CN216754432U - Physiological index home monitoring system based on cloud platform - Google Patents

Abstract

The utility model provides a physiological index home monitoring system based on a cloud platform, which comprises: the system comprises measuring equipment, a cloud server and a user terminal, wherein data transmission among the measuring equipment, the cloud server and the user terminal is realized through wireless signals; the measuring equipment is used for detecting various physiological index data of the human body, and uploading the data to the cloud server after processing; the cloud server is used for connecting the measuring equipment and the user terminal, receiving data from the measuring equipment and transmitting a result to the user terminal; the user terminal is used for displaying the physiological index data of a monitored person and carrying out information interaction, and solves the problems that the existing safety and health monitoring means for special people such as old people and pregnant women is lack of real-time performance and continuity and cannot be remotely monitored.

Description

Physiological index home monitoring system based on cloud platform

Technical Field

The utility model relates to the technical field of medical health of the Internet of things, in particular to a physiological index home monitoring system based on a cloud platform.

Background

Advocating healthy life and focusing on disease prevention are one of the hot problems in the society at present, and the real-time monitoring of household physiological indexes for special groups is a big pain point.

The old and the pregnant women are taken as a special group, the healthy life of the old and the pregnant women is inconvenient and potentially dangerous, the traditional home health monitoring method cannot share data with doctors in real time, and the traditional method has very limited functions due to the lack of guidance and relevant medical knowledge of the doctors.

At present, a physiological index monitoring system aiming at the safety and health of old people and pregnant women exists in the market, but the following defects still exist:

the blood pressure monitor and the blood sugar monitor which are most commonly used in daily life at present can not capture multiple health indexes simultaneously, so that a plurality of single physiological indexes can be measured, and although the measurement precision is higher, the comprehensive health evaluation can not be realized, and the occurrence of pathological changes or emergency situations can not be predicted.

Data cannot be synchronously acquired and transmitted in real time, a part of monitoring equipment can start a measurement function only after sending a measurement request, and the function of autonomously capturing data in real time is lacked, so that the sampling times are few, the time interval is long, and the trend comparison of a large amount of data for a long time cannot be carried out. In addition, the asynchronism of signal acquisition causes no correlation among various indexes, and the fact that more precise judgment cannot be made is also one of the key problems to be solved by the system.

The data cannot be remotely checked and fed back, and although many detection devices can record the data in the terminal for the detector to check, the data are not connected with the cloud end, so that the data cannot be remotely monitored in real time. If the physiological index measured values are uploaded to the cloud end, a plurality of users can check the physiological index measured values at any time and any place, if children and girls far away from other countries can check health data of old people at home, and the occurrence of sudden accidents is predicted in advance; the doctor and the pregnant woman can carry out information interaction without meeting, so that the convenience of health examination can be greatly improved.

In conclusion, the current safety and health monitoring means for special people such as the old, the pregnant women lack real-time performance and continuity and cannot monitor remotely.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a physiological index home monitoring system based on a cloud platform, and solves the problems that the existing safety and health monitoring means for special people such as old people and pregnant women is lack of real-time performance and continuity and cannot be remotely monitored.

(II) technical scheme

In order to achieve the purpose, the utility model is realized by the following technical scheme:

the utility model provides a physiological index home monitoring system based on a cloud platform, which comprises: the system comprises measuring equipment, a cloud server and a user terminal, wherein data transmission among the measuring equipment, the cloud server and the user terminal is realized through wireless signals;

the measuring equipment is used for detecting various physiological index data of the human body, and uploading the data to the cloud server after processing;

the cloud server is used for connecting the measuring equipment and the user terminal, receiving data from the measuring equipment and transmitting a result to the user terminal;

the user terminal is used for displaying the physiological index data of the monitored person and carrying out information interaction.

Preferably, the measuring apparatus comprises: the physiological index detection module, the data processing module and the data transmission module;

the physiological index detection module is used for detecting physiological parameters of a human body and transmitting the measured data to the data processing module through a serial port;

the data processing module processes data and then sends the processed data to the data transmission module;

and the data transmission module uploads all the measurement data to the cloud server after receiving the sending instruction from the data processing module.

Preferably, the physiological index detection module includes: the body temperature sensor, the blood pressure sensor, the blood oxygen sensor and the heart rate sensor are respectively used for measuring the body temperature, the blood pressure, the blood oxygen and the heart rate of the human body;

the physiological index data passes through an amplifying circuit and an AD conversion circuit in the physiological index detection module and then is connected with the data processing module through a serial port.

Preferably, the data processing module comprises an MCU, adopts an STM32F1 series development board, and is used for processing the collected physiological parameters, converting the physiological parameters into character strings according to a preset format, packaging the character strings into detection data, and transmitting the detection data to the data transmission module.

Preferably, the data transmission module can adopt a SIM800C or an ESP8266 chip according to different networking modes; the SIM800C chip is used for data uploading under a cellular network, and the ESP8266 chip is used for data uploading under a wifi networking mode; and after the data transmission module receives the data sending instruction of the data processing module, the physiological index parameters are transmitted to the cloud server.

