200809679 九、發明說明: 【發明所屬之技術領域】 本發明係關於活體値測定裝置、活體値測定裝置之控 制方法、及記錄有活體値測定程式之電腦可讀取的記錄媒 體,特別是關於具有測定模式及測定値閱覽模式等之多種 模式之活體値測定裝置、活體値測定裝置之控制方法、及 記錄有活體値測定程式之電腦可讀取的記錄媒體。 【先前技術】 脈波測定裝置、和血壓計等之活體値測定裝置係有登 錄被測定者之年齢和性別等之個人資訊,而藉序號(serial number)等管理這些資訊的情形。這些個人資訊,在使用被 測定之脈波或血壓計等活體値進行診斷之際,或處理活體 値之際,有被用做爲參數之情形。 活體値測定裝置係在測定時輸入這些個人資訊而與測 定値產生關聯後予以記存。另外,若是個人資訊已經登錄 在活體値測定裝置之情形,則在測定時或閱讀測定値時等 ,輸入用於特定前述個人資訊之序號。 個人資訊之輸入,有如同日本專利公開公報特開2005-3 8 265號(以下稱專利文獻1)所揭示之利用患者持有之身份 卡(ID card),在測定前輸入被測定者之資訊的方法。 專利文獻1 :日本專利公開公報特開2 0 0 5 _ 3 8 2 6 5號 【發明內容】 (發明欲解決之課題) 至於這樣的活體値測定裝置之一種使用方式,有除了 200809679 在測定値閱讀模式時閱讀被測定者之測定値外,另能舉出 在測定模式時測定此被測定者的活體値那樣之方式。亦即 ,對於相同之被測定者,有在不同之第1模式及第2模式 上連續使用之情形。這種情形,須在第1模式執行輸入完 個人資訊或用以特定個人資訊之序號後,切換爲第2模式 ,再度輸入相同之資料,因此有操作煩雜的問題。這樣煩 雜之操作會妨礙快速之測定,例如團體健診或大學附屬醫 院的診察等,在被測定者多的情形,會造成該診察拖延的 ® 問題。另外,煩雜之操作容易導致錯誤輸入。 又,在專利文獻1揭示之那樣的方法中,具有所謂必 需準備讀取卡片等之記錄媒體的讀出裝置,或在活體値測 定裝置搭載讀取記錄媒體之讀出功能那樣的問題。另外, 也有因被測定者掉了卡片致無法輸入資料的問題。 本發明係鑑於這樣的問題而創作出者,其目的係提供 一種能提昇切換多數模式而使用之情形的操作性之活體値 測定裝置、活體値測定裝置之方法、及記錄有活體値測定 ® 程式之電腦可讀取的記錄媒體。 (用以解決課題之手段) 爲了達成上述目的,依本發明之某形態,活體値測定 裝置具備有受理來自操作者之操作輸入的操作部;測定被 測定者之活體値的測定部;記存屬於與被測定者有關之資 訊的個人資訊的第1記憶部;使測定部測定之値與個人資 訊產生關聯並記存的第2記憶部;產生用於顯示測定値之 信號之產生部;記憶有關已啓動之模式的資訊之模式記憶 .200809679 部;及控制測定部及產生部之控制部,操作部係受理選擇 要啓動之模式的操作,控制部係執行,在操作部選擇第2 模式之際判斷在模式記憶部內是否有記存有關第1模式之 資訊的判斷處理;在判斷處理的結果是判斷有記存有關第 1模式之資訊時,則執行自模式記憶部讀出要特定在第1 模式上設定之個人資訊的ID之讀出處理;及將讀出之ID 做爲要特定在第2模式上要被設定之個人資訊之ID,並貯 存於模式記憶部之貯存處理。 依本發明之其他形態,活體値測定裝置包含記憶有關 已啓動之模式的資訊之模式記憶部,活體値測定裝置之控 制方法具備處理選擇要啓動之模式的信號的輸入之步驟; 在選擇第2模式作爲要啓動之模式之際,於電腦存取(access) 記存有關已啓動之模式的資訊之模式記憶部,以判斷在模 式記憶部內是否有記存有關第1模式之資訊之判斷步驟; 在判斷步驟上,若判斷有記存有關第1模式之資訊時則自 模式記憶部讀出用於特定屬於在第1模式上有關被設定之 被測定者的資訊之個人資訊的ID之步驟;及將讀出之ID 做爲用於特定要在第2模式上被設定之個人資訊之ID,並 記存於模式記憶部之步驟。 依本發明之再其它之形態,記錄活體値測定程式之電 腦可讀取之記錄媒體係爲記錄有使電腦執行活體値之處理 的程式’該樣式係執行:受理選擇要啓動之模式的信號之 輸入的步驟;在選擇第2模式作爲啓動模式之際,於電腦 存取記存有關已啓動之模式的資訊之模式記憶部,以判斷 200809679 在模式記憶部內是否有記存有關第1模式之資訊之判斷步 驟;在判斷步驟上,若判斷有記存有關第1模式之資訊時 ,則自模式記憶部讀出要特定屬於在第1模式上被設定之 有關被測定者之資訊的個人資訊之ID的步驟;及將讀出之 ID作爲要特定在第2模式上要被設定之個人資訊的ID,並 記存於模式記憶部之步驟。 (發明效果) 依本發明,切換多種模式使用之活體値測定裝置的情 形,在前一個模式上輸入之資料至少有一部分被持續引用 ,進而能簡化在下一個模式上之資料輸入。藉此,能提高 活體値測定裝置之操作性,防止錯誤輸入。 【實施方式】 (發明最佳實施形態) 以下將參照圖面說明本發明之實施形態。以下之說明 ,相同之部品及構成要素係附以相同之符號。它們的名稱 及功能也是相同。 本實施形態中,係使用脈波偵測裝置作爲本發明有關 之活體値測定裝置之一例而進行說明,但本發明有關之活 體値測定裝置並不限定爲脈波偵測裝置,也可以是血壓計 或、體組成計、或視力、聽力、握力、背肌力、肺活量等 之身體功能力之測定裝置、或計步器等之運動量測定計、 或組合前述中兩種以上之功能的裝置等,測定其它活體値 之任何裝置。 參照第2圖及第3圖,脈波偵測裝置具備:用於偵測 200809679 手腕之動脈的脈波而穿戴在手腕表面之偵測器單元1 ;爲 了脈波偵測而用於固定手腕之固定台2 ;及爲了執行包含 用於脈波偵測的運算之各種處理的PC(Pers〇nal Compute” 單元3 (未圖示)。第2圖示出偵測器單元1係被收容於匣體 內,第3圖示出偵測單元係經滑槽9 (參照第2圖)自匣體內 部滑動到外部而位在手腕上之狀態。 固定台2內置有固定台單元7,固定台單元7與PC單 元3係經USB (Universal Serial Bus:通用串列匯流排)電纜 4連接而能相互通訊。另外,固定台單元7與偵測器單元1 係經通訊電纜5和空氣管6而連接。 在進行脈波偵測時,係如第3圖所示那樣,使用者在 手腕放置在固定台2之既定位置的狀態下,藉由滑移偵測 器單元1,使其定位在動脈側之表面,然後藉束帶8將偵 測器單元1之匣體和固定台2束緊,使手腕上之偵測器單 元1固定不動。 參照第1圖,偵測器單元1具有由多數個LED倂列組 成,具有:當穿戴在手腕時其發光狀態能從外部視認之LED 部1 〇 ;壓力偵測器於單一方向上配列於由單結晶矽作成之 半導體晶片之擠壓面而成之壓力偵測器陣列1 1,前述壓力 偵測器係由用於偵測脈壓之多數個膜片(diaphram)和電阻 電橋電路所形成;選擇性地導出壓力偵測器陣列1 1中之各 個壓力偵測器輸出之電壓信號之多工器(multiplexer)12;及 含有用於將壓力偵測器1 1擠壓在手腕之被加壓調整的空 氣器之擠壓腕帶13。 200809679 LED部1 0係如後述那樣,藉點亮用於導引偵測器單元 1之滑動方向的資訊(動脈之位置或腱等之固體物的位置) ,以報知使用者而設置者。因此,做爲用於報知這些資訊 之媒體,可不限定爲LED、也可以是LCD(Liquid Crystal Display :液晶顯示器)。 另外,其它之偵測器單元1之構成可採用眾知之構成 ,本實施形態有關之脈波偵測裝置並不限定於特定之構成 〇 固定台單元7設有用於加壓擠壓腕帶(空氣袋)1 3之內 壓(以下稱爲腕帶壓)之加壓泵14及用於減壓之負壓泵15 ;用於將加壓泵1 4及負壓泵1 5之任一選擇性地切換連接 至空氣管6之切換閥1 6 ;用於控制這些構件之控制電路1 7 ;接有1188電纜4之通訊電路18;及將自偵測器單元1導 出之輸出信號轉換爲數位資料用之A/D(Analog/Digital:類 比/數位)轉換器19。 PC單元3具有:執行包含用於集中地控制脈波偵測裝 置之運算的各種處理之CPU (Central Processing Unit)20 ;記 存用於控制脈波偵測裝置之資料及程式的ROM(Read Only Memory)21 及 RAM(Random Access Memory)22 ;設置成能 從外部被操作,用於輸入各種資訊之操作部23 ;用於將脈 波偵測結果等之各種資訊輸出到外部,由L C D作成之顯示 器24 ;用於經由有線或無線網路,將脈波偵測結果等之各 種資訊輸出到外部裝置之通訊部2 5 ;及將U S B電纜4連接 於 CPU20 之 I/F(Interface:介面)26。有關藉 CPU20 適宜 200809679 參照上述資料,讀出執行程式而進行之脈波偵測處理,可 採用眾知的處理,本實施形態有關之脈波偵測裝置並不限 定於特定之處理。 再者,在此,固定台2之固定台單元7和P C單元3 係個別設置,但也可作成爲將兩個功能內建於固定台2內 之構成。又,固定台單元7也可含有CPU,固定台單元7 之CPU係執行包含集中地控制脈波偵測裝置用之運算的各 種處理,而PC單元3之CPU2 0係執行將前述處理結果顯 示於顯示器24之處理,和將操作部23之操作傳送到固定 台單元7之CPU的處理等。 另外,作爲通訊部25進行通訊之上述外部裝置,係相 當於例如記憶電子病歷等之醫療資訊之伺服器(server)等 之記憶裝置。 本實施形態有關之脈波偵測裝置係藉CPU20讀出並執 行程式,依操作部23之操作,執行各種模式之處理。這裡 ,所謂的「模式」係指針對1個被測定者執行(或在執行中) 記憶體叫出之一系列的處理,和測定之一系列處理之狀態 〇 參照第4圖,本實施形態有關之脈波偵測裝置之模式 包含測定模式、記憶體叫出模式、個人資訊管理模式、及 通訊模式。也能在進行某模式之處理之際,收到操作部23 之操作,而開始對應此操作之其它任何模式之處理。在某 模式之處理後,依操作部2 3之操作,緊接著開始其它模式 之處理之情事係稱爲「模式之切換」。另外,即便是記憶 -1 1 - 200809679 體叫出等同種類之一系列處理,在連續對不同被測定者進 行上述一系列的處理時,則視爲係爲不同模式。亦即,對 被測定者A進行之測定之測定模式,和對被測定者b進行 之測定之測定模式,即使係連續進行,也視爲係爲不同模 式,被測定者A之測定和被測定者B之測定連續進行之情 形,係構成爲「模式之切換」。 測定模式係指執行測定被測定者之活體値的一系列處 理之狀態。本實施形態有關之脈波偵測裝置,測定模式包 胃 含係爲反映藉偵測脈波,形成脈波之反射強度之特徵量的 AI測定、血壓測定、及體組成測定。在進行某活體値之測 定當中,藉由受理操作部23之操作時,也能開始其它任何 活體値之測定。於測定模式上,在某活體値之測定後,依 操作部23之操作,緊接著開始其它活體値之測定的情事係 稱爲「測定之切換」。 , 記憶體叫出模式係指執行自記憶體叫出被測定者之測 定結果並處理之一系列處理的狀態。記憶體叫出模式係藉 ^ 叫出被測定者之測定結果等並執行處理而將所記存之全部 資料列表顯示之畫面、個人別之資料列表顯示之畫面、其 中表示有關特定之被測定者之測定値變化趨勢之趨勢圖 (Trend graphy)之畫面、更甚者,將表示其之詳細之畫面, 顯示在顯示器24上。這些畫面能藉操作部2 3之操作,依 上述之順序作顯示。在記憶體叫出模式上,依操作部23之 操作,連續依上述的順序變化畫面之情事係稱爲「顯示之 切換」。 -12- 200809679 通訊模式係指用於執行將被測定者之測定結果等之資 料傳送到被指定之外部裝置,或從外部裝置接收資料之一 系列的處理之狀態。個人資訊管理模式係指用於執行記存 於既定之記憶領域內之後述之個人資訊的修正和變更等的 管理之一系列的處理之狀態。 於測定模式上,在測定被測定者之活體値之際,或於 記憶體叫出模式上,顯示測定値或趨勢圖之際,用於特定 被測定者之資訊或有關運算用之被測定者之資訊係爲必要 ® 。這些資訊係稱爲「個人資訊」。 於測定模式上,若是測定脈波之情形,至少被測定者 之年齡、及性別是必要。另外,若是測定體組成之情形, 至少被測定者之年齡、身高、及性別係必要。若是這些資 訊事先沒被記存之情形,則在測定之際,或藉個人資訊管 理模式予以輸入。若是事先有記存個人資訊之情形,則在 測定之際,叫出至少含有上述資訊之個人資訊。 輸入之個人資訊及藉測定可得出之資料係記存於RAM22‘ 6 等之既定記憶領域內。或者,若是通訊部2 5與記存電子病 歷等之醫療資訊之伺服器等之外部裝置進行通訊之情形, 個人資訊和測定値也可記存在上述外部裝置。參照第5A圖 ,作爲個人資訊之一例,除了包含被測定者之姓名、出生 年月日、性別之外,另含有做爲用於特定個人資訊之資訊 而一意地被分配之ID。其它之資訊,在個人資訊方面可包 . 括被測定者之病史、家族構成、及職業等。參照第5B圖, 作爲測定値之一例,除了包含血壓値、脈博、AI値等外, -13- 200809679 另包含有特定對應個人資訊之ID。藉上述之ID以特定記 存個人資訊之記憶領域及/或記存測定値之記憶領域。即便 是個人資訊和測定値被記存在外部裝置之情形,也能藉上 述ID來特定上述外部裝置上之記憶領域。另外,測定値與 個人資訊間之關聯,除了使用本具體例那樣之ID外,也可 以是任何其它之方法。 在記憶體叫出模式上,若是使全部資料列表顯示且欲 顯示與特定之被測定者有關之個別資料的列表顯示畫面時 ^ ’則至少藉輸入要特定閱覽對象之被測定者的個人資訊之 ID,而叫出被賦予對應關係之測定値,並顯示。 第6圖係表示本實施形態有關之脈波偵測裝置,用於 執行有關在模式間之個人資訊的沿用之處理的功能構成的 具體例之方塊圖。第6圖所示之功能係CPU20讀出程式並 執行,主要係形成在CPU20內,但是也可至少一部分係藉 第1圖所示之硬體形成。 參照第6圖,本實施形態有關之脈波偵測裝置係含有 ® 模式選擇部1 0 1 '模式切換部1 03、模式記憶部1 〇5、判斷 部1 07、個人資訊讀出部1 〇9、個人資訊提示部1 1 1、個人 資訊輸入部1 1 3、及個人資訊決定部1 1 5所構成。 模式選擇部1 0 1接收來自操作部23之操作信號,選擇 要啓動之模式,將其結果產.生要傳送至模式切換部103之 信號,並輸入模式切換部103。模式切換部103依上述信 號,產生並輸出用於啓動被選擇之模式的控制信號。另外 ’將要被啓動之模式的資訊記存於模式記憶部1 05。 -14- 200809679 模式記憶部1 ο 5記存目前啓動中之模式、和用於特定 藉此模式而被輸入或已被特定之個人資訊之ID。再者,記 存於模式記憶部105之資訊並不限定於有關目前啓動中之 模式的資訊,也可以是有關啓動後或結束後直到經過既定 時間爲止之那個模式的資訊。另外,依下述之處理,也可 在既啓動下一個第2模式時用有關第2模式之資訊、覆蓋 掉有關先前已啓動之第1模式的資訊那樣地記存資訊,也 可與有關第2模式之資訊一起記存經過既定時間後之有關 第1模式之資訊。 判斷部1 07係監視被記存於模式記憶部1 05之資訊, 在輸入藉模式切換部1 03啓動之模式之際,判斷有關已啓 動之模式的資訊是否有被記存,亦即,判斷有否啓動新的 模式,是否從目前啓動中之第1模式切換爲第2模式,然 後根據此判斷產生控制信號,並對個人資訊讀出部1 09或 者個人資訊輸入部113輸入。再者,這裡的判斷並不限定 於判斷從目前啓動中之第1模式切換爲第2模式之情事, 也可以是判斷第2模式之啓動是否在第1模式之啓動,或 者在結束第1模式後之既定時間內進行。 個人資訊讀出部109係依來自判斷部107之控制信號 ,從模式記憶部1 05讀出要特定在先前啓動之上述第1模 式上被設定之個人資訊的ID,將彼此ID特定之個人資訊 自上述既定之記憶領域讀入並輸出到個人資訊提示部1 1 1 。個人資訊提示部111產生並輸出用於使提示修正個人資 訊用之手段(例如「修正」鈕等)的畫面顯示於顯示器24之 200809679 信號,前述個人資訊係被前述讀出之ID所特定者。或者, 產生並輸出用於使提示個人資訊之提示畫面顯示於顯示器 24之信號,前述個人資訊係被前述讀出之ID所特定者。 另外,個人資訊輸入部113係產生並輸出用於使接收個人 資訊之輸入之輸入畫面,或者接收個人資訊之修正之修正 畫面顯示於顯示器24之信號。