CN108903923A - Health monitoring device, system and method - Google Patents

Abstract

The invention discloses a health monitoring device, system and method. The health monitoring device includes a processing unit, an acceleration sensor, a body weight sensor and a sign detection unit; the acceleration sensor is used for real-time detection of acceleration data, and the acceleration The data is transmitted to the processing unit; the body weight sensor is used to collect weight data in real time after receiving the first detection notification transmitted by the processing unit, and transmit the weight data to the processing unit; the physical signs The detection unit is configured to collect vital sign data in real time after receiving the second detection notification transmitted by the processing unit, and transmit the vital sign data to the processing unit; the processing unit is configured to receive the received The acceleration data, the weight data and the vital sign data are output to realize the intelligent health monitoring of the user, the monitoring data is comprehensive, and the equipment loss is reduced.

Description

A health monitoring device, system and method

technical field

The invention relates to the field of sensor detection, in particular to a health monitoring device, system and method.

Background technique

With the development of the economy and the improvement of people's living standards, people are paying more and more attention to their own health status. At present, people want to know their health status. There are usually the following two methods: the first one: need to go to a specific place ( Such as physical examination centers, etc.) use professional physical sign detection instruments for health monitoring; the second type: use various smart wearable devices (such as smart bracelets, etc.) for health monitoring, and monitor the health status of the body at all times.

In the process of realizing the present invention, the inventor found that although the first method above has comprehensive and accurate health testing results, it is poor in real-time performance and is not suitable for daily use. The operation is professional and needs to go to a specific place. It is more time-consuming and labor-intensive to operate with professional equipment under the assistance of professional equipment; although the second type has high real-time performance, the data that can be captured is relatively simple, and the base of the data volume is not large enough, and its data cannot be used as a standard for evaluating the health status of users , and the continuous operation of the smart wearable device is likely to cause equipment loss, shorten the service life of the device, and affect the user experience.

Contents of the invention

In view of the above problems, the object of the present invention is to provide a health monitoring device, system and method, which can perform health monitoring in real time when motion data is detected, with comprehensive monitoring data and reduced equipment loss.

In the first aspect, an embodiment of the present invention provides a health monitoring device, including a processing unit, an acceleration sensor, a body weight sensor, and a sign detection unit;

The acceleration sensor is connected to the processing unit, and is used to detect acceleration data in real time, and transmit the acceleration data to the processing unit;

The processing unit is connected to the body weight sensor and is used to receive the acceleration data; when a change in the number of steps is detected for the first time according to the acceleration data after the dormant state, a first detection notification is sent to the body weight sensor;

The body weight sensor is configured to collect weight data in real time after receiving the first detection notification, and transmit the weight data to the processing unit;

The processing unit is connected to the physical sign detection unit and is also used to receive the weight data; when the weight data is received for the first time after the dormant state, initiate a second detection notification to the physical sign detection unit;

The sign detection unit is configured to collect vital sign data in real time after receiving the second detection notification, and transmit the vital sign data to the processing unit;

The processing unit is further configured to receive the vital sign data, and output the acceleration data, the weight data and the vital sign data.

In the first implementation manner of the first aspect, the health monitoring device is set on any wearable device among shoes, insoles or socks;

The sign detection unit includes:

A heart rate sensor for detecting human heart rate parameters;

Piezoelectric film sensor for detecting pulse parameters;

A temperature sensor for detecting body temperature parameters; and

A blood pressure sensor for detecting blood pressure parameters; wherein, the heart rate sensor, the piezoelectric film sensor, the temperature sensor, and the blood pressure sensor are respectively connected to the processing unit.

In the second implementation manner of the first aspect, the health monitoring device further includes a GPS positioning unit;

The processing unit is connected to the GPS positioning unit, and is further configured to initiate a third detection notification to the GPS positioning unit when the weight data is received for the first time after the dormant state;

The GPS positioning unit is configured to regularly collect GPS positioning data after receiving the third detection notification, and transmit the GPS positioning data to the processing unit;

The processing unit is further configured to receive the GPS positioning data and output the GPS positioning data.

