M427124 五、新型說明: 【新型所屬之技術領域】 本創作係有關於一種用於測量血壓的生理資訊測量裝置 【先前技術】 〜臟對於人體的重要性係不言而喻,而心血管疾病亦屬於重 大死亡原因。為了早期發現治療錢追職查身體健康狀況,定 期測里冗錄血星值、脈搏值等生理訊息便顯得十分重要。日常生 活中人們可利用祕計對'舒張壓、心奮欠數以及心臟脈 動做測量,並將其記馳察峨為畴本雜絲⑽指標。 再者近年來面學界有出現新的周邊動脈疾病的評估數值, 現今常依據血塵計所測量出的躁臂指數(Ankle brachial滅X,獨 及二臂血壓差來初步_受檢人員之心'血管之功能是否正常。舉 例來說’測量踝臂指數就是利用血壓計分別量腳踩和手臂的血 壓,再經過計算財得财指數,m壓差就是·血壓計 为酬量雙手臂之血屢,再經過計算以求得二臂血壓差。 、⑼方式0""彻血壓計先後測量人體的兩個不同的受 ΓΓ,之Γ過計算才能獲得所需的奶指數或二臂血駐。 1=1=若腳•手f分別先後測量,將因測量 .〜士〜上之疾差’並且也需花費較多的測量時 間。§然,如同時以兩台血壓計 、 、“ 得手臂及_測量數據,但對使用者測量:\可獲 4〜/124 【新型内容】 鑒於以上的問題,本創作提供_種生理資訊測量裝置,藉以 解決先前技賴存在-般人不易自行_血壓計測量踝臂指钱 '—煮血壓差或容易因時間差而造成測量誤差的問題。 〜本創狀健實補_露之生理資賴餘置,其包含一 弟一測量模組、-第二測韻組、—第三缝模組、—控制模组 及—功能選擇模組。其中,第-測量模組用以操取一第_生理資 t第=測量模_以擷取-第二生理資訊。第三測量模組用以 。取-弟二生理資訊。控麵組係選擇性地連接於第一測量模 ^第—測量餘及第二模組或第__模組及第三測量模 ==制__包括有—f規模式及—篩檢模式。魏選擇模組 L連接於控職組,魏選擇模朗以輸出—第―預設命令或 〜第二預設命令至控制模組。 ,命令時,切__,並依據 ==而_輸出—第—驅動訊號至第—測量模組,令第一測 :=採弟—生理資朗授至控_組,以使得控纏組產生 弟-生理:纽評倾值;或者,當控糖_㈣二預設命令 號至第,成Γ她式’並依據所選模式而相應輸出—第二驅動訊 糾分缺第二測量模組,令第—測量模組及第二測量 、、福/曰#|_—生师訊及第二生理資訊暖至控制模組, 以侍控制模組產生—第二生理資訊評估數值。, 上述實施例所揭露之生理資訊測量裝置,係利用在生理資訊 5 M427124 測量裝置配置量獅,使生顆關錄置可同時 測量人體兩個以上的受測部位,是以可避免受測人員因測量^ 不-致而造成在兩個.時間點所測量之血壓值不同,進而使生释 訊測量裝置所測得之數值較精確。 貝 在實際應用上’使用者可直接㈣生理資訊測量裝置提供的 細試,於功能選擇模财選擇所f之測量模式,使得功能選 擇模組發出相應的預設命令,讓生理#酬量裝置於測量結束 後’可直接在顯示餘上顯示出所t之心血管_之評估數值。(例 如雙臂壓差或踝臂指數)。 以上之關於本創作内容之說明及以下之實施方式之說明係用 以不祀與轉本創作之原理,並趨縣猶之專财請範圍更 進一步之解釋。 【實施方式】 欠本創作所揭露之生理資訊測量裝置係用以測量使用者之生理 資訊並,.二過片异以產生—生理資訊評估值。在以下實施例中, 生理貝訊為’例如’ *壓值、平均動峨)實際值、或脈壓(pp) 值’而生理資訊評估值為’例如,單臂血壓值、雙臂臂壓差異㈣打M427124 V. New description: [New technical field] This creation is about a physiological information measuring device for measuring blood pressure [Prior Art] ~ The importance of dirty to the human body is self-evident, and cardiovascular disease is also It is a major cause of death. In order to find out the treatment of money in the early stage to check the health of the body, it is very important to record the physiological information such as blood star value and pulse value in the regular test. In daily life, people can use the secret to measure the number of diastolic blood pressure, heart rate and heart pulse, and record it as a domain (10) indicator. In addition, in recent years, there have been new evaluation values of peripheral arterial diseases in the face school. Nowadays, the ankle brachial index measured by the blood dust meter (Ankle brachial X, the difference between the two arms and the blood pressure of the two arms is preliminary) 'The function of the blood vessels is normal. For example, 'measuring the ankle brachial index is to use the sphygmomanometer to measure the blood pressure of the foot and the arm respectively, and then calculate the financial gain index, the pressure difference is m. The sphygmomanometer is the blood of the double arm. Repeatedly, after calculation to obtain the difference in blood pressure between the two arms. (9) Mode 0"" The sphygmomanometer measures two different subjects of the human body, and then calculates the milk index or the two-armed blood station. 1=1=If the foot and the hand f are measured separately, it will be measured due to the difference between the ~~~~ and the measurement time is also required. § However, if both sphygmomanometers are used at the same time, Arm and _ measurement data, but for user measurement: \ can get 4 ~ / 124 [new content] In view of the above problems, this creation provides _ a variety of physiological information measuring devices, in order to solve the existence of the previous technology - ordinary people are not easy _ Sphygmomanometer measuring arm '—Boiled blood pressure difference or easy to cause measurement error due to time difference. ~This creation is a practical supplement _ 露之Physical Dependency, which includes a younger one measurement module, the second measurement rhyme group, The three-slit module, the control module and the function selection module, wherein the first-measurement module is configured to fetch a first _ physiological