CN117122274A - Circulation health monitoring device of electric bicycle - Google Patents

Abstract

The invention discloses a cycle health monitoring device of an electric bicycle, which comprises: a microprocessor unit, a biological sensing unit, an operation unit, a display unit and a wireless module. The health monitoring management system is started by the input signal of the operation unit, the physiological signal sensed by the biological sensing unit is calculated and analyzed by the health monitoring management system, the calculation and analysis result is displayed on the display unit and uploaded to the cloud health management platform through the wireless module, the judgment and analysis are carried out by a manager of the cloud health management platform, and the manager returns the judgment and analysis result to the cloud health management platform or to an electronic device appointed by a person. The invention mainly solves the problem of how to monitor the physical health of a rider when the rider rides an electric bicycle.

Description

Circulation health monitoring device of electric bicycle

Technical Field

The present invention relates to a health monitoring device, and more particularly to a cycle health monitoring device for an electric bicycle.

Background

With respect to electric bicycles (E-Bike), many people feel that assistance is needed for exercise. Of course, riding a bicycle (a bicycle) is certainly more beneficial to health than riding an electric bicycle. If the bicycle is used for taking an electric bicycle and walking, the bicycle has a more training effect.

According to one study report, electric bicycles were able to provide at least moderate physical activity, less intense than riding a typical bicycle, but higher than simply walking. In particular, for people who have not ridden very often in the past, electric bicycles are a relatively easy start and can improve the physical health (e.g. cardiopulmonary function) of people lacking in exercise.

Although riding the electric bicycle can improve the physical health of the lack of sportsmen, no monitoring device or monitoring system is installed on the electric bicycle on the market at present, and whether the physical health of the person riding the electric bicycle is improved cannot be monitored, and whether the physical health is improved can be known only by measuring the physical health of the person riding the electric bicycle through a physiological measuring instrument during exercise.

Therefore, the present invention is mainly to solve the problem of how to monitor the physical health of the rider while riding the electric bicycle.

Disclosure of Invention

Therefore, a main objective of the present invention is to provide a cycle monitoring device, which is installed on an electric bicycle or worn by a person, monitors physiological signals of the person, such as data of hyperthermia/hypothermia, heart beat pulse overspeed, blood pressure, respiratory rate, atrial fibrillation, etc., and records and uploads measurement results to a cloud health management platform, wherein a manager of the cloud health management platform performs monitoring management, and stores judgment results or suggestions in the cloud health management platform or returns the electronic device designated by the person, or the cycle health monitoring device provides information to the person.

In order to achieve the above-mentioned object, the present invention provides a cycle health monitoring apparatus for an electric bicycle, which is mounted on the electric bicycle and connected to a cloud health management platform, the cycle health monitoring apparatus comprising: a microprocessor unit, a biological sensing unit, an operation unit, a display unit and a wireless module. The microprocessor unit is internally loaded with an application program of the health monitoring management system. The biological sensing unit is arranged on two handles of a tap of the electric bicycle and is electrically connected with the micro-processing unit. The operation unit is electrically connected with the micro-processing unit. The display unit is electrically connected with the micro-processing unit. The wireless module is electrically connected with the microprocessor unit. The health monitoring management system is started by the input signal of the operation unit, the physiological signal sensed by the biological sensing unit is calculated and analyzed by the health monitoring management system, the calculation and analysis result is displayed on the display unit and is uploaded to the cloud health management platform through the wireless module, the judgment and analysis are carried out by a manager of the cloud health management platform, and the manager returns the judgment and analysis result to the cloud health management platform or to the electronic device appointed by a person.

In one embodiment of the present invention, the health monitoring management system is used to calculate and analyze one or more of the data of hyperthermia/hypothermia, heart beat pulse velocity, blood pressure, respiratory rate or atrial fibrillation of the human body.

In an example of the present invention, the biosensing unit is an electrode plate or an optical sensor.

In one embodiment of the present invention, the operation unit is composed of a plurality of keys.

