CN205163050U - Intelligence endowment monitor system - Google Patents

Abstract

An intelligent elderly care monitoring system, relating to a monitoring system, the system includes a smart bracelet, a mobile terminal and a remote monitoring service platform, the smart bracelet is composed of a sign information monitoring unit and a watch strap; There is a round transparent display screen cover, a recessed round transparent heart rate and pulse collection cover under the shell of the physical sign information monitoring unit, and an alarm button and a wake-up button are located on one side of the shell of the physical sign information monitoring unit; There is a lithium battery and a physical sign information collection circuit board in the shell of the physical sign information monitoring unit. The system sends to the mobile terminal through Bluetooth communication to achieve the function of real-time alarm. At the same time, according to the physical condition of the elderly, it will give guiding suggestions that are beneficial to health. The elderly and their children can log in to the remote monitoring service platform to inquire about the daily activities and health conditions of the elderly.

Description

An intelligent elderly care monitoring system

technical field

The utility model relates to a monitoring system, in particular to an intelligent elderly care monitoring system.

Background technique

At present, China is facing a huge population aging pressure, and the issue of old-age care has become a hot topic of concern to the whole society. Therefore, more and more attention has been paid to the health status of the elderly, monitoring of daily activities and medical care. However, due to the increase of one-child families and empty-nest families, most elderly people cannot receive timely monitoring, and cannot timely detect accidents in daily life of the elderly living alone, such as illness, falling, and disordered work and rest due to unhealthy physiology, etc. Wait. Therefore, if the health status and daily activities of the elderly can be monitored in real time to achieve the purpose of timely detection and early prevention, it can bring security to the healthy life of the elderly.

At present, there are some testing devices for the health of the elderly on the market, but these devices can only find out whether there is a problem with the health of the elderly during the detection, and cannot monitor the health status of the elderly in real time. In addition, these testing equipment only detect the health problems of the elderly at that time, without forming long-term data accumulation, so there is no targeted health guidance and advice for each elderly person's different characteristics.

Therefore, the utility model proposes an intelligent elderly care monitoring system, which detects the elderly's sign information all-weather through the smart bracelet, so as to achieve the purpose of timely discovery and early prevention of the health problems of the elderly. In order to reduce the power consumption of the smart bracelet, the ultra-low-power Bluetooth 4.0 communication protocol is used to communicate with the mobile terminal. The mobile terminal analyzes the physical signs data and realizes the purpose of remote alarm and data remote transmission through 3G communication. Through big data analysis and data mining, the remote monitoring service platform gives guiding suggestions that are beneficial to health according to the different situations of each elderly person. According to the data, at present, there are no reports on the intelligent elderly care monitoring system that detects the signs of the elderly around the clock, analyzes the characteristics of different elderly people according to big data, and gives targeted guidance and suggestions.

Contents of the invention

The purpose of the utility model is to provide an intelligent nursing care system for the elderly, which can send to the mobile terminal through bluetooth communication, so as to achieve the function of real-time alarm. At the same time, according to the physical condition of the elderly, it will give guiding suggestions that are beneficial to health. The elderly and their children can log in to the remote monitoring service platform to inquire about the daily activities and health conditions of the elderly.

Technical scheme of the utility model:

An intelligent elderly care monitoring system includes an intelligent bracelet, a mobile terminal and a remote monitoring service platform.

The smart bracelet is composed of a physical sign information monitoring unit and a strap.