According to the second implementation of the first aspect, in the third implementation of the first aspect,

The processing unit is further configured to initiate a sleep notification to the body weight sensor, the sign detection unit, and the GPS positioning unit when no change in the number of steps is detected according to the acceleration data within a preset time range, to enter sleep mode;

The body weight sensor is also used to receive the dormancy notification, and stop collecting weight data according to the dormancy notification;

The sign detection unit is further configured to receive the dormancy notification, and stop collecting vital sign data according to the dormancy notification;

The GPS positioning unit is further configured to receive the dormancy notification, and stop collecting GPS positioning data according to the dormancy notification.

According to the second implementation of the first aspect, in the fourth implementation of the first aspect,

The processing unit is further configured to receive a positioning acquisition notification, and initiate a positioning data acquisition notification to the GPS positioning unit according to the positioning acquisition notification;

The GPS positioning unit is further configured to receive the positioning data collection notification, collect positioning data according to the positioning data collection notification, and transmit the positioning data to the processor;

The processor is further configured to receive the positioning data, and output the positioning data according to the positioning acquisition notification.

In a second aspect, an embodiment of the present invention provides a health monitoring system, including the health monitoring device described in any one of the first aspect, a health monitoring server, and a first associated device;

The health monitoring server is connected in communication with the health monitoring device, and is used to receive the acceleration data, the weight data and the vital sign data output by the health monitoring device; and according to the acceleration data, the The weight data and the vital sign data obtain the current health value corresponding to each data, so as to generate a health report sent to the first associated device;

The first associated device is configured to receive the health report.

In the first implementation manner of the second aspect, the health monitoring server is specifically configured to calculate the number of motion steps according to the acceleration data; The deviation between the weight data and the preset weight standard range, and the deviation between the vital sign data and the preset standard sign data, and obtain the current health value corresponding to each data, so as to generate a health report sent to the first associated device .

In the second implementation of the second aspect,

The health monitoring server is also used to calculate the consumed calories according to the acceleration data and the weight data; when it is detected that the consumed calories do not reach the preset consumption threshold at a preset time point, generate a message sent to the The reminder information of the first associated device;

The first association device is further configured to receive the reminder information.

In a third implementation manner of the second aspect, it further includes a second associated device;

The health monitoring server is further configured to obtain critical data corresponding to the current health value when it detects that the current health value is lower than a preset warning threshold, and initiate a location acquisition notification to the health monitoring device , so that the health monitoring device returns positioning data; sending the critical data and the positioning data to the second associated device;

The second associated device is further configured to receive the emergency data and the positioning data.

In a fourth implementation manner of the second aspect, the health monitoring server is further configured to receive GPS positioning data output by the health monitoring device.

In a third aspect, an embodiment of the present invention provides a health monitoring method based on the health monitoring system described in any one of the second aspect, including the following steps:

Acceleration data is collected in real time through the acceleration sensor;

When the change in the number of steps is first monitored according to the acceleration data after the dormant state, the weight data is collected in real time by the weight sensor;

When the weight data is collected for the first time after the dormant state, the vital sign data is acquired in real time through the vital sign unit;

According to the acceleration data, the weight data and the vital sign data, the current health value corresponding to each data is obtained, so as to generate a health report sent to the first associated device.

In the first implementation manner of the third aspect, the current health value corresponding to each data is obtained according to the acceleration data, the weight data, and the vital sign data, so as to generate a health value that is sent to the first associated device. report, specifically:

Calculate the number of motion steps according to the acceleration data;

Obtain various data according to the accumulated deviation between the number of exercise steps and the preset standard range of steps, the deviation between the weight data and the preset standard weight range, and the deviation between the vital sign data and the preset standard sign data The corresponding current health value to generate a health report sent to the first associated device.

In the second implementation manner of the third aspect, it also includes:

calculating calories consumed according to the acceleration data and the weight data;

When it is detected that the consumed calories do not reach the preset consumption threshold at a preset time point, a reminder message sent to the first associated device is generated.

In the third implementation manner of the third aspect, it also includes:

When it is detected that the current health value is lower than a preset warning threshold, acquiring corresponding critical data corresponding to the current health value;

Obtain positioning data through the GPS positioning unit;

Send the critical data and the positioning data to the second associated device.