In an example of the present invention, the operation unit is a push button or a touch button.

In one embodiment of the present invention, the display unit is a liquid crystal display or a touch liquid crystal display

In an example of the present invention, the wireless module is a WIFI module or a bluetooth module.

In an embodiment of the invention, the circulating health monitoring device further includes a connector, and the connector is electrically connected with the micro-processing unit, so as to be electrically connected with an external electronic device through a transmission line for data updating or transmission.

In one example of the present invention, the connector is a USB TYPE-C connector male, a USB TYPE-C connector female, a mini USB or micro USB connector.

In an embodiment of the invention, the circulating health monitoring device further includes a power supply unit, and the power supply unit is electrically connected with the microprocessor unit to provide the power required by the circulating health monitoring device.

In an embodiment of the invention, the power supply unit is a rechargeable battery.

In one embodiment of the present invention, the cloud health management platform is a hospital or clinic.

In one example of the present invention, the manager is a healthcare-related person.

In order to achieve the above object, the present invention further provides a cycle health monitoring apparatus for an electric bicycle, which is installed on the electric bicycle and connected to a cloud health management platform, the cycle health monitoring apparatus comprising: a microprocessor unit, a biological sensing unit, an operation unit, a display unit and a wireless module. The microprocessor unit is internally loaded with an application program of the health monitoring management system. The biological sensing unit is arranged on a wearing tool and is electrically connected with the micro-processing unit. The operation unit is electrically connected with the micro-processing unit. The display unit is electrically connected with the micro-processing unit. The wireless module is electrically connected with the micro-processing unit. The health monitoring management system is started by the input signal of the operation unit, the physiological signal sensed by the biological sensing unit is calculated and analyzed by the health monitoring management system, the calculation and analysis result is displayed on the display unit and is uploaded to the cloud health management platform through the wireless module, the judgment and analysis are carried out by a manager of the cloud health management platform, and the manager returns the judgment and analysis result to the cloud health management platform or to the electronic device appointed by a person.

In one embodiment of the invention, the health monitoring management system is used for computing and analyzing one or more of the data of hyperthermia/hypothermia, heart beat pulse velocity, blood pressure, respiratory rate or atrial fibrillation of the human body.

In an embodiment of the invention, the biosensing unit is an electrode plate or an optical sensor.

In one embodiment of the invention, the operation unit is composed of a plurality of keys.

In an embodiment of the invention, the operation unit is a push button or a touch button.

In an embodiment of the invention, the display unit is a liquid crystal display or a touch liquid crystal display

In an embodiment of the invention, the wireless module is a WIFI module or a bluetooth module.

In an embodiment of the invention, the circulating health monitoring device further includes a connector, and the connector is electrically connected with the micro-processing unit, so as to be electrically connected with an external electronic device through a transmission line for data updating or transmission.

In an embodiment of the invention, the connector is a male USB TYPE-C connector, a female USB TYPE-C connector, a mini USB or micro USB connector.

In an embodiment of the invention, the circulating health monitoring device further includes a power supply unit, and the power supply unit is electrically connected with the micro-processing unit to provide the power required by the circulating health monitoring device.

In an embodiment of the invention, the power supply unit is a rechargeable battery.

In one embodiment of the invention, the cloud health management platform is a hospital or clinic.

In one embodiment of the invention, the manager is a healthcare-related person.

In an embodiment of the invention, the wearing tool is a garment or a bracelet.

In one embodiment of the invention, the wearing tool has a circuit board, the circuit board is electrically connected with the biological sensing unit, and the circuit board has a connector.

In one embodiment of the invention, the wireless module on the circuit board is in signal link with the wireless module of the circulating health monitoring device, so that the signal sensed by the biological sensing unit is transmitted to the circulating health monitoring device through the wireless module of the circuit board.

In one embodiment of the invention, the connector on the circuit board is plugged with a transmission line and the connector of the circulating health monitoring device, so that the signals sensed by the biological sensing unit are transmitted to the circulating health monitoring device through the connector of the circuit board.