The sign information monitoring unit has an oval shell. There is a recessed circular transparent display screen cover above the shell of the physical sign information monitoring unit for protecting the display screen. There is a recessed round transparent heart rate and pulse collection meter cover under the shell of the physical sign information monitoring unit, which is used to protect and seal the pulse sensor and temperature sensor. There is an alarm key button and a wake-up key button on one side of the shell of the physical sign information monitoring unit. On two opposite sides of the shell of the physical sign information monitoring unit, there are respectively a master strap and a male strap for fixing the smart bracelet on the wrist. There is a lithium battery and a physical sign information collection circuit board in the shell of the physical sign information monitoring unit. The lithium battery is a 3.7V lithium battery with a capacity of 500mAh, a discharge cut-off voltage of 2.75V, and a charge cut-off voltage of 4.2V. The sign information acquisition circuit board is composed of a main processor circuit, a pulse sensor, a temperature sensor, a six-axis acceleration sensor, a buzzer, an alarm button, a wake-up button, an OLED display and a power circuit. The main processor circuit on the sign information collection circuit board is composed of NRF51822 and its peripheral circuits, responsible for the collection of sign information, the transmission of sign information and the automatic time calibration function. The pulse sensor on the sign information collection circuit board adopts sensor PhotoSensor, which is a photoelectric reflective analog sensor for pulse heart rate measurement. The pulse collection cover collects the pulse information of the human body. The temperature sensor on the sign information acquisition circuit board adopts MLX90615, and MLX90615 adopts infrared temperature measurement technology to realize non-contact temperature measurement. The temperature sensor uses MLX90615 to collect human body temperature information through the heart rate and pulse collection cover under the shell. The six-axis acceleration sensor on the sign information collection circuit board adopts MPU6050, which is responsible for collecting the three-axis acceleration and three-axis angular velocity of the smart bracelet. Through the program, it can detect whether the wearer of the smart bracelet has fallen. The buzzer on the sign information acquisition circuit board adopts a 3.3V passive buzzer, which is used for battery dead prompts and other alarm prompts. The alarm button on the sign information collection circuit board is connected to the alarm button on the side of the shell, which is used to identify the alarm function when the elderly have an accident. It has the highest priority. When the alarm button is pressed, it will be transmitted to the smartphone through Bluetooth communication. , and then realize remote alarm by smart phone. The wake-up key on the sign information collection circuit board is connected to the wake-up key button on the side of the housing to wake up the OLED display. In consideration of low power consumption, the OLED display is not displayed at ordinary times. When the wake-up button is pressed, the OLED display will be awakened, and the OLED display will display, and the display will be automatically turned off after 2 seconds. The OLED display screen on the sign information collection circuit board displays time information and elderly sign information through the display screen cover above the casing. Time information includes year, month, day, hour, minute, and second; physical sign information includes temperature, pulse, and operating characteristics. Among them, the automatic time adjustment of the smart phone bracelet is realized through Bluetooth communication, and the accuracy of the clock is improved. The power circuit on the sign information acquisition circuit board is composed of XC6206P332 power module and its peripheral circuit, which is responsible for converting the lithium battery voltage into 3.3V voltage to supply power for the system. At the same time, there is a battery voltage detection circuit on the power circuit, and the nRF51822 detects the battery voltage to prompt the elderly to charge. Two power cables are drawn out from the battery interface, and are drawn out through the strap of the strap to charge the lithium battery.

The mobile terminal is composed of an Android mobile phone and an APP supporting Bluetooth 4.0. Mobile terminal APP is divided into physical layer, data link layer, intelligent analysis layer and user application layer according to different functions.

The physical layer is composed of the hardware physical layer of the Android mobile phone that supports Bluetooth 4.0, and is responsible for receiving and transmitting wireless signals of Bluetooth wireless communication and 3G wireless communication. The data link layer is composed of a Bluetooth communication protocol analysis module and a 3G communication protocol analysis module. The Android operating system API function in the Android mobile phone is called through the APP program to realize the analysis of the Bluetooth communication protocol and the 3G communication protocol. The intelligent analysis layer is composed of a data processing module, which is responsible for processing the physical sign data sent by the smart bracelet, and adopts the adaptive peak-seeking wavelet threshold denoising algorithm to improve the accuracy of psychological detection. Analyze the gait behavior of the elderly according to the output data of the six-axis acceleration sensor, and further analyze whether there is a fall. At the same time, the elderly's sign information is sent to the remote monitoring service platform through the 3G communication network. The user application layer includes a sign information display module, an automatic time calibration module, and an emergency alarm module. The sign information display module realizes displaying the body temperature, pulse and gait information of the elderly on the screen of the Android mobile phone through APP programming. The automatic time calibration module is responsible for receiving the automatic time calibration command sent by the smart bracelet, and then obtains the current time of the Android mobile phone through the API function of the Android operating system, and sends it to the smart bracelet through Bluetooth. The emergency alarm module is responsible for transmitting the alarm information to the children of the elderly through the 3G communication network when the elderly have an unstable heart rate, fall and other emergency situations.