然後,個人資訊輸入部113 接收來自依上述畫面之操作部23的操作信號,以輸入個人 資訊。 個人資訊決定部1 1 5係接收來自操作部23之操作信號 ,以決定被提示之個人資訊或被輸入之個人資訊。然後, 將決定之個人資訊記存於模式記憶部1 05。 第7圖之流程圖所示之有關模式間的個人資訊之沿用 的處理係藉CPU20讀出程式並控制第6圖之各部而執行。 參照第7圖,開始時,模式選擇部101接收來自操作 部23之操作信號,受理模式之選擇(步驟3101)。在步驟 S 1 0 1,一旦判斷判斷部1 07被選擇之模式係爲自目前啓動 中之第1模式切換爲新的第2模式時(在步驟S103上爲是) ,個人資訊讀出部109即從模式記憶部105讀出用於特定 在第1模式上被輸入之個人資訊之ID,並從既定之記憶領 域讀入對應之個人資訊(步驟S105)。個人資訊提示部111 係產生用於將提示在步驟S105被讀入之個人資訊的提示 圖面顯示於顯示器24之信號(步驟S10 7)。上述提示圖面中 ,能受理被提示之個人資訊的變更。另外,在上述步驟S 1 07 ,個人資訊提示部111也可接收有關來自操作部23之特定 200809679 的操作(例如未圖示之選單鈕之操作等)之操作信號,提示 上述提示圖面,以受理個人資訊的變更。若是要變更被提 示於上述提示圖面的個人資訊之情形時(在步驟S109上爲 是),個人資訊輸入部1 1 3則接收來自操作部23之操作信 號,進而輸入前述個人資訊(步驟S1 11)。 另一方面,判斷部1 0 7 —旦判斷在步驟S 1 0 1上被選擇 之模式不是自目前啓動中之第1模式切換爲新的第2模式 時’亦即是判斷係要啓動新的第1模式時(在步驟S 1 03爲 否),個人資訊輸入部1 1 3即產生並顯示用於使受理個人資 訊之輸入之輸入畫面顯示於顯示器24之信號,而接收來自 操作部23之操作信號,從而輸入個人資訊(步驟S1 11)。 然後,在個人資訊決定部1 1 5上,接收來自操作部23 之操作信號,並在被提示於上述提示圖面上之個人資訊, 或是在上述提示圖面上被變更之個人資訊一旦被決定時, 或者在上述輸入畫面上被輸入之個人資訊一旦被決定時, 用於特定被決定之個人資訊之ID即與在步驟S 1 0 1上被選 擇之模式一起做爲有關目前啓動中之模式的資訊’並被記 存於模式記憶部1〇5(步驟S113)。 有關上述處理,具體例可舉出有第8圖所示之要啓動 測定模式之情形時的流程圖,茲舉出示於第9、1 0圖之顯 示器24之畫面之具體例作說明。 參照第8圖,當測定模式開始時,首先判斷部107係 參照模式記憶部1 〇5,判斷是否有要特定在已啓動之模式 上被設定之個人資訊的ID(步驟s201),若是沒有時’亦即 -17- 200809679 ’要啓動之測定模式不是從第1模式切換到第2模式之情 形時(在步驟S 2 0 1上「無ID」),個人資訊輸入部丨丨3則用 於輸入在未圖示之測定模式的初始畫面上顯示「ID輸入鈕」 ,用以輸入特定個人資訊用的ID (步驟S 2 0 3 )。當偵測出上 述「ID輸入鈕」有被按壓時(在步驟S205上「被按壓」), 個人資訊輸入部113即顯示第9圖所示之輸入畫面,以受 理用於特定個人資訊之ID的輸入(步驟S2 07)。在第9圖之 畫面上,當輸入ID時,個人資訊輸入部1〗3則另顯示第 10圖所示之輸入畫面,以受理對應之個人資訊的輸入。在 偵測出指示個人資訊輸入之結束的「確定」鈕有被按壓時 ,個人資訊決定部1 1 5即認爲有要特定在要啓動之測定模 式上被設定之個人資訊之ID,而將此ID記存於模式記憶 部 1〇5(步驟 S209)。 另一方面,於判斷部1 07,若是判斷在模式記憶部1 0 5 內記存有要特定在已啓動之模式上被設定之個人資訊之ID 時,亦即,要啓動之測定模式若是從第1模式切換到第2 模式之情形(在步驟S201上爲「有ID」)時,個人資訊提示 部1 1 1則藉未圖示之選單圖面等而顯示用於受理在讀出之 第1模式上被設定之個人資訊之修正的「修正」鈕(步驟 S2 1 3)。在先前啓動之第1模式內也包含測定模式,例如, 在先前啓動之測定模式上若是中斷測定時,於再度藉測定 模式進行測定之際,也是在上述步驟S20 1上判斷係爲切換 到第2模式,而在步驟S213上,使顯示用於修正在中斷之 前的測定模式上被設定之沿用的個人資訊的「修正」鈕。 200809679 在上述操作表畫面上,當偵測出「修正」鈕被按壓 (在步驟S2 15上爲「被按壓」)時,個人資訊輸入部U3即 顯示用於執行修正之圖面,然後在此圖面上受理個人資訊 之修正(步驟S2 17)。或者,個人資訊提示部ill顯示用於 提示在被讀出之第1模式上被設定之個人資訊,進而受理 修正之提示圖面,也可在此畫面顯示用於要受理修正之「修 正」鈕。這種情形,在上述提示畫面上當偵測到「修正」鈕 被按壓時,個人資訊輸入部113即在上述提示畫面上受理 個人資訊的修正。再者,這時,若不修正ID而是修正個人 資訊之情形,則修正被此ID特定之個人資訊。若是連ID也 要被修正之情形,則藉新的ID重新登錄個人資訊。或者, 修正被修正後之ID所特定之個人資訊。接著,當偵測出指 示個人資訊之輸入結束的「確定」鈕被按壓時,個人資訊 決定部1 1 5即認爲有用於特定在要啓動之測定模式上被設 定之個人資訊的ID,並將此ID記存於模式記憶部105 (步 驟S 20 9)。若是在上述提示畫面上「修正」鈕未被按壓,而 偵測到是「確定」鈕被按壓之情形,或在既定時間內未偵 測到「修正」鈕被按壓之情形(在步驟S2 1 5上爲「未被按 壓」),則繼續沿用在步驟S2 13上提示之先前啓動的上述 第1模式上被設定之個人資訊而啓動測定模式,個人資訊 決定部1 1 5則表示此項旨意,例如顯示「以相同的ID測定」 等之信息(步驟S2 19),將在第1模式上被設定之ID記存於 模式記憶部1 〇 5內俾記存用於特定被要啓動之測定模式設 定之個人資訊之ID(步驟S209)。 200809679 另外,在此,當偵測到「清除」鈕被按壓時(在步驟S21 1 上爲「被按壓」時,處理即返回上述步驟S2 03,再度受理 ID之輸入。又,在上述步驟S 205上,若是於未圖示之測定 模式之初始畫面上,在上述「ID輸入鈕」未被按壓而偵測 到是其它之鈕被按壓之情形,或是在既定時間內未偵測到 「ID輸入鈕」被按壓之情形(在步驟S205上爲「未被按 壓」),個人資訊決定部1 1 5則認爲沒有用於特定被要啓動 之測定模式設定之個人資訊之ID(步驟S 221),同樣地使處 — 理返回步驟S2 0 3,再度受理ID之輸入。或者,在上述輸 入畫面或上述提示畫面上,在「清除」鈕未被按壓而是偵 測到「確定」鈕以外之其它之鈕被按壓的情形,或者,在 既定時間內未偵測到「清除」鈕被按壓之情形(在步驟S2 1 1 上爲「未被按壓」),處理則返回上述步驟S213,再度受理 個人資訊之修正。 這樣子測定之測定値係如第5B圖所示那樣,將被設 定之個人資訊建立對應關係,然後記存於既定之記憶領域 • ^ 內。 第1 1圖係爲表示以列表顯示在記憶體叫出模式上顯 示之全資料之畫面的具體例之圖。在第11圖之一覽顯示畫 面上,藉選擇特定的資料以特定閱讀對象之被測定者的個 人資訊,叫出與此個人資訊有對應關係之資料,依第1 2圖 所示之個人別將資料作成列表顯示之畫面。另外·,在第1 2 圖之畫面上,當偵測出用於指示詳細顯示有關被選擇之資 料之鈕有被按壓時,即顯示表示第1 3圖所示之詳細的畫 -20- 200809679 面。此時’本實施形態有關之脈波偵測裝置係設定有此個 人資訊並啓動記憶體叫出模式,在模式記憶部1 05內之啓 動模式則爲記存有記憶體叫出模式,及要特定上述個人資 訊之ID。 在第1 3圖之畫面上,當偵測出用於指示測定之鈕有被 按壓時,即開始第7圖之流程圖所示之處理,從記憶體叫 出模式切換爲測定模式,在步驟S 1 07上事先輸入提示被上 述ID特定之上述個人資訊。 本實施形態有關之脈波偵測裝置,藉執行上述處理, 於切換要啓動之模式時,能減少輸入個人資訊之操作,從 而能提高操作性。另外,能防止錯誤操作、錯誤輸入。特 別是脈波偵測裝置等之測定活體値的裝置,如上述那樣, 在閱覽個人資訊之狀態下,從再測定有關此被測定者之活 體値,那樣之記憶體叫出模式切換爲測定模式之使用方式 多。這種情形,不必再度輸入個人資訊或要特定個人資訊 之ID,而能極快速地切換爲測定模式。另外,如上述,因 能藉簡單之操作,進行被提示之個人資訊的修正,故要修 正個人資訊時,或統計上的關係要作成不同ID時等之操作 則變成容易。 (變更例) 參照第6圖,本實施形態之變更例有關之脈波偵測裝 置,用於執行有關模式間之個人資訊的沿用之處理的功能 構成,另含有優先度記憶部1 1 7,針對被含於個人資訊內 之各種資訊,記存有個人資訊讀出部1〇9讀出資訊之優先 -21- 200809679 度。記存於優先度記憶部1 1 7之優先度可事先設定,也可 由管理者或操作者等之使用者設定。更好的是由要被啓動 之模式設定。具體說,要被啓動之模式若是記億體叫出模 式時,則用於辨識記存測定値之記憶領域之ID的優先度爲 最高,其它資訊之優先度則無特別限定。另外,要被啓動 之模式若是測定脈波之測定模式時,則ID,被測定者之年 齢、及性別之優先度係依此順序昇高,其它資訊的優先度 並無特別限定。另外,要被啓動之模式若係爲測定血壓之 ^ 測定模式時,則ID之優先度爲最高,其它資訊之優先度則 無特別限定。另外,要被啓動之模式若係爲測定體組成之 測定模式時,則ID、被測定者之年齡、身高、及性別之優 先度係依此順序昇高,其它資訊之優先度並無特別限定。 這種情形,在上述步驟S105上,個人資訊讀出部109 係依記存於優先度記憶部1 1 7內之優先度,根據要辨識在 第1模式上被輸入之個人資訊的ID,前述第1模式係從模 式記憶部1 〇 5被讀出,從對應之個人資訊中,優先度高者 ^ 開始讀入,直到既定之優先度之資訊止。上述既定之優先 度可事先設定,也可由管理者或操作者等之使用者設定。 更好的是個人資訊讀出部1 09依對應在步驟S 1 0 1上被選擇 之要啓動的第2模式設定之優先度,被自模式記憶部1 05 讀出之ID所辨識之個人資訊中,從優先度高者開始讀出, 直到既定之優先度之資訊止。 變更例有關之脈波偵測裝置,藉執行上述的處理,在 切換模式時,必要的個人資訊能從先前設定之個人資訊沿 -22- 200809679 用,因此在切換模式時不必要再度執行輸入此個人資訊的 操作。藉此,能提高操作性。另外,能防止誤操作、誤輸 再者,也能將控制上述脈波偵測裝置之程式做爲活體 値測定程式而提供。這樣的程式能被記錄於附屬在電腦之 軟性磁碟、CD-ROM(Compact Disk-Read Only Memory:光 碟-唯讀記憶體)、ROM、RAM及記憶體卡等之電腦能讀取 的記錄媒體內做爲程式製品而提供。或者,記錄在內置於 ^ 電腦之硬碟等之記錄媒體,從而也能提供程式。另外,也 可經網路下載而提供程式。 再者,本發明有關之程式也可係爲在做爲電腦之作業 系統(Operating System,OS)的一部分而被提供之程式模組 中,以既定之配列,既定之時序叫出必要的模組以執行處 理之程式。這種情形,程式本身不含上述模組而係與〇 S 協力運作以行處理。不含這樣的模組之程式也可包含於本 發明有關之程式內。 另外,本發明有關之程式也可係爲倂入成爲其它程式 之一部分而被提供者。這種情形,程式本身也不含有倂入 在上述其它程式之模組’而係與其它程式協力運作以執行 處理。倂入於其它程式內之這種程式也可包含在本發明有 關之程式內。 提供之程式製品係被裝設在硬碟等之程式貯存部而被 執行。另外’程式製品係包含程式本身和記錄程式之記錄 媒體。 -23- 200809679 本文揭示之實施形態,在全部點上皆應視爲例示而非 限制性。本發明之範圍非爲上述之說明者而係依申請專利 範圍所示,意在包含與申請專利範圍均等之意義及不逾越 申請專利範圍之所有的變更。 【圖式簡單說明】 第1圖係爲表示脈波偵測裝置之功能構成的具體例之 圖。 第2圖係爲表示偵測器單元與固定台之連接關係的具 ®體例之圖。 第3圖係爲表示將脈波偵測裝置裝在活體上之狀態的 具體例之圖。 第4圖係爲說明脈波偵測裝置之狀態變化之圖。 第5A圖係爲表示記存之個人資訊的具體例之圖。 第5B圖係爲表示測定値之具體例之圖。 第6圖係爲表示在脈波偵測裝置上,用於執行有關在 模式間之個人資訊的沿用之處理的功能構成之具體例的方 β塊圖。 第7圖係爲表示有關模式間個人資訊之沿用之處理的 流程之流程圖。 第8圖係爲要啓動測定模式時之流程圖。 第9圖係爲表示要輸入ID之畫面的具體例之圖。 第10圖係爲表示要輸入個人資訊之畫面的具體例之 圖。 第11圖係爲表示列表顯示全資料之畫面的具體例之 -24- 200809679200809679 IX. The present invention relates to a living body sputum measuring device, a method for controlling a living body sputum measuring device, and a computer readable recording medium on which a living body 値 measuring program is recorded, particularly The measurement system and the measurement method of the biological measurement device, the measurement method of the biological measurement device, and the computer-readable recording medium on which the biological measurement program is recorded. [Prior Art] The vitality measurement device such as the pulse wave measuring device and the sphygmomanometer is a personal information that registers the age and sex of the person to be measured, and manages the information by a serial number or the like. These personal information may be used as a parameter when using a living body such as a pulse wave or a sphygmomanometer to be diagnosed, or when a living body is being treated. The vital sputum measuring device inputs these personal information at the time of measurement and associates it with the measurement 后, and then records it. In addition, if the personal information has already been registered in the biological measurement device, the serial number for specifying the personal information is input at the time of measurement or reading of the measurement. For the input of the personal information, the