Above one embodiment has following beneficial effect:

By providing a health monitoring device including a processing unit, an acceleration sensor, a body weight sensor and a physical sign detection unit, the comprehensive health monitoring of the user is realized, the monitoring data is comprehensive, and the user experience is improved. Collect important data, and perform vital sign detection only when there is weight data, making the health monitoring data more accurate, avoiding the detection of invalid data and making the error of health monitoring too large, and at the same time, real-time health data collection is performed only when motion data is detected , It is also beneficial to reduce equipment loss and improve equipment service life.

Description of drawings

In order to illustrate the technical solution of the present invention more clearly, the accompanying drawings used in the implementation will be briefly introduced below. Obviously, the accompanying drawings in the following description are only some implementations of the present invention. As far as the skilled person is concerned, other drawings can also be obtained based on these drawings on the premise of not paying creative work.

Fig. 1 is a schematic structural diagram of a health monitoring device provided by a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the physical sign detection unit provided by the first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a health monitoring system provided by a second embodiment of the present invention.

Fig. 4 is a schematic flowchart of a health monitoring method provided by a third embodiment of the present invention.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Please refer to Fig. 1, the first embodiment of the present invention provides a health monitoring device 10, the health monitoring device 10 is set on any wearable device in shoes, insoles or socks, the implementation process is basically the same, as follows The health monitoring device 10 is described by taking the health monitoring device 10 installed on shoes as an example:

Referring to FIG. 1 , the first embodiment of the present invention provides a health monitoring device 10 , including a processing unit 11 , an acceleration sensor 12 , a body weight sensor 13 and a sign detection unit 14 .

The acceleration sensor 12 is connected to the processing unit 11 and is used to detect acceleration data in real time and transmit the acceleration data to the processing unit 11 .

In the embodiment of the present invention, it should be noted that the acceleration sensor 12 is in a real-time running state.

The processing unit 11 is connected to the body weight sensor 13 and is used to receive the acceleration data; when a change in the number of steps is detected for the first time according to the acceleration data after the dormant state, a first detection is initiated to the body weight sensor 13 Notice.

The weight sensor 13 is configured to collect weight data in real time after receiving the first detection notification, and transmit the weight data to the processing unit 11 .

In the embodiment of the present invention, when the processing unit 11 receives the acceleration data and detects motion data according to the acceleration data, that is, the processing unit 11 calculates the number of moving steps according to the acceleration data When changing, the processing unit 11 accumulates the number of motion steps of the day, and initiates the first detection notification to the body weight sensor 13 in the dormant state, so that the body weight sensor 13 enters the working state from the dormant state, and starts to collect weight data in real time to avoid The false detection of health data also reduces the loss of sensor equipment.

The processing unit 11 is connected to the physical sign detection unit 14 and is also used to receive the weight data; when receiving the weight data for the first time after the dormant state, initiate a second detection notification to the physical sign detection unit 14 .

The sign detection unit 14 is configured to collect vital sign data in real time after receiving the second detection notification, and transmit the vital sign data to the processing unit 11 .

In the embodiment of the present invention, when the processing unit 11 receives the weight data based on the exercise data, it indicates that the smart shoes on which the health monitoring device 10 is located are worn by the user, and the user has a corresponding walking action at this time, The processing unit 11 initiates a second detection notification to the sign detection unit 14, so that the sign detection unit 14 enters a working state from a dormant state, and starts to collect vital sign data in real time, thereby avoiding false detection of health data, and at the same time Sensor equipment loss is also reduced.

Please refer to Fig. 2, in the embodiment of the present invention, described sign detection unit 14 comprises the heart rate sensor 141 that is used to detect human body heart rate parameter; The piezoelectric film sensor 142 that is used to detect pulse parameter; A sensor 143 ; and a blood pressure sensor 144 for detecting blood pressure parameters; wherein the heart rate sensor 141 , the piezoelectric film sensor 142 , the temperature sensor 143 and the blood pressure sensor 144 are respectively connected to the processing unit 11 .

The processing unit 11 is further configured to receive the vital sign data, and output the acceleration data, the weight data and the vital sign data.

