TWI558368B - Electronic vital-sign system with remote time synchronization - Google Patents

可遠端同步對時之電子生理量測系統 Electrophysiological measurement system capable of remote synchronization

本發明係有關一種血壓量測裝置及系統、血氧量測裝置及系統、血糖量測裝置及系統、心搏率量測裝置及系統、心臟頻譜量測裝置及系統、心電圖量測裝置及系統、體溫量測裝置及系統或多功能病人監視系統，特別是關於一種可遠端同步對時之電子生理量測系統。 The invention relates to a blood pressure measuring device and system, a blood oxygen measuring device and system, a blood glucose measuring device and system, a heart rate measuring device and system, a cardiac spectrum measuring device and system, an electrocardiogram measuring device and a system , a body temperature measuring device and system or a multi-function patient monitoring system, in particular, an electronic physiological measuring system capable of remotely synchronized timing.

以血壓量測為例。近年來全球許多國家，已逐漸進入高齡、少子化的社會，加上物質生活的品質提升，現代人罹患文明病的機率大幅提升，尤以中老年人為最，根據台灣國民健康局統計，台灣每年新增10萬名高血壓患者，平均一天新增274人，目前國內高血壓人口已逾400萬人；65歲以上國人的高血壓盛行率甚至高達56.6%。由此可知國人心血管疾病的高危險群人數眾多。當血壓控制不當時，長時間下來將對病患腦部、心臟、腎臟及眼睛等多方面產生病變或併發症，嚴重者可能會危及生命。因此血壓量測儀器的準確度，在現代社會非常重要。 Take blood pressure measurement as an example. In recent years, many countries around the world have gradually entered a society of advanced age and younger age. Coupled with the improvement of the quality of material life, the chances of modern people suffering from civilized diseases have increased significantly, especially among the middle-aged and elderly people. According to the statistics of the Taiwan National Health Service, Taiwan is annually. There are 100,000 new hypertensive patients, an average of 274 people a day. At present, there are more than 4 million people with hypertension in China. The prevalence of hypertension in people over 65 is as high as 56.6%. This shows that there are a large number of high-risk groups of cardiovascular diseases in Chinese. When the blood pressure is not controlled properly, it will cause lesions or complications in the brain, heart, kidney and eyes of the patient for a long time. In severe cases, it may be life-threatening. Therefore, the accuracy of blood pressure measuring instruments is very important in modern society.

大部分市售的血壓計或應用於醫院病房的血壓量測系統，其功能一般包含量測、運算與顯示，當量測血壓完畢，即可運算與顯示，本身並無時間同步對時功能，使用一段時間後應統一校正及設定時間。 Most of the commercially available sphygmomanometers or blood pressure measurement systems used in hospital wards generally include measurement, calculation and display. After the equivalent blood pressure is measured, the operation and display can be performed. There is no time synchronization function. After using for a period of time, the calibration and setting time should be unified.

一般而言，醫院、診所及居家照護中心使用的血壓量測系統，在長期使用或是人為設定誤差導致量測時間偏差，造成全院量測時間無法統一，例如，住院病人依據血壓量測結果需定時服藥，以及醫師根據病人血壓量測結果給藥，若血壓量測系統紀錄之時間與醫師判定之時間有誤差，有可能造成醫師誤判、醫師給藥紀錄比病人量測時間之紀錄還早、護理人員照護上的紊亂、病人血壓低卻仍服用降血壓藥等情形，其對於醫院病人的照護品質造成相當不好的影響，甚至可能危 及病人生命安全。 In general, the blood pressure measurement system used by hospitals, clinics, and home care centers causes measurement time deviations due to long-term use or artificial setting errors, resulting in inconsistent measurement time in the hospital. For example, inpatients are based on blood pressure measurement results. It is necessary to take the medicine regularly, and the doctor can administer according to the blood pressure measurement result of the patient. If the time recorded by the blood pressure measurement system is inaccurate with the time determined by the doctor, it may cause the doctor to misjudge the doctor and the doctor's medication record is earlier than the patient's measurement time record. The disorder of nursing staff care, the low blood pressure of the patient, but still taking blood pressure lowering drugs, etc., which have a very bad influence on the quality of care of hospital patients, and may even be dangerous. And patient safety.