information of the person to be measured is input before the measurement using the ID card of the patient as disclosed in Japanese Patent Laid-Open Publication No. 2005-3 8 265 (hereinafter referred to as Patent Document 1). Methods. [Patent Document 1] Japanese Patent Laid-Open Publication No. Hei 2 0 0 5 _ 3 8 2 6 5 [Explanation of the Invention] As for the use of such a biological sputum measuring device, there is a measurement method other than 200809679. In the reading mode, the measurement of the subject is read, and the manner in which the living body of the subject is measured in the measurement mode can be cited. That is, for the same subject, there are cases in which the first mode and the second mode are continuously used. In this case, after the personal information or the serial number for the specific personal information is input in the first mode, the mode is switched to the second mode, and the same data is input again, so that there is a problem that the operation is troublesome. Such annoying operations can hinder rapid measurement, such as group health consultations or university-affiliated hospital examinations, and in the case of a large number of subjects, the problem of prolonged examinations will be caused. In addition, cumbersome operations can easily lead to erroneous input. Further, in the method disclosed in Patent Document 1, there is a problem that a reading device that is required to read a recording medium such as a card or a reading function that reads a recording medium is mounted on the biological measurement device. In addition, there is also a problem that the data cannot be input because the person who has been measured has lost the card. The present invention has been made in view of such a problem, and an object of the present invention is to provide an operational sputum measuring device, a method for measuring a living body sputum measuring device, and a method for recording a living body ® measuring program, which can improve the use of the switching mode. Computer readable recording medium. In order to achieve the above object, according to one aspect of the present invention, the biological measurement apparatus includes an operation unit that receives an operation input from an operator, and a measurement unit that measures a living body of the measurement subject; a first memory unit that belongs to personal information related to the subject, a second memory unit that associates the measurement unit with the personal information, and generates a signal for displaying the measurement signal; Pattern memory of information about the mode that has been activated. 200809679; and a control unit for controlling the measurement unit and the generation unit, the operation unit accepts an operation for selecting a mode to be activated, and the control unit executes, and when the operation unit selects the second mode, it is determined whether or not there is a record in the mode memory unit. The determination processing of the information of the first mode; when the result of the determination processing is that it is determined that the information about the first mode is stored, the reading of the ID of the personal information to be specified in the first mode is read from the mode memory unit. And processing the ID of the personal information to be set in the second mode, and storing the ID in the mode storage unit. According to another aspect of the present invention, the biological measurement apparatus includes a mode memory unit that stores information on the activated mode, and the control method of the biological measurement apparatus includes a step of inputting a signal for selecting a mode to be activated; When the mode is a mode to be activated, a mode memory unit that stores information about the activated mode is accessed by a computer to determine whether or not a step of storing information about the first mode is stored in the mode memory unit; In the determining step, if it is determined that the information about the first mode is stored, the step of reading the ID of the personal information belonging to the information about the determined subject in the first mode from the mode storage unit is read from the mode storage unit; And the ID to be read is used as an ID for specifying the personal information to be set in the second mode, and is recorded in the mode memory unit. According to still another aspect of the present invention, the computer-readable recording medium for recording the biological measurement program is a program for recording a process for causing the computer to perform a living body. The pattern is executed: receiving a signal for selecting a mode to be activated. The step of inputting; when the second mode is selected as the startup mode, the mode memory portion storing information about the activated mode is stored in the computer to determine whether the information about the first mode is stored in the mode memory unit in 200809679. In the judging step, if it is determined that the information about the first mode is stored, the self-mode memory unit reads the personal information that is to be specified to belong to the information of the subject to be determined in the first mode. The step of ID; and the ID to be read as the ID of the personal information to be set in the second mode, and stored in the mode memory unit. (Effect of the Invention) According to the present invention, the situation of the living body measurement device used in the plurality of modes is switched, and at least a part of the data input in the previous mode is continuously cited, thereby simplifying the data input in the next mode. Thereby, the operability of the biological sputum measuring device can be improved, and erroneous input can be prevented. [Embodiment] BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same components and constituent elements are attached with the same symbols. Their names and functions are also the same. In the present embodiment, the pulse wave detecting device is used as an example of the living body sputum measuring device according to the present invention. However, the biological sputum measuring device according to the present invention is not limited to the pulse wave detecting device, and may be blood pressure. a measuring device for physical function such as visual acuity, hearing, grip strength, back muscle strength, and vital capacity, or an exercise amount measuring instrument such as a pedometer, or a device combining the above two or more functions , any device that measures other living organs. Referring to FIGS. 2 and 3, the pulse wave detecting device includes: a detector unit 1 for detecting a pulse wave of an artery of a wrist of 200809679 and a wrist surface; for fixing a wrist