CN105796083A - Intelligent hypertension management system and implementation method thereof - Google Patents

Abstract

The invention relates to an intelligent hypertension management system and an implementation method thereof; the system comprises an upper arm type blood pressure monitor, a set of mobile terminal matched with the blood pressure monitor for carrying out doctor-patient interaction, and a cloud platform server, wherein the upper arm type blood pressure monitor comprises a micro-processing unit, a gas pressure sensor, a pressure micro air pump, a vent valve and a Bluetooth communication module; the gas pressure sensor is connected with an input end of the micro-processing unit, and an output end of the micro-processing unit is connected with an input end of the Bluetooth communication module; the Bluetooth communication module is connected with a wireless communication module in the mobile terminal by a wireless network, and is used for transmitting blood pressure data acquired by the upper arm type blood pressure monitor; the wireless communication module in the mobile terminal is also connected with the cloud platform server by the wireless network. The intelligent hypertension management system adopts the upper arm type blood pressure monitor to measure a blood pressure value, and the obtained blood pressure value is then transmitted to the mobile terminal, so that a further measure can be taken, and a better treatment effect is achieved for a hypertensive patient.

Description

Intelligent hypertension management system and its implementation

Technical field

The present invention relates to sphygomanometer field, particularly relate to a kind of Intelligent hypertension management system and its implementation.

Background technology

In prior art, people only use sphygomanometer to measure current pressure value when needed, individual blood pressure data reliably and with long-term cannot be stored, more the big data of crowd cannot be managed, if particularly hyperpietic can match with the therapeutic scheme of doctor according to permanently effective blood pressure data, higher-quality medical services and medical effect can be obtained.

Additionally, on the one hand, civil electronic sphygomanometer cannot realize the function of medical dynamic hemomanometer, and medical dynamic hemomanometer cannot according to the flexible change blood pressure process of measurement of the requirement of doctor.On the other hand, existing medical dynamic hemomanometer volume is bigger, it is impossible to realize wearable portable effect, and using method during patient's sphygomanometer use at home is extremely lack of standardization, affects the degree of accuracy of measurement result.

Summary of the invention

In view of this, it is an object of the invention to provide a kind of Intelligent hypertension management system and its implementation, adopt upper arm sphygmomanometer measurement to transmit to mobile terminal to take further measures after obtaining pressure value.

The present invention adopts below scheme to realize: a kind of Intelligent hypertension management system, including a upper arm sphygmomanometer, a set of cooperation sphygomanometer in order to carry out mobile terminal and a cloud platform server of doctor-patient interaction；Described upper arm blood pressure meter includes a microprocessing unit, a gas pressure sensor, pressurization micro air pump, an air bleeding valve, a bluetooth communication, described gas pressure sensor is connected with the input of described microprocessing unit, and the outfan of described microprocessing unit is connected with the input of described bluetooth communication；Described bluetooth communication is connected by wireless network with the wireless communication module in described mobile terminal, and the blood pressure data in order to be obtained by described upper arm sphygmomanometer sends to described mobile terminal and receives the work order that described mobile terminal sends；Wireless communication module in described mobile terminal is connected with described cloud platform server also by wireless network.

Further, described upper arm sphygmomanometer includes a rechargeable battery and a charging inlet circuit, and described rechargeable battery is connected with described microprocessing unit, gas pressure sensor, bluetooth communication and charging inlet circuit, in order to power；Described charging inlet circuit is in order to be connected with external charging equipment.

Further, described upper arm sphygmomanometer includes a sphygmomanometer girding in order to wear, and described pressurization micro air pump, air bleeding valve and gas pressure sensor may be contained within described sphygmomanometer girding；The measurement standard of described upper arm sphygmomanometer is medical standard.

Further, described microprocessing unit is single-chip microcomputer.

Further, described mobile terminal includes the mobile terminal of patient end and the mobile terminal of doctor terminal, the mobile terminal of the mobile terminal of described patient end and described doctor terminal is provided with an APP carrying out blood pressure management, and be connected with described cloud platform server by wireless communication module, in order to carry out doctor-patient interaction. simultaneously.