再者，電子血壓計在高低溫差大的區域，例如中國大陸東北之室外負27度C，其內部電路板會因為溫差之關係而產生形變扭曲，進入室內回復18度C，電路板回復原狀過程再度產生扭曲之情形，則電子血壓計之量測精準度產生誤差；電子血壓計之電路板隨存放時間過久而產生形變，則電子血壓計之量測精準度會產生誤差；或是當使用者攀升至高海拔處時，內部校驗值會因為高度差異產生誤差，導致在高海拔處量測不精準，此時通常必須再送回原廠進行精準度校正，對於醫院或居家無法自行確認血壓計精準度之使用者，相當麻煩而且不便，且送回原廠所消耗之財力、時間以及人力，對於每日必須控制血壓值之使用者而言極度困擾。 In addition, the electronic sphygmomanometer in the high and low temperature difference area, such as the northeast of the mainland of China, the negative 27 degrees C, the internal circuit board will be deformed and distorted due to the temperature difference, enter the room to restore 18 degrees C, the circuit board returns to the original process When the distortion occurs again, the measurement accuracy of the electronic sphygmomanometer produces an error; if the circuit board of the electronic sphygmomanometer is deformed with a long storage time, the measurement accuracy of the electronic sphygmomanometer may cause an error; or when used When climbing to a high altitude, the internal check value will be inaccurate due to the height difference, resulting in inaccurate measurement at high altitude. At this time, it is usually necessary to return it to the original factory for accuracy correction. It is not possible to confirm the sphygmomanometer for the hospital or at home. The user of accuracy is rather cumbersome and inconvenient, and the financial, time and labor consumed by the factory is extremely troublesome for users who must control their blood pressure every day.

一般電子生理量測系統已於醫院、診所及居家照護中心中大量使用，但並無系統時間同步對時或自動檢驗並校正本身準確度之功能，在長期使用或是溫度變化導致量測準確度偏差，造成全院系統準確度以及量測時間無法統一，病人生理值量測誤差，醫生給藥錯誤，當護理人員發現偏差或至到達年度校驗時發現偏差，則必須再送回原廠進行精準度校正，對於每天必須使用電子生理量測系統的單位，其送回原廠所消耗的時間及造成病人血壓量測錯誤，都是相當嚴重問題。 The general electronic physiology measurement system has been widely used in hospitals, clinics and home care centers, but there is no function of system time synchronization or automatic verification and correction of its own accuracy. The measurement accuracy is caused by long-term use or temperature change. Deviation, the system accuracy and measurement time of the whole hospital cannot be unified, the patient's physiological value measurement error, the doctor's medication error, when the nursing staff finds the deviation or finds the deviation when the annual calibration is reached, it must be sent back to the original factory for precision. Degree correction, for the unit that must use the electronic physiological measurement system every day, the time it takes to return to the original factory and the measurement error of the patient's blood pressure are quite serious problems.

一般居家個人之電子血壓計並無系統時間同步對時或自動檢驗並校正本身準確度之功能，在長期使用或是溫度變化導致量測準確度偏差，生理值量測錯誤而不知道，如定期送回原廠進行精準度校正，其送回原廠所花費的時間及金錢，對於每日必須控制生理值之使用者或是必須依賴生理值量測而服藥之使用者而言極度困擾。 The general home electronic sphygmomanometer does not have the function of system time synchronization or automatic verification and correction of its own accuracy. In the long-term use or temperature change, the measurement accuracy deviation is caused, and the physiological value measurement error is not known, such as regular Returning to the original factory for accuracy correction, the time and money it takes to return to the original factory is extremely troublesome for users who must control physiological values every day or users who must rely on physiological measurements for medication.

目前遠距照護中心已廣泛使用電子血壓計量測及傳輸病人血壓、生理值資料回中心或醫院，在長期使用或是系統無法時間同步對時導致量測準確度偏差、生理值量測錯誤、服藥時間誤差，都是相當嚴重問題，又定時送回原廠進行時間同步及精準度校正，對於每天必須提供社區居民量測生理值之照護中心，其送回原廠所消耗的時間及耽誤 使用者量測，都是相當不便之處。 At present, the remote care center has widely used electronic blood pressure measurement to measure and transmit the patient's blood pressure and physiological value data back to the center or the hospital. When the long-term use or the system cannot synchronize the time, the measurement accuracy deviation, the physiological value measurement error, The time error of taking the drugs is a very serious problem, and it is sent back to the original factory for time synchronization and accuracy correction. For the care center that must provide the community residents to measure the physiological value every day, the time and delay of returning to the original factory is lost. User measurement is quite inconvenient.