for pulse detection The fixed station 2; and a PC (Pers〇nal Compute) unit 3 (not shown) for performing various processes including operations for pulse wave detection. Fig. 2 shows that the detector unit 1 is housed in the 匣In the body, Fig. 3 shows a state in which the detecting unit slides from the inside of the body to the outside through the chute 9 (refer to Fig. 2). The fixed table 2 has a fixed table unit 7 and a fixed table unit 7 The PC unit 3 is connected to each other via a USB (Universal Serial Bus) cable 4. The fixed station unit 7 and the detector unit 1 are connected via a communication cable 5 and an air tube 6. When the pulse wave detection is performed, as shown in FIG. 3, the user positions the artery on the artery side by sliding the detector unit 1 while the wrist is placed at the predetermined position of the fixed table 2. Surface, and then tightening the body of the detector unit 1 and the fixing table 2 by the strap 8 The detector unit 1 on the wrist is fixed. Referring to Fig. 1, the detector unit 1 is composed of a plurality of LED arrays, and has an LED portion 1 that can be visually recognized when worn on the wrist; A pressure detector array 1 in which a pressure detector is arranged in a single direction on a pressing surface of a semiconductor wafer made of a single crystal germanium. The pressure detector is a plurality of membranes for detecting pulse pressure. a diaphram and a resistor bridge circuit; a multiplexer 12 that selectively derives a voltage signal output from each of the pressure detector arrays 1; and includes a pressure detector The measuring device 1 1 presses the squeeze wristband 13 of the air conditioner that is press-adjusted to the wrist. 200809679 The LED unit 10 is illuminated by the information for guiding the sliding direction of the detector unit 1 as will be described later. (The position of the artery or the position of the solid matter such as sputum) is set to notify the user. Therefore, the medium for notifying the information is not limited to an LED or an LCD (Liquid Crystal Display). In addition, other The configuration of the detector unit 1 can be configured as known. The pulse wave detecting device according to the present embodiment is not limited to a specific configuration. The fixed table unit 7 is provided with a pressure-squeezing wristband (air bag). a pressure pump 14 for internal pressure (hereinafter referred to as wristband pressure) and a negative pressure pump 15 for decompression; for selectively switching one of the pressure pump 14 and the negative pressure pump 15 to The switching valve 16 of the air tube 6; the control circuit 17 for controlling these components; the communication circuit 18 connected to the 1188 cable 4; and the A/ for converting the output signal derived from the detector unit 1 into digital data. D (Analog/Digital: analog/digital) converter 19. The PC unit 3 has a CPU (Central Processing Unit) 20 that performs various processes for centrally controlling the operation of the pulse wave detecting device, and a ROM (Read Only) for storing data and programs for controlling the pulse wave detecting device. Memory) 21 and RAM (Random Access Memory) 22; an operation unit 23 that is operable to be externally operated for inputting various kinds of information; and is used to output various information such as pulse wave detection results to the outside, and is created by the LCD. a display 24; a communication unit for outputting various pieces of information such as a pulse detection result to an external device via a wired or wireless network; and an I/F (Interface: interface) for connecting the USB cable 4 to the CPU 20. . The CPU 20 is suitable for 200809679. The pulse wave detection processing performed by reading the execution program can be performed by referring to the above-mentioned data, and the pulse wave detecting device according to the present embodiment is not limited to a specific processing. Here, the fixed stage unit 7 and the P C unit 3 of the fixed table 2 are separately provided, but the two functions may be built in the fixed stage 2. Further, the fixed station unit 7 may include a CPU, and the CPU of the fixed station unit 7 executes various processes including operations for collectively controlling the pulse wave detecting device, and the CPU 20 of the PC unit 3 executes the display of the processing result. The processing of the display 24 and the processing of transferring the operation of the operation unit 23 to the CPU of the fixed station unit 7 and the like. Further, the external device that communicates as the communication unit 25 is a memory device such as a server that stores medical information such as an electronic medical record. The pulse wave detecting apparatus according to the present embodiment reads and executes the stroke type by the CPU 20, and executes processing of various modes in accordance with the operation of the operation unit 23. Here, the "mode" refers to a process in which one of the subjects is executed (or during execution), and the state of one series of processes is measured. Referring to FIG. 4, the present embodiment is related to The mode of the pulse wave detecting device includes a measurement mode, a memory call mode, a personal information management mode, and a communication mode. It is also possible to receive the operation of the operation unit 23 at the time of processing of a certain mode, and start processing of any other mode corresponding to the operation. After the processing of a certain mode, the operation of the other mode is followed by the "switching of the mode" in accordance with the operation of the operation unit 23. In addition, even if the memory -1 1 - 200809679 is called a series of processes of the same type, it is considered to be a different mode when the above-described series of processes are continuously performed on different subjects. In other words, the measurement mode of the measurement performed by the subject A and the measurement mode of the measurement performed by the subject b are regarded as different modes even if the measurement mode is continuously performed, and the measurement and measurement of the subject A are performed. In the case where the measurement of the B is continued, the mode is switched to "mode switching". The measurement mode refers to a state in which a series of processes for measuring the living body of the subject is performed. In the pulse wave detecting device according to the present embodiment, the measurement mode package gastric system reflects the AI measurement, the blood pressure measurement, and the body composition measurement which are characteristic values of the reflection intensity of the pulse wave by the detection pulse wave. In the measurement