CN108309272A - A kind of cloud computing sphygmomanometer based on server - Google Patents

Abstract

This application discloses a kind of cloud computing sphygmomanometer based on server, including：Arm bag, sphygmomanometer and server；Arm bag is connect with sphygmomanometer, and sphygmomanometer is established with server and communicated to connect；Pressure sensor and communication module are equipped in sphygmomanometer；The variation of pressure sensor detection blood pressure, and generate pressure data；CPU inside sphygmomanometer preserves pressure data in chronological order obtains blood pressure waveform data；Communication module is used to send blood pressure waveform data to server, and, receive the blood pressure related data after server process；Database and computing module are equipped in server；Database is for storing a large amount of blood pressure waveforms and blood pressure related data；Computing module finds blood pressure related data corresponding with blood pressure waveform data for comparing blood pressure waveform data and blood pressure waveform.Last sphygmomanometer obtains accurate blood pressure related data, including high pressure, low pressure and pulse etc. from server, and these data are shown to user, so that user obtains accurate information.

Description

A kind of cloud computing sphygmomanometer based on server

Technical field

This application involves analysis and medicine technology field more particularly to a kind of cloud computing sphygmomanometers based on server.

Background technology

Systemic arterial blood pressure abbreviation blood pressure.When blood pressure is that blood flows in the blood vessels, the pressure of vasoactive wall, itIt is the power for pushing blood to flow in the blood vessels.Ventricular contraction, blood flow into artery from ventricle, at this time pressure of the blood to arteryHighest, referred to as systolic pressure.Ventricular diastole, arteries elastical retraction, blood still slowly continues flow forward, but blood pressure declines,Pressure at this time is known as diastolic pressure, and therefore, it is necessary to sphygmomanometers to measure the blood pressure of human body, to understand the healthy water of human bodyIt is flat.

Sphygmomanometer mainly has a stethoscopy sphygmomanometer and oscillographic method sphygmomanometer, and stethoscopy is divided into as human auscultation and from interesting to listen toThe diagnostic method, mercurial sphygmomanometer (pressure gauge), spring meter type blood pressure meter (pressure gauge) are exactly human auscultation's sphygmomanometer of early stage, nowHuman auscultation there is digital display sphygmomanometer, light beam sphygmomanometer, light to show sphygmomanometer, liquid crystal sphygmomanometer etc.；Automatic stethoscopy is nearestJust see within several years.All electronic sphygmomanometers are all oscillographic method sphygmomanometers, and electronic blood pressure is in respect of arm-type and wrist point.ElectronicsSphygmomanometer is widely used at present, and the communication technology is also applied on electron cloud sphygmomanometer by more and more people so that sphygmomanometerIt is also more accurate to measure.

However, the method for being substantially dynamic and measuring that current electronic sphygmomanometer uses.Dynamic, which measures, is used as a kind of surveyAmount mode is very universal, its accuracy depends on three aspects, first, the anti-interference of hardware itself；Second is that system softwareAnalysis to data；Third, to the size of data of measurand sampling.Sphygmomanometer is that one measured human blood-pressure dynamic setsIt is standby, by being amplified measurement to small fluctuation of blood pressure data.For present product during measurement, mainly system is to dataThe processing of analysis is than relatively limited, data sampling smaller.For above-mentioned mode, equipment has certain limitation, measurement it is accurateDegree cannot meet current measurement demand also only in 60%-70% or so.

Invention content

This application provides a kind of cloud computing sphygmomanometer based on server is measured not with solving current electronic sphygmomanometerAccurate problem.

This application provides a kind of cloud computing sphygmomanometer based on server, including：

Arm bag, sphygmomanometer and server；The arm bag is connect with the sphygmomanometer, and the sphygmomanometer is built with the serverVertical communication connection；

Pressure sensor and communication module are equipped in the sphygmomanometer；The variation of pressure sensor detection blood pressure,And generate pressure data；CPU inside the sphygmomanometer preserves pressure data in chronological order obtains blood pressure waveform data；The communication module is used to send blood pressure waveform data to the server, and, receive the blood pressure after the server processRelated data；

Database and computing module are equipped in the server；The database is for storing a large amount of blood pressure waveforms and blood pressureRelated data；The computing module is found and the blood pressure waveform number for comparing the blood pressure waveform data and blood pressure waveformAccording to corresponding blood pressure related data.