In the embodiment of the present invention, after receiving the acceleration data, the weight data and the vital sign data, the processing unit 11 transmits the acceleration data, the weight data and the vital sign data to the Health monitoring server 20, at the same time, the processing unit 11 also transmits the accumulated number of motion steps to the health monitoring server 20, and the processing unit 11 is wirelessly connected to the health monitoring server 20, for example, can pass 3G/4G/ 5G/WiFi/Wireless Bluetooth and other wireless connection methods.

In summary, the embodiment of the present invention provides a health monitoring device 10 including a processing unit 11, an acceleration sensor 12, a body weight sensor 13, and a physical sign detection unit 14, so as to realize comprehensive health monitoring of users, and the monitoring data is comprehensive and accurate. Improve the user experience, and only collect important data when motion data is detected, and perform vital sign detection only when there is weight data, making the health monitoring data more accurate and avoiding the detection of invalid data that makes the error of health monitoring excessive At the same time, when the motion data is detected, the health data is collected in real time, which is also conducive to reducing equipment loss and improving the service life of the equipment.

In another embodiment of the present invention, the health monitoring device 10 further includes a GPS positioning unit 15 .

The processing unit 11 is connected to the GPS positioning unit 15 and is further configured to send a third detection notification to the GPS positioning unit 15 when the weight data is received for the first time after the dormant state.

The GPS positioning unit 15 is configured to regularly collect GPS positioning data after receiving the third detection notification, and transmit the GPS positioning data to the processing unit 11 .

The processing unit 11 is further configured to receive the GPS positioning data and output the GPS positioning data.

In the embodiment of the present invention, when the processing unit 11 receives the weight data based on the exercise data, it indicates that the smart shoes on which the health monitoring device 10 is located are worn by the user, and the user has a corresponding walking action at this time, The processing unit 11 initiates the third detection notification to the GPS positioning unit 15, so that the GPS positioning unit 15 enters the working state from the dormant state, and begins to regularly collect GPS positioning data. , the GPS positioning unit 15 of the present application does not need to collect GPS positioning data in real time, and only needs to collect GPS positioning data at intervals, thereby reducing the loss of positioning equipment.

In another embodiment of the invention:

The processing unit 11 is further configured to send the body weight sensor 13, the physical sign detection unit 14 and the GPS positioning unit 15 when no change in the number of steps is detected according to the acceleration data within a preset time range. Initiate a sleep notification to enter the sleep state.

The body weight sensor 13 is further configured to receive the dormancy notification, and stop collecting weight data according to the dormancy notification.

The sign detection unit 14 is further configured to receive the dormancy notification, and stop collecting vital sign data according to the dormancy notification.

The GPS positioning unit 15 is further configured to receive the dormancy notification, and stop collecting GPS positioning data according to the dormancy notification.

In the embodiment of the present invention, when the processing unit 11 detects that there is no change in the number of steps according to the acceleration data acquired in real time within the preset time range, the processing unit 11 sends the body weight sensor 13, the physical signs The detection unit 14 and the GPS positioning unit 15 initiate a sleep notification, so that the body weight sensor 13, the sign detection unit 14 and the GPS positioning unit 15 initiate a sleep notification from a working state to a sleep state, so as to realize the integration of equipment resources Use to reduce the loss of equipment resources.

In another embodiment of the invention:

The processing unit 11 is further configured to receive a positioning acquisition notification, and initiate a positioning data collection notification to the GPS positioning unit 15 according to the positioning acquisition notification.

The GPS positioning unit 15 is further configured to receive the positioning data collection notification, collect positioning data according to the positioning data collection notification, and transmit the positioning data to the processor.

The processor is further configured to receive the positioning data, and output the positioning data according to the positioning acquisition notification.

In the embodiment of the present invention, the processing unit 11 receives the positioning acquisition notification from the health monitoring server 20, and according to the positioning acquisition notification, the GPS positioning unit 15 collects positioning data, and transmits the positioning data to the The health monitoring server 20 is to meet the real-time requirements of the health monitoring server 20 .

Please refer to FIG. 3 , the second embodiment of the present invention provides a health monitoring system, including the health monitoring device 10 described in any one of the first aspect, a health monitoring server 20 and a first associated device 30 .

