CN102670184B - Self-service type cardiovascular function detecting system and using method thereof - Google Patents

Abstract

The invention provides a self-service type cardiovascular function detecting system and a using method thereof. The system comprises an identity information acquisition component, a blood pressure and pulse wave signal acquisition component and a man-machine interaction component, and a man-machine interaction technology and an identity identification technology are combined. The using method of the self-service type cardiovascular function detecting system comprises the following steps: firstly, switching on the power supply and starting the system; secondly, verifying individual identity information; judging whether the verification succeeds; entering into a testing interface and preparing acquisition of blood pressure and pulse wave data; measuring the blood pressure; measuring the pulse wave; analyzing and storing the blood pressure and the pulse wave data; and storing, displaying and printing the testing result. The self-service type cardiovascular function detecting system has the functions of measuring procedure introduction, operation step-by-step guidance, detecting state prompting, detecting quality evaluation and the like; a user can perform corresponding operation according to the prompting of videos, flashes, images and words in analysis software; and the self-service detection of the cardiovascular function can be accomplished conveniently and rapidly without the assistance of professional personnel.

Description

Self-service cardiovascular function detection system and using method thereof

Technical field

The present invention relates to sensor technology and biomedical engineering, particularly a kind of self-service cardiovascular function detection system and using method thereof.

Background technology

Cardiovascular disease is to cause in world wide to disable and too early main causes of death, according to world Heart Federation, add up, in interior every dead three people of worldwide, with regard to the cause of the death that a people is arranged, it is cardiovascular disorder, and the mortality rate of cardiovascular disease, far above the other diseases that comprises cancer, acquired immune deficiency syndrome (AIDS), has become " the No.1 killer " that threaten human health.

In China, improving constantly along with the resident living level in recent years, the continuous variation of dietary structure, add the deterioration of natural environment, the prevalence of middle-aged and elderly people cardiovascular disease, M & M all are the trend risen year by year, so find as early as possible such disease, and can reduce cardiovascular disease to human life and healthy harm by intervening measure and the suitable Drug therapy of strengthening life style.Therefore, thereby cardiovascular some parameter is monitored, to assess cardiovascular health status particularly important, and this wherein take to the monitoring of human pulse ripple and analysis especially is Main Means.

When pulse wave is cardiac pumping, endovascular pressure changes waveform, and it can be along with arterial tree is propagated to the tremulous pulse end.Pulse wave has two ingredients: advancing wave and echo.Advancing wave is produced by heart contraction, and it can be propagated and can be reflected by the tremulous pulse bifurcated along large artery trunks; Echo returns at relaxing period usually, after aortic valve closing.The integrated informations such as the form that pulse wave presents (waveform), intensity (wave amplitude), speed (velocity of wave) and the rhythm and pace of moving things (cycle), the flow characteristic that reflects to a great extent many physiological and pathologicals in cardiovascular system of human body, therefore by gathering the function of pulse wave and then analyzing cardiovascular system, can objectively respond from an aspect health condition of human body.

Common cardiovascular detector mainly contains the Complior arteriosclerosis detecting system that French Artech-Medical company develops in the market, also has the SphygmoCor pulse wave monitoring system of Australian AtCor Medical company research and development.Although this series products advanced technology, accuracy of detection is high, and because it is expensive, complicated operation need to just can complete measuring operation under professional's guidance, is difficult to realize the operation of user self-help formula and measures, and is not suitable for the self-service detection of mid-aged population.

The patent that existing published application number is the 200910185373.X invention, introduced a kind of cardiovascular function assessment system based on radial artery pulse wave, can obtain user's blood pressure and pulse waveform by this system, also can obtain the parameter of some cardiovascular status by analyzing, but this patent does not realize user self-help formula measuring ability yet, thereby be not suitable for equally the self-service detection of mid-aged population.

Summary of the invention

Purpose of the present invention is exactly to need professional operator to be operated in order to solve existing cardiovascular function checkout equipment, can not realize user self-help formula operational measure and a solution of proposing.The object of the present invention is to provide a kind of self-service cardiovascular function detection system and using method thereof, this system has the functions such as measurement procedure introduction, the guiding of operation substep, detected state prompting and detection quality evaluation, the user operates accordingly according to the prompting of video, animation, picture and word in analysis software, just can complete easily and quickly the self-service detection of inspection cardiovascular function without professional's help.