Preferably, the monitoring system further comprises: managing the application platform;

the management application platform comprises: the system comprises an intelligent user terminal and an Internet of things management platform;

the intelligent user terminal is terminal equipment which is used by a user and is provided with a function of receiving cloud server data;

the Internet of things management platform is a cloud management platform and is used for data management and interface adjustment display.

Advantageous effects

The utility model provides a physiological index home monitoring system based on a cloud platform. The method has the following beneficial effects:

1. the measurement of body temperature, blood pressure, blood oxygen and heart rate is integrated in the measuring equipment, and a plurality of physiological index data can be obtained from the measuring equipment;

2. various physiological index data are uploaded to a cloud platform, so that the health condition of a special group can be remotely monitored, and risk prejudgment is realized;

3. big data received and stored by the cloud can be used for doctors and family members to observe and remotely monitor the health condition of special people at any time through a PC (personal computer) end or a mobile phone APP (application), risk pre-judgment is carried out, and meanwhile, the physiological index information is checked and doctor-patient interaction is realized;

4. the utility model can monitor the physiology of a large number of users at the same time, and provide real-time physiological condition management, so that the users can know the personal health condition visually, and the burden of doctors is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a physiological index home monitoring system based on a cloud platform according to the present invention;

fig. 2 is a schematic structural diagram of a measuring device of a physiological index home monitoring system based on a cloud platform according to the present invention;

fig. 3 is a schematic structural diagram of a management application platform of a physiological index home monitoring system based on a cloud platform according to the present invention;

fig. 4 is a three-level combination schematic diagram of data acquisition, transmission and display of a physiological index home monitoring system based on a cloud platform provided by the utility model;

fig. 5 is a working principle diagram of a physiological index home monitoring system based on a cloud platform provided by the utility model.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 5, an embodiment of the present invention provides a physiological index home monitoring system based on a cloud platform, including: the system comprises measuring equipment, a cloud server and a user terminal, wherein data transmission among the measuring equipment, the cloud server and the user terminal is realized through wireless signals;

the measuring equipment is used for detecting various physiological index data of the human body, and uploading the data to the cloud server after processing;

the cloud server is used for connecting the measuring equipment and the user terminal, receiving data from the measuring equipment and transmitting a result to the user terminal;

the user terminal is used for displaying the physiological index data of the monitored person and carrying out information interaction.

In one embodiment, the measurement apparatus comprises: the physiological index detection module, the data processing module and the data transmission module;

the physiological index detection module is used for detecting physiological parameters of a human body and transmitting the measured data to the data processing module through a serial port;

in one embodiment, the physiological parameters include blood oxygen saturation, body temperature, blood pressure, and heart rate;

the data processing module processes data and then sends the processed data to the data transmission module;

and the data transmission module uploads all the measurement data to the cloud server after receiving the sending instruction from the data processing module.

As shown in fig. 2, in one embodiment, the physiological index detection module includes: the body temperature sensor, the blood pressure sensor, the blood oxygen sensor and the heart rate sensor are respectively used for measuring the body temperature, the blood pressure, the blood oxygen and the heart rate of the human body;

in one embodiment, the body temperature sensor, the blood pressure sensor, the blood oxygen sensor and the heart rate sensor can be selected from an infrared temperature sensor, a photoelectric pulse sensor, a pulse oximeter and a heart rate monitor biosensor, and the MCU module is respectively connected with the infrared temperature sensor, the photoelectric pulse sensor, the pulse oximeter and the heart rate monitor biosensor.

In one embodiment, the infrared temperature sensor measures the corresponding temperature based on the principle that a human body emits infrared rays with a specific wave band; the photoelectric pulse sensor is used for measuring the pulse based on the blood pressure of the photoplethysmography characteristics; the pulse oximeter and the heart rate monitor biosensor integrate an infrared light LED, a photoelectric detector, an optical device and a low-noise electronic circuit with ambient light suppression, and adopt an IIC compatible communication interface to realize information acquisition of blood oxygen and heart rate.

The physiological index data passes through an amplifying circuit and an AD conversion circuit in the physiological index detection module and then is connected with the data processing module through a serial port.

In one embodiment, the data processing module is an MCU, and is configured to store and convert the physiological index detection data, transmit the physiological index detection data to the data transmission module, and control data transceiving of the data transmission module through an instruction.

In one embodiment, the data processing module comprises an MCU (microprogrammed control Unit), an STM32F1 series development board is adopted, and the data processing module is used for processing the collected physiological parameters, converting the physiological parameters into character strings according to a preset format, packaging the character strings into detection data and transmitting the detection data to the data transmission module.

In one embodiment, the data transmission between the MCU module and the data communication module and the application layer is implemented as follows: the information transmission between the mobile terminal and the communication module is realized through an AT instruction, then the access machine address, the IMEI and the IMSI are configured, then the configuration of a sensor interaction data format and a sensor interaction data mode is carried out, the transmission is carried out in a character string mode, and finally a terminal keep-alive mechanism is configured to complete the data transmission to the Internet of things management platform.

