CN105167765A - Blood-pressure measuring system and method - Google Patents
Blood-pressure measuring system and method Download PDFInfo
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- CN105167765A CN105167765A CN201510676760.9A CN201510676760A CN105167765A CN 105167765 A CN105167765 A CN 105167765A CN 201510676760 A CN201510676760 A CN 201510676760A CN 105167765 A CN105167765 A CN 105167765A
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Abstract
The invention discloses a blood-pressure measuring system and method. The blood-pressure measuring system comprises a blood-pressure meter, a user mobile terminal, a cloud database and a doctor client, wherein the blood-pressure meter comprises a sleeve strap; an air sac, an inflation pump, a deflation valve, a pressure sensor, a controller and a wireless communication unit are arranged inside the sleeve strap; the controller controls the inflation pump to inflate the air sac, and controls the deflation valve to deflate the air sac; the pressure sensor acquires a pressure signal, and transmits the acquired pressure signal to the controller; the controller is in communication with the user mobile terminal through the wireless communication unit; the user mobile terminal is in communication with the cloud database; the doctor client is in communication with the cloud database. Through the adoption of the blood-pressure measuring system and method, the accuracy of measured data is improved, and a patient to be measured can conveniently obtain a diagnosis result, so that the adaptability is good, and popularization and application are facilitated.
Description
Technical field
The invention belongs to blood pressure measurement technical field, specifically, relate to a kind of blood pressure measuring system and blood pressure measuring method.
Background technology
Hypertensive hazardness has become the disease of serious threat human health, and accurate, long-term blood pressure and heart rate data play positive role to hypertensive prevention.
Due to measured in medical institutions, carry out blood pressure measurement time, easily there is " white clothing effect ", cause measurement data inaccurate; And if measured does not measure voluntarily in medical institutions, be not easy to again the diagnostic result obtaining doctor.
Summary of the invention
The invention provides a kind of blood pressure measuring system and method, both improve the accuracy of measurement data, be convenient to again obtain diagnostic result.
In order to solve the problems of the technologies described above, the present invention is achieved by the following technical solutions:
A kind of blood pressure measuring system, comprises sphygomanometer, customer mobile terminal, cloud database, doctor's client, described sphygomanometer comprises cuff, air bag is provided with in described cuff, inflator pump, vent valve, pressure transducer, controller, wireless communication unit, it is described airbag aeration that described controller controls described inflator pump, it is described air bag deflation that described controller controls described vent valve, described pressure transducer gathers intracapsular pressure signal, and the pressure signal collected is transferred to described controller, described controller is communicated with described customer mobile terminal by described wireless communication unit, described customer mobile terminal communicates with described cloud database, described doctor's client communicates with cloud database.
Further, in described sphygomanometer, be also provided with acceleration transducer and alarm unit, described acceleration transducer and alarm unit are connected with described controller respectively.
Further again, described customer mobile terminal is the mobile terminal with Bluetooth function, and described wireless communication unit comprises antenna circuit and Bluetooth antenna; The control signal that described customer mobile terminal sends transfers to described antenna circuit through described Bluetooth antenna, after described antenna circuit process, be sent to described controller.
Further, described blood pressure measuring system also comprises data inquiry terminal, and described data inquiry terminal communicates with described cloud database.
Further, in described sphygomanometer, be also provided with Power Management Unit and battery, each electricity consumption device that described battery is sphygomanometer by described Power Management Unit is powered.
Preferably, described battery is rechargeable battery, and described Power Management Unit comprises charging circuit and mu balanced circuit, and external power supply is the charging of described battery by described charging circuit, and each electricity consumption device that described battery is sphygomanometer by described mu balanced circuit is powered.
A kind of blood pressure measuring method, comprises the following steps:
A () customer mobile terminal carries out user's registration, and described log-on message is sent to cloud database preservation;
B () described customer mobile terminal and sphygomanometer establish a communications link;
C () described customer mobile terminal controls described sphygomanometer and measures, measurement data is sent to described customer mobile terminal by described sphygomanometer;
D () described customer mobile terminal shows described measurement data, and be uploaded to described cloud database;
E cloud database described in () doctor client-access, analyzes described measurement data, and diagnostic result is sent to described cloud database;
F described diagnostic result is sent to described customer mobile terminal by () described cloud database.