The health monitoring server 20 is connected in communication with the health monitoring device 10, and is used to receive the acceleration data, the weight data and the vital sign data output by the health monitoring device 10; and according to the acceleration data , the weight data and the vital sign data obtain current health values corresponding to each data, so as to generate a health report sent to the first associated device 30 .

In the embodiment of the present invention, the health monitoring server 20 is specifically configured to receive the acceleration data, the weight data, and the vital sign data output by the processing unit 11 of the health monitoring device 10, and according to the Acceleration data to calculate the number of motion steps; and according to the accumulated deviation of the number of motion steps from the standard range of the preset number of steps, the deviation of the weight data from the standard range of the preset weight, and the difference between the vital sign data and the preset standard signs Data deviation, obtain the current health value corresponding to each data to generate a health report sent to the first associated device 30, such as comparing the heart rate data in the obtained vital sign data with the preset normal range, such as the preset The normal heart rate range is 60 to 95 beats/min. Calculate the deviation value between the collected heart rate data and the preset normal range, so as to obtain the health value corresponding to the heart rate data. It should be noted that the present invention is for the health value There are no restrictions on the setting rules. For example, the total value of the health value can be positioned as a percentage according to actual needs, and the corresponding health value can be obtained according to the deviation between the actual collected data and the normal range of the corresponding data. The smaller the deviation, the higher the health value It can also be the setting of ten-point system, five-point system, grade system (unqualified, qualified, medium, good, excellent) or the like, and the above setting modes are all within the protection scope of the present invention.

In the embodiment of the present invention, the health monitoring server 20 is further configured to receive GPS positioning data regularly output by the processing unit 11 of the health monitoring device 10 .

The first associated device 30 is configured to receive the health report.

In the embodiment of the present invention, the first associated device 30 can be a mobile terminal such as a mobile phone, a tablet, or a computer, etc., and the health monitoring server 20 sends the health report to the APP of the first associated device 30 In order to enable users to obtain their own health status by checking the health report of the APP of the first associated device 30, obtain more accurate health monitoring results from multiple sources of data, make health control methods more intelligent, and prevent physical health crises in advance Generate and improve user experience.

In another embodiment of the present invention:

The health monitoring server 20 is also used to calculate the consumed calories according to the acceleration data and the weight data; when it is detected that the consumed calories do not reach the preset consumption threshold at the preset time point, generate a message sent to Reminder information of the first associated device 30 .

The first association device 30 is further configured to receive the reminder information.

In the embodiment of the present invention, the health monitoring server 20 calculates the calories consumed according to the acceleration data and the weight data uploaded in real time by the processing unit 11 in the health monitoring device 10, specifically, the health monitoring server 20 also receives the accumulated number of exercise steps uploaded by the processing unit 11 in the health monitoring device 10, calculates the exercise distance according to the acceleration data, and then calculates the exercise time according to the accumulated exercise steps and exercise distance, and then calculates the exercise time according to the real-time The obtained weight data calculates the calories consumed during the exercise time, for example, the human body needs to consume 7,700 calories for every kilogram of fat lost, and the health monitoring server 20 calculates the difference according to the weight data obtained during the exercise time. Calculate calories burned.

In the embodiment of the present invention, the health monitoring server 20 detects that the calories consumed by the user wearing the smart shoes configured with the health device do not reach the preset consumption at a preset time point, such as every 3 hours. When the threshold is reached, that is, when the exercise is not up to the standard, an exercise reminder is initiated to the user and a reminder message sent to the first associated device 30 is generated, which is conducive to urging the user to exercise and enhancing the health value of the body.

In another embodiment of the present invention, a second associating device 40 is further included.

The health monitoring server 20 is further configured to obtain critical data corresponding to the current health value when it is detected that the current health value is lower than a preset warning threshold, and initiate positioning to the health monitoring device 10 Acquiring a notification so that the health monitoring device 10 returns location data; sending the critical data and the location data to the second associated device 40 .

The second associating device 40 is further configured to receive the emergency data and the positioning data.