Drawings

FIG. 1 is a schematic circuit block diagram of a monitoring device of an electric bicycle in accordance with the present invention;

FIG. 2 is a schematic view of the bio-sensing unit of FIG. 1 mounted on two handles of a handlebar of an electric bicycle;

FIG. 3 is a schematic diagram of the operation flow of the cycle health monitoring apparatus of the electric bicycle according to the present invention;

FIG. 4 is a schematic view of a bio-sensing unit according to another embodiment of the present invention mounted on a wearing tool;

fig. 5 is a schematic view illustrating a bio-sensing unit according to still another embodiment of the present invention mounted on a wearing tool.

Symbol description in the drawings:

a cyclic health monitoring device 10; a microprocessor unit 101; a biological sensing unit 102; an operation unit 103;

a display unit 104; a storage unit 105; the wireless module 106, 502, 602; connectors 107, 503, 603;

a power supply unit 108; cloud health management platform 20; cloud hard disk 201; a manager 30;

an electric bicycle 40; a tap 401; a grip 402; a garment 50; circuit boards 501, 601; a wristband 60;

step S100 to step S116.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings, in which:

referring to fig. 1, a circuit block of the cycle health monitoring apparatus of the electric bicycle and a schematic diagram of the bio-sensing unit of fig. 1 are shown mounted on two handles of a faucet of the electric bicycle. As shown in the figure: the cycle health monitoring apparatus of the electric bicycle of the present invention, the cycle health monitoring apparatus 10 includes: a microprocessor unit 101, a biological sensing unit 102, an operation unit 103, a display unit 104, a storage unit 105, a wireless module 106, a connector 107 and a power supply unit 108. The circulation monitoring device 10 monitors whether the physiological signal of the person (athlete) is abnormal or improved at any time, such as hyperthermia/hypothermia, heart beat pulse velocity, blood pressure (systolic pressure, diastolic pressure and pulse), respiratory rate, atrial fibrillation, etc., records and uploads the measurement result to the cloud health management platform (hospital or clinic) 20, and the manager (medical care related personnel) 30 of the cloud health management platform 20 performs monitoring management, and stores the judgment result or advice in the cloud health management platform 20 or returns the personal designated electronic device (such as a mobile phone), or the circulation health monitoring device 10 provides the person with knowledge.

The microprocessor unit 101 is internally loaded with an application program of the health monitoring management system, and the microprocessor unit 101 receives the signals of the biological sensing unit 102 and calculates and analyzes physiological signals of the individual [ such as, but not limited to, hyperthermia/hypothermia, heart beat pulse rate, blood pressure (systolic pressure, diastolic pressure and pulse beat), respiratory rate, atrial fibrillation ], so as to record or upload the signals to the cloud health management platform 20 for storage for monitoring and analysis by the manager 30. In this figure, after a person starts the health monitoring management system to join a member as in the conventional application, and inputs related data such as personal identification number, health care number, email account number, mobile phone number, password, etc. through the operation unit 103, the system generates a verification code to the circulation monitoring device 10 of the person or a specified email or electronic device (mobile phone), and the registration is completed to become a member after the verification code is input in the system. Later, the system is started to directly log in the health monitoring management system, or a person manually inputs related data such as identification number, health care card number, e-mail account number, mobile phone number, password and the like to log in the health monitoring management system.

The bio-sensing unit 102 is electrically connected to the microprocessor unit 101, and the bio-sensing unit 102 can be mounted on two handles 402 of a faucet 401 of the electric bicycle 40 or a wearing tool (not shown). The biological sensing unit 102 senses the human body signals and transmits the signals to the micro-processing unit 101 for operation analysis, so as to calculate and analyze the current health status of the individual. In the present drawing, the biosensor 102 is an electrode sheet or an optical sensor.