of a certain living body, the measurement of any other living body can be started by the operation of the operation unit 23. In the measurement mode, after the measurement of a certain living body, the measurement of the other living body is followed by the operation of the operation unit 23, which is called "switching of measurement". The memory call mode refers to a state in which a series of processing is performed from the memory to call the measured result of the measured person. The memory call mode is a screen for displaying a list of all the materials stored, a screen for displaying a list of individual profiles, and a specific subject to be measured by calling the measurement result of the subject, and performing processing. The screen of the trend of the change trend, and more specifically, the detailed picture thereof is displayed on the display 24. These screens can be displayed in the order described above by the operation of the operation unit 23. In the memory calling mode, depending on the operation of the operation unit 23, the situation in which the screen is continuously changed in the above-described order is referred to as "display switching". -12- 200809679 The communication mode is a state in which processing for transmitting data such as the measurement result of the person to be measured to a designated external device or receiving data from an external device is performed. The personal information management mode refers to a state of processing for performing a series of management such as correction and change of personal information described later in a predetermined memory field. In the measurement mode, when the measurement target or the trend graph is displayed on the living body of the measured person, the information for the specific subject or the subject for calculation is displayed. The information is necessary®. These information is called "personal information." In the measurement mode, if the pulse wave is measured, at least the age and sex of the person to be measured are necessary. Further, in the case of measuring the composition of the body, at least the age, height, and sex of the person to be measured are necessary. If the information has not been recorded beforehand, it will be entered at the time of measurement or by personal information management mode. If there is a case where personal information is stored in advance, at the time of the measurement, personal information containing at least the above information is called. The personal information entered and the data obtained by the measurement are stored in the established memory area of RAM22'6. Alternatively, if the communication unit 25 communicates with an external device such as a server that stores medical information such as an electronic medical record, the personal information and the measurement device may be recorded in the external device. Referring to Fig. 5A, as an example of personal information, in addition to the name, date of birth, and gender of the person to be measured, an ID that is intentionally assigned as information for the specific personal information is included. Other information can be included in personal information. Including the medical history, family composition, and occupation of the person being measured. Referring to Fig. 5B, as an example of the measurement, in addition to blood pressure, pulse, AI, etc., -13-200809679 also includes an ID corresponding to the personal information. The above-mentioned ID is used to specifically store the memory area of personal information and/or to store the memory area of the measurement. Even if the personal information and the measurement are recorded in the external device, the ID can be used to specify the memory area on the external device. Further, the association between the measurement and the personal information may be any other method than the ID of the specific example. In the memory call mode, if the list of all the materials is displayed and the list display screen of the individual data related to the specific subject is to be displayed, then at least the personal information of the subject to be specifically viewed is input. ID, and the measurement that is given the corresponding relationship is displayed and displayed. Fig. 6 is a block diagram showing a specific example of a functional configuration of a pulse wave detecting device according to the present embodiment for executing processing relating to personal information between modes. The function shown in Fig. 6 is that the CPU 20 reads and executes the program, and is mainly formed in the CPU 20. However, at least a part of it may be formed by the hardware shown in Fig. 1. Referring to Fig. 6, the pulse wave detecting apparatus according to the present embodiment includes a mode selecting unit 1 0 1 'mode switching unit 103, a mode memory unit 1 〇5, a determining unit 1 07, and a personal information reading unit 1 9. The personal information presentation unit 1 1 1 , the personal information input unit 1 1 3, and the personal information determination unit 1 1 5 are configured. The mode selection unit 1 0 1 receives the operation signal from the operation unit 23, selects the mode to be activated, and produces the result. The signal to be transmitted to the mode switching unit 103 is input to the mode switching unit 103. The mode switching unit 103 generates and outputs a control signal for starting the selected mode in accordance with the above signal. Further, the information of the mode to be activated is recorded in the mode memory unit 105. -14- 200809679 The mode memory unit 1 ο 5 stores the mode currently being activated, and the ID of the personal information that is input or has been specified for the specific mode. Further, the information recorded in the pattern storage unit 105 is not limited to the information on the mode currently being activated, and may be information on the mode until the predetermined time elapses after the start or end. In addition, according to the following processing, the information may be stored in the second mode, and the information about the second mode may be overwritten, and the information related to the first mode that has been previously activated may be stored. The information of the 2 mode is recorded together with information about the first mode after a predetermined time. The judging unit 1 07 monitors the information stored in the mode memory unit 105, and determines whether or not the information on the activated mode is recorded, that is, the information is judged when the input mode switching unit 103 is activated. Whether or not the new mode is activated, whether or not the first mode is switched from the current mode to the second mode, and a control signal is generated based on