測者 P感受到若未連續絲速吸/呼氣,難法完成賴氣球升空 的任務另外’該顯不裝置22上亦提供數個燈號2,可 透過該燈號S F 2之改變(紅燈表示未達熱氣球升空目標,·綠 燈表不已達熱氣料空目標),讓該受測者?可快速判斷是否 已完成該回合之訓練。此外,該顯示裝置2 2至少提供數個量 化$數據框D 2讀字顯示,目射氣量(呼氣量可由胸腔位 移量代人’吸肌肌力對應第一秒用力呼氣容積曲線計算轉求 得)母刀I里洩氣量、已用時間及任務達成率等數值,其中目 “呼氣量與每分知邊氣量可依該受測者p呼吸肌能力(包括呼 吸肌肌力與耐力)調整訓練難度;已用時間與任務達成率為評 估該受測者P連續吸/呼氣能力的指標,並記錄於該呼吸肌肌 力訓練成鱗估難3 4,提麟种缝力鱗姐評估模 組3 4作為該受測者p訓練成效評估之參考。 201247175 綜上所述,本發明實具有產業利用性、新穎性與進步性之 專利要件,似上财,僅為本㈣之—較佳實麵,並非用 來限定本發明之實施顧,即依本發日种請專利細所做之均 等變化,皆於本發明專利範圍所涵蓋。 【圖式簡單說明】 第1圖至第3圖係為習知技術之呼吸肌肌力量測訓練工具; 第4圖為本發明系統架構圖; 第5圖為本發明訓練軟體架構圖; 第6圖為本發_人化呼吸參數對應胸腔位移量資料庫 所得出的呼吸肌肌力對應平均用力肺活量及第—秒用力^ 谷積曲線, 1第7圖為本發明呼吸肌肌力訓練處方模組所得出的剌練處方 不意圖; 第8圖為本發明呼吸肌肌力訓練規範模組所得出的训練規 不意圖; 範 的呼吸 第9圖為本發财吸肌肌相練成效評倾組所得出 肌肌力訓練績效曲線示意圖; 現訓練受測者的 現訓練受測者的 第10圖至第12圖為本發明顯示裴置所呈 態樣; 第13圖至第18圖為本發明顯示裝置所呈 另一態樣。Second, FEV1) and other clinical respiratory function indicators, and the training results are recorded in the data processing equipment. The subject can know his or her respiratory muscle strength training performance by observing the data and chart of the immediate chest displacement on the display device. The invention can provide a continuous and repeated respiratory muscle strength training hard and soft environment of the subject, and the chest displacement training result is presented by quantitative data and graphs, so that the subject and the medical staff can more easily understand the training state of the subject. In view of the foregoing, it will be apparent to those skilled in the <RTIgt; [Embodiment] This monitoring type of thoracic muscle strengthening system, when a subject p wants to train his chest material, can change the amount of numeracy (such as through exhalation and inhalation) In order to give the effect of breathing. As shown in FIG. 4 and the fifth riding, the present invention includes a chest displacement detecting device 1, a data processing device 2, a host computer 2 receiver 211, and a display device for detecting the number of the device to obtain the chest of the subject p. The displacement amount is read = the receiver 211 of the material processing device 2, and the sound 21 is included in the sound 21 to allow the maker to observe the measurement result. In addition, the knowledge, 3 view software 3, the training software 3 includes personalized breathing 'number corresponding to the chest displacement amount of impurities «modeling (four) 201247175 module 3 2, respiratory muscle strength following the norm face 3 3 and ah job force training effect Sweat evaluation module 3 4. These module domain methods are described as follows: (1) Personalized breathing parameters corresponding to the thoracic cavity displacement amount transfer module 3 1 Operation mode: The body surface attachment of the subject's body-thoracic displacement detection device], and the same day use the silky caller scale system From time to time, Wei uses the amount of chest displacement in her state, and the average forced vital capacity of _ and the forced expiratory volume of the first _ second, and organizes the delivery of Jackie D to the data processing device 2 1 ' and the personalization参数 parameter pair _ residual shift (four) library model (four) 丄 will calculate the relevant regression coefficient, establish the function relationship and database according to the data D, and draw the respiratory muscle strength corresponding to the average forced vital capacity and the first second forced expiratory volume curve Figure 6 shows. (2) Respiratory muscle strength training prescription module 3 2 Operation mode: In the initial stage of training, it is not suitable for the subjects with respiratory function damage to be required to perform their own training in a single training. The maximum amount of thoracic displacement is 'in addition to making the subject P feel uncomfortable', which may also aggravate the condition. Therefore, the clinical training methods adopt a step-by-step training mode. The respiratory muscle strength training prescription module 32 provided by the present invention is based on the above-mentioned respiratory muscle muscle force corresponding to the average forced vital capacity and the first second forced expiratory volume curve (Fig. 6), for the subject p design personalized training prescription, 7 201247175 The training office said that the stagnation of the 7th riding *, the 魏Wei Mu Lim prescription module 3 2 series with the name of the face of the humanized breathing Shen Lin fine cavity displacement data When the library is set up and turned over, the maximum value of the Lai's test is taken. The value of 90% is taken as the training target of the single training, and the number of training rounds required for the order training will be set. The difficulty of training is improved. The difficulty of training is to take the 90% ugly value of the maximum value of the upper axis recording, and divide it from low to high to divide the percentage to set the subject P for each round. The amount of