對於居家個人之自我健康照護或自我健康遠距照護，在長期使用或是系統無法時間同步對時導致量測準確度偏差，血壓量測錯誤，都是相當嚴重問題，送回原廠進行時間同步及精準度校正所花費的時間及金錢，對於遠距照護之服務中心、每日必須控制生理值之使用者或是必須依賴生理值量測而服藥之使用者而言極度困擾。 For home personal self-health care or self-health remote care, when the long-term use or the system can not synchronize time, the measurement accuracy deviation, blood pressure measurement error, are quite serious problems, sent back to the original factory for time synchronization And the time and money spent on precision correction is extremely confusing for remote care service centers, users who must control physiological values on a daily basis, or users who must rely on physiological measurements for medication.

有鑑於此，因而發展出一種操作方便可遠端同步對時之電子生理量測系統，以解決上述之缺失。 In view of this, an electronic physiological measurement system that is convenient to operate and can be remotely synchronized is developed to solve the above-mentioned deficiency.

本發明之主要目的係在提供一種可遠端同步對時之電子生理量測系統，此電子生理量測系統可利用系統本身之遠端同步對時功能自動達成系統時間同步對時，其係利用一雲端資料庫透過傳輸單元接收及統整一電子生理監測裝置所量測之生理值資訊，並可遠端進行該電子生理監測裝置與該雲端資料庫時間同步對時。或是遠端檢驗該電子生理監測裝置準確度、遠端校正該電子生理監測裝置準確度。而無需再回原廠利用特殊儀器進行校正或額外人工設定，且可遠端同步對時之電子生理量測系統，成本並無提高且不需負擔額外之人力及金錢支出即可達到校正準確度之目的。 The main object of the present invention is to provide an electronic physiological measurement system capable of remotely synchronizing timing, which can utilize the remote synchronization timing function of the system itself to automatically achieve a system time synchronization pair. The cloud database receives and integrates the physiological value information measured by the electronic physiological monitoring device through the transmission unit, and can remotely synchronize the time between the electronic physiological monitoring device and the cloud database. Or remotely verify the accuracy of the electronic physiological monitoring device and remotely correct the accuracy of the electronic physiological monitoring device. There is no need to go back to the original factory to use special instruments for calibration or additional manual settings, and the remote and synchronous electronic and physiological measurement system can be used to achieve the accuracy of correction without additional manpower and money. The purpose.

本發明可適用於將電子生理量測裝置連接一外部電子裝置，例如一電性連接的個人電腦、一個人數位助理、一行動通訊設備、一智慧型手機或是一遠距傳輸模組，如此可減少電子生理量測裝置的元件複雜性，以及進行長期、大量生理值資料處理與控管、系統時間同步對時資訊的交換，也可將校正值以及生理值資料傳送至一伺服器系統進行統整與處理，可依不同需求的病患、老人及一般使用者，提供適合的幫助。 The invention can be applied to connect an electronic physiological measuring device to an external electronic device, such as an electrically connected personal computer, a number of assistants, a mobile communication device, a smart phone or a remote transmission module. Reduce the complexity of the components of the electrophysiological measurement device, and exchange information for long-term, large-scale physiological value data processing and control, system time synchronization, and transmit the correction value and physiological value data to a server system. The whole process and treatment can provide suitable help for patients, elderly people and general users with different needs.

