CN110974187A

CN110974187A - Health monitoring system for person under guardianship

Info

Publication number: CN110974187A
Application number: CN201911097510.4A
Authority: CN
Inventors: 张雪松
Original assignee: Shenzhen Soon Electronic Technology Co ltd
Current assignee: Shenzhen Soon Electronic Technology Co ltd
Priority date: 2019-11-12
Filing date: 2019-11-12
Publication date: 2020-04-10

Abstract

The present disclosure relates to a health monitoring system for a person under guardianship. The system comprises: the wearable device comprises a first wearable device and a second wearable device; the first wearable device comprises a first detection module and a first processing module connected with the first detection module; the first detection module is used for detecting first body parameter information and sending the first body parameter information to the first processing module; the first processing module is used for sending the received first body parameter information to the second wearable device; and the second wearable device is used for outputting reminding information when the first body parameter information is determined to meet a first preset condition. This technical scheme makes the user learn the person's of wearing of first wearing equipment physical condition through second wearing equipment, because second wearing equipment can be for wearing the electronic equipment on the user's body always to the person's of wearing of first wearing equipment of convenience of customers guardianship physical condition, guardianship is convenient.

Description

Health monitoring system for person under guardianship

Technical Field

The present disclosure relates to the field of monitoring technology, and more particularly, to a health monitoring system for a person under guardianship.

Background

Along with the rise of intelligence wearing industry, more and more intelligent wearing equipment relevant with the human body comes out, for example, intelligent temperature subsides, bracelet etc..

In the correlation technique, when the intelligent temperature sticker is pasted on a user, the intelligent temperature sticker can detect the body temperature of the user in real time and display the detected temperature information.

However, the intelligent temperature patch needs to be worn on a person under guardianship (such as a baby or a parturient), and a guardian needs to observe the intelligent temperature patch in real time to know monitoring information, so that the monitoring is inconvenient.

Disclosure of Invention

To overcome the problems in the related art, embodiments of the present disclosure provide a health monitoring system for a person under guardianship. The technical scheme is as follows:

according to a first aspect of embodiments of the present disclosure, there is provided a health monitoring system for a person under guardianship, comprising a first wearable device and a second wearable device; the first wearable device comprises a first detection module and a first processing module connected with the first detection module;

the first detection module is used for detecting first body parameter information and sending the first body parameter information to the first processing module;

the first processing module is used for sending the received first body parameter information to the second wearable device;

and the second wearable device is used for outputting reminding information when the first body parameter information is determined to meet a first preset condition.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects: the first detection module of the first wearable device sends the detected first body parameter information to the first processing module, the first processing module sends the detected first body parameter information to the second wearable device, and the second wearable device outputs the reminding information when determining that the first body parameter information meets the first preset condition, so that a user can know the body condition of a wearer of the first wearable device through the second wearable device. Because the second wearing equipment can be the electronic equipment of wearing on user's body always to the person's of wearing of convenient user guardianship first wearing equipment physical condition, guardianship is convenient.

In one embodiment, the first detection module includes at least one of a first temperature detection module, a first pulse wave detection module, and a first blood pressure detection module.

In one embodiment, the first wearable device further comprises a first alarm module, and the first alarm module is connected with the first processing module;

the first processing module is further configured to control the first alarm module to output first alarm information when it is determined that the first body parameter information meets a first preset condition.

In one embodiment, the first detection module comprises a first pulse wave detection module;

the first pulse wave detection module is used for detecting a first pulse wave signal;

the first processing module is further used for controlling the first alarm module to output second alarm information when the first pulse wave signal is determined not to be matched with the first preset pulse wave signal.

In one embodiment, the first wearable device further comprises a first display module, the first display module being connected with the first processing module;

the first processing module is further configured to control the first display module to display the first body parameter information.

In an embodiment, the second wearable device is specifically configured to output a vibration reminding message when it is determined that the first body parameter information meets the first preset condition;

and when the user response information is not received within the preset time, acquiring preset electric shock grade information, and outputting corresponding electric shock reminding information according to the electric shock grade information.

In one embodiment, the second wearable device comprises a second detection module, a second display module and a second processing module, and the second detection module and the second display module are both connected with the second processing module;

the second detection module is used for detecting second body parameter information and sending the second body parameter information to the second processing module;

the second processing module is used for controlling the second display module to display the second body parameter information.