resource t=measurement mode_to extract-second physiological information. The module is used to take the second physiological information. The control panel is selectively connected to the first measurement module - the measurement module and the second module or the __ module and the third measurement module == system _ _ includes -f scale and - screening mode. Wei selection module L is connected to the control group, Wei selects the mode to output - the first preset command or the second preset command to the control module. When, cut __, and according to == and _ output - the first drive signal to the first - measurement module, so that the first test: = pick brother - physiological resources to the control group _ group, so that the control group produces brother - Physiology: New evaluation of the value; or, when controlling the sugar _ (four) two preset command number to the first, into her style 'and corresponding output according to the selected mode - the second drive signal correction The second measurement module enables the first measurement module and the second measurement, the Fu/曰#|_-shengshi and the second physiological information to be warmed to the control module, and the second control information is generated by the control module. The physiological information measuring device disclosed in the above embodiment is configured to use the measuring device to configure the lion in the physiological information 5 M427124, so that the biometric recording can simultaneously measure two or more parts of the human body, so that it can be avoided. The measured person does not have the same blood pressure value measured at the two time points because of the measurement, so that the measured value of the bio-release measuring device is more accurate. In the practical application, the user can directly (4) The fine test provided by the physiological information measuring device selects the measurement mode of the function selection mode, so that the function selection module issues a corresponding preset command, so that the physiological #reward device can be directly displayed on the display after the measurement is completed. The evaluation value of the cardiovascular value of t is shown. (For example, the pressure difference between the two arms or the index of the ankle arm). The above description of the content of this creation and the description of the following implementations are used to explain the principle of the original creation and to further explain the scope of the county. [Embodiment] The physiological information measuring device disclosed in the present invention is used to measure the physiological information of the user, and the difference between the two is to generate a physiological information evaluation value. In the following examples, the physiological signal is 'for example, 'value, average value, actual value, or pulse pressure (pp) value' and the physiological information evaluation value is 'for example, one-arm blood pressure value, two-arm pressure Difference (four)
Arm Difference > IAD)' Brachial Index , , 但本創作並不以此為限。 ^。月參閱第1A圖」至「第2圖」所示。其中,「第1A圖」 係作之第一霄施例之生理資訊測量裝置於常規模式下的方塊 不思圖’「第1Β圖」係本創作之第一實施例之生理資訊測量裝置 •於筛檢模式下财塊示意圖,「第1C Ml」係本_之第—實施例 之切編灘置於聰賦下的方狀如,「第2圖」係為 「弟1八圖」至「第1C圖」之控制模組的方塊示意圖。 根據本創作所揭露之生理資訊測量裝置10,係包括有一功能 選擇模組1GG、-控制模組及—第—測量模組伽、一第二測 ,量模组及一第三測量模組600。功能選擇模組係、電性連接 於控制模組200,且功能選擇模組副係用以輸出三個預設命令至 鲁控制模組2〇0。控制模組係可選擇性地連接於第一測娜且 、第-測量模組_及第二測量模組或第一測量模組彻 f第三測量模組600。而控制模、组2〇〇包括有三種測量模式:常規 模式(routine)、筛檢模式(SCREEN)及踝臂指數模式。如 此’控制模組200可依據功能選擇模组1〇〇之預設命令而相應切 換測量模式。在此需特別說明的是,當使用者切換功能選擇模組 二〇為常規模式前’控制模組連接第—測量模組·。同理地, _田生理資訊測里裝置1〇被切換為篩檢模式前,控制模組2⑻同時 連接第,則里模組400及第二測量模組5〇〇。當生理資訊測量裝置 1〇被切換為踝倾式前,控制模組2_時連接第—測量模組· 及第三測量模組600。 「外以下將以在常規模式下之生理資訊測量農置10之方塊圖(如 「第1A圖」所示)進行解說。 在本貝軛例中,控制模組2〇〇包括一中央處理器21〇、—轉換 器220、一輪入輸出介面23〇、一顯示驅動器24〇、一計時器25〇 及一記憶體260。中央處理器210負責計算。轉換器,係將類比 訊號與數位訊號相互轉換。輸入輸出介面230用以連接功能選擇 模組⑽。顯示驅動器24G肋驅動—顯示模組_,顯示模組_ 可顯示相據訊息及操作晝Φ。