The remote monitoring service platform is composed of a server and a corresponding elderly monitoring management system. The elderly monitoring and management system is divided into physical layer, data link layer, intelligent analysis layer, and user application layer according to different functions. The physical layer is composed of wired network card or wireless network card in the server, which is responsible for receiving wired physical signals or wireless radio frequency signals sent by the Internet. The data link layer is composed of a TCP/IP protocol analysis module, which implements TCP/IP protocol analysis, and then obtains the data sent by the mobile terminal. The intelligent analysis layer is composed of a data mining module. Through the long-term accumulation of the elderly's sign data, information that is beneficial to the health of the elderly is mined, and according to the physical condition of each elderly, guiding suggestions that are beneficial to health are given. The user application layer consists of a user login module, a user health analysis module, a user physical examination suggestion module, a user diet suggestion module, and an emergency alarm module. The user login module enables the elderly and their children to access the elderly care monitoring system through remote login. The user health analysis module gives the health status of the elderly based on the analysis of the elderly's sign information for a long time. The user physical examination suggestion module guides the elderly to perform physical examination items for one or several indicators of poor health based on the long-term analysis of the elderly's sign information. The user diet suggestion module gives reasonable dietary suggestions according to the characteristics of each elderly person based on the long-term analysis of the elderly's sign information. The emergency alarm module is responsible for calling the police and sending people to rescue in time when the elderly have an unstable heart rate, fall and other emergency situations.

The beneficial effects of the utility model are:

1. Integrate the pulse, body temperature, motion acceleration, and clock display functions into a smart bracelet to realize non-contact and all-weather detection of the signs and information of the elderly.

2. The mobile terminal realizes remote alarm and data remote transmission through 3G communication, which solves the problem of limited transmission distance.

3. Through big data analysis and data mining, the remote monitoring service platform gives guiding suggestions that are beneficial to health according to the different situations of each elderly person.

Description of drawings

Fig. 1 is a block diagram of the utility model system;

Fig. 2 is a structural schematic diagram of the utility model smart bracelet;

Fig. 3 is a circuit block diagram of the utility model smart bracelet;

Fig. 4 is a structural diagram of the utility model mobile terminal software system;

Fig. 5 is a structural diagram of the software system of the remote monitoring service platform of the present invention.

Attachments in the picture: 1 is the smart bracelet, 2 is the mobile terminal, 3 is the remote monitoring service platform, 4 is the cover of the display screen, 5 is the shell of the physical sign information monitoring unit, 6 is the lithium battery, 7 is the master strap of the strap, 8 9 is an alarm key button, 10 is a wake-up key button, and 11 is a heart rate and pulse collection watch cover.

detailed description

Example

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5, an intelligent elderly care monitoring system includes a smart bracelet 1, a mobile terminal 2 and a remote monitoring service platform 3.

The smart bracelet 1 is composed of a physical sign information monitoring unit and a watch strap.