為達到上述目的，本發明之一實施例之一種可遠端同步對時之電 子生理量測系統，其係由一電子生理量測裝置與一雲端資料庫而組成，該雲端資料庫，係用以接收及統整該生理值資訊，並可遠端進行該系統之時間同步對時，該電子生理監測裝置包含：一偵測單元，用以偵測一生理值資訊；一運算處理單元，連接於該偵測單元，用以運算該生理值資訊或處理一同步對時資訊；以及一傳輸單元，連接於該運算處理單元，係透過有線或無線傳輸方式以傳輸該生理值資訊至一雲端資料庫，或是從該雲端資料庫接收該同步對時資訊，進行該系統之時間同步對時。 In order to achieve the above object, an embodiment of the present invention can remotely synchronize the timing of electricity The sub-physiological measurement system is composed of an electronic physiological measurement device and a cloud database, and the cloud database is used for receiving and integrating the physiological value information, and remotely performing time synchronization of the system. In time, the electronic physiological monitoring device comprises: a detecting unit for detecting a physiological value information; and an arithmetic processing unit connected to the detecting unit for calculating the physiological value information or processing a synchronous time information And a transmission unit connected to the operation processing unit to transmit the physiological value information to a cloud database through wired or wireless transmission, or receive the synchronization time information from the cloud database, and perform the system Time synchronization is timed.

其中，更包含一遠端校正單元，可由該雲端資料庫遠端透過該傳輸單元檢驗該電子生理監測裝置準確度或校正該電子生理監測裝置準確度。 The remote correction unit may further comprise, by the remote end of the cloud database, the accuracy of the electronic physiological monitoring device or the accuracy of the electronic physiological monitoring device.

本發明另一實施例之一種可自動檢驗並校正本身準確度之血壓量測裝置，其係由一電子生理量測裝置與一外部電子裝置電性連接而組成，該可遠端同步對時之電子生理量測系統更包含一雲端資料庫，該電子生理監測裝置包含：一偵測單元，用以偵測一生理值資訊；一運算處理單元，連接於該偵測單元，用以運算該生理值資訊或處理一同步對時資訊；以及一連接單元，電性連接該運算處理單元，用以與該外部電子裝置連接，藉以與該外部電子裝置交換一同步對時資訊及該生理值資訊至少其中之一；該外部電子裝置包含：一傳輸單元，係透過有線或無線傳輸方式以傳輸該生理值資訊至一雲端資料庫，或是從該雲端資料庫接收該同步對時資訊，並可透過該連接單元進行該系統之時間同步對時。 Another embodiment of the present invention is a blood pressure measuring device capable of automatically checking and correcting its own accuracy, which is composed of an electronic physiological measuring device electrically connected to an external electronic device, and the remotely synchronizable time is The electronic physiological measurement system further comprises a cloud data base, the electronic physiological monitoring device comprises: a detecting unit for detecting a physiological value information; an arithmetic processing unit connected to the detecting unit for calculating the physiological Value information or processing a synchronization time information; and a connection unit electrically connected to the operation processing unit for connecting with the external electronic device, so as to exchange at least one synchronization time information and the physiological value information with the external electronic device One of the external electronic devices includes: a transmission unit that transmits the physiological value information to a cloud database through wired or wireless transmission, or receives the synchronization time information from the cloud database, and The connection unit performs time synchronization of the system.

其中，更包含一遠端校正單元，可由該雲端資料庫遠端透過該傳輸單元及該連接單元檢驗該電子生理監測裝置準確度或校正該電子生理監測裝置準確度。 The remote calibration unit further includes a remote end of the cloud database for verifying the accuracy of the electronic physiological monitoring device or correcting the accuracy of the electronic physiological monitoring device through the transmitting unit and the connecting unit.

底下藉由具體實施例配合所附的圖示詳加說明，當更容易瞭解本發明之目的、技術內容、特點及其所達成之功效。 The purpose, technical content, features, and effects achieved by the present invention will become more apparent from the detailed description of the embodiments and the accompanying drawings.