計喃2則以設定測量時間 的間距。記 2則_存缝的生理#訊及各測量模式之計 算公式。 在本實施例中,生理資訊測量裳置10另包含-驅動器280及 -執行模組300,執行模組受驅動器勘驅動而運作。控制模 組200連接於第-測量触·,並依據所切換的常規模式而相應 輸出第-驅動訊號(未圖示)至執行模組綱,以驅動—第一測量 模組400進行擷取生理資訊。 執行模組300包含-第—轉換器扣、—第—壓力感測器 312、-第-幫浦313、及-第一_閥314。驅動器·係接收 控制模組200所傳來之第—驅動訊號,並使驅動器勘依據第一 驅動訊號而相應驅動第-幫浦313及第—龍閥314先後進行作 動,以使第-幫浦313對第-測量模組進行灌氣加壓之動作, 而第-壓閥314對第-測量模組進行茂氣減壓之動作。在 此過程中,第-壓力感測器312可測定第—測量模組中之氣 體壓力’以仟到-第-壓力值。並使第一壓力感測器將所測 得之第-壓力值傳輸至第i換器311,再經由第—轉換器3ιι依 據第一壓力值而相應轉換成一第一數位訊號(未圖示)。最後,經 由驅動器280將此第-數位訊號回傳到控制模组2〇〇進行運算而 M427124 產生生理資訊評估值。 然而在篩檢模式及踝臂指數模式中,執行模組3〇〇 ^之組成 元件的組數係為兩組以連接第一測量模組4〇〇、第二測量模組5⑻ 及第二測置模組600之任兩者,或者兩組之一者以連接第一測量 模組400、第二測量模組5〇〇及第三測量模組6〇〇之一者,但在其 他實施例中,執行模組300之元件的組數可依據測量模組的數量 而改變,若測量模組有三組,其執行模組之組航件的組數 就需搭配三組。因此,執行模組·可另包含作用於第二測量模 組500的一第二轉換器32卜―第二麗力感測器322、-第二幫浦 323、及-第二·閥汹(如「第m圖」所示)。或者,執行模組 3〇〇胃可另包含作用於第三測量模組6〇〇的一第三轉換器%卜一第 二壓力感測器332、-第三幫浦333、及一第三茂壓閥334(如「第 1C圖」所示)。 、旦請再次錢「第1Α圖」至「第1C圖」,本創作之生理資訊 測里裝置1G更包括—電源模組_。電雜組_包含—電源供 ^⑽、一穩壓器820、一充電電池㈣及-感測器84〇。 宅源供應s 81G係電性連接於穩壓器咖,以使穩壓器伽對電源 供應器⑽所輪出之電力進行穩壓工作,以防止不穩定之電壓對 2核組及執行模組_造成财。另,電源供應器8】〇與 :電池㈣電性連接’令電源供應器81〇對充電電池830實施 =:為電源。又,電誠· _肋偵測電源供應器 之雨出電壓,當偵測到輸出電壓低於一特定電壓時,致使電壓 9 M427124 感測器840可命令控制模組2〇〇重新開機。如此—來,可防止控 制模組200發生當機情況。 據本創作所揭露之生理資訊測量裝置1〇,其操作方式請參 閱第1A圖」至「第2圖」所示,並同時參閱「第3圖」之結構 不意圖。由「第3圖」所示,生理資訊測量裝置1〇具有一機體12, 機體12内。[5谷置有控制模組2〇〇、執行模組3〇〇及電源模組 _。功能選擇模組1〇〇設置在機體12外表面。在本實施例中, 功月b選擇;^組1GG可以是—多段開關’但本創作並不以此為限。 另,„、員示模、.且900同樣没置在機體12外表面,以提供使用者閱讀 相關資訊。 再者苐測里模組4〇〇具有一壓脈帶420,並且壓脈帶420 連通-氣管421 ’並於氣管421末端設置有一連接頭422。第二測 量模組500亦具有-壓脈帶52〇、一氣管521及一連接頭似。第 三測量模組_亦具有—壓脈帶跡-氣管621及-連接頭622。 此外’機體12則具有—第—連接孔14及—第二連接孔16, 以供使用者相應測量模組將第一測量模組彻、第二測量模組5〇〇 及第三測量模組㈣之連接頭422、522、622之任兩者或一者插 接於其兩孔或一孔内。 在本實施例中,第-測量模組之屋脈帶是繫附在人 體之右上手臂處’第二測量模組之壓脈帶汹是繫附在人體 之左上手臂處’其展開的形狀皆約為長方形之臂用壓脈帶(如「第 4A圖」與「第4B圖」所示)。第三測量模組咖之壓脈帶㈣是 M427124 繫附在人體之腳踝處’其展開的形肤的生β 勺為扇形之踝用壓脈帶(如「第 4C圖」所示)。 接著,再次說明本創作之生理資訊測量裝置1〇之三種測量模 式:常規模式卿麵)、躁臂指數模式陶、筛檢模式 (SCREEN)。請一併參閱「第1Α圖」至「第Κ圖」及「第5圖」 至「第7圖」。 首先如第1A圖」及第5圖」所示,常規模式適用於首 φ次或定期回診檢測的血壓測量,其係將第一測量模組4〇〇之壓脈 帶420捲繞在使用者的上臂,並且可操作機體12上的功能選擇模 組觸切換到常規模式的選項以輸出第—預設命令,以使控制模 組依據第一預設命令而相應輸出第一驅動訊號到執行模組 ’使付執行模組3GG依據第-驅動訊號而相應控制第—測量模 組400進行單臂的也壓測量,例如自動連續兩次測量,測量間距 預設值為15秒,依據控制模組之内建程式將兩次連續測量所 修得仙壓讀值進行平均計算,並將血壓測量值及生理評估數值於 顯示模組900進行檢視。 再者如苐1Β圖」及「第6圖」所示,篩檢模式適用於同 日可測I雙臂的血壓,其係將第一測量模組4〇〇之壓脈帶42〇及第 二測量模組500之壓脈帶520分別捲繞在使用者的雙臂,並將壓 脈帶420連接至第一連接孔14,壓脈帶52〇連接至第二連接孔16。 亚且可操作機體12上的功能選擇模組100切換到篩檢模式的選項 以輸出第二預設命令,以使控制模組2〇〇依據第二預設命令而相 M427124 應輸出第二驅動訊號到執行模組3〇〇,使得執行模組3〇〇依據第二 驅動訊號而相應控制第-測量模組及第二測量模組5〇〇進行 雙臂的血壓測量,例如自動連續三次測量,測量間距固定為卜分 知’據控制模組200之内建程式將三次連續測量所得的血壓讀值 進行平均計算,以此測得雙臂臂塵差異(1俞Απη歸⑽α, I’,並細麈測量值及生理資訊評估數值於顯示模組·進行 檢視。 再者,如「第1C圖」及「第7圖」所示,踩臂指數模式適用 :踩部與臂部的血壓差制量,其係將第—測量模組·之塵脈 I 420捲繞在使用者的上臂及第三測量模组_之舰帶咖捲 繞$使用者_部,並且將壓脈帶42Q連接至第—連接孔Μ,壓 脈T 620連接至第二連接孔16。並且可操作機體u上的功能選擇 拉組100切換到躁臂指數模式的選項而輸出第三預設命令,以使 控制板組依據第三預設命令而相應輸出第三驅動訊號到執行 ^組300,使得執行模组划依據第三驅動訊號而相應控制第一測 里拉組400及第三測量模组_進行上臂與踩部的血壓測量,例 、’i仔腳躁收縮愿與手臂收縮壓,依據控制模組之内建程式 將_收賴與手臂收_進行血壓比計算,並將上下肢血璧比 值於顯示模組9〇〇進行檢視。 疋以使用者可操作機體12上之功能選擇模組1〇〇,而可選 f的切換成常_式、射指數模式歧_檢模式。並由控制模 、’且200依據所選的測量模式而相應發出驅動訊號至執行模組 12 124 0〇以此馮i使用者的生理資訊評估數值(例如單臂血壓、雙臂壓 差或躁臂指數)。 此外上述貫施例中之測量模組的數量非用以限制本創作之 申請專利範圍’其亦可依使用實際需求或是測量模式,而可選擇 的k加測里模組的數量,例如增加到四組測量模組。熟此技術者 β知’機體I2貝當相應具有四個連接孔,以供使用者相應測量模 、、且將第測篁模組400、第二測量模組5〇〇、第三測量模組6〇〇及 φ 第四測量模組7㈨之連接頭插接於孔内。 5月苓閱「第8圖」所示,本創作之第二實施例之測量模組有 四組,分別為第一測量模組400、第二測量模組500、第三測量模 組600及第四測量模組7〇〇。而相應之執行模組300亦具有一第一 轉換器311、一第一壓力感測器312、一第一幫浦313、一第一洩 壓閥3】4、一第二轉換器321、一第二壓力感測器322、一第二幫 浦323、一第二洩壓閥324、一第三轉換器331、一第三壓力感測 鲁器332、一第三幫浦333、一第三洩壓閥33心一第四轉換器341、 一第四壓力感測器342、一第四幫浦343、一第四洩壓閥344。本 貫施例中所述的元件與第一實施例中所述的元件具有相同的功能 或結構,為求簡化說明,相同處不再贅述。 再者,本創作之第三實施例之生理資訊測量裝置10更可外接 一外部運算裝置24,請參閱「第9圖」所示。本實施例之外部運 异裝置24係以筆記型電腦為例,但本創作並不以此為限。機體12 更包含一傳輸埠20,傳輸埠20透過一傳輸線22可與外部運算裝 13 M427l24 置%電性連接。本創作主要藉由外部運算裝置^執行已安㈣ 應用程式,並由傳輸埠20透過傳輪線22連接生理資、 K)與外部運算裂置24,接著,可藉 ' 1=^ 外科魏置24輪崎_需測量模式 麵娜之生理裝置,可根據使用者 ^ 測賴,並顯示出所測得的評估數值(如雙臂 反差、早臂或踝臂指數)。 雖然本創作之實施例揭露如上所述,然並非用以限定本創 藝者,在錢_叙精神_内,舉 之变更,因此本創作之翻保護 利範圍所界定者鱗。關舰本-書_之申請專 【圖式簡單說明】 弟1A圖」係本創作之第1施例之生理資訊測量農置於常 規杈式下的方塊示意圖。 「第1B圖」係本創作之第—奋 檢模式下的方赫意圖。心狀生理賴難裝置於筛 苐1C圖」係本創作之堂 ^ 臂模式下的方塊示意圖。