Particular content: the invention provides a kind of self-service cardiovascular function detection system and using method thereof, this system comprises that identity obtains parts, blood pressure and pulse wave signal acquisition component, man-machine interaction parts.Particularly:

The man-machine interaction parts comprise the touch screen computer of mutual electrical connection, the CAN card, analysis software and felt pen, wherein: analysis software is arranged on the touch screen computer, carry out real-time demonstration and analyzing and processing for the pulse wave data that blood pressure and pulse wave signal acquisition component are sent up, the CAN card is for connecting blood pressure and pulse wave signal acquisition component, felt pen is for controlling the touch screen computer, analysis software in the man-machine interaction parts is the data analysis to blood pressure and the transmission of pulse wave signal acquisition component by index system, and real-time display analysis obtains information on the touch screen computer,

Identity information obtains parts and comprises card reader, identification card, card reader is for obtaining the individual subscriber identity information that is stored in identification card, identity information obtains parts and is electrically connected to the touch screen computer in the man-machine interaction parts by serial ports, and the Information Authentication in identification card is carried out remote validation by service centre;

Blood pressure and pulse wave signal acquisition component comprise pulse wave signal harvester, pulse wave sensor, pulse wave measurement folder, sphygmomanometer girding, baroceptor, the pulse wave signal harvester is for gathering the data that user's blood pressure and pulse is relevant, and these data are simply processed, this pulse wave signal harvester is electrically connected to the man-machine interaction parts by the CAN card, wherein:

Sphygmomanometer girding is for obtaining the data that user's blood pressure is relevant, this sphygmomanometer girding is threaded with the air flows device in the pulse wave signal harvester by a root rubber pipe, the baroceptor be fixed on sphygmomanometer girding is electrically connected to the signal conditioning circuit in the pulse wave signal harvester by a holding wire, during measurement, sphygmomanometer girding is enclosed within on user's left hand wrist and fixes, the pulse wave harvester is controlled and is installed on the air pump in the pulse wave signal harvester, by air flows device and rubber tube, sphygmomanometer girding is inflated, gather user's blood pressure signal by baroceptor,

Pulse wave sensor is arranged on the pulse wave measurement folder, during measurement, pulse wave measurement is clipped on user's left hand wrist, make pulse wave sensor be close to the skin of user's left hand wrist radius top, for converting user's human pulse signal to signal conditioning circuit that the signal of telecommunication is sent to the pulse wave signal harvester, and the control chip in the pulse wave signal harvester is processed the user's pulse signal gathered.

As a further improvement of existing technologies: described analysis software is by the data analysis to blood pressure and the transmission of pulse wave signal acquisition component, obtain the performance indications of ten reflection cardiac functions and vascular function, be respectively systolic pressure, diastolic pressure, center pressure, pulse pressure, echo gain index, pulse frequency, ejection time, left cardiac load, heart muscle perfusion amount and subendocardiac muscle vigor rate;

Described on the touch screen computer in real time display analysis obtain information or be printed report;

Information Authentication in described identification card is carried out remote validation by service centre, or is verified by local data base.

A kind of using method of self-service cardiovascular function detection system, particularly: the concrete steps of self-service cardiovascular function detection system using method are:

A, beginning, opening power, startup system; The man-machine interaction parts, the identity information that start in self-service cardiovascular function detection system obtain parts, blood pressure and pulse wave signal acquisition component, make it to start working;

B, personally identifiable information checking; The user is placed on by identification card the district that swipes the card that identity information obtains the parts top, stores user's name, sex, age, height, body weight identity information in identification card;

Are whether c, judgement verified successful? identity information obtains parts and automatically reads the individual subscriber identity information of storing in identification card, and this information is sent to the man-machine interaction parts is verified;

D, enter test interface, preparation for acquiring blood pressure and pulse wave datum; Analysis software enters the pulse wave test interface automatically, preparation for acquiring blood pressure and pulse wave datum;