In one embodiment, the second wearable device further comprises a second alarm module, and the second alarm module is connected with the second processing module;

the second processing module is further configured to control the second alarm module to output third alarm information when the second body parameter information meets a second preset condition.

In one embodiment, the second detection module comprises at least one of a second temperature detection module, a second pulse wave detection module, a second blood pressure detection module, a fetal heart detection module, an ultraviolet detection module, and an electrocardiogram detection module;

the second pulse wave detection module is used for detecting a second pulse wave signal;

the second processing module is further configured to control the second alarm module to output fourth alarm information when it is determined that the second pulse wave signal is not matched with a second preset pulse wave signal;

the system also comprises a mobile terminal;

the first processing module is further configured to send the first body parameter information to the mobile terminal;

the second processing module is further configured to send the second body parameter information to the mobile terminal;

the mobile terminal is used for analyzing and storing the first body parameter information and/or the second body parameter information.

In an embodiment, the mobile terminal is further configured to send first instruction information to the first processing module, so that the first processing module performs setting according to content carried in the first instruction information; the first instruction information comprises setting information of the first preset condition and/or setting information of a first alarm function;

the mobile terminal is further configured to send second instruction information to the second processing module, so that the second processing module performs setting according to content carried in the second instruction information; the second instruction information comprises setting information of the second preset condition and/or setting information of a second alarm function.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a schematic diagram of a health monitoring system shown in accordance with an exemplary embodiment.

FIG. 2 is a schematic diagram of a health monitoring system shown in accordance with an exemplary embodiment.

FIG. 3 is a schematic diagram of a health monitoring system shown in accordance with an exemplary embodiment.

FIG. 4 is a schematic diagram of a health monitoring system shown in accordance with an exemplary embodiment.

FIG. 5 is a schematic diagram of a health monitoring system shown in accordance with an exemplary embodiment.

FIG. 6 is a schematic diagram of a health monitoring system shown in accordance with an exemplary embodiment.

FIG. 7 is a schematic diagram of a health monitoring system shown in accordance with an exemplary embodiment.

FIG. 8 is a schematic diagram of a health monitoring system shown in accordance with an exemplary embodiment.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The technical scheme provided by the embodiment of the disclosure relates to a first wearable device, a second wearable device and a mobile terminal, wherein the first wearable device can be a patch and the like for detecting body parameters of a user, the second wearable device can be an intelligent bracelet and the like, the mobile terminal can be a mobile phone, a tablet computer, a notebook computer and the like used by the user, and the embodiment of the disclosure does not limit the application.

The person under guardianship in the embodiment of the present disclosure can be any person needing to monitor health, such as a baby, a lying-in woman, a patient, and the like.

In the correlation technique, when the intelligent temperature sticker is pasted on a user, the intelligent temperature sticker can detect the body temperature of the user in real time and display the detected temperature information. However, the intelligent temperature sticker needs to be worn on a person under guardianship, and a guardian needs to observe the intelligent temperature sticker in real time to know monitoring information, so that the monitoring is inconvenient. In the technical scheme provided by the embodiment of the disclosure, the first detection module of the first wearable device sends the detected first body parameter information to the first processing module, and then the first processing module sends the detected first body parameter information to the second wearable device, and when the second wearable device determines that the first body parameter information meets the first preset condition, the second wearable device outputs the reminding information, so that the user can know the body condition of the wearer of the first wearable device through the second wearable device. Because the second wearing equipment can be the electronic equipment of wearing on user's body always to the person's of wearing of convenient user guardianship first wearing equipment physical condition, guardianship is convenient.

Fig. 1 is a schematic structural diagram illustrating a health monitoring system for a person being monitored according to an exemplary embodiment, as shown in fig. 1, the health monitoring system including a first wearable device 1 and a second wearable device 2; the first wearable device 1 includes a first detection module 101 and a first processing module 102 connected to the first detection module 101.

The first detecting module 101 is configured to detect first body parameter information, and send the first body parameter information to the first processing module 102.

The first processing module 102 is configured to send the received first body parameter information to the second wearable device 2.

And the second wearable device 2 is used for outputting reminding information when the first body parameter information is determined to meet a first preset condition.