Further, the mobile terminal of described patient end is in order to voice guidance patient's correct measurement blood pressure, and judge that pressure value is in normal range, pressure value is higher or pressure value is on the low side according to the patients' blood's measurement data received, blood-pressure measurement data is sent the mobile terminal to described doctor terminal with judged result by described cloud platform server；The mobile terminal of described doctor terminal actively accepts patient demand by described cloud platform server, obtains blood-pressure measurement data and the judged result of patient, and controls patient and carry out the Time And Frequency of blood pressure measurement and send hypertension drug adjustment information.

Further, described cloud platform server is provided with a data base, in order to store the blood pressure data of user, it is provided that crowd prevention and treatment data.

Further, described mobile terminal includes smart mobile phone and flat board.

The present invention also adopts following methods to realize: a kind of Intelligent hypertension management system realize method, comprise the following steps:

Step S1: patient requires correctly to be worn on upper arm the sphygmomanometer girding of described upper arm sphygmomanometer according to operation instruction according to the voice message of described mobile terminal；

Step S2: described pressurization micro air pump is inflated, and starts to measure blood pressure；

Step S3: described gas pressure sensor will collect pressure data transmission to described microprocessing unit, pressure data is converted to pressure value by described microprocessing unit, and by described bluetooth communication by blood pressure data transmission to described mobile terminal；

Step S4: according to the patients' blood's measurement data received, described mobile terminal judges that pressure value is in normal range, pressure value is higher or pressure value is on the low side；

Step S5: described mobile terminal is connected with the mobile terminal foundation of doctor terminal by described cloud platform server, in order to carry out doctor-patient interaction, the mobile terminal of described doctor terminal adjusts hypertension drug adjustment information according to the patients' blood's measurement data got with judged result；

Step S6: described upper arm sphygmomanometer is worn on upper arm to terminate after one-shot measurement, sends to described mobile terminal according to preset program repetitive measurement on time and by blood-pressure measurement data subsequently, and returns step S4.

Further, described mobile terminal is the mobile terminal of patient end, the mobile terminal of described doctor terminal sends the measurement instruction mobile terminal to described patient end by cloud platform server, measurement instruction is sent to the bluetooth communication of described upper arm sphygmomanometer by the mobile terminal of described patient end by Blue-tooth communication method, and the microprocessing unit of described upper arm sphygmomanometer can obtain this measurement instruction and control described upper arm sphygmomanometer and start in real time to measure blood pressure and feedback blood-pressure measurement data.

Compared with prior art, the method have the advantages that

1, this Intelligent hypertension management system can pass through the pressure value of upper arm sphygmomanometer collection human body, the pressure value arrived will be measured by Blue-tooth communication method transmission to mobile terminal, wherein upper arm sphygmomanometer and mobile terminal all can body-worn, Real-time Collection blood pressure data；

2, the mobile terminal that patient uses can carry out interaction by the mobile terminal that cloud platform server and doctor terminal use, doctor can pass through mobile terminal and change the monitoring of blood pressure program of upper arm sphygmomanometer flexibly, send measurement instruction and obtain pressure value in real time, particularly hyperpietic can link up with doctor according to real-time pressure value, take remedy measures or adjust accordingly at thing of taking medicine, it is thus achieved that better medical services；Namely this device improves the motility of medical sphygmomanometer；

3, the database purchase in cloud platform server has substantial amounts of user's blood pressure information, and the big data of crowd are managed, and medical organization can provide effective measures and the resolution of crowd prevention and treatment hypertension according to data therein.

Accompanying drawing explanation

Fig. 1 is the system principle diagram of the present invention.

Fig. 2 is the structural representation of the upper arm sphygmomanometer of the present invention.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention will be further described.

The present embodiment provides a kind of Intelligent hypertension management system, as depicted in figs. 1 and 2, including a upper arm sphygmomanometer, a set of cooperation sphygomanometer in order to carry out mobile terminal and a cloud platform server of doctor-patient interaction；Described upper arm blood pressure meter includes a microprocessing unit, a gas pressure sensor, pressurization micro air pump, an air bleeding valve, a bluetooth communication, described gas pressure sensor is connected with the input of described microprocessing unit, and the outfan of described microprocessing unit is connected with the input of described bluetooth communication；Described bluetooth communication is connected by wireless network with the wireless communication module in described mobile terminal, and the blood pressure data in order to be obtained by described upper arm sphygmomanometer sends to described mobile terminal and receives the work order that described mobile terminal sends；Wireless communication module in described mobile terminal is connected with described cloud platform server also by wireless network.