In the embodiment of the present invention, when the health monitoring server 20 detects that the current health value is lower than the preset warning threshold, for example, the heart rate data deviates too much from the preset normal range, exceeding the warning value, blood pressure data and the preset threshold. If the deviation from the normal range is too large, exceeding the warning value, the pulse data is weak, etc., the health monitoring server 20 obtains the critical data corresponding to the current health value and sends it to the processing unit 11 in the health monitoring device 10 positioning acquisition notification, the processing unit 11 makes the GPS positioning unit collect positioning data according to the positioning acquisition notification, and transmits the positioning data to the health monitoring server 20 in real time; then the health monitoring server 20 automatically sends The critical data and the positioning data are sent to the second associated device 40, for example, the health monitoring server 20 automatically sends the critical data and the positioning data to the mobile phone of the associated family member in the form of a mobile phone message (that is, the first Two related equipment) can prevent the occurrence of physical health crisis in advance.

In the embodiment of the present invention, the user wears the smart shoes equipped with the health monitoring device 10 and walks normally, and can check his recent physical health sign data on the APP corresponding to the mobile phone at any time, prevent special health crises in time, and prompt and urge himself to maintain Target weight; in case of special circumstances, crisis data and location data can be automatically or manually sent to the contact device of close contacts for tracing.

Referring to Fig. 4, the third embodiment of the present invention provides a health monitoring method based on the health monitoring system described in any one of the second embodiment, including the following steps:

S11, collecting acceleration data in real time through an acceleration sensor.

S12, when the change in the number of steps is detected for the first time according to the acceleration data after the dormant state, collect weight data in real time through the weight sensor.

S13. When the weight data is collected for the first time after the dormant state, the vital sign data is acquired in real time through the vital sign unit.

S14. According to the acceleration data, the weight data and the vital sign data, obtain the current health value corresponding to each data, so as to generate a health report to be sent to the first associated device.

In the first implementation manner of the third embodiment, the S14 is specifically:

The number of motion steps is calculated according to the acceleration data.

Obtain various data according to the accumulated deviation between the number of exercise steps and the preset standard range of steps, the deviation between the weight data and the preset standard weight range, and the deviation between the vital sign data and the preset standard sign data The corresponding current health value to generate a health report sent to the first associated device.

In the second implementation manner of the third embodiment, it also includes:

Calories consumed are calculated according to the acceleration data and the weight data.

When it is detected that the consumed calories do not reach the preset consumption threshold at a preset time point, a reminder message sent to the first associated device is generated.

In a third implementation manner of the third embodiment, it also includes:

When it is detected that the current health value is lower than the preset warning threshold, critical data corresponding to the corresponding current health value is acquired.

Positioning data is acquired through the GPS positioning unit.

Send the critical data and the positioning data to the second associated device.

It should be noted that the device embodiments described above are only illustrative, and the units described as separate components may or may not be physically separated, and the components shown as units may or may not be physically separated. A unit can be located in one place, or it can be distributed to multiple network units. Part or all of the modules can be selected according to actual needs to achieve the purpose of the solution of this embodiment. In addition, in the drawings of the device embodiments provided by the present invention, the connection relationship between the modules indicates that they have a communication connection, which can be specifically implemented as one or more communication buses or signal lines. It can be understood and implemented by those skilled in the art without creative effort.

The above description is a preferred embodiment of the present invention, and it should be pointed out that for those skilled in the art, without departing from the principle of the present invention, some improvements and modifications can also be made, and these improvements and modifications are also considered Be the protection scope of the present invention.

Claims (10)