貧施例之生理資訊測量裝置於踩 「第2圖」係為「第μ国 卜 ^ _ 圖」至第】C圖」之控制模組的方 视不意圖。 14 M427124 「第3圖」係根據本創作之生理資訊測量裝置的結構示意圖。 「第4A圖」係根據本創作之第一實施例之第一測量模組之壓 脈帶示意圖。 「第4B圖」係根據本創作之第一實施例之第二測量模組之壓 脈帶示意圖。 「第4C圖」係根據本創作之第一實施例之第三測量模組之壓 脈帶示意圖。 「第5圖」係根據本創作之第一實施例之生理資訊測量裝置 的常規模式的操作示意圖。 「第6圖」係根據本創作之第一實施例之生理資訊測量裝置 的篩檢指數模式的操作示意圖。 「第7圖」係根據本創作之第一實施例之生理資訊測量裝置 的踝臂模式的操作示意圖。 「第8圖」係根據本創作之第二實施例之生理資訊測量裝置 的方塊示意圖。 「第9圖」係根據本創作之第三實施例之生理資訊測量裝置 的連接外部運算裝置的操作示意圖。 【主要元件符號說明】 10 生理資訊測量裝置 12 機體 14 第一連接孔 16 第二連接孔 15 M427124 20 傳輸埠 22 傳輸線 24 外部運算裝置 100 功能選擇模組 200 控制模組 210 中央處理器 220 轉換器 230 輸入輸出介面 240 顯示驅動器 250 計時器 260 記憶體 280 驅動器 300 執行模組 311 第一轉換器 312 第一壓力感測器 313 第一幫浦 314 第一洩壓閥 321 第二轉換器 322 第二壓力感測器 323 f二幫浦 324 第二洩壓閥 331 第三轉換器 16 M427124 332 第三壓力感測器 333 第三幫浦 334 第三洩壓閥 341 第四轉換器 342 第四壓力感測器 343 第四幫浦 344 第四洩壓閥 400 第一測量模組 420 壓脈帶 421 氣管 422 連接頭 500 第二測量模組 520 壓脈帶 521 氣管 522 連接頭 600 第三測量模組 620 壓脈帶 621 氣管 622 連接頭 700 第四測量模組 800 電源彳吴組 810 電源供應器 17 M427124 820 穩壓器 830 充電電池 840 電廢感測器 900 顯示模組 18Arm Difference > IAD)' Brachial Index , , but this creation is not limited to this. ^. Please refer to Figure 1A to Figure 2 for the month. Among them, "Phase 1A" is the physiological information measuring device of the first embodiment of the present embodiment. The first embodiment of the physiological information measuring device of the first embodiment of the present invention is In the screening mode, the "1C Ml" is the first part of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Block diagram of the control module of Figure 1C. The physiological information measuring device 10 according to the present invention includes a function selection module 1GG, a control module, and a first measurement module, a second measurement module, and a third measurement module 600. . The function selection module is electrically connected to the control module 200, and the function selection module is used to output three preset commands to the control module 2〇0. The control module is selectively connectable to the first sensor, the first-measurement module_and the second measurement module or the first measurement module to the third measurement module 600. The control mode, group 2〇〇 includes three measurement modes: normal mode (routine), screening mode (SCREEN) and ankle arm index mode. Thus, the control module 200 can switch the measurement mode accordingly according to the preset command of the function selection module 1〇〇. It should be specially noted here that when the user switches the function selection module to the normal mode, the control module is connected to the first measurement module. Similarly, before the _ Tian physiological information measuring device 1 is switched to the screening mode, the control module 2 (8) simultaneously connects the second module 400 and the second measuring module 5 〇〇. When the physiological information measuring device 1 is switched to the tilting mode, the control module 2_ is connected to the first measuring module and the third measuring module 600. "The following is a block diagram of the measurement of the farmer's 10 in the normal mode (as shown in "Figure 1A"). In the present embodiment, the control module 2 includes a central processing unit 21, a converter 220, a wheel input/output interface 23A, a display driver 24A, a timer 25A, and a memory 260. The central processor 210 is responsible for the calculations. The converter converts the analog signal and the digital signal to each other. The input/output interface 230 is used to connect the function selection module (10). Display driver 24G rib drive - display module _, display module _ can display the corresponding message and operation 昼 Φ. Count 2 to set the spacing of the measurement time. Record 2 _ stagnation physiology # and the calculation formula of each measurement mode. In the present embodiment, the physiological information measuring device 10 further includes a driver 280 and an execution module 300, and the execution module