Disclosure of Invention
Technical problem to be solved
The invention mainly aims to provide an intelligent early warning pillow, a method, an electronic device and a medium based on respiration and heart rate, and aims to solve the problem that the prior art cannot judge the current physical condition of a human body according to the respiratory frequency and the heartbeat frequency of the human body and cannot realize timely early warning of acute diseases of the human body.
(II) technical scheme
The invention is realized by the following technical scheme:
the utility model provides an intelligence early warning pillow based on breathing and rhythm of the heart, includes pillow main part and monitoring early warning system, monitoring early warning system includes respiratory frequency sensing device, heartbeat frequency sensing device and early warning device, respiratory frequency sensing device with heartbeat frequency sensing device sets up inside the pillow main part, and with early warning device connects, early warning device is configured into:
when a human body is rested on the pillow main body, the respiratory frequency sensing device monitors the respiratory frequency of the human body in real time, the heartbeat frequency sensing device monitors the heartbeat frequency of the human body in real time, the current body condition of the human body is judged according to the respiratory frequency and the heartbeat frequency of the human body, and a corresponding prompt signal is sent according to the current body condition of the human body.
Further, the judging the current physical condition of the human body according to the respiratory frequency and the heartbeat frequency of the human body and sending out a corresponding prompt signal according to the current physical condition of the human body comprises:
judging whether the respiratory frequency of the human body exceeds a preset first numerical range or not, judging whether the heartbeat frequency of the human body exceeds a preset second numerical range or not, sending first early warning information when the respiratory frequency of the human body exceeds the preset first numerical range, and sending second early warning information when the heartbeat frequency of the human body exceeds the preset second numerical range.
Further, the method for judging the current physical condition of the human body according to the respiratory frequency and the heartbeat frequency of the human body and sending out a corresponding prompt signal according to the current physical condition of the human body further comprises the following steps:
judge the current moment human respiratory frequency and last moment whether the difference of human respiratory frequency is greater than predetermined first threshold value, judge the current moment human heartbeat frequency and last moment whether the difference of human heartbeat frequency is greater than predetermined second threshold value, at the current moment human respiratory frequency and last moment when the difference of human respiratory frequency is greater than predetermined first threshold value, send third early warning information, at the current moment human heartbeat frequency and last moment when the difference of human heartbeat frequency is greater than predetermined second threshold value, send fourth early warning information.
Further, the early warning device comprises a main control chip, and a Bluetooth module, a Wi-Fi module, a mobile communication module, a display screen and a loudspeaker which are respectively connected with the main control chip, wherein the main control chip is connected with the respiratory frequency sensing device and the heartbeat frequency sensing device;
the early warning device sends the first early warning information, the second early warning information, the third early warning information and/or the fourth early warning information through any one or more of the Bluetooth module, the Wi-Fi module, the mobile communication module, the display screen and the loudspeaker.
Furthermore, the respiratory frequency sensing device comprises an elastic air bag and an electronic air valve which are arranged in the pillow main body, the elastic air bag is deflated when being pressed, and is restored to deform to inhale when the pressure is released, the air outlet of the elastic air bag is communicated with the electronic air valve, the electronic air valve is connected with the early warning device, when a human body is rested on the pillow main body, the human body breathes to cause periodic pressure change to the elastic air bag so as to lead the elastic air bag to move up and down, the electronic air valve is used for detecting the inflation and deflation states of the elastic air bag, sending a first trigger signal to the early warning device when the air suction of the elastic air bag is detected every time, sending a second trigger signal to the early warning device when the air deflation of the elastic air bag is detected every time, and the early warning device calculates the respiratory frequency of the human body according to the frequency of the received first trigger signal or the second trigger signal.
Furthermore, the heartbeat frequency sensing device comprises a film type pressure sensor, the film type pressure sensor is arranged on the upper surface or the lower surface of the air bag, when a human body is rested on the pillow main body, the human body heartbeat causes periodic pressure change to the film type pressure sensor, the film type pressure sensor is connected with the early warning device and used for sending a pressure signal detected in real time to the early warning device, and the early warning device calculates the heartbeat frequency of the human body according to the waveform period of the pressure signal.
The system comprises a pre-warning device, a cloud server and a monitoring server, wherein the pre-warning device is connected with the cloud server through a wireless network, the cloud server is used for receiving the respiratory frequency and heartbeat frequency data of the human body from the pre-warning device, generating a sleep monitoring report of the human body according to the respiratory frequency and heartbeat frequency data of the human body, archiving the sleep monitoring report of the human body, and sending the sleep monitoring report of the human body back to the pre-warning device for displaying.