The operation unit 103 is composed of a plurality of keys and is electrically connected to the microprocessor unit 101. After the storage key is pressed, the microprocessor 101 stores the measured data such as hyperthermia/hypothermia, heart beat pulse overspeed, blood pressure (systolic pressure, diastolic pressure and pulse), respiratory rate, atrial fibrillation, etc. in the storage unit 105, so as to accumulate one period, and then calculate and analyze the average value of the physiological signal of the individual, or provide the comparison and reference between the measured result and the previous measured result. In the present drawing, the operation unit 103 is a push button or a touch button.

The display unit 104 is electrically connected to the microprocessor unit 101. The display unit 104 is configured to display the measurement result of the microprocessor unit 101, and display data or symbols of the measurement result such as hyperthermia/hypothermia, heart beat pulse overspeed, blood pressure, respiratory rate, atrial fibrillation, etc. on the display unit 104, so that the individual can know the current physical rehabilitation status. In the present drawing, the display unit 104 is a liquid crystal display or a touch liquid crystal display.

The storage unit 105 is electrically connected to the microprocessor unit 101. The storage unit 105 is used for storing data such as hyperthermia/hypothermia, heart beat pulse velocity, blood pressure, respiratory rate, atrial fibrillation, etc. measured by the micro-processing unit 101 for data accumulation or comparison. In the present drawing, the storage unit 105 is a memory.

The wireless module 106 is electrically connected to the micro-processing unit 101, and the wireless module 106 is configured to upload the result of the operation and analysis of the micro-processing unit 101 to the cloud health management platform 20 for storage, or receive the information returned by the cloud health management platform 20 or the manager 30. In the present drawing, the wireless module 106 is a WIFI module or a bluetooth module.

The connector 107 is electrically connected to the microprocessor unit 101, and is electrically connected to an external electronic device (not shown) through the transmission line (not shown) for data update or transmission. In the present figure, the connector 107 is a USB TYPE-C connector male, a USB TYPE-C connector female, a mini USB or micro USB connector. It should be noted that the male or female of the USB TYPE-C connector has at least 24 terminals, which at least include four power terminals (upper 4 th, 9 th and lower 4 th, 9 th), four ground terminals (upper 1 st, 12 th and lower 1 st, 12 th), twelve differential terminals (upper 2 nd, 3 th, 6 th, 7, 10 th, 11 th and lower 2 nd, 3 th, 6 th, 7 th, 10 th, 11 th), two selection terminals (upper 5 th and lower 5 th) and two retention terminals (upper 8 th and lower 8 th).

The power supply unit 108 is electrically connected to the microprocessor unit 101 to provide the power required by the circulating health monitor apparatus 10. In the present drawing, the power supply unit 108 is a rechargeable battery.

When the electric bicycle 40 is ridden, if the user wants to perform the health monitoring, the user can press a start key (not shown) on the operation unit 103 to start the cycle health monitoring apparatus 10, after the user holds his/her hands on the two handles 402 of the faucet 401 and touches the bio-sensing unit 102, the bio-sensing unit 102 automatically transmits the sensed signals to the microprocessor 101 for performing the operation analysis, and the microprocessor 101 transmits the data of the result of the operation analysis such as hyperthermia/hypothermia, heart beat pulse overspeed, blood pressure, respiratory rate, atrial fibrillation, etc. to the display unit 104 for displaying, so as to provide the user with knowledge.

If the individual first sets up the health monitoring management system, the microprocessor 101 calculates and analyzes the data such as the hyperthermia/hypothermia, the heart beat pulse overspeed, the blood pressure, the respiratory rate, and the atrial fibrillation, and uploads the data to the cloud hard disk 201 of the cloud health management platform 20 for storage when the measurement data is synchronized with the cloud health management platform 20.

Or, when the individual first sets the health monitoring management system and does not set the measurement data to be synchronized with the cloud health management platform 20, the micro-processing unit 101 calculates and analyzes the data such as the hyperthermia/hypothermia, the heart beat pulse overspeed, the blood pressure, the respiratory rate, the atrial fibrillation, etc., and then the circulating health monitoring device 10 displays whether to upload the measurement result to the window stored in the cloud hard disk 201 of the cloud health management platform 20, so that the individual can manually select to upload or not upload the measurement result.