is operated by the driver. The control module 200 is connected to the first measurement touch, and correspondingly outputs a first drive signal (not shown) to the execution module according to the switched normal mode to drive the first measurement module 400 to perform physiological extraction. News. The execution module 300 includes a -th converter buckle, a first pressure sensor 312, a -th pump 313, and a first_valve 314. The driver receives the first driving signal from the control module 200, and causes the driver to drive the first pump 313 and the first dragon valve 314 according to the first driving signal to operate the first pump. 313 performs an action of inflating and pressurizing the first-measurement module, and the first-pressure valve 314 performs a decompression action on the first-measurement module. During this process, the first-pressure sensor 312 can determine the gas pressure in the first-measurement module to reach the -th-pressure value. And causing the first pressure sensor to transmit the measured first pressure value to the ith converter 311, and then converting the first pressure signal to a first digital signal according to the first pressure value via the first converter 3 (not shown) . Finally, the digital signal is transmitted back to the control module 2 via the driver 280 to perform an operation, and the M427124 generates a physiological information evaluation value. However, in the screening mode and the arm index mode, the number of components of the execution module 3〇〇 is two groups to connect the first measurement module 4〇〇, the second measurement module 5(8), and the second measurement. Any one of the modules 600, or one of the two groups, is connected to one of the first measurement module 400, the second measurement module 5〇〇, and the third measurement module 6〇〇, but in other embodiments The number of components of the module 300 can be changed according to the number of measurement modules. If the measurement module has three groups, the number of groups of the execution modules of the module must be matched with three groups. Therefore, the execution module may further include a second converter 32, a second power sensor 322, a second pump 323, and a second valve 作用 acting on the second measurement module 500 ( As shown in the "mth figure"). Alternatively, the execution module 3 may further include a third converter, a second pressure sensor 332, a third pump 333, and a third, acting on the third measurement module 6A. Pressure valve 334 (as shown in Figure 1C). Once again, please re-take the money from "1st map" to "1C map". The physiological information measuring device 1G of this creation includes - power module_. The electric hybrid _ contains - power supply ^ (10), a voltage regulator 820, a rechargeable battery (four) and - sensor 84 〇. The home supply s 81G is electrically connected to the regulator, so that the voltage regulator can regulate the power of the power supply (10) to prevent unstable voltage on the 2 core group and the execution module. _Investing in wealth. In addition, the power supply 8 and the battery (four) are electrically connected to the power supply 81 to implement the charging battery 830 =: for the power supply. Moreover, the electric power _ rib detects the rain output voltage of the power supply, and when the detected output voltage is lower than a specific voltage, the voltage 9 M427124 sensor 840 can command the control module 2 to restart. In this way, the control module 200 can be prevented from being down. According to the physiological information measuring device disclosed in the present application, the operation mode is shown in Fig. 1A to Fig. 2, and the structure of "Fig. 3" is also not intended. As shown in "Fig. 3", the physiological information measuring device 1 has a body 12 and a body 12. [5 Valley has a control module 2〇〇, an execution module 