The utility model provides a method for carry out intelligent early warning according to respiratory frequency and heartbeat frequency, is applied to intelligent pillow, intelligent pillow includes pillow main part and monitoring and early warning system, monitoring and early warning system includes respiratory frequency sensing device, heartbeat frequency sensing device and early warning device, respiratory frequency sensing device and heartbeat frequency sensing device set up in the pillow main part to with early warning device is connected, the method includes:
when a human body is rested on the pillow main body, the respiratory frequency sensing device monitors the respiratory frequency of the human body in real time, the heartbeat frequency sensing device monitors the heartbeat frequency of the human body in real time, the current body condition of the human body is judged according to the respiratory frequency and the heartbeat frequency of the human body, and a corresponding prompt signal is sent according to the current body condition of the human body.
An electronic device comprising a processor, a storage device having a computer program stored thereon, the computer program, when executed by the processor, implementing a method as described above.
A computer storage medium having stored thereon a computer program executable by a processor, the computer program, when executed by the processor, implementing a method as described above.
(III) advantageous effects
Compared with the prior art, the intelligent early warning pillow provided by the invention comprises a pillow main body and a monitoring early warning system, wherein the monitoring early warning system comprises a respiratory frequency sensing device, a heartbeat frequency sensing device and an early warning device. Respiratory frequency sensing device and heartbeat frequency sensing device set up inside the pillow main part, early warning device passes through respiratory frequency sensing device real-time supervision human respiratory frequency, through the heartbeat frequency of heartbeat frequency sensing device real-time supervision human, judge human current health according to human respiratory frequency and heartbeat frequency, and send corresponding cue signal according to human current health, can in time early warning the acute disease that can cause respiratory frequency and heartbeat frequency obvious change, win more time for the treatment of disease, especially, be fit for old person or the crowd who induces the acute disease uses easily.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the following embodiments and the accompanying drawings.
Referring to fig. 1 to 3, the intelligent early warning pillow based on respiration and heart rate provided by the embodiment of the invention comprises a pillow main body 6 and a monitoring early warning system, wherein the monitoring early warning system comprises a respiration frequency sensing device 1, a heartbeat frequency sensing device 2 and an early warning device 3, and the respiration frequency sensing device 1 and the heartbeat frequency sensing device 2 are arranged in the pillow main body 6 and connected with the early warning device 3. The early warning device 3 can be arranged inside or on the surface of the pillow body 6, and can also be arranged outside the pillow body 6 in an external connection mode. The early warning device 3 can be connected with the respiratory frequency sensing device 1 and the heartbeat frequency sensing device 2 through transmission lines. The early warning device 3 is configured to:
when a human body is rested on the pillow main body 6, the respiratory frequency of the human body is monitored in real time through the respiratory frequency sensing device 1, the heartbeat frequency of the human body is monitored in real time through the heartbeat frequency sensing device 2, the current body condition of the human body is judged according to the respiratory frequency and the heartbeat frequency of the human body, and a corresponding prompt signal is sent according to the current body condition of the human body. A switch can be arranged on the early warning device 3, and when a user rests on the pillow body 6, the early warning device 3 is started to work by opening the switch.
In the embodiment of the present invention, the determining the current physical condition of the human body according to the respiratory frequency and the heartbeat frequency of the human body, and sending out the corresponding prompt signal according to the current physical condition of the human body may include:
judging whether the respiratory frequency of the human body exceeds a preset first numerical range or not, judging whether the heartbeat frequency of the human body exceeds a preset second numerical range or not, sending first early warning information when the respiratory frequency of the human body exceeds the preset first numerical range, and sending second early warning information when the heartbeat frequency of the human body exceeds the preset second numerical range. When a human body is in a healthy state, a relatively normal respiratory frequency range and a heartbeat frequency range exist during sleeping, when the human body is ill, the respiratory frequency and/or the heartbeat frequency of the human body can be changed, when the human body is ill with certain acute diseases (such as asthma, cerebral infarction, myocardial infarction and the like), the respiratory frequency and/or the heartbeat frequency of the human body can be changed violently, and the respiratory frequency and/or the heartbeat frequency of the human body almost always exceed the normal range, so that timely early warning can be realized on the acute diseases by monitoring whether the respiratory frequency and the heartbeat frequency of the human body are beyond the preset range during sleeping.