Optionally, the communication module is NB modules；The NB modules are used to send blood pressure waveform number to the serverAccording to, and, receive the blood pressure related data after the server process.

Optionally, the communication module is bluetooth communication；The bluetooth communication is used to send out to the serverBlood pressure waveform data are sent, and, receive the blood pressure related data after the server process.

Optionally, the communication module is WIFI communication modules；The WIFI communication modules are used to send out to the serverBlood pressure waveform data are sent, and, receive the blood pressure related data after the server process.

Optionally, the communication module is GPRS communication modules；The GPRS communication modules are used to send out to the serverBlood pressure waveform data are sent, and, receive the blood pressure related data after the server process.

Optionally, data processing module and memory module are additionally provided in the sphygmomanometer；The data processing module is used forThe blood pressure waveform data are handled；The memory module is related to the blood pressure for storing the blood pressure waveform dataData.

Optionally, it is additionally provided with display module in the sphygmomanometer；The display module is for showing the blood pressure dependency numberAccording to.

By above technical scheme it is found that the embodiment of the present application provides a kind of cloud computing sphygmomanometer based on server, including：Arm bag, sphygmomanometer and server；Arm bag is connect with sphygmomanometer, and sphygmomanometer is established with server and communicated to connect；It is equipped in sphygmomanometerPressure sensor and communication module；The variation of pressure sensor detection blood pressure, and generate pressure data；Inside sphygmomanometerPressure data is preserved and obtains blood pressure waveform data by CPU in chronological order；Communication module is used to send blood pressure waveform to serverData, and, receive the blood pressure related data after server process；Database and computing module are equipped in server；DatabaseFor storing a large amount of blood pressure waveforms and blood pressure related data；Computing module is looked for for comparing blood pressure waveform data and blood pressure waveformTo blood pressure related data corresponding with blood pressure waveform data.Last sphygmomanometer obtains accurate blood pressure related data from server,It is shown to user including high pressure, low pressure and pulse etc., and by these data, so that user obtains accurate information.

Description of the drawings

In order to illustrate more clearly of the technical solution of the application, attached drawing needed in case study on implementation will be made belowSimply introduce, it should be apparent that, for those of ordinary skills, in the premise of not making the creative labor propertyUnder, other drawings may also be obtained based on these drawings.

Fig. 1 is the structure chart of the first cloud computing sphygmomanometer based on server provided by the embodiments of the present application；

Fig. 2 is the structure chart of the second provided by the embodiments of the present application cloud computing sphygmomanometer based on server；

Fig. 3 is the structure chart of the third cloud computing sphygmomanometer based on server provided by the embodiments of the present application；

Fig. 4 is the structure chart of the 4th kind of cloud computing sphygmomanometer based on server provided by the embodiments of the present application；

Fig. 5 is the structure chart of the 5th kind of cloud computing sphygmomanometer based on server provided by the embodiments of the present application.

It illustrates：

1- arm bags；2- sphygmomanometers；3- servers；21- pressure sensors；22- communication modules；23- data processing modules；24- memory modules；25- display modules；31- databases；32- computing modules.

Specific implementation mode

In order to make those skilled in the art better understand the technical solutions in the application, below in conjunction with attached drawing, it is rightTechnical solution in the embodiment of the present application is clearly and completely described.

Referring to Fig. 1, the embodiment of the present application provides the first cloud computing sphygmomanometer based on server, including：Arm bag 1, bloodPressure meter 2 and server 3；Arm bag 1 is connect with sphygmomanometer 2, and sphygmomanometer 2 is established with server 3 and communicated to connect；

Pressure sensor 21 and communication module 22 are equipped in sphygmomanometer 2；The variation of the detection blood pressure of pressure sensor 21, withAnd generate pressure data；CPU inside sphygmomanometer 2 preserves pressure data in chronological order obtains blood pressure waveform data；CommunicationModule 22 is used to send blood pressure waveform data to server 3, and, receive treated the blood pressure related data of server 3；

Database 31 and computing module 32 are equipped in server 3；Database 31 is for storing a large amount of blood pressure waveforms and blood pressureRelated data；Computing module 32 finds blood corresponding with blood pressure waveform data for comparing blood pressure waveform data and blood pressure waveformPress related data.