本發明針對習知之生理量測電子醫療器材改良提出一種可遠端同步對時之電子生理量測系統10。於血壓量測系統為例，可於該系統啟動時、生理值偵測完畢或特定時間區間進行時間同步對時。再者，系統也可針對不同壓力值進行反應，與壓力相對應之數位訊號，例如取樣壓力0 mmHg。可遠端同步對時之電子生理量測系統10內建各壓力與相對應數位訊號之數值，為原廠進行出廠校驗之數值，原廠出廠校驗值可為一組或一組以上。則此系統於該系統啟動時、生理值偵測完畢或特定時間區間可利用此內建之數值，去比較所測之壓力數值，例如0 mmHg，即可得到壓力之誤差，遠端校正該誤差。 The present invention proposes an electronic physiological measurement system 10 capable of remotely synchronized timing for the improvement of the conventional physiological measurement electronic medical device. For example, in the blood pressure measurement system, time synchronization can be performed when the system is started, physiological value is detected, or a specific time interval is performed. Furthermore, the system can also react to different pressure values, digital signals corresponding to the pressure, such as a sampling pressure of 0 mmHg. The value of each pressure and corresponding digital signal built in the electronic physiological measurement system 10 of the remote synchronization time is the value of the original factory calibration, and the original factory calibration value may be one or more sets. Then, the system can use the built-in value when the system is started, the physiological value is detected, or the specific time interval, and the pressure value measured, for example, 0 mmHg, can obtain the pressure error, and the remote end corrects the error. .

圖1所示為本發明一實施例之可遠端同步對時之電子生理量測系統之結構示意圖，如圖所示，可遠端同步對時之電子生理量測系統10，其係由一電子生理量測裝置110與一雲端資料庫20而組成，該雲端資料庫20，係用以接收及統整該生理值資訊，並可遠端進行該系統之時間同步對時，該電子生理監測裝置110包含：一偵測單元102，用以偵測一生理值資訊；一運算處理單元105，連接於該偵測單元102，用以運算該生理值資訊或處理一同步對時資訊；以及一傳輸單元109，連接於該運算處理單元105，係透過有線或無線傳輸方式以傳輸該生理值資訊至一雲端資料庫20，或是從該雲端資料庫20接收該同步對時資訊，進行該系統之時間同步對時。 1 is a schematic structural diagram of an electronic physiological measurement system capable of remotely synchronizing timing according to an embodiment of the present invention. As shown in the figure, an electronic physiological measurement system 10 capable of remote synchronization is provided by a The electronic physiological measurement device 110 is composed of a cloud data base 20, which is used for receiving and integrating the physiological value information, and can remotely perform time synchronization of the system, the electronic physiological monitoring The device 110 includes: a detecting unit 102 for detecting a physiological value information; an operation processing unit 105 connected to the detecting unit 102 for calculating the physiological value information or processing a synchronous time information; The transmission unit 109 is connected to the operation processing unit 105, and transmits the physiological value information to a cloud database 20 through a wired or wireless transmission manner, or receives the synchronization time information from the cloud database 20, and performs the system. The time is synchronized.

其中，該系統更包含一遠端校正單元(圖中未示)，可由該雲端資料庫20遠端透過該傳輸單元102檢驗該電子生理監測裝置110準確度或校正該電子生理監測裝置110準確度。 The system further includes a remote correction unit (not shown), and the remote end of the cloud database 20 can verify the accuracy of the electronic physiological monitoring device 110 or correct the accuracy of the electronic physiological monitoring device 110 through the transmission unit 102. .

於一實施例中，生理值資訊包含有一血壓值。 In one embodiment, the physiological value information includes a blood pressure value.

其中，可遠端同步對時之電子生理量測系統10可於該系統啟動時、生理值偵測完畢或特定時間區間由該雲端資料庫20對該電子生理監測裝置110進行時間同步對時。其中，可遠端同步對時之電子生理量測系統10可於該系統啟動時、生理值偵測完畢或特定時間區間由該 電子生理監測裝置110對該雲端資料庫20要求進行時間同步對時。 The remote physiological synchronization measuring system 10 can perform time synchronization of the electronic physiological monitoring device 110 by the cloud database 20 when the system is started, the physiological value is detected, or the specific time interval. The remote physiological synchronization measuring system 10 can be used when the system is started, the physiological value is detected, or the specific time interval is The electronic physiological monitoring device 110 requests time synchronization of the cloud database 20.

以血壓量測為例，在一般量測模式中，偵測單元102偵測到之壓力資訊為一血壓資訊，運算處理單元105對所量測到的血壓資訊進行資料處理。 Taking the blood pressure measurement as an example, in the general measurement mode, the pressure information detected by the detecting unit 102 is a blood pressure information, and the operation processing unit 105 performs data processing on the measured blood pressure information.