3〇〇 and a power module _. The function selection module 1 is disposed on the outer surface of the body 12. In this embodiment, the power month b is selected; the group 1GG can be a multi-segment switch', but the creation is not limited thereto. In addition, „, the staff member, and 900 are also not placed on the outer surface of the body 12 to provide the user to read related information. In addition, the module 4 has a venous belt 420, and the venous belt 420 The connection-air pipe 421 ′ is disposed at the end of the air pipe 421 with a connector 422. The second measurement module 500 also has a pressure pulse band 52 〇, a gas pipe 521 and a connector. The third measurement module _ also has a pressure pulse. The trace-air pipe 621 and the connector 622. The body 12 has a first connection hole 14 and a second connection hole 16 for the user to measure the first measurement module and the second measurement module. The two or one of the connectors 422, 522, and 622 of the module 5 and the third measuring module (4) are inserted into the two holes or a hole. In this embodiment, the first measuring module The eaves are attached to the right upper arm of the human body. 'The second measurement module's cuff is attached to the left upper arm of the human body'. The shape of the eaves is about a rectangular arm with a cuff (eg " Figure 4A and Figure 4B). The third measuring module is a cuff (4) which is attached to the ankle of the human body. The raw β-spoon of the unfolded skin is a fan-shaped cuff (shown in Figure 4C). Next, the three measurement modes of the physiological information measuring device of the present invention will be described again: the conventional mode, the ankle arm index mode, and the screening mode (SCREEN). Please refer to "Figure 1" to "Map" and "Figure 5" to "Figure 7". First, as shown in FIG. 1A and FIG. 5, the normal mode is applied to the blood pressure measurement of the first φ or periodic return test, which is performed by winding the cuff 420 of the first measurement module 4 The upper arm, and the function selection module on the operable body 12 touches the option of switching to the normal mode to output a first preset command, so that the control module outputs the first driving signal to the execution mode according to the first preset command. The group 'the execution module 3GG controls the first measurement module 400 to perform the single-arm pressure measurement according to the first-drive signal, for example, two consecutive automatic measurement, and the measurement interval preset value is 15 seconds, according to the control module. The built-in program averages the measured values of the two consecutive measurements, and displays the blood pressure measurement values and the physiological evaluation values on the display module 900. In addition, as shown in Figure 1 and Figure 6, the screening mode is applicable to the blood pressure of the arms of the I-day, which is the same as that of the first measurement module. The cuffs 520 of the measurement module 500 are respectively wound around the user's arms, and the cuffs 420 are connected to the first connection holes 14, and the cuffs 52 are connected to the second connection holes 16. The function selection module 100 on the operative body 12 switches to the screening mode option to output a second preset command, so that the control module 2 相 according to the second preset command, the phase M427124 should output the second driver. The signal is sent to the execution module 3, so that the execution module 3 控制 controls the first measurement module and the second measurement module 5 according to the second drive signal to perform blood pressure measurement of the two arms, for example, automatic three consecutive measurements. According to the built-in program of the control module 200, the blood pressure readings obtained by three consecutive