E, Measure blood pressure; Sphygmomanometer girding is enclosed within on user's left hand wrist and fixes, and according to the related text that provides method of testing and test interface to provide in video and picture prompting Measure blood pressure, after measuring end, analysis software provides measurement result automatically;

F, measurement pulse wave; Pulse wave measurement is clipped on user's left hand wrist, makes pulse wave sensor be close to the skin of user's left hand wrist radius top, the operation indicating provided according to test interface starts to gather the pulse wave data;

G, analysis, storage blood pressure and pulse wave data; After the pulse wave signal collection finishes, analysis software provides the value of the indices such as heart rate, systolic pressure, diastolic pressure, center pressure, gain index, ejection time, left cardiac load, heart muscle perfusion and subendocardiac muscle vigor rate automatically, and these desired values is stored in the network data base of man-machine interaction parts and server;

H, preservation, the display measurement result is also printed;

I, end.

Beneficial effect

The present invention contrasts existing product and has following innovative point:

The self-service cardiovascular function detection system of the present invention, comprise blood pressure and pulse wave signal acquisition component, man-machine interaction parts, and identity information obtains parts, in self-service cardiovascular function detection system, merged human-computer interaction technology and identity recognizing technology.

The present invention can watch the demonstration video on the analysis software test interface for the user, measuring method and the operating process of blood pressure and pulse ripple have at length been demonstrated in demonstration video, after finishing watching demonstration video, related text and picture prompting that the user can provide according to the method in video and test interface carry out the measurement of blood pressure and pulse ripple.In measuring process, system can be identified automatically to user's left hand wrist radial pulse position, and according to the quality of pulse signal quality, suitable adjustment is carried out in the pulse position.After measuring end, the data that analysis software blood pressure and pulse wave signal acquisition component collect, can obtain indices value and the concrete Health Status of Cardiovascular System of user in special index system; Analysis software provides corresponding intervening measure for user's Health Status of Cardiovascular System, each desired value obtained according to different measure of time is drawn healthy curve, automatically provide measurement result and be saved in personal information, on the touch screen computer, show in real time, form printed report, printed by printer.

Its two, the using method step of the self-service cardiovascular function detection system of the present invention comprises beginning, opening power, startup system; The personally identifiable information checking; Whether the judgement checking successful? enter the test interface of analysis software, preparation for acquiring blood pressure and pulse wave datum; Measure blood pressure; Measure pulse wave; Analyze, store blood pressure and pulse wave data; Preserve, the display measurement result is also printed.

In measurement, the present invention has measurement procedure introduction, the guiding of operation substep, detected state prompting and quality assessment function, provide the associative operation prompting by various ways such as video, animation, picture and words, make the user can grasp easily and quickly testing process, complete independently operations and do not need professional's guidance and help.Make complicated operation, the cardiovascular function that need to have the professional to instruct detects and becomes self-service measurement simple to operate, and the detection of carrying out daily cardiovascular function for each age group crowd especially mid-aged population provides feasibility and convenience.

The accompanying drawing explanation

Fig. 1 is the population structure connection diagram of self-service cardiovascular function detection system;

Fig. 2 is the circuit module schematic diagram of self-service cardiovascular function detection system;

Fig. 3 is the modular circuit connection diagram of blood pressure and pulse wave signal acquisition component in the present invention;

Fig. 4 is the measurement procedure figure of self-service cardiovascular function detection system using method.

The specific embodiment

Below in conjunction with drawings and embodiments, the present invention is further illustrated.