在遠端同步對時模式中，該傳輸單元109透過該運算處理單元105讀取一時間資訊，並透過有線或無線方式連接該雲端資料庫20進行系統同步對時。該傳輸單元109並可透過該偵測單元102以及該運算處理單元105接收一血壓資訊，並與該雲端資料庫20之原廠出廠校驗值進行比對並達成自我校正。例如取樣血壓0 mmHg為校正點，當壓力訊號與原廠出廠校驗值比對超過誤差值範圍時，則該雲端資料庫20校正此誤差為原廠出廠校驗值，達成遠端檢驗並校正本身準確度。 In the remote synchronization timing mode, the transmission unit 109 reads the time information through the operation processing unit 105, and connects the cloud database 20 by wire or wirelessly to perform system synchronization. The transmission unit 109 can receive a blood pressure information through the detecting unit 102 and the operation processing unit 105, and compare with the original factory calibration value of the cloud database 20 to achieve self-correction. For example, the sampling blood pressure 0 mmHg is the calibration point. When the pressure signal is compared with the original factory calibration value, the cloud database 20 corrects the error to the original factory calibration value, and the remote inspection and correction are achieved. Its own accuracy.

圖2所示為本發明又一實施例之可遠端同步對時之電子生理量測系統10之結構示意圖。如圖所示，由一電子生理量測裝置40與一外部電子裝置30電性連接而組成，該可遠端同步對時之電子生理量測系統10更包含一雲端資料庫20，該電子生理監測裝置40包含：一偵測單元402，用以偵測一生理值資訊；一運算處理單元405，連接於該偵測單元402，用以運算該生理值資訊或處理一同步對時資訊；以及一連接單元404，電性連接該運算處理單元405，用以與該外部電子裝置30連接，藉以與該外部電子裝置30交換一同步對時資訊及該生理值資訊至少其中之一；該外部電子裝置30包含：一傳輸單元309，係透過有線或無線傳輸方式以傳輸該生理值資訊至一雲端資料庫20，或是從該雲端資料庫20接收該同步對時資訊，並可透過該連接單元404進行該系統之時間同步對時。 FIG. 2 is a schematic structural diagram of an electronic physiological measurement system 10 capable of remotely synchronized timing according to still another embodiment of the present invention. As shown in the figure, an electronic physiological measuring device 40 is electrically connected to an external electronic device 30. The remotely-synchronized electronic physiological measuring system 10 further includes a cloud database 20, which is electronically physiological. The monitoring device 40 includes: a detecting unit 402 for detecting a physiological value information; an operation processing unit 405 connected to the detecting unit 402 for calculating the physiological value information or processing a synchronous time information; A connection unit 404 is electrically connected to the operation processing unit 405 for connecting with the external electronic device 30, so as to exchange at least one of the synchronization time information and the physiological value information with the external electronic device 30; the external electronic device The device 30 includes: a transmission unit 309, configured to transmit the physiological value information to a cloud database 20 through a wired or wireless transmission manner, or receive the synchronization time information from the cloud database 20, and through the connection unit 404 performs time synchronization of the system.

其中，該系統更包含一遠端校正單元(圖中未示)，可由該雲端資料庫20遠端透過該傳輸單元309及該連接單元404檢驗該電子生理監測裝置40準確度或校正該電子生理監測裝置40準確度。 The system further includes a remote correction unit (not shown), and the remote end of the cloud database 20 can be used to check the accuracy of the electronic physiological monitoring device 40 or correct the electronic physiology through the transmission unit 309 and the connection unit 404. The accuracy of the monitoring device 40 is monitored.