measurements are averaged, and the difference of the arms of the arms is measured (1 Yu Απη(10)α, I', And the measurement values and physiological information evaluation values are displayed on the display module. Further, as shown in "1C" and "7", the stepping arm index mode is applicable: the blood pressure difference between the tread and the arm The production method is to wind the first measurement module and the dust pulse I 420 around the user's upper arm and the third measurement module, and to connect the cuff tape 42Q. To the first connection hole, the pressure pulse T 620 is connected to the second connection hole 16 And operating the function on the body u to select the option of the pull group 100 to switch to the arm index mode and output a third preset command, so that the control panel group correspondingly outputs the third driving signal according to the third preset command to execute ^ The group 300 is configured to control the blood pressure measurement of the upper arm and the tread portion according to the third driving signal according to the third driving signal, for example, 'i's ankle contraction and arm contraction According to the built-in program of the control module, the blood pressure ratio is calculated based on the _receiving and the arm receiving _, and the upper and lower limb blood stasis ratio is displayed on the display module 9 。. The user can operate the body 12 The function selection module 1〇〇, and the optional f switch to the normal _ type, the shot index mode _ 检 detection mode, and the control mode, 'and 200 according to the selected measurement mode corresponding to the drive signal to the execution module 12 124 0〇Evaluate the value of the user's physiological information (such as one-arm blood pressure, double-arm pressure difference or ankle arm index). In addition, the number of measurement modules in the above examples is not used to limit the creation. Patent application scope According to the actual demand or measurement mode, the number of optional k-plus-measurement modules can be increased, for example, to four sets of measurement modules. Those skilled in the art know that the body I2 has four connection holes to For the user to measure the mode, and connect the connector of the first measuring module 400, the second measuring module 5〇〇, the third measuring module 6〇〇 and the φ fourth measuring module 7 (9) into the hole As shown in Figure 8, the measurement module of the second embodiment of the present invention has four groups, namely, a first measurement module 400, a second measurement module 500, and a third measurement module 600. And the fourth measuring module 7〇〇, and the corresponding execution module 300 also has a first converter 311, a first pressure sensor 312, a first pump 313, and a first pressure relief valve 3] 4. A second converter 321 , a second pressure sensor 322 , a second pump 323 , a second pressure relief valve 324 , a third converter 331 , a third pressure sensing device 332 , a third pump 333, a third pressure relief valve 33, a fourth to fourth converter 341, a fourth pressure sensor 342, a fourth pump 343, a fourth pressure relief valve 344. The elements described in the present embodiment have the same functions or structures as those described in the first embodiment, and the description thereof will be omitted for the sake of simplicity. Furthermore, the physiological information measuring device 10 of the third embodiment of the present invention can be externally connected to an external computing device 24, as shown in Fig. 9. The external memory device 24 of this embodiment is exemplified by a notebook computer, but the present invention is not limited thereto. The body 12 further includes a transmission port 20, and the transmission port 20 can be electrically connected to the external computing device through a transmission line 22. This