As shown in fig. 2, the first detecting module 101 includes at least one of a first temperature detecting module 1011, a first pulse wave detecting module 1012 and a first blood pressure detecting module 1013, and the first temperature detecting module is configured to detect temperature information and may be a temperature sensor; the first pulse wave detection module is used for detecting heart rate information and a first pulse wave signal, and may be a PPG (photoplethysmography) pulse wave sensor; the first blood pressure detection module is used for detecting blood pressure information and can be a blood pressure sensor.

Illustratively, the first temperature detection module 1011 sends the detected temperature information to the first processing module 102, the first pulse wave detection module 1012 sends the detected heart rate information and the first pulse wave signal to the first processing module 102, the first blood pressure detection module 1013 sends the detected blood pressure information to the first processing module 102, the first processing module 102 transmits the received temperature information, heart rate information and blood pressure information to the second wearable device 2 by wire or wireless transmission, and in the case of wireless transmission, the first wearable device 1 further includes a wireless transmission module 103 connected with the first processing module 102; when receiving the temperature information, the heart rate information and the blood pressure information sent by the first wearable device 1, the second wearable device 2 compares the temperature information with a preset temperature, and when the temperature information is determined to be greater than or equal to the preset temperature, namely the first preset condition is met, the second wearable device outputs reminding information, so that a guardian can know that the body temperature of the person under guardianship is high; the heart rate information is compared with a preset heart rate, and when the heart rate information is determined to be larger than or smaller than the preset heart rate, namely the first preset condition is met, reminding information is output, so that a guardian knows that the heart rate of the person under guardianship is higher or lower; and comparing the blood pressure information with a preset blood pressure, and outputting reminding information when the blood pressure information is determined to be larger than or smaller than the preset blood pressure, namely the first preset condition is met, so that the guardian knows that the blood pressure of the person under guardianship is higher or lower, and the real-time monitoring of the guardian on the person under guardianship is realized.

In practical use, the first detection module 101 and the first processing module 102 may be integrated together and disposed in a patch to form a body temperature monitoring patch, which may be attached to the forehead or may be placed under the armpit.

Further, the second wearable device 2 is specifically configured to output vibration reminding information when it is determined that the first body parameter information meets the first preset condition; and when the user response information is not received within the preset time, acquiring preset electric shock grade information, and outputting corresponding electric shock reminding information according to the electric shock grade information.

When the second wearable device 2 outputs the vibration prompting information, the second wearable device 2 comprises a vibration motor, and the vibration motor is connected with a second processing module in the second wearable device 2; when second wearing equipment 2 possesses the electric shock function, second wearing equipment 2 still includes the electric shock module, and the electric shock module includes plug-type electro-magnet, piezoceramics and electrical contact, and wherein, the second processing module among the second wearing equipment 2 is connected with plug-type electro-magnet, and plug-type electromagnetic paste of second processing module control extrudees piezoceramics for piezoceramics discharges, thereby produced voltage passes through the human realization electric shock of electrical contact point.

For example, when the second wearable device 2 determines that the first body parameter information meets the first preset condition, the vibration motor is controlled to work first, so that the vibration motor vibrates to generate vibration reminding information for reminding a guardian; when the guardian falls asleep and does not hear the vibration reminding information, the guardian does not input any information on the second wearable device, when the second wearable device 2 does not receive the response information input by the guardian within a preset time, the guardian does not receive the vibration reminding information, at the moment, the second wearable device acquires preset electric shock grade information, the electric shock grade information is classification of electric shock degree and can be a first-level electric shock, a second-level electric shock, a third-level electric shock and the like, the discharge capacity of each electric shock grade is different, wherein the discharge capacity of the first-level electric shock is larger than that of the second-level electric shock, the discharge capacity of the second-level electric shock is larger than that of the third-level electric shock, and if the preset electric shock grade information is the first-level electric shock, the second wearable device controls the discharge device to emit the discharge capacity corresponding to the first-level electric shock, so that the guardian wakes, the real-time monitoring of the person under guardianship is realized.

It should be noted that the electric shock function of the second wearable device 2 can also be used as a tool for keeping wakefulness during acupuncture and fatigue driving.

In one embodiment, as shown in fig. 3, the first wearable device 1 further includes a first alarm module 103, and the first alarm module 103 is connected to the first processing module 102.

The first processing module 102 is further configured to control the first alarm module 103 to output first alarm information when it is determined that the first body parameter information meets a first preset condition.