Further, described customer mobile terminal is the mobile terminal with Bluetooth function, and be provided with bluetooth-communication unit in described sphygomanometer, step (b) specifically comprises the steps:
(b1) described customer mobile terminal opens bluetooth scan pattern;
(b2) described sphygomanometer start, carries out Bluetooth pairing with described customer mobile terminal.
Further again, described step (c) specifically comprises the steps:
(c11) described customer mobile terminal sends and starts measuring-signal to described sphygomanometer;
(c12) described sphygomanometer starts to measure, and measurement result is sent to described customer mobile terminal;
(c13) described customer mobile terminal sends end signal to described sphygomanometer, described sphygomanometer shutdown.
Further, described step (c) specifically comprises the steps:
(c21) described customer mobile terminal setting time started, interval time, end time, generate control signal, and be sent to described sphygomanometer;
(c22) described sphygomanometer runs according to the signal received.
Preferably, described blood pressure measuring method also comprises the steps:
G () data inquiry terminal is registered in described cloud database by network;
H described diagnostic result is sent to described data inquiry terminal by () described cloud database.
Compared with prior art, advantage of the present invention and good effect are: blood pressure measuring system of the present invention and method, measured controls sphygomanometer by customer mobile terminal and measures, without the need to going to medical institutions, avoid the generation of " white clothing effect ", improve the accuracy of measurement data, and due to testing location, testing time relatively flexible, be very easy to measured; Measurement data is uploaded to cloud database and preserves by customer mobile terminal, medical institutions are by doctor's client-access cloud database, obtain measurement data, analyzing and diagnosing is carried out to measurement data, and transfer to cloud database by diagnostic result, diagnostic result is pushed to customer mobile terminal by cloud database, be convenient to measured and obtain diagnostic result, because measured can obtain diagnostic result without the need to going to medical institutions, both save the time of measured, turn improve the speed obtaining diagnostic result.Therefore, blood pressure measuring system of the present invention and method, both improve the accuracy of measurement data, is convenient to again measured and obtains diagnostic result, and adaptability is good, easy to utilize.
After reading the detailed description of embodiment of the present invention by reference to the accompanying drawings, the other features and advantages of the invention will become clearly.
Accompanying drawing explanation
Fig. 1 is the structural representation of a kind of embodiment of blood pressure measuring system proposed by the invention;
Fig. 2 is the structured flowchart of sphygomanometer in Fig. 1;
Fig. 3 is the flow chart of a kind of embodiment of blood pressure measuring method proposed by the invention;
Fig. 4 is the flow chart of another embodiment of blood pressure measuring method proposed by the invention;
Fig. 5 is the flow chart of part steps in Fig. 4;
Fig. 6 is the flow chart of part steps in Fig. 4;
Fig. 7 is the flow chart of part steps in Fig. 4.
Detailed description of the invention
Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in more detail.
The blood pressure measuring system of embodiment one, the present embodiment mainly comprises sphygomanometer, customer mobile terminal, cloud database, doctor's client etc., sphygomanometer mainly comprises cuff, air bag, inflator pump, vent valve, pressure transducer, controller, wireless communication unit etc. are provided with in cuff, cuff is fixed on arm, controller is connected with inflator pump, control the operation of inflator pump, when air bag needs inflation, it is airbag aeration that controller controls inflator pump; Controller is connected with vent valve, controls the operation of vent valve, and when air bag needs venting, it is air bag deflation that controller controls vent valve; Controller is connected with pressure transducer, the operation of controlled pressure sensor, and pressure transducer gathers intracapsular pressure signal, and the pressure signal collected is sent to controller; Controller is connected with wireless communication unit, is communicated with customer mobile terminal by wireless communication unit; Customer mobile terminal communicates with cloud database, and doctor's client communicates with cloud database, shown in Fig. 1, Fig. 2.
When needs Measure blood pressure, customer mobile terminal sends commencing signal to wireless communication unit, controller is sent to through wireless communication unit, controller is according to the signal received, and control inflator pump is airbag aeration, and controlled pressure working sensor, the pressure signal measured is sent to controller by pressure transducer, controller processes the data received, and generates measurement data, and is sent to customer mobile terminal by wireless communication unit; After measurement completes, customer mobile terminal sends end signal to wireless communication unit, is sent to controller through wireless communication unit, after controller receives this end signal, control inflator pump to stop as airbag aeration, and to control vent valve be air bag deflation, the pressure in air bag is reduced fast.Particularly, temporal information when measurement data can comprise blood pressure information, heart rate information and measure etc.