Fig. 1 is the population structure connection diagram of self-service cardiovascular function detection system; As can be seen from Figure 1, this system comprises: man-machine interaction parts 1, identity information obtain parts 2, blood pressure and pulse wave signal acquisition component 3.Wherein:

Man-machine interaction parts 1 comprise: touch screen computer 11, CAN card 12, analysis software 13, felt pen 14;

Identity information obtains parts 2, comprising: card reader 21, identification card 22;

Blood pressure and pulse wave signal acquisition component 3 comprise: pulse wave signal harvester 30, pulse wave sensor 31, pulse wave measurement folder 32, sphygmomanometer girding 33, baroceptor 34;

Pulse wave signal harvester 30 is for gathering the data data relevant with pulse that user's blood pressure is relevant, and these data are simply processed.This pulse wave signal harvester 30 is connected with man-machine interaction parts 1 by CAN card 12.Wherein:

Sphygmomanometer girding 33 is for obtaining the data that user's blood pressure is relevant, this sphygmomanometer girding 33 is threaded with the air flows device in pulse wave signal harvester 30 by a root rubber pipe, the baroceptor 34 be fixed on sphygmomanometer girding 33 is electrically connected to the signal conditioning circuit in pulse wave signal harvester 30 by a holding wire, during measurement, sphygmomanometer girding 33 is enclosed within on user's left hand wrist and fixes, pulse wave harvester 30 is controlled and is installed on the air pump in pulse wave harvester 30, by air flows device and rubber tube, sphygmomanometer girding 33 is inflated, gather blood pressure data by baroceptor 34.

Pulse wave sensor 31 is installed on pulse wave measurement folder 32, pulse wave measurement folder 32 is clipped on user's left hand wrist, make pulse wave sensor be close to the skin of user's left hand wrist radius top, for converting user's human pulse signal to signal conditioning circuit that the signal of telecommunication is sent to pulse wave harvester 30, and the control chip in pulse wave harvester 30 is processed the user's pulse signal gathered;

Identity information obtains parts 2 and obtains the individual subscriber identity information be stored in identification card 22 by card reader 21, and identity information obtains parts 2 and is electrically connected to man-machine interaction parts 1 by serial ports.

Man-machine interaction parts 1 comprise touch screen computer 11, CAN card 12 and analysis software 13.Analysis software 13 carries out real-time demonstration and analyzing and processing for blood pressure and pulse wave signal acquisition component 1 sent to the pulse wave data of coming up.The data analysis that analysis software 13 in man-machine interaction parts 1 transmits blood pressure and pulse wave signal acquisition component 3 by an index system.This index system comprises ten performance indications that can reflect cardiac function and vascular function: systolic pressure, diastolic pressure, center pressure, pulse pressure, echo gain index, pulse frequency, ejection time, left cardiac load, heart muscle perfusion amount and subendocardiac muscle vigor rate.The data that analysis software 13 can collect by analysis blood pressure and pulse wave signal acquisition component 3 obtain indices value and the concrete Health Status of Cardiovascular System of user in special index system, Health Status of Cardiovascular System that can also be concrete for the user provides corresponding intervening measure, these information all show in real time on touch screen computer 11, can form printed report, each desired value that analysis software 13 can also obtain according to different measure of time is drawn healthy curve.

Fig. 3 is the circuit module schematic diagram of blood pressure of the present invention and pulse wave signal acquisition component; Fig. 3 comprises pulse wave signal harvester 30, pulse wave sensor 31, the pressure transducer 34 of mutual electrical connection, wherein pulse wave sensor 31 is arranged on pulse wave measurement folder 32, for gathering the data that user's pulse wave is relevant, baroceptor 34 is arranged on sphygmomanometer girding 33, for obtaining the data that user's blood pressure is relevant; Sphygmomanometer girding 33 is threaded with the air flows device in pulse wave signal harvester 30 by a root rubber pipe, and baroceptor 34 is electrically connected to pulse wave signal harvester 30 by a holding wire; Pulse wave signal harvester 30 is connected with man-machine interaction parts 1 by CAN card 12.

Fig. 4 is the measurement procedure figure of self-service cardiovascular function detection system using method; Concrete steps are:

Step 100: start opening power, startup system;

The man-machine interaction parts 1, the identity information that start in self-service cardiovascular function detection system obtain parts 2, blood pressure and pulse wave signal acquisition component 3, make it to start working;

Step 110: personally identifiable information checking;

After starting, self-service cardiovascular function detection system there will be the login interface of analysis software 13 and points out user card punching.The user is placed on by identification card 22 district that swipes the card that identity information obtains parts 2 tops, stores user's the identity information such as name, sex, age, height, body weight in identification card 22;

Step 120: whether the judgement checking successful?