After the measurement results are uploaded to the cloud hard disk 201 of the cloud health management platform 20 for storage, the manager (healthcare related personnel) 30 will be connected to the cloud health management platform 20 and read the measurement results of the individual to determine, if the measurement results are determined to be abnormal or not, the manager 30 will record the determination results (illness state or prescription form) in the cloud hard disk 201 of the cloud health management platform 20 and send out a brief message synchronously for returning to the electronic device (not shown) or the circulating health monitoring device 10 set by the individual. After the person sees the short message, the person can click and enter the cloud health management platform 20 to watch the judgment result replied by the manager 30, and the person can seek medical attention or take medicine to the pharmacy according to the judgment result of the manager 30.

Referring to fig. 3, a schematic operation flow chart of the cycle health monitoring apparatus of the electric bicycle according to the present invention is shown; please refer to fig. 1-2 together. As shown in the figure: in the use of the cyclic health monitoring device 10 of the present invention, in a first step S100, the health monitoring management system application is downloaded: the cyclical health-monitoring device 10 downloads the health-monitoring management system application through the wireless module 106 linking the internet to a browser (not shown). If the microprocessor 101 of the cyclical health monitor device 10 is already loaded with the health monitor management system application, the step S100 may be omitted and the process proceeds directly to the step S102.

Step S102, starting the health monitoring management system and joining members: after the application program of the health monitoring management system is downloaded, the member is logged in or added in, and the personal identification card number (health care card number, email account number, mobile phone number and password) can be input through the operation unit 103, the system can generate verification codes to the appointed email or the appointed electronic device (mobile phone), and the registration is completed after the verification codes are input into the system, so that the health monitoring management system can be logged in only by inputting the identification card number, the health care card number, the email (email) account number, the mobile phone number and the password through the operation unit 103 after the system is moved.

Step S104, judging the sensing signal: after the health monitoring management system logs in (starts), a start key (not shown) can be pressed through the operation unit 103, the system judges whether the biological sensing unit 102 also senses signal output, if no sensing signal is output, the system returns to step S102 to keep the starting state of the health monitoring management system. If it is determined that the bio-sensing unit 102 has a sensing signal output, the process proceeds to step S106.

Step S106, performing measurement result analysis: after the micro-processing unit 101 receives the sensing signal of the biosensing unit 102, the data such as hyperthermia/hypothermia, heart beat pulse overspeed, blood pressure, respiratory rate, atrial fibrillation etc. of the human body are analyzed by the operation of the sensing signal, and then the steps S108, S110 and S112 are performed.

Step S108, displaying the measurement result: the result of the sensing signal operation analysis is transmitted to the display unit 104 in the micro-processing unit 101, so that the display unit 104 displays data or symbols such as hyperthermia/hypothermia, heart beat pulse overspeed, blood pressure, respiratory rate, atrial fibrillation, etc. of the individual.

Step S110, store the measurement result: if the microprocessor 101 is to store the data of the hyperthermia/hypothermia, the heart beat pulse rate, the blood pressure, the respiratory rate, the atrial fibrillation, etc., the microprocessor 11 stores the data of the hyperthermia/hypothermia, the heart beat pulse rate, the blood pressure, the respiratory rate, the atrial fibrillation, etc. of the human body in the storage unit 105 by simply using the storage key (not shown) of the operation unit 103.

Step S112, uploading the cloud health management platform: when setting up the health monitoring management system, the person first sets up to synchronize the measurement data with the cloud health management platform 20, and the micro-processing unit 101 will upload the calculated and analyzed data such as hyperthermia/hypothermia, heart beat pulse overspeed, blood pressure, respiratory rate, atrial fibrillation, etc. to the cloud hard disk 201 of the cloud health management platform 20 for storage; or, when the individual first sets the health monitoring management system and does not set the measurement data to be synchronized with the cloud health management platform 20, the micro-processing unit 101 calculates the analyzed data such as hyperthermia/hypothermia, heart beat pulse overspeed, blood pressure, respiratory rate, atrial fibrillation, etc., and the circulating health monitoring device 10 displays whether to upload the measurement result to the window stored in the cloud hard disk 201 of the cloud health management platform 20, so that the individual can manually select to upload or not upload the measurement result.