creation mainly uses the external computing device ^ to execute the already installed (four) application, and the transmission 埠20 connects the physiological resources through the transfer line 22, K) and the external computing cleavage 24, and then can be borrowed by '1=^ 24 rounds of shoal _ need to measure the mode of the face of the physiological device, can be measured according to the user ^ and display the measured evaluation value (such as double-armed contrast, early arm or ankle arm index). Although the embodiment of the present invention is disclosed as described above, it is not intended to limit the present artist, and in the context of the money, it is a change in the scope of the creation. Guan Ship Ben-Book _ Application Special [Simple Diagram] The 1A map is the block diagram of the physiological information of the first example of this creation. "Picture 1B" is the intention of Fang He in the first mode of the creation. Cardiac physiology is difficult to install in the sieve 苐 1C map" is the creation of the box ^ arm diagram in the arm mode. The physiological information measuring device of the poor example is not intended to step on the control module of "the second picture" to the "muth country ^ ^ _ figure" to the first picture C picture. 14 M427124 "Fig. 3" is a schematic diagram showing the structure of a physiological information measuring device according to the present invention. Fig. 4A is a schematic view of a cuff of the first measuring module according to the first embodiment of the present invention. Fig. 4B is a schematic view of a cuff of a second measuring module according to the first embodiment of the present invention. Fig. 4C is a schematic view of a cuff of a third measuring module according to the first embodiment of the present invention. Fig. 5 is a schematic view showing the operation of the conventional mode of the physiological information measuring apparatus according to the first embodiment of the present invention. Fig. 6 is a schematic view showing the operation of the screening index mode of the physiological information measuring apparatus according to the first embodiment of the present invention. Fig. 7 is a schematic view showing the operation of the armrest mode of the physiological information measuring apparatus according to the first embodiment of the present invention. Fig. 8 is a block diagram showing a physiological information measuring apparatus according to a second embodiment of the present invention. Fig. 9 is a view showing the operation of the external arithmetic unit connected to the physiological information measuring apparatus according to the third embodiment of the present invention. [Main component symbol description] 10 Physiological information measuring device 12 Body 14 First connection hole 16 Second connection hole 15 M427124 20 Transmission 22 Transmission line 24 External computing device 100 Function selection module 200 Control module 210 Central processing unit 220 Converter 230 Input/Output Interface 240 Display Driver 250 Timer 260 Memory 280 Driver 300 Execution Module 311 First Converter 312 First Pressure Sensor 313 First Pump 314 First Pressure Relief Valve 321 Second Converter 322 Second Pressure sensor 323 f two pumps 324 second pressure relief valve 331 third converter 16 M427124 332 third pressure sensor 333 third pump 334 third pressure relief valve 341 fourth converter 342 fourth pressure sense 343 fourth pump 344 fourth pressure relief valve 400 first measurement module 420 pressure pulse belt 421 air tube 422 connector 500 second measurement module 520 pressure pulse belt 521 air tube 522 connector 600 third measurement module 620 Pressure Vessels 621 Trachea 622 Connector 700 Fourth Measurement Module 800 Power Supply Group 810 Power Supply 17 M427124 820 Voltage Regulation 830 rechargeable battery 840 electric waste sensor 900 display module 18