Pressure sensor 21 measures the blood pressure waveform variation tendency of human body first, generates pressure data, then by sphygmomanometer 2Pressure data is preserved and obtains blood pressure waveform data by the CPU in portion in chronological order, and communication module 22 is by blood pressure waveform data transmissionInto server 3, due to being equipped with database 31 in server 3, and there have a large amount of clinical experiences to obtain in database 31 to be accurateThe corresponding blood pressure related data of blood pressure waveform, so, blood pressure waveform data that computing module 32 uploads communication module 22 withBlood pressure waveform in database 31 is made comparisons, find with the most similar waveform of blood pressure waveform data, then finding the waveformCorresponding blood pressure related data, these related datas include high pressure, low pressure and pulse etc., and last communication module 22 is again by blood pressure phaseIt closes data receiver and shows.Because a large amount of hospital clinicals for being collected in database 31 measure as a result, in the database 31Blood pressure waveform and data be all that more accurately, therefore, the cloud computing sphygmomanometer in the embodiment of the present application can carry for userFor more accurate blood pressure related data.

Optionally, data processing module 23 and memory module 24 are additionally provided in sphygmomanometer 2；Data processing module 23 is used forBlood pressure waveform data are handled；Memory module 24 is for storing blood pressure waveform data and blood pressure related data.In the applicationCloud computing sphygmomanometer be networking under normal circumstances, it is related that more accurate blood pressure can be obtained from server 3 in this wayData, but to ensure simultaneously the cloud computing sphygmomanometer in the case of suspension in the application can also normal use, be based on this,It needs setting data processing module 23 to handle blood pressure waveform data in sphygmomanometer 2, blood pressure waveform is converted into blood pressure phaseIt closes data to show, to could be used that in the case of suspension.The history value of measurement is preserved using memory module 24, withJust inquiry and comparison.

Optionally, it is additionally provided with display module 25 in sphygmomanometer 2；Display module 25 is used for display of blood pressure related data.

Referring to Fig. 2, the embodiment of the present application provides second of cloud computing sphygmomanometer based on server, including：Arm bag 1, bloodPressure meter 2 and server 3；Arm bag 1 is connect with sphygmomanometer 2, and sphygmomanometer 2 is established with server 3 and communicated to connect；

Pressure sensor 21 and communication module 22 are equipped in sphygmomanometer 2；The variation of the detection blood pressure of pressure sensor 21, withAnd generate pressure data；CPU inside sphygmomanometer 2 preserves pressure data in chronological order obtains blood pressure waveform data；CommunicationModule 22 is used to send blood pressure waveform data to server 3, and, receive treated the blood pressure related data of server 3；

Database 31 and computing module 32 are equipped in server 3；Database 31 is for storing a large amount of blood pressure waveforms and blood pressureRelated data；Computing module 32 finds blood corresponding with blood pressure waveform data for comparing blood pressure waveform data and blood pressure waveformPress related data.

Wherein, communication module 22 is NB modules；NB modules are used to send blood pressure waveform data to server 3, and, it receivesTreated the blood pressure related data of server 3.

Second of cloud computing sphygmomanometer provided by the embodiments of the present application, remaining content and the first cloud computing sphygmomanometer phaseTogether, it repeats no more.