The sign information monitoring unit has an oval shell. There is a recessed circular transparent display screen cover 4 above the shell 5 of the physical sign information monitoring unit for protecting the display screen. There is a recessed circular transparent heart rate and pulse collection meter cover 11 under the shell 5 of the physical sign information monitoring unit, which is used to protect and seal the pulse sensor and temperature sensor. On one side of the shell 5 of the physical sign information monitoring unit, there is an alarm button 9 and a wake-up button 10 . A master strap 7 and a male strap 8 are installed on a pair of opposite sides of the physical sign information monitoring unit housing 5, respectively, for fixing the smart bracelet on the wrist. There is a lithium battery 6 and a physical sign information collection circuit board inside the shell 5 of the physical sign information monitoring unit. The lithium battery 6 is a 3.7V lithium battery with a capacity of 500mAh, a discharge cut-off voltage of 2.75V, and a charge cut-off voltage of 4.2V. The sign information acquisition circuit board is composed of a main processor circuit, a pulse sensor, a temperature sensor, a six-axis acceleration sensor, a buzzer, an alarm button, a wake-up button, an OLED display and a power circuit. The main processor circuit on the sign information collection circuit board is composed of NRF51822 and its peripheral circuits, responsible for the collection of sign information, the transmission of sign information and the automatic time calibration function. The pulse sensor on the sign information collection circuit board adopts sensor PhotoSensor, which is a photoelectric reflective analog sensor for pulse heart rate measurement. The pulse collection table cover 11 collects the pulse information of the human body. The temperature sensor on the sign information acquisition circuit board adopts MLX90615, and MLX90615 adopts infrared temperature measurement technology to realize non-contact temperature measurement. The temperature sensor adopts MLX90615 to collect human body temperature information through the heart rate and pulse collection cover 11 under the shell. The six-axis acceleration sensor on the sign information collection circuit board adopts MPU6050, which is responsible for collecting the three-axis acceleration and three-axis angular velocity of the smart bracelet. Through the program, it can detect whether the wearer of the smart bracelet has fallen. The buzzer on the sign information collection circuit board adopts a 3.3V passive buzzer, which is used for prompting that the lithium battery 6 is out of power and other alarm prompts. The alarm button on the sign information collection circuit board is connected to the alarm button 9 on the side of the shell, and is used to identify the alarm function when the elderly have an accident. It has the highest priority. When the alarm button is pressed, it is transmitted to the smart phone through Bluetooth Mobile phone, and then realize remote alarm by smart phone. The wake-up key on the sign information collection circuit board is connected to the wake-up key button 10 on the side of the shell to wake up the OLED display. In consideration of low power consumption, the OLED display is not displayed at ordinary times. When the wake-up button is pressed, the OLED display will be awakened, and the OLED display will display, and the display will be automatically turned off after 2 seconds. The OLED display screen on the sign information collection circuit board displays time information and elderly sign information through the display screen cover 4 above the casing. Time information includes year, month, day, hour, minute, and second; physical sign information includes temperature, pulse, and operating characteristics. Among them, the automatic time adjustment of the smart phone bracelet is realized through Bluetooth communication, and the accuracy of the clock is improved. The power circuit on the sign information acquisition circuit board is composed of XC6206P332 power module and its peripheral circuit, which is responsible for converting the voltage of lithium battery 6 into 3.3V voltage to supply power for the system. At the same time, there is a battery voltage detection circuit on the power circuit, and the nRF51822 detects the battery voltage to prompt the elderly to charge. Two power lines are drawn from the battery interface, and are drawn through the watch strap 8 for charging the lithium battery.