In the present embodiment, described upper arm sphygmomanometer includes a rechargeable battery and a charging inlet circuit, and described rechargeable battery is connected with described microprocessing unit, gas pressure sensor, bluetooth communication and charging inlet circuit, in order to power；Described charging inlet circuit is in order to be connected with external charging equipment.

In the present embodiment, described upper arm sphygmomanometer includes a sphygmomanometer girding in order to wear, and described pressurization micro air pump, air bleeding valve and gas pressure sensor may be contained within described sphygmomanometer girding；The measurement standard of described upper arm sphygmomanometer is medical standard.

In the present embodiment, described microprocessing unit is single-chip microcomputer.

In the present embodiment, described mobile terminal includes the mobile terminal of patient end and the mobile terminal of doctor terminal, the mobile terminal of the mobile terminal of described patient end and described doctor terminal is provided with an APP carrying out blood pressure management, and be connected with described cloud platform server by wireless communication module, in order to carry out doctor-patient interaction. simultaneously.

In the present embodiment, the mobile terminal of described patient end is in order to voice guidance patient's correct measurement blood pressure, and judge that pressure value is in normal range, pressure value is higher or pressure value is on the low side according to the patients' blood's measurement data received, blood-pressure measurement data is sent the mobile terminal to described doctor terminal with judged result by described cloud platform server；The mobile terminal of described doctor terminal actively accepts patient demand by described cloud platform server, obtains blood-pressure measurement data and the judged result of patient, and controls patient and carry out the Time And Frequency of blood pressure measurement and send hypertension drug adjustment information.

In the present embodiment, described cloud platform server is provided with a data base, in order to store the blood pressure data of user, it is provided that crowd prevention and treatment data.

In the present embodiment, described mobile terminal includes smart mobile phone and flat board.

In the present embodiment, a kind of Intelligent hypertension management system realize method, comprise the following steps:

Step S1: patient requires correctly to be worn on upper arm the sphygmomanometer girding of described upper arm sphygmomanometer according to operation instruction according to the voice message of described mobile terminal；

Step S2: described pressurization micro air pump is inflated, and starts to measure blood pressure；

Step S3: described gas pressure sensor will collect pressure data transmission to described microprocessing unit, pressure data is converted to pressure value by described microprocessing unit, and by described bluetooth communication by blood pressure data transmission to described mobile terminal；

Step S4: according to the patients' blood's measurement data received, described mobile terminal judges that pressure value is in normal range, pressure value is higher or pressure value is on the low side；

Step S5: described mobile terminal is connected with the mobile terminal foundation of doctor terminal by described cloud platform server, in order to carry out doctor-patient interaction, the mobile terminal of described doctor terminal adjusts hypertension drug adjustment information according to the patients' blood's measurement data got with judged result；

Step S6: described upper arm sphygmomanometer is worn on upper arm to terminate after one-shot measurement, sends to described mobile terminal according to preset program repetitive measurement on time and by blood-pressure measurement data subsequently, and returns step S4.

In the present embodiment, described mobile terminal is the mobile terminal of patient end, the mobile terminal of described doctor terminal sends the measurement instruction mobile terminal to described patient end by cloud platform server, measurement instruction is sent to the bluetooth communication of described upper arm sphygmomanometer by the mobile terminal of described patient end by Blue-tooth communication method, and the microprocessing unit of described upper arm sphygmomanometer can obtain this measurement instruction and control described upper arm sphygmomanometer and start in real time to measure blood pressure and feedback blood-pressure measurement data.

The foregoing is only presently preferred embodiments of the present invention, all equalizations done according to the present patent application the scope of the claims change and modify, and all should belong to the covering scope of the present invention.

Claims (10)

1. an Intelligent hypertension management system, it is characterised in that: include a upper arm sphygmomanometer, a set of cooperation sphygomanometer in order to carry out mobile terminal and a cloud platform server of doctor-patient interaction；Described upper arm blood pressure meter includes a microprocessing unit, a gas pressure sensor, pressurization micro air pump, an air bleeding valve, a bluetooth communication, described gas pressure sensor is connected with the input of described microprocessing unit, and the outfan of described microprocessing unit is connected with the input of described bluetooth communication；Described bluetooth communication is connected by wireless network with the wireless communication module in described mobile terminal, and the blood pressure data in order to be obtained by described upper arm sphygmomanometer sends to described mobile terminal and receives the work order that described mobile terminal sends；Wireless communication module in described mobile terminal is connected with described cloud platform server also by wireless network.