Pressure sensor 21 measures the blood pressure waveform variation tendency of human body first, generates pressure data, then by sphygmomanometer 2Pressure data is preserved and obtains blood pressure waveform data by the CPU in portion in chronological order, NB modules by blood pressure waveform data transmission to clothesIt is engaged in device 3, due to being equipped with database 31, and the accurate blood for thering are a large amount of clinical experiences to obtain in database 31 in server 3The corresponding blood pressure related data of corrugating, so, the blood pressure waveform data that computing module 32 uploads NB modules and database 31In blood pressure waveform make comparisons, find with the most similar waveform of blood pressure waveform data, then finding the corresponding blood of the waveformIt includes high pressure, low pressure and pulse etc. to press related data, these related datas, and last NB modules again receive blood pressure related data simultaneouslyDisplay.Because it is that a large amount of hospital clinicals for being collected in database 31 measure as a result, blood pressure waveform in the database 31 withData are all that more accurately, therefore, the cloud computing sphygmomanometer in the embodiment of the present application can provide to the user more accuratelyBlood pressure related data.

Referring to Fig. 3, the embodiment of the present application provides the third cloud computing sphygmomanometer based on server, including：Arm bag 1, bloodPressure meter 2 and server 3；Arm bag 1 is connect with sphygmomanometer 2, and sphygmomanometer 2 is established with server 3 and communicated to connect；

Pressure sensor 21 and communication module 22 are equipped in sphygmomanometer 2；The variation of the detection blood pressure of pressure sensor 21, withAnd generate pressure data；CPU inside sphygmomanometer 2 preserves pressure data in chronological order obtains blood pressure waveform data；CommunicationModule 22 is used to send blood pressure waveform data to server 3, and, receive treated the blood pressure related data of server 3；

Database 31 and computing module 32 are equipped in server 3；Database 31 is for storing a large amount of blood pressure waveforms and blood pressureRelated data；Computing module 32 finds blood corresponding with blood pressure waveform data for comparing blood pressure waveform data and blood pressure waveformPress related data.

Wherein, communication module 22 is bluetooth communication；Bluetooth communication is used to send blood pressure waveform number to server 3According to, and, receive treated the blood pressure related data of server 3.

The third cloud computing sphygmomanometer provided by the embodiments of the present application, remaining content and the first cloud computing sphygmomanometer phaseTogether, it repeats no more.

In a kind of this cloud computing sphygmomanometer of the application, pass through the blood pressure waveform that pressure sensor 21 measures human body firstVariation tendency generates pressure data, then preserves pressure data in chronological order by the CPU inside sphygmomanometer 2 and obtain blood pressure waveGraphic data, bluetooth communication is by blood pressure waveform data transmission to server 3, due to being equipped with database 31 in server 3, andThe corresponding blood pressure related data of accurate blood pressure waveform for thering are a large amount of clinical experiences to obtain again in database 31, so, calculate mouldBlock 32 makes comparisons the blood pressure waveform data that bluetooth communication uploads with the blood pressure waveform in database 31, finds and blood pressure waveThen the most similar waveform of graphic data is finding the corresponding blood pressure related data of the waveform, these related datas include high pressure,Blood pressure related data is received and is shown again by low pressure and pulse etc., last bluetooth communication.Because being collected in database 31It is that a large amount of hospital clinicals measure as a result, so blood pressure waveform and data in the database 31 are all more accurately, therefore, thisCloud computing sphygmomanometer in application embodiment can provide more accurate blood pressure related data to the user.

Referring to Fig. 4, the embodiment of the present application provides the 4th kind of cloud computing sphygmomanometer based on server, including：Arm bag 1, bloodPressure meter 2 and server 3；Arm bag 1 is connect with sphygmomanometer 2, and sphygmomanometer 2 is established with server 3 and communicated to connect；

Pressure sensor 21 and communication module 22 are equipped in sphygmomanometer 2；The variation of the detection blood pressure of pressure sensor 21, withAnd generate pressure data；CPU inside sphygmomanometer 2 preserves pressure data in chronological order obtains blood pressure waveform data；CommunicationModule 22 is used to send blood pressure waveform data to server 3, and, receive treated the blood pressure related data of server 3；

Database 31 and computing module 32 are equipped in server 3；Database 31 is for storing a large amount of blood pressure waveforms and blood pressureRelated data；Computing module 32 finds blood corresponding with blood pressure waveform data for comparing blood pressure waveform data and blood pressure waveformPress related data.