Measured controls sphygomanometer by customer mobile terminal and measures, and sphygomanometer is by data transfer to customer mobile terminal, and the measurement data received shows by customer mobile terminal, checks for measured, and is uploaded to cloud database; Medical institutions are by doctor's client-access cloud database, and carry out analyzing and diagnosing to measurement data, and diagnostic result is uploaded to cloud database, diagnostic result is sent to customer mobile terminal by cloud database, measuredly can obtain diagnostic result.
Further, because medical institutions may to the measurement data analysis of measured in cloud database not in time, or, measured may be needed to pay certain expense by medical institutions' analyzing and diagnosing, for this situation, cloud database can also provide the function of automatic analysis, prerequisite is the diagnostic message needing in cloud database to store a large amount of measurement data and match, when the measurement data of measured is uploaded to cloud database by customer mobile terminal, select automatic analysis function, namely the measurement data of this measured can mate by cloud database in a database, obtain corresponding diagnostic result, and send it to customer mobile terminal, check for measured.
The blood pressure measuring system of the present embodiment, measured controls sphygomanometer by customer mobile terminal and measures, without the need to going to medical institutions, avoid the generation of " white clothing effect ", improve the accuracy of measurement data, and due to testing location, testing time relatively flexible, be very easy to measured; Measurement data is uploaded to cloud database and preserves by customer mobile terminal, medical institutions are by doctor's client-access cloud database, obtain measurement data, analyzing and diagnosing is carried out to measurement data, and transfer to cloud database by diagnostic result, diagnostic result is pushed to customer mobile terminal by cloud database, be convenient to measured and obtain diagnostic result, because measured can obtain diagnostic result without the need to going to medical institutions, both save the time of measured, turn improve the speed obtaining diagnostic result.Therefore, the blood pressure measuring system of the present embodiment, had both improve the accuracy of measurement data, was convenient to again measured and obtained diagnostic result, and adaptability is good, easy to utilize.
In the present embodiment, customer mobile terminal is the mobile phone, panel computer etc. with Bluetooth function, and the wireless communication unit of sphygomanometer is bluetooth-communication unit, and customer mobile terminal and sphygomanometer carry out Bluetooth pairing, can communicate after successful matching.
Wireless communication unit mainly comprises antenna circuit and Bluetooth antenna, and antenna circuit is connected with Bluetooth antenna.Bluetooth antenna receives the control signal that customer mobile terminal sends, and the signal received is sent to antenna circuit, and after antenna circuit processes, be sent to controller, controller controls the operation of whole sphygomanometer according to the signal received.Measurement data is sent to antenna circuit by controller, is sent to Bluetooth antenna through antenna circuit, and measurement data is sent to customer mobile terminal by Bluetooth antenna.
People for the ease of paying close attention to measured's physical condition obtains the diagnostic result of measured, and in blood pressure measuring system, be also provided with data inquiry terminal, data inquiry terminal communicates with cloud database.Data inquiry terminal can data base querying be to the diagnostic result of measured beyond the clouds, or diagnostic result is directly pushed to data inquiry terminal by cloud database.
Customer mobile terminal can be communicated with cloud database by wifi network, 3G or 4G network with data inquiry terminal, specifically can select suitable network according to practical situation.Doctor's client is communicated with cloud database by Networks of Fiber Communications or other internet communications networks.
Customer mobile terminal and data inquiry terminal also can unite two into one.Install control APP on mobile terminals, realize the function of customer mobile terminal, this mobile terminal is customer mobile terminal; Install inquiry APP on mobile terminals, realize the function of data inquiry terminal, this mobile terminal is data inquiry terminal.Therefore, same mobile terminal had both been provided with control APP, and had also been provided with inquiry APP, select to run control APP, this mobile terminal is customer mobile terminal; Select to run inquiry APP, this mobile terminal is data inquiry terminal.
In sphygomanometer, be also provided with acceleration transducer and alarm unit, acceleration transducer is for detecting the moving situation of arm.Controller is connected with acceleration transducer, control the operation of acceleration transducer, in blood pressure measurement, induced signal is sent to controller by acceleration transducer, if exceed setting value, controller sends alarm signal to alarm unit, controls alarm unit and reports to the police, measured is reminded to keep arm resting state, to improve the accuracy of measurement data.