1. A health monitoring device, characterized in that it comprises a processing unit, an acceleration sensor, a body weight sensor and a sign detection unit; The acceleration sensor is connected to the processing unit, and is used to detect acceleration data in real time, and transmit the acceleration data to the processing unit; The processing unit is connected to the body weight sensor and is used to receive the acceleration data; when a change in the number of steps is detected for the first time according to the acceleration data after the dormant state, a first detection notification is sent to the body weight sensor; The body weight sensor is configured to collect weight data in real time after receiving the first detection notification, and transmit the weight data to the processing unit; The processing unit is connected to the physical sign detection unit and is also used to receive the weight data; when the weight data is received for the first time after the dormant state, initiate a second detection notification to the physical sign detection unit; The sign detection unit is configured to collect vital sign data in real time after receiving the second detection notification, and transmit the vital sign data to the processing unit; The processing unit is further configured to receive the vital sign data, and output the acceleration data, the weight data and the vital sign data. 2. The health monitoring device according to claim 1, wherein the health monitoring device is set on any wearable device among shoes, insoles or socks; The sign detection unit includes: A heart rate sensor for detecting human heart rate parameters; Piezoelectric film sensor for detecting pulse parameters; A temperature sensor for detecting body temperature parameters; and A blood pressure sensor for detecting blood pressure parameters; wherein, the heart rate sensor, the piezoelectric film sensor, the temperature sensor, and the blood pressure sensor are respectively connected to the processing unit. 3. The health monitoring device according to claim 1, wherein the health monitoring device further comprises a GPS positioning unit; The processing unit is connected to the GPS positioning unit, and is further configured to initiate a third detection notification to the GPS positioning unit when the weight data is received for the first time after the dormant state; The GPS positioning unit is configured to regularly collect GPS positioning data after receiving the third detection notification, and transmit the GPS positioning data to the processing unit; The processing unit is further configured to receive the GPS positioning data and output the GPS positioning data. 4. The health monitoring device of claim 3, wherein: The processing unit is further configured to initiate a sleep notification to the body weight sensor, the sign detection unit, and the GPS positioning unit when no change in the number of steps is detected according to the acceleration data within a preset time range, to enter sleep mode; The body weight sensor is also used to receive the dormancy notification, and stop collecting weight data according to the dormancy notification; The sign detection unit is further configured to receive the dormancy notification, and stop collecting vital sign data according to the dormancy notification; The GPS positioning unit is further configured to receive the dormancy notification, and stop collecting GPS positioning data according to the dormancy notification. 5. The health monitoring device of claim 3, wherein: The processing unit is further configured to receive a positioning acquisition notification, and initiate a positioning data acquisition notification to the GPS positioning unit according to the positioning acquisition notification; The GPS positioning unit is further configured to receive the positioning data collection notification, collect positioning data according to the positioning data collection notification, and transmit the positioning data to the processor; The processor is further configured to receive the positioning data, and output the positioning data according to the positioning acquisition notification. 6. A health monitoring system, characterized in that it comprises the health monitoring device according to any one of claims 1 to 5, a health monitoring server and a first associated device; The health monitoring server is connected in communication with the health monitoring device, and is used to receive the acceleration data, the weight data and the vital sign data output by the health monitoring device; and according to the acceleration data, the The weight data and the vital sign data obtain the current health value corresponding to each data, so as to generate a health report sent to the first associated device; The first associated device is configured to receive the health report. 7. The health monitoring system according to claim 6, wherein the health monitoring server is specifically used to calculate the number of exercise steps according to the acceleration data; The deviation of the standard range, the deviation between the weight data and the preset weight standard range, and the deviation between the vital sign data and the preset standard sign data, and obtain the current health value corresponding to each data to generate and send to the first Health reports for associated devices. 8. The health monitoring system according to claim 6, wherein: The health monitoring server is also used to calculate the consumed calories according to the acceleration data and the weight data; when it is detected that the consumed calories do not reach the preset consumption threshold at a preset time point, generate a message sent to the The reminder information of the first associated device; The first association device is further configured to receive the reminder information. 9. The health monitoring system according to claim 6, further comprising a second associated device; The health monitoring server is further configured to obtain critical data corresponding to the current health value when it detects that the current health value is lower than a preset warning threshold, and initiate a location acquisition notification to the health monitoring device , so that the health monitoring device returns positioning data; sending the critical data and the positioning data to the second associated device; The second associated device is further configured to receive the emergency data and the positioning data. 10. A health monitoring method based on the health monitoring system described in any one of claims 6 to 9, comprising the following steps: Acceleration data is collected in real time through the acceleration sensor; When the change in the number of steps is first monitored according to the acceleration data after the dormant state, the weight data is collected in real time by the weight sensor; When the weight data is collected for the first time after the dormant state, the vital sign data is acquired in real time through the vital sign unit; According to the acceleration data, the weight data and the vital sign data, the current health value corresponding to each data is obtained, so as to generate a health report sent to the first associated device.