Wherein, communication module 22 is WIFI communication modules；WIFI communication modules are used to send blood pressure waveform number to server 3According to, and, receive treated the blood pressure related data of server 3.

4th kind of cloud computing sphygmomanometer provided by the embodiments of the present application, remaining content and the first cloud computing sphygmomanometer phaseTogether, it repeats no more.

In a kind of this cloud computing sphygmomanometer of the application, pass through the blood pressure waveform that pressure sensor 21 measures human body firstVariation tendency generates pressure data, then preserves pressure data in chronological order by the CPU inside sphygmomanometer 2 and obtain blood pressure waveGraphic data, WIFI communication modules are by blood pressure waveform data transmission to server 3, due to being equipped with database 31 in server 3, andThe corresponding blood pressure related data of accurate blood pressure waveform for thering are a large amount of clinical experiences to obtain again in database 31, so, calculate mouldBlock 32 makes comparisons the blood pressure waveform data that WIFI communication modules upload with the blood pressure waveform in database 31, finds and blood pressure waveThen the most similar waveform of graphic data is finding the corresponding blood pressure related data of the waveform, these related datas include high pressure,Blood pressure related data is received and is shown again by low pressure and pulse etc., last WIFI communication modules.Because being collected in database 31It is that a large amount of hospital clinicals measure as a result, so blood pressure waveform and data in the database 31 are all more accurately, therefore, thisCloud computing sphygmomanometer in application embodiment can provide more accurate blood pressure related data to the user.

Referring to Fig. 5, the embodiment of the present application provides the 5th kind of cloud computing sphygmomanometer based on server, including：Arm bag 1, bloodPressure meter 2 and server 3；Arm bag 1 is connect with sphygmomanometer 2, and sphygmomanometer 2 is established with server 3 and communicated to connect；

Pressure sensor 21 and communication module 22 are equipped in sphygmomanometer 2；The variation of the detection blood pressure of pressure sensor 21, withAnd generate pressure data；CPU inside sphygmomanometer 2 preserves pressure data in chronological order obtains blood pressure waveform data；CommunicationModule 22 is used to send blood pressure waveform data to server 3, and, receive treated the blood pressure related data of server 3；

Database 31 and computing module 32 are equipped in server 3；Database 31 is for storing a large amount of blood pressure waveforms and blood pressureRelated data；Computing module 32 finds blood corresponding with blood pressure waveform data for comparing blood pressure waveform data and blood pressure waveformPress related data.

Wherein, communication module 22 is GPRS communication modules；GPRS communication modules are used to send blood pressure waveform number to server 3According to, and, receive treated the blood pressure related data of server 3.

5th kind of cloud computing sphygmomanometer provided by the embodiments of the present application, remaining content and the first cloud computing sphygmomanometer phaseTogether, it repeats no more.

In a kind of this cloud computing sphygmomanometer of the application, pass through the blood pressure waveform that pressure sensor 21 measures human body firstVariation tendency generates pressure data, then preserves pressure data in chronological order by the CPU inside sphygmomanometer 2 and obtain blood pressure waveGraphic data, GPRS communication modules are by blood pressure waveform data transmission to server 3, due to being equipped with database 31 in server 3, andThe corresponding blood pressure related data of accurate blood pressure waveform for thering are a large amount of clinical experiences to obtain again in database 31, so, calculate mouldBlock 32 makes comparisons the blood pressure waveform data that GPRS communication modules upload with the blood pressure waveform in database 31, finds and blood pressure waveThen the most similar waveform of graphic data is finding the corresponding blood pressure related data of the waveform, these related datas include high pressure,Blood pressure related data is received and is shown again by low pressure and pulse etc., last GPRS communication modules.Because being collected in database 31It is that a large amount of hospital clinicals measure as a result, so blood pressure waveform and data in the database 31 are all more accurately, therefore, thisCloud computing sphygmomanometer in application embodiment can provide more accurate blood pressure related data to the user.