The mobile terminal 2 is composed of an Android mobile phone and an APP supporting Bluetooth 4.0. Mobile terminal APP is divided into physical layer, data link layer, intelligent analysis layer and user application layer according to different functions. The physical layer is composed of the hardware physical layer of the Android mobile phone that supports Bluetooth 4.0, and is responsible for receiving and transmitting wireless signals of Bluetooth wireless communication and 3G wireless communication. The data link layer is composed of a Bluetooth communication protocol analysis module and a 3G communication protocol analysis module. The Android operating system API function in the Android mobile phone is called through the APP program to realize the analysis of the Bluetooth communication protocol and the 3G communication protocol. The intelligent analysis layer is composed of a data processing module, which is responsible for processing the physical sign data sent by the smart bracelet 1, and adopts the adaptive peak-seeking wavelet threshold denoising algorithm to improve the accuracy of psychological detection. Analyze the gait behavior of the elderly according to the output data of the six-axis acceleration sensor, and further analyze whether there is a fall. At the same time, the elderly's sign information is sent to the remote monitoring service platform 3 through the 3G communication network. The user application layer includes a sign information display module, an automatic time calibration module, and an emergency alarm module. The sign information display module realizes displaying the body temperature, pulse and gait information of the elderly on the screen of the Android mobile phone through APP programming. The automatic time calibration module is responsible for receiving the automatic time calibration command sent by the smart bracelet 1, and then obtains the current time of the Android mobile phone through the Android operating system API function, and sends it to the smart bracelet 1 through Bluetooth. The emergency alarm module is responsible for transmitting the alarm information to the children of the elderly through the 3G communication network when the elderly have an unstable heart rate, fall and other emergency situations.

The remote monitoring service platform 3 is composed of a server and a corresponding elderly monitoring management system. The elderly monitoring and management system is divided into physical layer, data link layer, intelligent analysis layer, and user application layer according to different functions. The physical layer is composed of wired network card or wireless network card in the server, which is responsible for receiving wired physical signals or wireless radio frequency signals sent by the Internet. The data link layer is composed of a TCP/IP protocol analysis module, which implements TCP/IP protocol analysis, and then obtains data sent by the mobile terminal 2 . The intelligent analysis layer is composed of a data mining module. Through the long-term accumulation of the elderly's sign data, information that is beneficial to the health of the elderly is mined, and according to the physical condition of each elderly, guiding suggestions that are beneficial to health are given. The user application layer consists of a user login module, a user health analysis module, a user physical examination suggestion module, a user diet suggestion module, and an emergency alarm module. The user login module enables the elderly and their children to access the elderly care monitoring system through remote login. The user health analysis module gives the health status of the elderly based on the analysis of the elderly's sign information for a long time. The user physical examination suggestion module guides the elderly to perform physical examination items for one or several indicators of poor health based on the long-term analysis of the elderly's sign information. The user diet suggestion module gives reasonable dietary suggestions according to the characteristics of each elderly person based on the long-term analysis of the elderly's sign information. The emergency alarm module is responsible for calling the police and sending people to rescue in time when the elderly have an unstable heart rate, fall and other emergency situations.

Claims (5)

1. An intelligent elderly care monitoring system is characterized in that, the system includes a smart bracelet, a mobile terminal and a remote monitoring service platform, and the smart bracelet is made up of a sign information monitoring unit and a strap; above the sign information monitoring unit shell, there is A recessed circular transparent display screen cover, a recessed circular transparent heart rate and pulse collection cover under the shell of the physical sign information monitoring unit, and an alarm button and a wake-up button on one side of the shell of the physical sign information monitoring unit button; a pair of opposite sides of the shell of the physical sign information monitoring unit are respectively equipped with a master strap and a male strap, which are used to fix the smart bracelet on the wrist; the shell of the physical sign information monitoring unit has a lithium battery and Sign information collection circuit board. 2. A kind of intelligent old-age care monitoring system according to claim 1, characterized in that, said sign information acquisition circuit board is composed of main processor circuit, pulse sensor, temperature sensor, six-axis acceleration sensor, buzzer, alarm button , wake-up button, OLED display and power circuit. 3. A kind of intelligent elderly care monitoring system according to claim 1, characterized in that, the main processor circuit on the said sign information collection circuit board is composed of NRF51822 and its peripheral circuits. 4. A kind of intelligent old-age care monitoring system according to claim 1, characterized in that, the mobile terminal is composed of an Android mobile phone and an APP supporting Bluetooth 4.0. 5. A kind of intelligent elderly care monitoring system according to claim 1, characterized in that, the remote monitoring service platform is composed of a server and a corresponding elderly monitoring management system.