此可遠端同步對時之電子生理量測系統10，可於該系統啟動時、生理值偵測完畢或特定時間區間由該雲端資料庫20透過該外部電子裝 置30對該電子生理監測裝置40進行該系統時間同步對時。此可遠端同步對時之電子生理量測系統10，可於該系統啟動時、生理值偵測完畢或特定時間區間由該電子生理監測裝置40透過該外部電子裝置30對該雲端資料庫20要求進行該系統時間同步對時。此可遠端同步對時之電子生理量測系統10，可於該系統啟動時、生理值偵測完畢或特定時間區間由該外部電子裝置30對該雲端資料庫20要求進行該系統時間同步對時。 The remotely-synchronized electronic physiological measurement system 10 can be used by the cloud database 20 to transmit the external electronic device when the system is started, the physiological value is detected, or the specific time interval is The system 30 performs the system time synchronization check on the electronic physiological monitoring device 40. The remotely-synchronized electronic physiological measurement system 10 can be used by the electronic physiological monitoring device 40 through the external electronic device 30 to activate the cloud database 20 when the system is started, the physiological value is detected, or a specific time interval. The time synchronization of the system is required. The remotely-synchronized electronic physiological measurement system 10 can request the time synchronization of the system by the external electronic device 30 when the system is started, the physiological value is detected, or the specific time interval is specified. Time.

以血壓量測為例，在一般量測模式中，偵測單元402偵測到血壓及生理值訊號並傳送給該運算處理單元405，並透過該連接單元404將所有測得之血壓資訊傳輸至該外部電子裝置30進行資料處理。於此實施例中，該外部電子裝置30可為一電性連接的個人電腦、一個人數位助理、一行動通訊設備、一智慧型手機或是一遠距傳輸模組。 Taking the blood pressure measurement as an example, in the normal measurement mode, the detecting unit 402 detects the blood pressure and the physiological value signal and transmits the signal to the operation processing unit 405, and transmits all the measured blood pressure information to the connection unit 404 through the connection unit 404. The external electronic device 30 performs data processing. In this embodiment, the external electronic device 30 can be an electrically connected personal computer, a personal assistant, a mobile communication device, a smart phone, or a remote transmission module.

在遠端同步對時模式中，該連接單元404及該傳輸單元309透過該運算處理單元405讀取一時間資訊，並透過有線或無線方式連接該雲端資料庫20進行系統同步對時。該傳輸單元309並可透過該偵測單元402以及該運算處理單元405接收一血壓值，並與該雲端資料庫20之原廠出廠校驗值進行比對並達成自我校正。例如取樣血壓0 mmHg為校正點，當壓力訊號與原廠出廠校驗值比對超過誤差值範圍時，則該雲端資料庫20校正此誤差為原廠出廠校驗值，並透過該連接單元404達成遠端檢驗並校正本身準確度。需注意者，該傳輸單元309也可以軟體型式載入該外部電子裝置30。 In the remote synchronization timing mode, the connection unit 404 and the transmission unit 309 read a time information through the operation processing unit 405, and connect the cloud database 20 by wire or wirelessly to perform system synchronization. The transmission unit 309 can receive a blood pressure value through the detection unit 402 and the operation processing unit 405, and compare with the original factory calibration value of the cloud database 20 to achieve self-correction. For example, the sampling blood pressure 0 mmHg is a calibration point. When the pressure signal is compared with the original factory calibration value, the cloud database 20 corrects the error to the original factory calibration value, and passes through the connection unit 404. A remote test is achieved and the accuracy of itself is corrected. It should be noted that the transmission unit 309 can also be loaded into the external electronic device 30 in a soft type.