The method for judging the current body condition of the human body according to the respiratory frequency and the heartbeat frequency of the human body and sending out a corresponding prompt signal according to the current body condition of the human body can also comprise the following steps:
judge the current moment human respiratory frequency and last moment whether the difference of human respiratory frequency is greater than predetermined first threshold value, judge the current moment human heartbeat frequency and last moment whether the difference of human heartbeat frequency is greater than predetermined second threshold value, at the current moment human respiratory frequency and last moment when the difference of human respiratory frequency is greater than predetermined first threshold value, send third early warning information, at the current moment human heartbeat frequency and last moment when the difference of human heartbeat frequency is greater than predetermined second threshold value, send fourth early warning information. When an acute disease occurs to a human body, the respiratory frequency and/or the heartbeat frequency of the human body usually do not exceed the normal range of the human body, and the respiratory frequency and/or the heartbeat frequency of the human body usually also change suddenly (namely change violently in a short time), and whether the respiratory frequency and/or the heartbeat frequency of the human body changes suddenly or not can be judged by monitoring whether the difference between the respiratory frequency and/or the heartbeat frequency of the human body at the current moment and the respiratory frequency and/or the heartbeat frequency at the previous moment is larger than a corresponding threshold value, so that the early warning of the acute disease is realized from another angle.
The two modes are combined, so that the early warning of the acute diseases can be accurately realized. Among the contents contained in the four kinds of warning information: when the respiratory rate of the human body is lower than the first numerical range, the first early warning information can comprise early warning information related to too low respiratory rate; when the respiratory frequency of the human body is higher than the first numerical range, the first early warning information can comprise early warning information related to overhigh respiratory frequency; when the heartbeat frequency of the human body is lower than the second numerical value range, the second early warning information can comprise early warning information related to too low heartbeat frequency; when the heartbeat frequency of the human body is higher than the second numerical value range, the second early warning information can comprise early warning information related to overhigh heartbeat frequency; when the difference between the respiratory frequency of the human body at the current moment and the respiratory frequency of the human body at the previous moment is larger than a preset first threshold value, and the respiratory frequency of the human body at the current moment is lower than the respiratory frequency of the human body at the previous moment, the third early warning information can comprise early warning information related to respiratory frequency collapse; when the difference between the respiratory rate of the human body at the current moment and the respiratory rate of the human body at the previous moment is greater than a preset first threshold value, and the respiratory rate of the human body at the current moment is higher than the respiratory rate of the human body at the previous moment, the third early warning information may include early warning information related to sudden rise of the respiratory rate; when the difference between the heartbeat frequency of the human body at the current moment and the heartbeat frequency of the human body at the previous moment is greater than a preset second threshold value, and the heartbeat frequency of the human body at the current moment is lower than the heartbeat frequency of the human body at the previous moment, the fourth early warning information may include early warning information related to sudden heart rate drop; when the current moment the difference between the heartbeat frequency of the human body and the heartbeat frequency of the human body at the previous moment is greater than a preset second threshold value, and the current moment the heartbeat frequency of the human body is higher than the heartbeat frequency of the human body at the previous moment, the fourth early warning information may include early warning information related to sudden rise of the heartbeat frequency.
In the embodiment of the present invention, the early warning device 3 includes a main control chip 10, and a bluetooth module 11, a Wi-Fi module 12, a mobile communication module 13, a display screen 8, and a speaker 9 that are respectively connected to the main control chip 10, where the main control chip 10 is connected to the respiratory frequency sensing device 1 and the heartbeat frequency sensing device 2. The respiratory frequency and heartbeat frequency data of the human body are calculated, analyzed and judged through the main control chip 10. The sleep monitoring program App may be installed in the main control chip 10, a first numerical range, a second numerical range, a first threshold and a second threshold suitable for different age groups are preset in the main control chip 10, the man-machine interface of the App is displayed through the display screen 8, the display screen 8 is a touch display screen, when the user uses the intelligent pillow, the age bracket where the user is located is selected through the display screen 8, then the main control chip 10 loads the first numerical range, the second numerical range, the first threshold and the second threshold corresponding to the age group of the user, based on the first numerical range, the second numerical range, the first threshold and the second threshold corresponding to the age group of the user, the main control chip 10 analyzes and judges the respiratory frequency and the heartbeat frequency of the human body, so that the main control chip 10 can analyze and judge the respiratory frequency and the heartbeat frequency of people of different ages in a targeted manner. Of course, the first numerical range, the second numerical range, the first threshold and the second threshold suitable for different age groups may not be preset in the main control chip 10, but the first numerical range, the second numerical range, the first threshold and the second threshold may be manually input through the display screen 8 when the user uses the intelligent pillow. The user can input the first numerical range, the second numerical range, the first threshold and the second threshold which are suitable for the user according to the actual physical examination condition of the user, so that the main control chip 10 can analyze and judge the respiratory frequency and the heartbeat frequency of each individual in a targeted manner.