In sphygomanometer, be also provided with display lamp, be used to indicate the on-off state of sphygomanometer.Controller is connected with display lamp, controls the operation of display lamp, and when after sphygomanometer start, it is bright that controller controls display lamp, and when after sphygomanometer shutdown, display lamp goes out.
In sphygomanometer, be also provided with real-time clock, real-time clock is connected with controller, to controller tranmitting data register information, makes controller obtain clock information accurately.
In sphygomanometer, be also provided with Power Management Unit and battery, each electricity consumption device that battery is sphygomanometer by Power Management Unit is powered.
In the present embodiment, in order to reduce costs, improve the utilization rate of battery, battery is rechargeable battery.Power Management Unit mainly comprises charging circuit and mu balanced circuit.External power supply is battery charging by charging circuit, ensures safe charging, improves the safety of battery; Each electricity consumption device that battery is sphygomanometer by mu balanced circuit is powered, and avoids due to cell output voltage shakiness and causes electricity consumption device to be damaged, improve the safety of each electricity consumption device of sphygomanometer.
The blood pressure measuring method of embodiment two, the present embodiment mainly comprises the steps, shown in Figure 3.
Step 01: start.
Step 02: user registers.
Customer mobile terminal carries out user's registration, and log-on message is sent to cloud database preserves.
The log-on message of customer mobile terminal mainly comprises user name, the name of password and measured, sex and date of birth etc.
Step 03: customer mobile terminal and sphygomanometer establish a communications link.
In the present embodiment, customer mobile terminal is the mobile terminal such as mobile phone, panel computer with Bluetooth function, is provided with bluetooth-communication unit in sphygomanometer.Customer mobile terminal and sphygomanometer set up communication connection by Bluetooth technology.
Step 04: sphygomanometer is measured, sends measurement data to customer mobile terminal.
Sphygomanometer is worn on arm, and customer mobile terminal controls sphygomanometer and measures, and measurement data is sent to customer mobile terminal by sphygomanometer.
Step 05: show, upload measurement data.
Customer mobile terminal shows, checks for measured, and be uploaded to cloud database after receiving the measurement data of sphygomanometer transmission.
In the present embodiment, customer mobile terminal is communicated with cloud database by wifi network, 3G or 4G network.
Step 06: doctor's client-access cloud database, analyzes measurement data, and diagnostic result is sent to cloud database.
Doctor's client is communicated with cloud database by Networks of Fiber Communications or other internet communications networks.Medical institutions are by doctor's client-access cloud database, and the measurement result of inquiry measured, carries out analyzing and diagnosing to measurement result, diagnostic result is sent to cloud database.
The information such as clinic Measuring Time can also be sent to cloud database by medical institutions if desired, are pushed to measured by cloud database, remind measured to go to medical institutions to do further diagnosis and treatment.
Step 07: diagnostic result is sent to customer mobile terminal by cloud database.
Measured checks diagnostic result by customer mobile terminal.
Step 08: terminate.
The blood pressure measuring method of the present embodiment, measured controls sphygomanometer by customer mobile terminal and measures, and avoids the generation of " white clothing effect ", improves the accuracy of measurement data, and due to testing location, testing time relatively flexible, be very easy to measured; After measurement data is uploaded to cloud database, medical institutions' access cloud database, analyzing and diagnosing is carried out to measurement result, diagnostic result is uploaded to cloud database, diagnostic result is pushed to customer mobile terminal by cloud database, be convenient to measured and obtain diagnostic result, both saved the time of measured, turn improve the speed obtaining diagnostic result.
The blood pressure measuring method of embodiment three, the present embodiment mainly comprises the steps, shown in Figure 4.
Step 11: start.
Step 12: user registers.
Customer mobile terminal carries out user's registration, and log-on message is sent to cloud database preserves.
The log-on message of customer mobile terminal mainly comprises user name, the name of password and measured, sex and date of birth etc.
Data inquiry terminal is registered, and log-on message is sent to cloud database preserves.
The log-on message of data inquiry terminal comprises user name, the name of measured of password and concern, sex and date of birth.
Step 13: customer mobile terminal and sphygomanometer establish a communications link.