Step S114, the manager reads the operation analysis result: after the measurement result is uploaded to the cloud hard disk 201 of the cloud health management platform 20 for storage, the manager (healthcare related personnel) 30 will connect to the cloud health management platform 20 and read the measurement result of the individual to determine, and when no abnormality or abnormality exists in the measurement result, the manager 30 will transmit the determination result (illness state or prescription form) back to the cloud hard disk 201 of the cloud health management platform 20 in step S112, and synchronously send a brief message back to the electronic device (not shown) or the circulating health monitoring device 10 set back by the individual.

Step S116, reading the judgment result: after the person sees the short message, the person can click and enter the cloud health management platform 20 to watch the judgment result replied by the manager 30, and the person can seek medical attention or take medicine to the pharmacy according to the judgment result of the manager 30.

Referring to fig. 4, a schematic diagram of a bio-sensing unit according to another embodiment of the invention is installed on a wearing tool; with reference also to fig. 1. As shown in the figure: the biosensing unit 102 of the present invention can be mounted on a wearing tool such as clothes 50, the biosensing unit 102 is electrically connected with a circuit board 501, the circuit board 501 has a wireless module 502 or a connector 503, the wireless module 502 or the connector 503 is connected with the wireless module 106 or the connector 107 of the circulating health monitoring device 10 in a signal connection manner by plugging a transmission line with the wireless module 502 or the connector 503, so that the signal sensed by the biosensing unit 102 is transmitted to the circulating health monitoring device 10 through the wireless module 502 or the connector 503 of the circuit board 501 for operation analysis, and the result is uploaded to the cloud health management platform 20 after the analysis by the circulating health monitoring device 10.

Referring to fig. 5, a schematic diagram of a bio-sensing unit according to another embodiment of the invention is installed on a wearing tool; with reference also to fig. 1. As shown in the figure: the biosensing unit 102 of the present invention can be mounted on a wearable tool such as a bracelet 60, the biosensing unit 102 is electrically connected with a circuit board 601, a wireless module 602 or a connector 603 is provided on the circuit board 601, the wireless module 602 or the connector 603 is connected with the wireless module 106 and the connector 107 of the health monitoring device 10 in a signal connection manner through a transmission line, so that the signal sensed by the biosensing unit 102 is transmitted to the health monitoring device 10 through the wireless module 602 or the connector 603 of the circuit board 601 for operation analysis, and the result is analyzed by the health monitoring device 10 and uploaded to the cloud health management platform 20.

Therefore, the above description is not intended to limit the scope of the invention, but is to be accorded the full scope of the claims.

Claims (30)

1. The utility model provides a circulation health monitoring device of electric bicycle, is installed on electric bicycle to link with high in the clouds health management platform, its characterized in that, this circulation health monitoring device includes:

the microprocessor unit is internally provided with an application program of the health monitoring management system;

a biological sensing unit which is arranged on two handles of the tap of the electric bicycle and is electrically connected with the micro-processing unit;

an operation unit electrically connected with the micro-processing unit;

the display unit is electrically connected with the micro-processing unit;

a wireless module electrically connected with the micro-processing unit;

the health monitoring management system is started by the input signal of the operation unit, the physiological signal sensed by the biological sensing unit is calculated and analyzed by the health monitoring management system, the calculation and analysis result is displayed on the display unit and is uploaded to the cloud health management platform through the wireless module, the judgment and analysis are carried out by a manager of the cloud health management platform, and the manager returns the judgment and analysis result to the cloud health management platform or to the electronic device appointed by a person.