the determination, and is input to the personal information reading unit 109 or the personal information input unit 113. Furthermore, the determination here is not limited to the case of determining whether to switch from the first mode to the second mode in the current startup, or to determine whether the activation of the second mode is in the first mode or to end the first mode. After the scheduled time. The personal information reading unit 109 reads out, from the mode storage unit 105, the ID of the personal information to be set in the first mode that was previously activated, based on the control signal from the determination unit 107, and sets the personal information specific to each other. It is read from the predetermined memory field and output to the personal information presentation unit 1 1 1 . The personal information presentation unit 111 generates and outputs a signal for displaying a screen for prompting the correction of personal information (e.g., "correction" button, etc.) on the display 24 of the 200809679 signal, and the personal information is specified by the ID read. Alternatively, a signal for causing a presentation screen for presenting personal information to be displayed on the display 24 is generated and outputted, and the personal information is specified by the ID read. Further, the personal information input unit 113 generates and outputs a signal for displaying an input screen for receiving personal information or a correction screen for receiving correction of personal information on the display 24. Then, the personal information input unit 113 receives an operation signal from the operation unit 23 according to the above screen to input personal information. The personal information determining unit 1 15 receives an operation signal from the operation unit 23 to determine the personal information to be presented or the personal information to be input. Then, the determined personal information is recorded in the mode memory unit 105. The processing of the personal information between the modes shown in the flowchart of Fig. 7 is executed by the CPU 20 reading the program and controlling the respective parts of Fig. 6. Referring to Fig. 7, at the start, the mode selection unit 101 receives the operation signal from the operation unit 23 and selects the mode (step 3101). In step S1 0 1, once the mode in which the determination unit 107 is selected is switched from the first mode in the current startup to the new second mode (YES in step S103), the personal information reading unit 109 That is, the ID for specifying the personal information input in the first mode is read from the mode storage unit 105, and the corresponding personal information is read from the predetermined memory area (step S105). The personal information presentation unit 111 generates a signal for displaying the presentation screen of the personal information read in step S105 on the display 24 (step S107). In the above-mentioned presentation screen, the change of the personal information to be presented can be accepted. Further, in the above step S1 07, the personal information presentation unit 111 may receive an operation signal regarding an operation (for example, an operation of a menu button not shown) from the specific 200809679 of the operation unit 23, and present the presentation screen to Accept changes to personal information. If it is necessary to change the personal information presented on the above-mentioned presentation screen (YES in step S109), the personal information input unit 1 13 receives an operation signal from the operation unit 23, and further inputs the personal information (step S1). 11). On the other hand, the judging unit 1 7 7 determines that the mode selected in step S 1 0 1 is not switched from the first mode in the current startup to the new second mode, that is, the determination is to start a new one. In the first mode (NO in step S1 03), the personal information input unit 1 1 3 generates and displays a signal for causing an input screen for accepting input of personal information to be displayed on the display 24, and receives the signal from the operation unit 23. The signal is operated to input personal information (step S1 11). Then, the personal information determining unit 1 15 receives the operation signal from the operation unit 23, and the personal information presented on the presentation surface or the personal information changed on the presentation surface is once At the time of the decision, or when the personal information input on the input screen is determined, the ID for the specific determined personal information is associated with the mode selected in step S101, and is currently activated. The mode information ' is also stored in the mode memory unit 1〇5 (step S113). Specific examples of the above-described processing include a flowchart in the case where the measurement mode is to be activated as shown in Fig. 8, and a specific example of the screen of the display 24 shown in Figs. Referring to Fig. 8, when the measurement mode is started, first, the determination unit 107 refers to the mode memory unit 1 to 5 to determine whether or not there is an ID of the personal information to be set in the activated mode (step s201), and if not, '亦 -17- 200809679 'When the measurement mode to be activated is not switched from the first mode to the second mode ("No ID" in step S 2 0 1), the personal information input section 丨丨3 is used. The input "ID input button" is displayed on the initial screen of the measurement mode (not shown) for inputting the ID for the specific personal information (step S2 0 3 ). When it is detected that the "ID input button" has been pressed ("pressed" in step S205), the personal information input unit 113 displays the input screen shown in Fig. 9 to accept the ID for the specific personal information. Input (step S2 07). On the screen of Fig. 9, when the ID is input, the personal information input unit 1 > 3 displays the input screen shown in Fig. 10 to accept the input of the corresponding personal information. When the "OK" button for detecting the end of the personal information input is detected, the personal information determining unit 1 1 5 considers that there is an ID of the personal information to be specified in the measurement mode to be activated, and This ID is stored in the mode memory unit 1〇5 (step S209). On the other hand, if the determination unit 1 07 determines that the ID of the personal information to be specified in the activated mode is stored in the mode memory unit 105, that is, if the measurement mode to be activated is When the first mode is switched to the second mode ("ID" in step S201), the personal information presentation unit 1 1 1 is displayed by the menu screen (not shown) for acceptance. The "Correction" button for correcting the personal information set in the mode (step S2 1 3). In the first mode that was previously activated, the measurement mode is also included. For example, when the measurement is interrupted in the measurement mode that was previously activated, when the measurement is performed again in the measurement mode, the determination is made in the above-described step S20. In the 2 mode, in step S213, the "correction" button for correcting the personal information that is set in the measurement mode before the interruption is displayed. 