In the present embodiment, customer mobile terminal is the mobile terminal such as mobile phone, panel computer with Bluetooth function, is provided with bluetooth-communication unit in sphygomanometer.Customer mobile terminal and sphygomanometer set up communication connection by Bluetooth technology.
Specifically comprise the steps, shown in Figure 5.
Step 13-1: customer mobile terminal opens bluetooth scan pattern.
Step 13-2: sphygomanometer start powers on, and carries out Bluetooth pairing with customer mobile terminal.
Successful matching the latter two namely set up communication connection, can start to transmit data.
Step 14: sphygomanometer is measured, sends measurement data to customer mobile terminal.
Sphygomanometer is worn on arm, and customer mobile terminal controls sphygomanometer and measures, and measurement data is sent to customer mobile terminal by sphygomanometer.Customer mobile terminal controls sphygomanometer measurement human blood-pressure and mainly comprises two kinds of control modes.
The concrete steps of mode one are shown in Figure 6.
Step 14-1: customer mobile terminal sends and starts measuring-signal to sphygomanometer.
Step 14-2: sphygomanometer starts to measure, and sends measurement result.
After the controller of sphygomanometer receives and starts measuring-signal, control inflator pump is airbag aeration, controlled pressure sensor is started working, the pressure signal measured is sent to controller by pressure transducer, controller processes the data received, generate measurement data, and send to customer mobile terminal.
Step 14-3: customer mobile terminal sends end signal to sphygomanometer.
Step 14-4: sphygomanometer shuts down.
After the controller of sphygomanometer receives end signal, control inflator pump and stop as airbag aeration, and to control vent valve be air bag deflation, the pressure in air bag is reduced fast, then shuts down.
The concrete steps of mode two are shown in Figure 7.
Step 14-11: customer mobile terminal setting time started, interval time, end time, generate control signal, and be sent to sphygomanometer.
Step 14-22: sphygomanometer runs according to the signal received.
Such as, customer mobile terminal setting time started 8:00, end time 22:00,25 minutes interval times, generate control signal and be sent to sphygomanometer; After sphygomanometer receives this signal, start to measure at 8:00, measured once every 25 minutes, and measurement data is sent to customer mobile terminal, shut down when 22:00.
Customer mobile terminal also can control the work in 24 hours of sphygomanometer whole day, as be set in 8:00-22:00 time period in measured once every 25 minutes, measured once every 45 minutes within the time period of 22:00-8:00, generate control signal and be sent to sphygomanometer, sphygomanometer runs according to the signal received.
In measuring process, the acceleration transducer of sphygomanometer inside is for detecting the moving situation of arm.Induced signal is sent to the controller of sphygomanometer by acceleration transducer, controller compares the size of this signal and setting value, if this signal exceedes setting value, controller sends alarm signal to alarm unit, control alarm unit is reported to the police, measured is reminded to keep arm resting state, to improve the accuracy of measurement data.
Step 15: show, upload measurement data.
Customer mobile terminal shows, checks for measured, and be uploaded to cloud database after receiving the measurement data of sphygomanometer transmission.
In the present embodiment, customer mobile terminal is communicated with cloud database by wifi network, 3G or 4G network.
Step 16: doctor's client-access cloud database, analyzes measurement data, and diagnostic result is sent to cloud database.
Doctor's client is communicated with cloud database by Networks of Fiber Communications or other internet communications networks.Medical institutions are by doctor's client-access cloud database, and the measurement result of inquiry measured, carries out analyzing and diagnosing to measurement result, diagnostic result is sent to cloud database.
The information such as clinic Measuring Time can also be sent to cloud database by medical institutions if desired, are pushed to measured by cloud database, remind measured to go to medical institutions to do further diagnosis and treatment.
Step 17: diagnostic result is sent to customer mobile terminal by cloud database.
Measured checks diagnostic result by customer mobile terminal.
Step 18: diagnostic result is sent to data inquiry terminal by cloud database.
Data inquiry terminal opens network, receives the measurement data from cloud database and diagnostic result.
In the present embodiment, data inquiry terminal is communicated with cloud database by wifi network, 3G or 4G network.
Step 19: terminate.