For example, when the first processing module 102 determines that the temperature information is greater than or equal to the preset temperature, the first alarm module 103 is controlled to output alarm information with a higher temperature; when the heart rate information is determined to be larger than or smaller than the preset heart rate, controlling the first alarm module 103 to output alarm information of abnormal heart rate; when the blood pressure information is determined to be larger than or smaller than the preset blood pressure, the first alarm module 103 is controlled to output alarm information of abnormal blood pressure, so that when a guardian is beside the person under guardianship, the body condition information of the person under guardianship can be directly obtained through the first wearing device 1.

In one embodiment, the first detection module 101 includes a first pulse wave detection module 1012.

The first pulse wave detecting module 1012 is configured to detect a first pulse wave signal.

The first processing module 102 is further configured to control the first alarm module 103 to output second alarm information when it is determined that the first pulse wave signal is not matched with the first preset pulse wave signal.

Illustratively, the first preset pulse wave signal is a pre-stored pulse wave signal, the first processing module 102 receives the first pulse wave signal, that is, receives a pulse wave related to heartbeat, and when it is determined that the first pulse wave signal does not match the first preset pulse wave signal, it is determined that the first wearable device 1 worn by the monitored person falls off or becomes loose, the first wearable device 1 is separated from the living body and is not worn by the living body, at this time, the first alarm module 103 is controlled to output alarm information that the wearable device falls off or becomes loose, so that the monitored person can conveniently and timely wear the first wearable device 1 again for the monitored person, the reliability of the use of the first wearable device is ensured, and only when the first wearable device 1 is worn on the living body, the signal is transmitted and received, and false judgment is avoided.

In one embodiment, as shown in fig. 4, the first wearable device 1 further includes a first display module 104, and the first display module 104 is connected to the first processing module 102.

The first processing module 102 is further configured to control the first display module 104 to display the first body parameter information.

For example, when the first processing module 102 receives the temperature information, the heart rate information and the blood pressure information, the received temperature information, the received heart rate information and the received blood pressure information are displayed through the first display module 104, so that the guardian can know the physical information of the person being guarded conveniently.

In one embodiment, as shown in fig. 5, the second wearable device 2 includes a second detection module 201, a second display module 202, and a second processing module 203, and the second detection module 201 and the second display module 202 are connected to the second processing module 203.

The second detecting module 201 is configured to detect second body parameter information, and send the second body parameter information to the second processing module 203.

The second processing module 203 is configured to control the second display module 202 to display the second body parameter information.

As shown in fig. 6, the second detection module 201 includes at least one of a second temperature detection module 2011, a second pulse wave detection module 2012, a second blood pressure detection module 2013, a fetal heart detection module 2014, an ultraviolet detection module 2015, and an electrocardiogram detection module 2016; the second temperature detection module 2011 is used for detecting temperature information, and may be a temperature sensor; the second pulse wave detection module 2012 is configured to detect heart rate information and a second pulse wave signal, and may be a PPG pulse wave sensor; the second blood pressure detection module 2013 is used for detecting blood pressure information and can be a blood pressure sensor; the fetal heart detection module 2014 is used for detecting fetal heart information, and can be a high-resolution microphone; the ultraviolet detection module 2015 is used for detecting the ultraviolet intensity in the current environment and can be an ultraviolet sensor; the electrocardiograph detection module 2016 is used for detecting electrocardiograph information and can be an electrocardiograph monitoring sensor.

For example, the second temperature detection module 2011 sends the detected temperature information to the second processing module 203, the second pulse wave detection module 2012 sends the detected heart rate information and the second pulse wave signal to the second processing module 203, the second blood pressure detection module 2013 sends the detected blood pressure information to the second processing module 203, the fetal heart detection module 2014 sends the detected fetal heart information to the second processing module 203, the ultraviolet detection module 2015 sends the detected ultraviolet intensity information to the second processing module 203, the acceleration detection module sends the detected acceleration information to the second processing module 203, the electrocardiograph detection module 2016 sends the detected electrocardiograph information to the second processing module 203, when the second processing module 203 receives the temperature information, the heart rate information, the blood pressure information, the fetal heart information, the ultraviolet intensity information, the acceleration information and the electrocardiograph information, the information is displayed through the second display module 202, so that the guardian can conveniently view the information.

It should be noted that the second detecting module 201 further includes an acceleration detecting module 2017, which may be an acceleration sensor, configured to detect acceleration information of the user, and send the detected acceleration information to the second processing module 203, so that the second processing module 203 determines motion information of the user, for example, the number of walking steps, according to the received acceleration information.