By above technical scheme it is found that the embodiment of the present application provides a kind of cloud computing sphygmomanometer based on server, including：Arm bag 1, sphygmomanometer 2 and server 3；Arm bag 1 is connect with sphygmomanometer 2, and sphygmomanometer 2 is established with server 3 and communicated to connect；SphygmomanometerPressure sensor 21 and communication module 22 are equipped in 2；The variation of the detection blood pressure of pressure sensor 21, and generate number pressureAccording to；CPU inside sphygmomanometer 2 preserves pressure data in chronological order obtains blood pressure waveform data；Communication module 22 be used forServer 3 sends blood pressure waveform data, and, receive treated the blood pressure related data of server 3；Number is equipped in server 3According to library 31 and computing module 32；Database 31 is for storing a large amount of blood pressure waveforms and blood pressure related data；Computing module 32 is used forBlood pressure waveform data and blood pressure waveform are compared, blood pressure related data corresponding with blood pressure waveform data is found.Last sphygmomanometer 2 fromServer obtains accurate blood pressure related data, including high pressure, low pressure and pulse etc., and these data are shown to user, withJust user obtains accurate information.

Those skilled in the art will readily occur to its of the application after considering specification and putting into practice application disclosed hereinIts embodiment.This application is intended to cover any variations, uses, or adaptations of the application, these modifications, purposes orPerson's adaptive change follows the general principle of the application and includes the undocumented common knowledge in the art of the applicationOr conventional techniques.The description and examples are only to be considered as illustrative, and the true scope of the application is pointed out by claim.

It should be understood that the application is not limited to the precision architecture for being described above and being shown in the accompanying drawings, andAnd various modifications and changes may be made without departing from the scope thereof.Above-described the application embodiment is not constituted to this ShenPlease protection domain restriction.

Claims (7)

1. a kind of cloud computing sphygmomanometer based on server, which is characterized in that including：

Arm bag (1), sphygmomanometer (2) and server (3)；The arm bag (1) connect with the sphygmomanometer (2), the sphygmomanometer (2)It establishes and communicates to connect with the server (3)；

Pressure sensor (21) and communication module (22) are equipped in the sphygmomanometer (2)；The pressure sensor (21) detectionThe variation of blood pressure, and generate pressure data；The internal CPU of the sphygmomanometer (2) preserves pressure data in chronological orderTo blood pressure waveform data；The communication module (22) is used to send blood pressure waveform data to the server (3), and, it receivesThe server (3) treated blood pressure related data；

Database (31) and computing module (32) are equipped in the server (3)；The database (31) is for storing a large amount of bloodCorrugating and blood pressure related data；The computing module (32) is found for comparing the blood pressure waveform data and blood pressure waveformBlood pressure related data corresponding with the blood pressure waveform data.

2. cloud computing sphygmomanometer according to claim 1, which is characterized in that the communication module (22) is NB modules；InstituteNB modules are stated for sending blood pressure waveform data to the server (3), and, receive the server (3) treated bloodPress related data.

3. cloud computing sphygmomanometer according to claim 1, which is characterized in that the communication module (22) is Bluetooth communication mouldBlock；The bluetooth communication is used to send blood pressure waveform data to the server (3), and, receive the server (3)Blood pressure related data that treated.

4. cloud computing sphygmomanometer according to claim 1, which is characterized in that the communication module (22) is that WIFI communicates mouldBlock；The WIFI communication modules are used to send blood pressure waveform data to the server (3), and, receive the server (3)Blood pressure related data that treated.

5. cloud computing sphygmomanometer according to claim 1, which is characterized in that the communication module (22) is that GPRS communicates mouldBlock；The GPRS communication modules are used to send blood pressure waveform data to the server (3), and, receive the server (3)Blood pressure related data that treated.

6. according to claim 1-5 any one of them cloud computing sphygmomanometers, which is characterized in that also set in the sphygmomanometer (2)There are data processing module (23) and memory module (24)；The data processing module (23) be used for the blood pressure waveform data intoRow processing；The memory module (24) is for storing the blood pressure waveform data and the blood pressure related data.

7. cloud computing sphygmomanometer according to claim 6, which is characterized in that be additionally provided with display mould in the sphygmomanometer (2)Block (25)；The display module (25) is for showing the blood pressure related data.