The blood pressure measuring method of the present embodiment, measured controls sphygomanometer by customer mobile terminal and measures, and avoids the generation of " white clothing effect ", improves the accuracy of measurement data, and due to testing location, testing time relatively flexible, be very easy to measured; After measurement data is uploaded to cloud database, medical institutions' access cloud database, analyzing and diagnosing is carried out to measurement result, diagnostic result is uploaded to cloud database, diagnostic result is pushed to customer mobile terminal and data inquiry terminal by cloud database, the inquiry being convenient to measured and concern measured physical condition obtains diagnostic result, has both saved the time of measured, has improved the speed that measured obtains diagnostic result, be convenient to again the diagnostic result that inquiry obtains measured.
Certainly; above-mentioned explanation is not limitation of the present invention; the present invention is also not limited in above-mentioned citing, the change that those skilled in the art make in essential scope of the present invention, remodeling, interpolation or replacement, also should belong to protection scope of the present invention.
Claims (10)
1. a blood pressure measuring system, is characterized in that: comprise sphygomanometer, customer mobile terminal, cloud database, doctor's client, described sphygomanometer comprises cuff, air bag is provided with in described cuff, inflator pump, vent valve, pressure transducer, controller, wireless communication unit, it is described airbag aeration that described controller controls described inflator pump, it is described air bag deflation that described controller controls described vent valve, described pressure transducer gathers intracapsular pressure signal, and the pressure signal collected is transferred to described controller, described controller is communicated with described customer mobile terminal by described wireless communication unit, described customer mobile terminal communicates with described cloud database, described doctor's client communicates with cloud database.
2. blood pressure measuring system according to claim 1, is characterized in that: in described sphygomanometer, be also provided with acceleration transducer and alarm unit, and described acceleration transducer and alarm unit are connected with described controller respectively.
3. blood pressure measuring system according to claim 1, is characterized in that: described customer mobile terminal is the mobile terminal with Bluetooth function, and described wireless communication unit comprises antenna circuit and Bluetooth antenna; The control signal that described customer mobile terminal sends transfers to described antenna circuit through described Bluetooth antenna, after described antenna circuit process, be sent to described controller.
4. blood pressure measuring system according to claim 1, is characterized in that: also comprise data inquiry terminal, described data inquiry terminal communicates with described cloud database.
5. blood pressure measuring system according to claim 1, is characterized in that: in described sphygomanometer, be also provided with Power Management Unit and battery, and each electricity consumption device that described battery is sphygomanometer by described Power Management Unit is powered.
6. a blood pressure measuring method, is characterized in that: comprise the following steps:
A () customer mobile terminal carries out user's registration, and described log-on message is sent to cloud database preservation;
B () described customer mobile terminal and sphygomanometer establish a communications link;
C () described customer mobile terminal controls described sphygomanometer and measures, measurement data is sent to described customer mobile terminal by described sphygomanometer;
D () described customer mobile terminal shows described measurement data, and be uploaded to described cloud database;
E cloud database described in () doctor client-access, analyzes described measurement data, and diagnostic result is sent to described cloud database;
F described diagnostic result is sent to described customer mobile terminal by () described cloud database.
7. blood pressure measuring method according to claim 6, is characterized in that: described customer mobile terminal is the mobile terminal with Bluetooth function, and be provided with bluetooth-communication unit in described sphygomanometer, step (b) specifically comprises the steps:
(b1) described customer mobile terminal opens bluetooth scan pattern;
(b2) described sphygomanometer start, carries out Bluetooth pairing with described customer mobile terminal.
8. blood pressure measuring method according to claim 7, is characterized in that: described step (c) specifically comprises the steps:
(c11) described customer mobile terminal sends and starts measuring-signal to described sphygomanometer;
(c12) described sphygomanometer starts to measure, and measurement result is sent to described customer mobile terminal;
(c13) described customer mobile terminal sends end signal to described sphygomanometer, described sphygomanometer shutdown.
9. blood pressure measuring method according to claim 7, is characterized in that: described step (c) specifically comprises the steps:
(c21) described customer mobile terminal setting time started, interval time, end time, generate control signal, and be sent to described sphygomanometer;
(c22) described sphygomanometer runs according to the signal received.
10. the blood pressure measuring method according to any one of claim 6 to 9, is characterized in that: also comprise the steps:
G () data inquiry terminal is registered in described cloud database by network;
H described diagnostic result is sent to described data inquiry terminal by () described cloud database.
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| CN111493861A (en) * | 2020-04-02 | 2020-08-07 | 出门问问信息科技有限公司 | Electrocardiogram measuring method and device, electronic equipment and computer storage medium |
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