thoracic displacement produced is β (3) Respiratory muscle strength training module 3 3 Operation mode: In a short time, through weak to strong and constant inhalation and exhalation, inhalation and money The way to normal people will be _ strenuous, let alone the respiratory function of the injured staff If the scale is longer or the interval between trainings is too short, you can ride the subject to cause damage. In this case, the respiratory muscle strength training module 3 3 will set the training specification for the subject ρ, including __ practicing _, weekly training words, each ^ repeat round number, two times before and after the Kawasaki café The threshold of the Kawasaki, as shown in Figure 8 (4), the material training 3 times (weekly training frequency), and in the single er +, there is also a view _ composite number (according to each training step Covering the number of rounds), after the second morning training, the respiratory muscle strength specification module 3 _ 201247175 whether the tester P has completed the number of single trainings required to complete a single week, or has completed all training; if not yet After the completion of the café (after two training rounds), the subject will continue to train, (4) Respiratory muscle strength training effectiveness evaluation module 3 4 operation mode: Please refer to the 9th ®, the subject P is recorded when the effectiveness of each single training (ie, the amount of chest displacement) is recorded. The respiratory muscle strength training effectiveness evaluation module 34 will transfer the data according to the data obtained by the multiple trainings. (ie, respiratory muscle strength training performance curve), will correspond to the individualized breathing parameters of the chest displacement data Constructing the module A 3 when the A secret absorbing force on the solution _ force lung capacity and the first-second force Wei volume curve (Figure 6) are compared with each other, you can clearly know, (4) long-term _ after the training 'the average p The difference between the forced vital capacity and the forced expiratory volume in the first second, and the therapeutic staff t was used to judge the effect of the subject. The above content is the practice of 倾 3 3 3 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然 然The operation of software 3, in the form of graphs and data presentation, allows the subject to know the immediate performance of the training process and I) practiced it. 'Please refer to Figure 10, Figure U and Figure 12, the touch device 2 201247175 疋Γ, the bar graph SF and the quantized data D 1 show the material D after the training software 3 operation; the chest displacement The detecting device 量 measures the amount of displacement of the subject P, and the amount represented by the tilt represents the amount of change in the vital capacity of the subject p during inhalation, and accordingly According to the reference basis for training, although the tester P performs training, the straight bar graph SF 1 in the bar graph s F is wealthy, like the traditional breathing, the three balls in the air are sequentially rising. The effect allows the subject P to quickly and clearly understand the performance of the current training. In addition, a plurality of light numbers SF 2 and a plurality of target scales s F 3 are also provided. In addition to the change of the visual effect continuously displayed by the straight line image SF, the change of the light number SF 2 can also be performed (the red light indicates that Achieve the target; the line indicates that the target has been reached) and whether the target scale is exceeded. 3, let the subject? There is a training target value pursued in each round to improve the motivation of the subject p. In addition, The display device 22 can also present a plurality of quantized data frames D2 and display the amount of each single breath/exhalation of the subject P by a numerical value; the quantized data frame 之2 has a single thoracic displacement ( The subject's chest displacement due to the current respiratory motion), the target chest displacement (the amount of chest displacement produced by each stroke of the training prescription), and the round achievement rate (by a single breath) The amount of thoracic displacement generated by the action is calculated as a percentage of the target thoracic displacement, and is recorded in the respiratory muscle strength training effectiveness evaluation module 34, and is used as the respiratory muscle strength training effectiveness evaluation module 34 as the Testee p training effectiveness evaluation 201247175 - In the case of the chest muscle strengthening system provided by the present invention, when the subject p is trained, the display device 22 can also be presented in another embodiment and refer to FIG. Figure 18; the corresponding amount of expiratory volume can be obtained