200809679 On the operation table screen, when it is detected that the "correction" button is pressed ("pressed" in step S2 15), the personal information input unit U3 displays a picture for performing correction, and then The correction of the personal information is accepted on the drawing (step S2 17). Alternatively, the personal information presentation unit ill displays the personal information that is set in the first mode to be read, and then accepts the correction display surface, and the "correction" button for accepting the correction may be displayed on the screen. . In this case, when it is detected that the "correction" button is pressed on the above-mentioned presentation screen, the personal information input unit 113 accepts the correction of the personal information on the presentation screen. Furthermore, at this time, if the personal information is corrected without correcting the ID, the personal information specified by the ID is corrected. If the ID is also to be corrected, the personal information will be re-registered with the new ID. Or, correct the personal information specific to the modified ID. Then, when it is detected that the "OK" button indicating the end of the input of the personal information is pressed, the personal information determining unit 1 1 5 considers that there is an ID for specifying the personal information set in the measurement mode to be activated, and This ID is stored in the mode memory unit 105 (step S209). If the "correction" button is not pressed on the above prompt screen, it is detected that the "OK" button is pressed, or the "correction" button is not detected within a predetermined time (in step S2 1) 5 is "unpressed", and the personal information set in the first mode previously activated in step S2 13 is continued to be used to start the measurement mode, and the personal information determining unit 1 1 5 indicates this purpose. For example, information such as "measured by the same ID" is displayed (step S2 19), and the ID set in the first mode is stored in the mode memory unit 1 〇 5 and recorded for the specific start-up measurement. The ID of the personal information set by the mode (step S209). 200809679 In addition, when it is detected that the "clear" button is pressed ("pressed" in step S21 1, the processing returns to the above step S2 03, and the input of the ID is accepted again. Further, in the above step S In the initial picture of the measurement mode (not shown), if the "ID input button" is not pressed and the other button is pressed, or if the button is not detected within a predetermined time, When the ID input button is pressed ("unpressed" in step S205), the personal information determining unit 1 1 5 considers that there is no ID for specifying the personal information to be activated in the measurement mode setting (step S). 221) Similarly, the process returns to step S2 0 3, and the input of the ID is accepted again. Alternatively, on the input screen or the prompt screen, the "clear" button is not pressed but the "OK" button is detected. When the button other than the button is pressed, or if the "clear" button is not detected within a predetermined time (in the case of "not being pressed" in step S2 1 1), the process returns to the above step S213, Re-accepting personal funds The measurement of the measurement is as shown in Fig. 5B, and the personal information to be set is associated with each other, and then recorded in the established memory area • ^. The first picture is shown as a list. A detailed example of a screen for displaying the full data in the memory call mode. On the list display screen of Fig. 11, the personal information of the person to be measured is selected by selecting a specific material, and is called out. The personal information has the corresponding relationship data, and the individual shows the data as a list display screen according to the figure shown in Fig. 12. In addition, on the screen of Fig. 2, when it is detected for indicating the detailed display, the selected one is selected. When the button of the data is pressed, the detailed picture -20-200809679 shown in Fig. 3 is displayed. At this time, the pulse wave detecting device according to the embodiment sets the personal information and starts the memory. In the mode called mode, the mode in the mode memory unit 105 is to store the memory call mode and to specify the ID of the personal information. On the screen of Fig. 3, when detected, Indication When the button is pressed, the process shown in the flowchart of Fig. 7 is started, and the memory call mode is switched to the measurement mode, and the personal information specified by the ID is input in advance in step S107. According to the pulse wave detecting device of the embodiment, when the mode to be activated is switched, the operation of inputting personal information can be reduced, and the operability can be improved, and erroneous operation and erroneous input can be prevented. As described above, in the case of reading the personal information, the device for measuring the living body of the subject, such as the wave detecting device, switches the memory calling mode to the measurement mode. In this case, it is not necessary to input personal information or ID of specific personal information, and it is possible to switch to the measurement mode very quickly. Further, as described above, since the personal information to be presented can be corrected by a simple operation, it is easy to correct the personal information or to perform a statistically different relationship. (Modified Example) Referring to Fig. 6, a pulse wave detecting apparatus according to a modified example of the present embodiment is configured to execute a function of processing related to personal information between modes, and further includes a priority memory unit 1 177. For the various information contained in the personal information, the personal information reading unit 1〇9 reads the priority of the information-21-200809679 degrees. The priority stored in the priority storage unit 1 17 can be set in advance, or can be set by a user such as an administrator or an operator. More preferably, it