It should be noted that the second detecting module 201 further includes a snore detecting module 2018, which may be a microphone, configured to detect snore information of the user, and send the detected snore information to the second processing module 203, and when the second processing module 203 determines that the snore information of the user exceeds a preset sound value, the second processing module controls the vibration motor to generate vibration prompting information or controls the electric shock module to generate an electric shock, so that the user is adjusted from the snore state.

In one embodiment, as shown in fig. 7, the second wearable device 2 further includes a second alarm module 204, and the second alarm module 204 is connected to the second processing module 203.

The second processing module 203 is further configured to control the second alarm module 204 to output third alarm information when the second body parameter information meets a second preset condition.

For example, the second processing module 203 compares the received temperature information with a preset temperature, and controls the second alarm module 204 to output alarm information with a higher body temperature when it is determined that the received temperature information is greater than or equal to the preset value; comparing the received heart rate information with a preset heart rate, and controlling the second alarm module 204 to output abnormal heart rate alarm information when the received heart rate information is determined to be smaller than or larger than the preset heart rate; comparing the received blood pressure information with a preset blood pressure, and controlling the second alarm module 204 to output abnormal blood pressure alarm information when the received blood pressure information is determined to be larger than or smaller than the preset blood pressure; comparing the received fetal heart information with a preset fetal heart value, and controlling the second alarm module 204 to output abnormal fetal heart alarm information when the received fetal heart information is determined to be greater than or less than the preset fetal heart value; comparing the ultraviolet intensity information with a preset intensity value, and controlling the second alarm module 204 to output alarm information suitable for sun exposure when the ultraviolet intensity information is determined to be smaller than the preset intensity value, so that a guardian reminds a person under guardianship to sun the sun, and if the person under guardianship is a newborn baby, the sun exposure is helpful for eliminating jaundice; the user can be reminded of sun blocking; and comparing the electrocardiogram information with a preset electrocardiogram value, and controlling the second alarm module 204 to output the electrocardiogram abnormal information when the received electrocardiogram information is determined to be greater than or less than the preset electrocardiogram value.

It should be noted that, both the first wearable device 1 and the second wearable device 2 may further include a speaker, and a voice alarm may be implemented through the speaker.

It should be noted that the power supply of the first wearable device 1 and the second wearable device 2 may be independent power supply, and may be a disposable button battery or a rechargeable battery.

In one embodiment, the second pulse wave detection module is configured to detect a second pulse wave signal.

And the second processing module is further used for controlling the second alarm module to output fourth alarm information when the second pulse wave signal is determined not to be matched with the second preset pulse wave signal.

Exemplarily, the second preset pulse wave signal is a pre-stored pulse wave signal, the second processing module 102 receives the second pulse wave signal, that is, receives a pulse wave related to heartbeat, when it is determined that the second pulse wave signal is not matched with the second preset pulse wave signal, it is determined that the second wearable device 2 worn by the guardian falls off or becomes loose, the second wearable device is separated from the living body, and is not worn by the living body, at this time, the second alarm module 204 is controlled to output alarm information of the falling off or the loosening of the wearable device, so that the guardian can timely and re-wear the second wearable device 2, and the reliability of the use of the second wearable device is ensured, only when the second wearable device 2 is worn on the living body, the signal is transmitted and received, and misjudgment is avoided.

In one embodiment, as shown in fig. 8, the health monitoring system further comprises a mobile terminal 3.

The first processing module 102 is further configured to send the first body parameter information to the mobile terminal 3.

The second processing module 203 is further configured to send the second body parameter information to the mobile terminal 3.

The mobile terminal 3 is configured to analyze and store the first body parameter information and/or the second body parameter information.

Illustratively, an application program for controlling the first wearable device 1 and the second wearable device 2 is installed on the mobile terminal 3, the first processing module 102 sends the first body parameter information to the application program of the mobile terminal 3 through wireless transmission, and the second processing module 203 sends the second body parameter information to the application program of the mobile terminal 3 through wireless transmission, so that the application program of the mobile terminal 3 stores the received first body parameter information and second body parameter information, analyzes the body condition of the user wearing the first wearable device 1 according to the first body parameter information, and sends the analysis result to the first wearable device 1; and analyzing the body state of the user wearing the second wearable device 2 according to the second body parameter information, and sending the analysis result to the second wearable device 2.