by estimating the amount of thoracic displacement of the pleats, and the data D1 of the orphaned graph F can be used to present the data d after the training software 3 is operated. The amount of thoracic displacement of the subject p changes, so that the arc SF 4 _ diameter changes accordingly, and the quantified number helps 1 also - and the modified orphan pattern SF 4 is changed like a hot air balloon. In this process, in order to improve the training difficulty of the P muscle group of the subject P, the flow rate of the hot air balloon field can also be set, so that the subject P feels that if the continuous silk is not sucked/exhaled continuously, it is difficult to complete the Lai. The task of lifting the balloon additionally provides a number of lights 2 on the display device 22, which can be changed by the light signal SF 2 (the red light indicates that the target of the hot air balloon is not reached, and the green light table has not reached the hot air condition. Target), let the subject? Can quickly determine whether the training of the round has been completed. The display device 2 2 provides at least a plurality of quantized data frames D 2 read word display, and the amount of breath (the amount of breath can be calculated from the chest displacement amount on behalf of the person's muscle muscle force corresponding to the first second forced expiratory volume curve calculation) The number of deflation, elapsed time and task achievement rate in the mother knife I, in which the "expiratory volume and the amount of per minute air can be adjusted according to the p-respiratory muscle capacity (including respiratory muscle strength and endurance) of the subject. Difficulty; the time and task achievement rate is an index for evaluating the continuous suction/expiratory ability of the subject P, and recorded in the respiratory muscle strength training scale estimation difficulty 3 4, Ti Lin type sewing force scale sister evaluation model Group 3 4 serves as a reference for the evaluation of the training effectiveness of the subject. 201247175 In summary, the present invention has industrial patentability, novelty and progressive patent requirements, and it is only for the purpose of the above-mentioned (four) - better physical, and is not intended to limit the implementation of the present invention, that is, The equivalent changes made by the patents of this issue are covered by the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 to FIG. 3 are a respiratory muscle strength measurement training tool of the prior art; FIG. 4 is a system architecture diagram of the present invention; FIG. 5 is a training software architecture diagram of the present invention; The figure is the _ humanized breathing parameter corresponding to the chest displacement data database, the respiratory muscle strength corresponding to the average forced vital capacity and the first-second force ^ valley product curve, 1 Figure 7 is the respiratory muscle strength training prescription model of the present invention The training prescriptions obtained by the group are not intended; Figure 8 is the training rule of the respiratory muscle strength training module of the present invention. The breathing pattern of the model is the evaluation of the effectiveness of the muscles of the muscles. Schematic diagram of the performance curve of the muscle strength training obtained by the tilting group; Fig. 10 to Fig. 12 of the current training subject of the training subject are the aspects of the display device of the present invention; Figs. 13 to 18 are Another aspect of the display device of the present invention is shown.
12 S 201247175 【主要元件符號說明】 1.. .胸腔位移量檢知裝置 2.. .資料處理設備 2 1...主機 2 1 1...接收器 2 2...顯示裝置 3.. .訓練軟體 3 1...個人化呼吸參數對應胸腔位移量資料庫建構模組 3 2...呼吸肌肌力訓練處方模組 3 3...呼吸肌肌力訓練規範模組 3 4...呼吸肌肌力訓練成效評估模組 D...資料 D 1...量化的數據 D 2 ...量化的數據框 P...受測者 S F ...直條圖圖表 SF 1...直條圖 S F 2...燈號 SF3...目標刻度 S F 4...弧形圖式 習知圖式元件符號說明: A……三球式呼吸訓練器 A1……吹管 A2……管體 A3……球體 B……肺功能測試艙 13 201247175 B1……空間 B2……艙門 C……彈力帶12 S 201247175 [Description of main component symbols] 1.. Chest displacement detection device 2. Data processing device 2 1... Host 2 1 1 Receiver 2 2... Display device 3. Training software 3 1... Personalized breathing parameters corresponding to chest displacement volume database construction module 3 2... Respiratory muscle strength training prescription module 3 3... Respiratory muscle strength training specification module 3 4. .. Respiratory muscle strength training effectiveness evaluation module D...data D 1...quantized data D 2 ...quantized data frame P...subject SF ...straight bar chart SF 1 ...straight bar graph SF 2...semaphore SF3...target scale SF 4...arcogram pattern conventional figure component symbol description: A...three ball breathing exerciser A1...blowing tube A2 ...... tube body A3 ... sphere B ... lung function test chamber 13 201247175 B1 ... space B2 ... hatch C ... elastic band