is set by the mode to be activated. Specifically, if the mode to be activated is the mode of calling the system, the priority of the ID for identifying the memory area of the memory is the highest, and the priority of other information is not particularly limited. Further, if the mode to be activated is the measurement mode for measuring the pulse wave, the ID, the year of the measurement, and the priority of the gender are increased in this order, and the priority of other information is not particularly limited. In addition, if the mode to be activated is the measurement mode for measuring blood pressure, the priority of the ID is the highest, and the priority of other information is not particularly limited. In addition, if the mode to be activated is the measurement mode of the measurement body composition, the priority of the ID, the age, height, and gender of the subject is increased in this order, and the priority of other information is not particularly limited. . In this case, in the above-described step S105, the personal information reading unit 109 is based on the priority stored in the priority storage unit 1 1 7 and based on the ID of the personal information to be recognized in the first mode. The first mode is read from the mode memory unit 1 〇 5, and the highest priority is read from the corresponding personal information until the predetermined priority information is stopped. The predetermined priority may be set in advance or may be set by a user such as an administrator or an operator. More preferably, the personal information reading unit 109 recognizes the personal information recognized by the ID read from the mode memory unit 105 in accordance with the priority of the second mode setting to be activated selected in step S1 0 1 . In the middle, the reading is started from the higher priority, until the information of the predetermined priority is stopped. According to the pulse wave detecting device of the modified example, when the switching mode is performed, the necessary personal information can be used from the previously set personal information along -22-200809679, so it is not necessary to perform the input again when switching modes. The operation of personal information. Thereby, operability can be improved. In addition, it is possible to prevent misoperations and accidental transmissions, and it is also possible to provide a program for controlling the above-described pulse wave detecting device as a living body measurement program. Such a program can be recorded on a computer-readable recording medium attached to a computer such as a flexible disk, a CD-ROM (Compact Disk-Read Only Memory), a ROM, a RAM, and a memory card. It is provided as a product. Alternatively, it can be recorded on a recording medium such as a hard disk of a computer, and thus a program can be provided. Alternatively, the program can be downloaded via the Internet. Furthermore, the program related to the present invention may be configured as a program module provided as part of a computer operating system (OS), with a predetermined arrangement, and a predetermined module called a necessary module. To execute the processing program. In this case, the program itself does not contain the above modules and works in tandem with 〇 S. Programs that do not include such modules may also be included in the program of the present invention. In addition, the program of the present invention may be provided as a part of other programs. In this case, the program itself does not contain a module that breaks into the other programs described above and works in conjunction with other programs to perform processing. Such programs incorporated in other programs may also be included in the program of the present invention. The supplied program product is executed by being installed in a program storage unit such as a hard disk. In addition, the program product contains the program itself and the recording medium of the recording program. -23- 200809679 The embodiments disclosed herein are to be considered as illustrative and not restrictive. The scope of the present invention is defined by the scope of the claims, and is intended to cover all modifications within the scope of the application and the scope of the application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a specific example of the functional configuration of a pulse wave detecting device. Fig. 2 is a diagram showing the relationship between the detector unit and the fixed table. Fig. 3 is a view showing a specific example of a state in which the pulse wave detecting device is mounted on a living body. Figure 4 is a diagram illustrating the state change of the pulse wave detecting device. Fig. 5A is a diagram showing a specific example of personal information recorded. Fig. 5B is a view showing a specific example of the measurement enthalpy. Fig. 6 is a block diagram showing a specific example of a functional configuration for performing processing on personal information between modes on the pulse wave detecting device. Figure 7 is a flow chart showing the flow of processing of personal information between modes. Figure 8 is a flow chart when the measurement mode is to be started. Fig. 9 is a view showing a specific example of a screen on which an ID is to be input. Fig. 10 is a view showing a specific example of a screen for inputting personal information. Figure 11 is a specific example of a screen showing the full data of the list -24- 200809679
第12 體例之圖。 第13 圖 【主要元Figure of the 12th system. Figure 13 [Main element
2 3 4 7 82 3 4 7 8
9 10 11 12 13 14 15 16 17 圖係爲表示依個人別列表顯示資料之畫面的具 圖係爲表示顯示資料的詳細之畫面的具體例之 符號說明】 偵測器單元 固定台 PC單元 USB電纜 通訊電纜 空氣管 固定台單元 束帶 滑件 LED部 壓力偵測器陣列1 多工器 擠壓腕帶 力口壓泵 負壓泵 切換閥 控制電路 通訊電路 -25- 18 2008096799 10 11 12 13 14 15 16 17 The figure is a diagram showing the screen showing the data according to the personal list. The symbol is a detailed example of the screen showing the details of the displayed data. Detector unit fixed station PC unit USB cable Communication cable air tube fixed station unit beam with slider LED part pressure detector array 1 multiplexer squeeze wrist force pressure pump negative pressure pump switching valve control circuit communication circuit -25- 18 200809679
19 A/D轉換器 20 CPU 21 ROM 22 RAM 23 操作部 24 顯示器 25 通訊部 26 介面 101 模式選擇部 103 模式切換部 105 模式記憶部 107 判斷部 109 個人資訊讀出部 111 個人資訊提示部 113 個人資訊輸入部 1 15 個人資訊決定部 1 17 優先度記憶部 -2619 A/D converter 20 CPU 21 ROM 22 RAM 23 Operation unit 24 Display 25 Communication unit 26 Interface 101 Mode selection unit 103 Mode switching unit 105 Mode memory unit 107 Determination unit 109 Personal information reading unit 111 Personal information presentation unit 113 Personal Information input unit 1 15 Personal information decision unit 1 17 Priority memory unit -26