2. a kind of Intelligent hypertension management system according to claim 1, it is characterized in that: described upper arm sphygmomanometer includes a rechargeable battery and a charging inlet circuit, described rechargeable battery is connected with described microprocessing unit, gas pressure sensor, bluetooth communication and charging inlet circuit, in order to power；Described charging inlet circuit is in order to be connected with external charging equipment.

3. a kind of Intelligent hypertension management system according to claim 1, it is characterized in that: described upper arm sphygmomanometer includes a sphygmomanometer girding in order to wear, and described pressurization micro air pump, air bleeding valve and gas pressure sensor may be contained within described sphygmomanometer girding；The measurement standard of described upper arm sphygmomanometer is medical standard.

4. a kind of Intelligent hypertension management system according to claim 1, it is characterised in that: described microprocessing unit is single-chip microcomputer.

5. a kind of Intelligent hypertension management system according to claim 1, it is characterized in that: described mobile terminal includes the mobile terminal of patient end and the mobile terminal of doctor terminal, the mobile terminal of the mobile terminal of described patient end and described doctor terminal is provided with an APP carrying out blood pressure management, and be connected with described cloud platform server by wireless communication module, in order to carry out doctor-patient interaction. simultaneously.

6. a kind of Intelligent hypertension management system according to claim 5, it is characterized in that: the mobile terminal of described patient end is in order to voice guidance patient's correct measurement blood pressure, and judge that pressure value is in normal range, pressure value is higher or pressure value is on the low side according to the patients' blood's measurement data received, blood-pressure measurement data is sent the mobile terminal to described doctor terminal with judged result by described cloud platform server；The mobile terminal of described doctor terminal obtains the blood-pressure measurement data of patient and judged result by described cloud platform server, and controls patient and carry out the Time And Frequency of blood pressure measurement and send hypertension drug adjustment information.

7. a kind of Intelligent hypertension management system according to claim 1, it is characterised in that: described cloud platform server is provided with a data base, in order to store the blood pressure data of user, it is provided that crowd prevention and treatment data.

8. a kind of Intelligent hypertension management system according to claim 1, it is characterised in that: described mobile terminal includes smart mobile phone and flat board.

9. one kind based on described in claim 1 Intelligent hypertension manage system realize method, it is characterised in that: comprise the following steps:

Step S1: patient requires correctly to be worn on upper arm the sphygmomanometer girding of described upper arm sphygmomanometer according to operation instruction according to the voice message of described mobile terminal；

Step S2: described pressurization micro air pump is inflated, and starts to measure blood pressure；

Step S3: described gas pressure sensor will collect pressure data transmission to described microprocessing unit, pressure data is converted to pressure value by described microprocessing unit, and by described bluetooth communication by blood pressure data transmission to described mobile terminal；

Step S4: according to the patients' blood's measurement data received, described mobile terminal judges that pressure value is in normal range, pressure value is higher or pressure value is on the low side；

Step S5: described mobile terminal is connected with the mobile terminal foundation of doctor terminal by described cloud platform server, in order to carry out doctor-patient interaction, the mobile terminal of described doctor terminal adjusts hypertension drug adjustment information according to the patients' blood's measurement data got with judged result；

Step S6: described upper arm sphygmomanometer is worn on upper arm to terminate after one-shot measurement, sends to described mobile terminal according to preset program repetitive measurement on time and by blood-pressure measurement data subsequently, and returns step S4.

10. a kind of Intelligent hypertension according to claim 9 management system realize method, it is characterized in that: described mobile terminal is the mobile terminal of patient end, the mobile terminal of described doctor terminal sends the measurement instruction mobile terminal to described patient end by cloud platform server, measurement instruction is sent the bluetooth communication to described upper arm sphygmomanometer by Blue-tooth communication method by the mobile terminal of described patient end, the microprocessing unit of described upper arm sphygmomanometer obtains this measurement instruction and controls described upper arm sphygmomanometer and start to measure blood pressure and feedback blood-pressure measurement data in real time.