The user is placed on by identification card 22 district that swipes the card that identity information obtains parts 2 tops, after hearing " dripping " sound, swipe the card successfully, identity information obtains parts 2 can send " dripping " sound, identity information obtains the individual subscriber identity information that parts 2 read storage in identification card 22 automatically, and this information is sent to man-machine interaction parts 1 is verified, the authorization information success, enter step 130; If the authorization information failure, the information authentication failed, jump to step 110 and re-start the personally identifiable information checking.

Step 130: enter test interface, preparation for acquiring blood pressure and pulse wave datum;

Identity information obtains the individual subscriber identity information that parts 3 read storage in identification card 22 automatically, and this information is sent to man-machine interaction parts 1 is verified, be proved to be successful, analysis software 13 enters the pulse wave test interface automatically, preparation for acquiring blood pressure and pulse wave datum.

Step 140: Measure blood pressure;

Sphygmomanometer girding 33 is overlapped leftward and fixes on wrist, the operating procedure of setting according to systematic analysis software 13, the measurement that advanced promoting the circulation of blood is pressed.The user is according to the related text that provides test interface to provide in video and picture prompting Measure blood pressure, and after measuring end, analysis software 13 provides measurement result automatically.If the user does not have first Measure blood pressure as requested, analysis software 13 can adopt normal standard pressure value carry out next step measurement;

Step 150: measure pulse wave;

Pulse wave measurement folder 32 is clipped on the wrist of user's left hand, and after the skin that makes pulse wave sensor 31 be close to user's left hand wrist radius top fixes, the user clicks " starting to measure " button shown on touch screen computer 11, and starts the collection of pulse wave signal.

Step 160: analyze, store blood pressure and pulse wave data;

After the pulse wave signal collection finishes, analysis software 13 provides the value of the indices such as heart rate, systolic pressure, diastolic pressure, center pressure, gain index, ejection time, left cardiac load, heart muscle perfusion and subendocardiac muscle vigor rate automatically, and these desired values is stored in the network data base of man-machine interaction parts 1 and server.

Step 170: preserve, the display measurement result is also printed;

Desired value in 13 pairs of steps 160 of analysis software comprehensively judges, obtains the concrete Health Status of Cardiovascular System of user, provide corresponding diagnostic result, and Health Status of Cardiovascular System that can be concrete according to the user provides corresponding intervening measure simultaneously.Indices value, diagnostic result and intervening measure all show on the display of touch screen computer 11, and all automatically be saved in man-machine interaction parts 1 and server, and form the measurement result form, and the user can print this measurement result form by printer.

Step 180: finish.

Embodiment:

Open the on and off switch of blood pressure and pulse wave signal acquisition component 3 and man-machine interaction parts 1, after starting, system there will be the login interface of analysis software 13 and points out user card punching.The user is placed on by identification card 22 district that swipes the card that identity information obtains parts 2 tops, store user's the identity information such as name, sex, age, height, body weight in identification card 22, after hearing " dripping " sound, swipe the card successfully, identity information obtains the individual subscriber identity information that parts 2 read storage in identification card 22 automatically, and this information is sent to man-machine interaction parts 1 and service centre is verified, and being proved to be successful, analysis software 13 enters the pulse wave test interface automatically.

According to the operating procedure of system, the measurement that advanced promoting the circulation of blood is pressed.The user can first watch the demonstration video on analysis software 13 test interfaces, at length demonstrated measuring method and the operating process of blood pressure and pulse ripple in the present invention in demonstration video, after finishing watching demonstration video, related text and picture prompting Measure blood pressure that the user can provide according to the method provided in video and test interface, after measuring end, analysis software 13 provides measurement result automatically.If the user does not have first Measure blood pressure as requested, analysis software 13 can adopt normal standard pressure value carry out next step measurement.