In one embodiment, the data transmission module may adopt a SIM800C or ESP8266 chip according to different networking modes; the SIM800C chip is used for data uploading under a cellular network, and the ESP8266 chip is used for data uploading under a wifi networking mode; and after the data transmission module receives the data sending instruction of the data processing module, the physiological index parameters are transmitted to the cloud server.

In one embodiment, the data transmission module includes a SIM800C and an ESP8266, which can be selected according to different networking modes, and is configured to read the physiological index detection data stored in the MCU module and upload the data to the cloud server through the network base station.

In one embodiment, the cloud server may be an arri cloud server, and is configured to establish a communication connection between a data transmission module in the measurement device and the management application platform, so as to implement data transmission.

In one embodiment, the data transmission process performed by the MCU module is as follows: and transmitting the data to the Alice cloud TCP server through MQTT in the TCP/IP protocol.

In one embodiment, the monitoring system further comprises: managing the application platform;

as shown in fig. 3, the management application platform includes: the system comprises an intelligent user terminal and an Internet of things management platform;

the intelligent user terminal is terminal equipment which is used by a user and is provided with a function of receiving cloud server data;

the Internet of things management platform is a cloud management platform and is used for data management and interface adjustment display.

The working principle is as follows:

as shown in fig. 5, the working principle of the physiological index home monitoring system based on the cloud platform provided by the utility model is as follows:

(1) the sensor collects relevant data such as blood pressure, blood oxygen, body temperature, heart rate and the like and transmits the data to the MCU;

(2) the MCU processes the data and calculates a health index through weighted average;

(3) the MCU realizes data transmission with the communication module through the AT command;

(4) SIM800C transmits data to the cloud server through MQTT in TCP/IP protocol under cellular network, ESP8266 uploads data under Wi-Fi environment;

(5) the user views the cloud data through the APP.

In summary, the physiological index home monitoring system based on the cloud platform provided by the embodiment of the utility model has the following beneficial effects:

1. the measurement of body temperature, blood pressure, blood oxygen and heart rate is integrated in the measuring equipment, and a plurality of physiological index data can be obtained from the measuring equipment;

2. various physiological index data are uploaded to a cloud platform, so that the health condition of a special group can be remotely monitored, and risk prejudgment is realized;

3. big data received and stored by the cloud can be used for doctors and family members to observe and remotely monitor the health condition of special people at any time through a PC (personal computer) end or a mobile phone APP (application), risk pre-judgment is carried out, and meanwhile, the physiological index information is checked and doctor-patient interaction is realized;

4. the utility model can monitor the physiology of a large number of users at the same time, and provide real-time physiological condition management, so that the users can know the personal health condition visually, and the burden of doctors is reduced.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. A physiological index home monitoring system based on a cloud platform is characterized by comprising: the system comprises measuring equipment, a cloud server and a user terminal, wherein data transmission among the measuring equipment, the cloud server and the user terminal is realized through wireless signals;

the measuring equipment is used for detecting various physiological index data of the human body, and uploading the data to the cloud server after processing;

the measuring apparatus includes: the physiological index detection module, the data processing module and the data transmission module;

the data processing module comprises an MCU (microprogrammed control Unit), an STM32F1 series development board is adopted for processing the collected physiological parameters, the physiological parameters are converted into character strings according to a preset format, the character strings are packaged into detection data, and the detection data are transmitted to the data transmission module;

the data transmission module can adopt SIM800C or ESP8266 chips according to different networking modes; the SIM800C chip is used for data uploading under a cellular network, and the ESP8266 chip is used for data uploading under a wifi networking mode; after receiving a data sending instruction of the data processing module, the data transmission module transmits the physiological index parameters to the cloud server;

the cloud server is used for connecting the measuring equipment and the user terminal, receiving data from the measuring equipment and transmitting a result to the user terminal;

the user terminal is used for displaying the physiological index data of the monitored person and carrying out information interaction.

2. The cloud platform-based physiological metric home monitoring system of claim 1,

the physiological index detection module is used for detecting physiological parameters of a human body and transmitting the measured data to the data processing module through a serial port;

the data processing module processes data and then sends the processed data to the data transmission module;

and the data transmission module uploads all the measurement data to the cloud server after receiving the sending instruction from the data processing module.

3. The cloud platform-based physiological metric home monitoring system of claim 2, wherein the physiological metric detection module comprises: the body temperature sensor, the blood pressure sensor, the blood oxygen sensor and the heart rate sensor are respectively used for measuring the body temperature, the blood pressure, the blood oxygen and the heart rate of the human body;

the physiological index data passes through an amplifying circuit and an AD conversion circuit in the physiological index detection module and then is connected with the data processing module through a serial port.

4. The cloud platform-based physiological index home monitoring system of claim 3, wherein the monitoring system further comprises: managing the application platform;

the management application platform comprises: the system comprises an intelligent user terminal and an Internet of things management platform;

the intelligent user terminal is terminal equipment which is used by a user and is provided with a function of receiving cloud server data;

the Internet of things management platform is a cloud management platform and is used for data management and interface adjustment display.

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