本發明提出一種可遠端同步對時之電子生理量測系統10，其重要性為，當生理量測系統在長期使用或是人為設定誤差導致量測時間偏差，造成醫院醫師誤判、醫師給藥紀錄比病人量測時間之紀錄還早、護理人員照護上的紊亂、病人血壓低卻服用降血壓藥等情形，其對於醫院病人的照護品質造成相當不好的影響，甚至可能危及病人生命安全，本發明之可遠端同步對時之電子生理量測系統10可提供系統時間的統一，並自動透過遠端進行系統時間同步對時。再者，當該系統電路板隨時間產生形變扭曲時、使用者旅途攜帶或是運貨途中，遇到高 低溫差大之環境，或是海拔高度差異大之環境導致電路板扭曲等原因所造成的量測誤差，其遠端之自我檢驗及校正機制將可確保使用者所量測到的生理值皆為正確，此發明提出的可遠端同步對時之電子生理量測系統10，除了可確保儀器本身準確度以及時間準確度，更可提供使用者健康之保障。因此可遠端同步對時之電子生理量測系統10，可提供醫師及病人準確之服藥指標，避免電子生理量測系統之錯誤時間及生理值所導致的嚴重後果，以及節省送回原廠校正之時間與金錢。如此可大量簡化校驗流程，提供高便利性的生理量測值測量裝置 The invention provides an electronic physiological measurement system 10 capable of remotely synchronizing timing, the importance of which is that when the physiological measurement system is used for a long time or the artificial setting error causes measurement time deviation, the hospital physician misjudges and the physician applies the medicine. The record is earlier than the record of the patient's measurement time, the disorder of the nursing staff's care, the patient's low blood pressure, but taking the blood pressure lowering drug, etc., which has a very bad influence on the quality of hospital patients' care, and may even endanger the patient's life safety. The remotely synchronic timed electronic physiological measurement system 10 of the present invention can provide uniform system time and automatically perform system time synchronization timing through the remote end. Moreover, when the circuit board of the system is deformed and distorted over time, the user encounters or carries the goods during the journey, and encounters a high The measurement error caused by the low temperature difference environment or the environment where the altitude difference is large causes the circuit board to be distorted. The remote self-test and correction mechanism will ensure that the physiological values measured by the user are all Correctly, the remotely-synchronized electronic physiological measurement system 10 proposed by the invention not only ensures the accuracy of the instrument itself but also the time accuracy, and provides the user's health protection. Therefore, the remote physiological synchronization measuring system 10 can provide the doctor and the patient with accurate medication indications, avoid the serious consequences caused by the wrong time and physiological value of the electronic physiological measurement system, and save the return to the original factory correction. Time and money. This greatly simplifies the verification process and provides a highly convenient physiological measurement measuring device.

綜合上述，本發明提供一種可遠端同步對時之電子生理量測系統10。其係兼具有原量測功能及可遠端自動系統時間同步對時之功能。可依不同需求的病患、老人及一般使用者，提供適合的幫助。 In summary, the present invention provides an electronic physiological measurement system 10 that can be remotely synchronized. It has the functions of original measurement function and time synchronization of remote automatic system. Appropriate help can be provided for patients, elderly and general users of different needs.

以上所述之實施例僅係為說明本發明之技術思想及特點，其目的在使熟習此項技藝之人士能夠瞭解本發明之內容並據以實施，當不能以之限定本發明之專利範圍，即大凡依本發明所揭示之精神所作之均等變化或修飾，仍應涵蓋在本發明之專利範圍內。 The embodiments described above are merely illustrative of the technical spirit and the features of the present invention, and the objects of the present invention can be understood by those skilled in the art, and the scope of the present invention cannot be limited thereto. That is, the equivalent variations or modifications made by the spirit of the present invention should still be included in the scope of the present invention.

10‧‧‧可遠端同步對時之電子生理量測系統 10‧‧‧ Electrophysiological measurement system with remote synchronization

102、402‧‧‧偵測單元 102, 402‧‧‧Detection unit

404‧‧‧連接單元 404‧‧‧Connecting unit

105、405‧‧‧運算處理單元 105, 405‧‧‧Operation Processing Unit

109、309‧‧‧傳輸單元 109, 309‧‧‧ transmission unit

20‧‧‧雲端資料庫 20‧‧‧Cloud database

30‧‧‧外部電子裝置 30‧‧‧External electronic devices

110、40‧‧‧電子生理監測裝置 110, 40‧‧‧Electronic physiological monitoring device

圖1所示為本發明一實施例之可遠端同步對時之電子生理量測系統之結構示意圖。 FIG. 1 is a schematic structural diagram of an electronic physiological measurement system capable of remote synchronization timing according to an embodiment of the present invention.

圖2所示為本發明又一實施例之可遠端同步對時之電子生理量測系統之結構示意圖。 FIG. 2 is a schematic structural diagram of an electronic physiological measurement system capable of remotely synchronizing timing according to still another embodiment of the present invention.

10‧‧‧可遠端同步對時之電子生理量測系統 10‧‧‧ Electrophysiological measurement system with remote synchronization

102‧‧‧偵測單元 102‧‧‧Detection unit

105‧‧‧運算處理單元 105‧‧‧Operation Processing Unit

109‧‧‧傳輸單元 109‧‧‧Transportation unit

20‧‧‧雲端資料庫 20‧‧‧Cloud database