After completing, blood pressure measurement carries out the measurement of pulse wave.The user is clipped in pulse wave measurement folder 32 on the left hand wrist, makes pulse wave sensor 31 be close to the skin of user's left hand wrist radius top, after fixing, clicks " starting to measure " button and starts the collection of pulse wave signal.During measurement, the user can watch the pulse waveform gathered in real time, analysis software 13 can provide according to the quality of the pulse wave quality of having obtained the associative operation prompting, if the malposition of placing because of pulse wave sensor 31 causes, the pulse waveform that collects is incorrect or waveform quality is poor, analysis software 13 meeting ejections " measuring position is incorrect, please remeasure! " prompting, and automatically stop measuring.

If only bad because of waveform quality, analysis software 13 can be according to the real-time analysis result to pulse wave, by to blood pressure and pulse wave signal acquisition component 1 transmission dependent instruction, suitable adjustment being carried out in pulse wave sensor 31 positions in pulse wave measurement folder 32, make pulse wave sensor 31 can be close to the skin of user's left hand wrist radius top, thereby obtain waveform quality radial artery pulse wave preferably, reach the purpose that measuring position is identified automatically.In measuring process, the user need keep stationary position as far as possible, other actions had better not be arranged, in order to avoid affect the collection of system to pulse signal.

After the pulse wave signal collection finishes, analysis software 13 provides the value of the indices such as systolic pressure, diastolic pressure, center pressure, pulse pressure, echo gain index, pulse frequency, ejection time, left cardiac load, heart muscle perfusion amount and subendocardiac muscle vigor rate automatically, and these desired values is stored in the network data base of man-machine interaction parts 1 and server.

Analysis software 13 carries out comprehensive judgement to these desired values and obtains the concrete Health Status of Cardiovascular System of user, provide corresponding diagnostic result, and Health Status of Cardiovascular System that can be concrete according to the user provides corresponding intervening measure simultaneously.Indices value, diagnostic result and intervening measure all show on the display of touch screen computer 11, and all automatically be saved in man-machine interaction parts 1 and server, and form the measurement result form, and the user prints this measurement result form by printer.

Analysis software 13 can also be drawn according to the desired value measured at every turn change curve and the healthy curve of each index, the user can be by the index curve of contrast patients before and after intervention and the situation of change of healthy curve, observe the impact of intervening measure on each desired value, and then the effect of evaluation intervening measure, for take better intervening measure later, prepare.

Claims (4)

1. a self-service cardiovascular function detection system, comprise that man-machine interaction parts (1), the identity information of mutual electrical connection obtains parts (2) and blood pressure and pulse wave signal acquisition component (3), it is characterized in that:

Man-machine interaction parts (1) comprise the touch screen computer (11) of mutual electrical connection, CAN card (12), analysis software (13) and felt pen (14), wherein: analysis software (13) is arranged on touch screen computer (11), for being sent to the pulse wave data of coming up, blood pressure and pulse wave acquisition component (3) carry out real-time demonstration and analyzing and processing, CAN card (12) is for connecting blood pressure and pulse wave acquisition component (3), felt pen (14) is for controlling touch screen computer (11), analysis software (13) in man-machine interaction parts (2) is the data analysis to blood pressure and pulse wave acquisition component (3) transmission by index system, and obtain information at the upper real-time display analysis of touch screen computer (11),

Identity information obtains parts (2) and comprises card reader (21), identification card (22), card reader (21) is for obtaining the individual subscriber identity information that is stored in identification card (22), identity information obtains parts (2) and is electrically connected to the touch screen computer (11) in man-machine interaction parts (1) by serial ports, and the Information Authentication in identification card (22) is carried out remote validation by service centre;

Blood pressure and pulse wave signal acquisition component (3) comprise pulse wave signal harvester (30), pulse wave sensor (31), pulse wave measurement folder (32), sphygmomanometer girding (33), baroceptor (34), pulse wave signal harvester (30) is for gathering the data that user's blood pressure and pulse is relevant, and these data are simply processed, this pulse wave signal harvester (30) is electrically connected to man-machine interaction parts (1) by CAN card (12), wherein:

Sphygmomanometer girding (33) is for obtaining the data that user's blood pressure is relevant, this sphygmomanometer girding (33) is threaded with the air flows device in pulse wave signal harvester (30) by a root rubber pipe, the baroceptor (34) be fixed on sphygmomanometer girding (33) is electrically connected to the signal conditioning circuit in pulse wave signal harvester (30) by a holding wire, during measurement, sphygmomanometer girding (33) is enclosed within on user's left hand wrist and fixes, pulse wave harvester (30) is controlled and is installed on the air pump in pulse wave signal harvester (30), by air flows device and rubber tube, sphygmomanometer girding (33) is inflated, gather user's blood pressure signal by baroceptor (34),

Pulse wave sensor (31) is arranged on pulse wave measurement folder (32), during measurement, pulse wave measurement folder (32) is clipped on user's left hand wrist, make pulse wave sensor (31) be close to the skin of user's left hand wrist radius top, for converting user's human pulse signal to signal conditioning circuit that the signal of telecommunication is sent to pulse wave signal harvester (30), and the control chip in pulse wave signal harvester (30) is processed the user's pulse signal gathered;

The step of the using method of described self-service cardiovascular function detection system is:

A, beginning, opening power, startup system; The man-machine interaction parts (1), the identity information that start in self-service cardiovascular function detection system obtain parts (2), blood pressure and pulse wave signal acquisition component (3), make it to start working;

B, personally identifiable information checking; The user is placed on by identification card (22) district that swipes the card that identity information obtains parts (2) top, stores user's name, sex, age, height, body weight identity information in identification card (22);

Are whether c, judgement verified successful? identity information obtains the individual subscriber identity information that parts (2) read storage in identification card (22) automatically, and this information is sent to man-machine interaction parts (1) is verified;

D, enter test interface, preparation for acquiring blood pressure and pulse wave datum; Analysis software (13) enters the pulse wave test interface automatically, preparation for acquiring blood pressure and pulse wave datum;

E, Measure blood pressure; Sphygmomanometer girding (33) is enclosed within on user's left hand wrist and fixes, and according to the related text that provides method of testing and test interface to provide in video and picture prompting Measure blood pressure, after measuring end, analysis software (13) provides measurement result automatically;

F, measurement pulse wave; Pulse wave measurement folder (32) is clipped on user's left hand wrist, makes pulse wave sensor (31) be close to the skin of user's left hand wrist radius top, the operation indicating provided according to test interface starts to gather the pulse wave data;

If only bad because of waveform quality, analysis software (13) can be according to the real-time analysis result to pulse wave, by to blood pressure and pulse wave signal acquisition component (1) transmission dependent instruction, suitable adjustment being carried out in pulse wave sensor (31) position in pulse wave measurement folder (32), make pulse wave sensor (31) can be close to the skin of user's left hand wrist radius top, thereby obtain waveform quality radial artery pulse wave preferably, reach the purpose that measuring position is identified automatically;

G, analysis, storage blood pressure and pulse wave data; After the pulse wave signal collection finishes, analysis software (13) provides the value of the indices such as heart rate, systolic pressure, diastolic pressure, center pressure, gain index, ejection time, left cardiac load, heart muscle perfusion and subendocardiac muscle vigor rate automatically, and these desired values is stored in the network data base of man-machine interaction parts (1) and server;

H, preservation, the display measurement result is also printed;

I, end.

2. a kind of self-service cardiovascular function detection system according to claim 1, it is characterized in that: the analysis software (13) in described man-machine interaction parts (1) is by the data analysis to blood pressure and pulse wave signal acquisition component (3) transmission, obtain the performance indications of ten reflection cardiac functions and vascular function, be respectively systolic pressure, diastolic pressure, center pressure, pulse pressure, echo gain index, pulse frequency, ejection time, left cardiac load, heart muscle perfusion amount and subendocardiac muscle vigor rate.

3. a kind of using method of self-service cardiovascular function detection system according to claim 1 is characterized in that: describedly at the upper real-time display analysis of touch screen computer (11), obtain information or be printed report.

4. a kind of self-service cardiovascular function detection system according to claim 1, it is characterized in that: the Information Authentication in described identification card (22) is carried out remote validation by service centre, or is verified by local data base.

Images