Further, the mobile terminal 3 is further configured to send first instruction information to the first processing module 102; the first instruction information comprises setting information of the first preset condition and/or setting information of the first alarm function.

The mobile terminal 3 is further configured to send second instruction information to the second processing module 203; the second instruction information comprises setting information of the second preset condition and/or setting information of a second alarm function.

The setting information of the first preset condition refers to setting of a preset temperature, a preset heart rate and a preset blood pressure; the setting information of the second preset condition refers to setting of values corresponding to a preset temperature, a preset heart rate, a preset blood pressure, a preset fetal heart, a preset ultraviolet intensity and a preset electrocardiogram.

For example, when a user needs to reset preset information in a preset first preset condition in the first wearable device 1, the reset preset information may be input on the mobile terminal 3, and then the mobile terminal 3 sends the reset preset information to the first wearable device 1, so that the first processing module 102 of the first wearable device 1 modifies the preset information in the first preset condition according to the received reset preset information, for example, if the preset information includes a preset temperature, the preset temperature may be reset; when a user needs to turn on or turn off the alarm function of the first wearable device 1, an instruction for turning on or turning off the alarm function can be input into the mobile terminal 3, so that the mobile terminal 3 sends instruction information for turning on or turning off the alarm function to the first wearable device 1 when receiving the instruction of the user, and the first wearable device 1 correspondingly turns on or turns off the alarm function according to the received instruction information.

When a user needs to reset preset information in a preset second preset condition in the second wearable device 2, the reset preset information can be input on the mobile terminal 3, and then the mobile terminal 3 sends the reset preset information to the second wearable device 2, so that the second processing module 203 of the second wearable device 2 modifies the preset information in the second preset condition according to the received reset preset information, for example, if the preset information includes a preset temperature, the preset temperature can be reset; when a user needs to turn on or turn off the alarm function of the second wearable device 2, an instruction for turning on or turning off the alarm function can be input into the mobile terminal 3, so that the mobile terminal 3 sends instruction information for turning on or turning off the alarm function to the second wearable device 2 when receiving the instruction of the user, and the second wearable device 2 correspondingly turns on or turns off the alarm function according to the received instruction information.

The embodiment of the present disclosure provides a health monitoring system, a first detection module 101 of a first wearable device 1 sends detected first body parameter information to a first processing module 102, and then the first processing module 101 sends the detected first body parameter information to a second wearable device 2, when it is determined that the first body parameter information satisfies a first preset condition, the second wearable device 2 outputs a reminding message, so that a user learns the body condition of a wearer of the first wearable device 1 through the second wearable device 2. The second wearable device 2 can be an electronic device which is worn on the body of the user all the time, so that the user can conveniently monitor the physical condition of the wearer of the first wearable device 1; ensures that the guardian can rest at ease during the illness of the monitored person (child) and awakens the guardian when needed.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

Claims

1. A health monitoring system for a person under guardianship is characterized by comprising a first wearing device and a second wearing device; the first wearable device comprises a first detection module and a first processing module connected with the first detection module;

2. The system of claim 1, wherein the first detection module comprises at least one of a first temperature detection module, a first pulse wave detection module, and a first blood pressure detection module.

3. The system of claim 2, wherein the first wearable device further comprises a first alarm module, the first alarm module coupled to the first processing module;

4. The system of claim 3, wherein the first detection module comprises a first pulse wave detection module;

5. The system of claim 1, wherein the first wearable device further comprises a first display module, the first display module coupled to the first processing module;

6. The system of claim 1,

the second wearable device is specifically configured to output vibration reminding information when it is determined that the first body parameter information meets the first preset condition;

7. The system of claim 3, wherein the second wearable device comprises a second detection module, a second display module, and a second processing module, the second detection module and the second display module both being connected to the second processing module;

8. The system of claim 7, wherein the second wearable device further comprises a second alarm module, the second alarm module being connected to the second processing module;

9. The system of claim 8, wherein the second detection module comprises at least one of a second temperature detection module, a second pulse wave detection module, a second blood pressure detection module, a fetal heart detection module, an ultraviolet detection module, and an electrocardiograph detection module;

the system also comprises a mobile terminal;

10. The system of claim 9,

the mobile terminal is further configured to send first instruction information to the first processing module, so that the first processing module performs setting according to content carried in the first instruction information; the first instruction information comprises setting information of the first preset condition and/or setting information of a first alarm function;