The early warning device 3 sends the first early warning information, the second early warning information, the third early warning information and/or the fourth early warning information through any one or more of the bluetooth module 11, the Wi-Fi module 12, the mobile communication module 13, the display screen 8 and the loudspeaker 9.
In this embodiment, the respiratory rate sensing device 1 may include an elastic airbag 5 and an electronic air valve 7, the elastic airbag 5 and the electronic air valve 7 are disposed in the pillow body 6, the elastic airbag 5 is deflated when being pressed, and is deformed to suck air when being released, an air outlet of the elastic airbag 5 is communicated with the electronic air valve 7, the electronic air valve 7 is connected to the early warning device 3, and when a human body is rested on the pillow body 6, the human body breathes to cause periodic pressure change to the elastic airbag 5, so that the elastic airbag 5 moves up and down. The essence of the fluctuation of the elastic air bag 5 is that the elastic air bag 5 is inflated and deflated, the elastic air bag 5 is inflated and deflated once to cause the fluctuation once, and the fluctuation once represents that the human body breathes once, so that the breathing frequency can be monitored by monitoring the inflation/deflation frequency of the elastic air bag 5. On the basis, the electronic air valve 7 is arranged to monitor inflation and deflation of the elastic air bag 5, namely, the electronic air valve 7 is used for detecting the inflation and deflation state of the elastic air bag 5, a first trigger signal is sent to the early warning device 3 every time the air suction of the elastic air bag 5 is detected, a second trigger signal is sent to the early warning device 3 every time the air deflation of the elastic air bag 5 is detected, and then the early warning device 3 calculates the respiratory frequency of the human body according to the frequency of the received first trigger signal or the second trigger signal.
In this embodiment, the heartbeat frequency sensing device 2 may include a film type pressure sensor disposed on the upper surface or the lower surface of the air bag 5, when a human body is rested on the pillow body 6, the heartbeat of the human body causes a periodic pressure change to the film type pressure sensor, so that the heartbeat frequency of the human body can be detected by monitoring the periodic pressure change applied to the film type pressure sensor. Based on this, the film type pressure sensor is connected with the early warning device 3, the film type pressure sensor sends a pressure signal detected in real time to the early warning device 3, and the early warning device 3 calculates the heartbeat frequency of the human body according to the waveform period of the pressure signal.
Still can set up high in the clouds server 4, high in the clouds server 4 pass through wireless network with early warning device 3 is connected, in order to follow early warning device 3 receives human respiratory frequency and heartbeat frequency data, and according to human respiratory frequency and heartbeat frequency data generate human sleep monitor report, and right human sleep monitor report archives, simultaneously, will human sleep monitor report sends back early warning device 3 shows its sleep monitor result to the user to provide reasonable sleep suggestion.
Based on the intelligent pillow, the invention also provides a method for carrying out intelligent early warning according to the breathing frequency and the heartbeat frequency, and the method is applied to the intelligent pillow. The intelligent pillow comprises a pillow main body 6 and a monitoring and early warning system, wherein the monitoring and early warning system comprises a respiratory frequency sensing device 1, a heartbeat frequency sensing device 2 and an early warning device 3, and the respiratory frequency sensing device 1 and the heartbeat frequency sensing device 2 are arranged inside the pillow main body 6 and connected with the early warning device 3. The method comprises the following steps:
when a human body is rested on the pillow main body 6, the respiratory frequency of the human body is monitored in real time through the respiratory frequency sensing device 1, the heartbeat frequency of the human body is monitored in real time through the heartbeat frequency sensing device 2, the current body condition of the human body is judged according to the respiratory frequency and the heartbeat frequency of the human body, and a corresponding prompt signal is sent according to the current body condition of the human body.
Based on the method, the invention further provides an electronic device, which includes a processor and a storage device, wherein the storage device stores a computer program, and the computer program implements the method when being executed by the processor.
Based on the above method, the present invention also provides a computer storage medium having a computer program stored thereon, the computer program being executable by a processor, the computer program, when executed by the processor, implementing the method as described above.
The above-described embodiments are merely preferred embodiments, which are not intended to limit the scope of the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.