2. The device of claim 1, wherein the health monitoring management system is configured to analyze data of one or more of hyperthermia/hypothermia, heart beat pulse rate, blood pressure, respiratory rate, or atrial fibrillation of the human body.

3. The device of claim 1, wherein the biosensing unit is an electrode pad or an optical sensor.

4. The device of claim 1, wherein the operation unit comprises a plurality of buttons.

5. The device of claim 1, wherein the operation unit is a push button or a touch button.

6. The device of claim 1, wherein the display unit is a liquid crystal display or a touch liquid crystal display.

7. The device of claim 1, wherein the wireless module is a WIFI module or a bluetooth module.

8. The device of claim 1, further comprising a connector electrically connected to the microprocessor unit for data update or transmission via a transmission line to an external electronic device.

9. The device of claim 8, wherein the connector is a USB TYPE-C connector male, a USB TYPE-C connector female, a mini USB or micro USB connector.

10. The device of claim 1, further comprising a power supply unit electrically connected to the microprocessor unit for providing power required by the device.

11. The device of claim 10, wherein the power supply unit is a rechargeable battery.

12. The device of claim 1, wherein the cloud health management platform is a hospital or clinic.

13. The device of claim 1, wherein the manager is a healthcare-related person.

14. The utility model provides a circulation health monitoring device of electric bicycle, is installed on electric bicycle to link with high in the clouds health management platform, its characterized in that, this circulation health monitoring device includes:

the microprocessor unit is internally provided with an application program of the health monitoring management system;

the biological sensing unit is arranged on a wearing tool and is electrically connected with the micro-processing unit;

an operation unit electrically connected with the micro-processing unit;

the display unit is electrically connected with the micro-processing unit;

a wireless module electrically connected with the micro-processing unit;

the health monitoring management system is started by the input signal of the operation unit, the physiological signal sensed by the biological sensing unit is calculated and analyzed by the health monitoring management system, the calculation and analysis result is displayed on the display unit and is uploaded to the cloud health management platform through the wireless module, the judgment and analysis are carried out by a manager of the cloud health management platform, and the manager returns the judgment and analysis result to the cloud health management platform or to the electronic device appointed by a person.

15. The device of claim 14, wherein the health monitoring management system is configured to analyze data of one or more of hyperthermia/hypothermia, heart beat pulse rate, blood pressure, respiratory rate, or atrial fibrillation of the human body.

16. The device of claim 14, wherein the biosensing unit is an electrode pad or an optical sensor.

17. The device of claim 14, wherein the operation unit comprises a plurality of buttons.

18. The device of claim 14, wherein the operation unit is a push button or a touch button.

19. The device of claim 14, wherein the display unit is a liquid crystal display or a touch liquid crystal display.

20. The device of claim 14, wherein the wireless module is a WIFI module or a bluetooth module.

21. The device of claim 14, further comprising a connector electrically connected to the microprocessor unit for data update or transmission via a transmission line to an external electronic device.

22. The device of claim 21, wherein the connector is a USB TYPE-C connector male, a USB TYPE-C connector female, a mini USB or micro USB connector.

23. The device of claim 14, further comprising a power supply unit electrically connected to the microprocessor unit for providing power required by the device.

24. The device of claim 23, wherein the power supply unit is a rechargeable battery.

25. The device of claim 14, wherein the cloud health management platform is a hospital or clinic.

26. The device of claim 14, wherein the manager is a healthcare-related person.

27. The device of claim 14, wherein the wearing means is a garment or a bracelet.

28. The device of claim 14, wherein the wearable tool has a circuit board, the circuit board is electrically connected to the bio-sensing unit, and the circuit board has a connector.

29. The device of claim 28, wherein the wireless module on the circuit board is in signal communication with the wireless module of the device, such that the signals sensed by the biosensing unit are transmitted to the device via the wireless module of the circuit board.

30. The device of claim 28, wherein the connector of the circuit board is plugged with a transmission line to connect with the connector of the device, so that the signal sensed by the biosensing unit is transmitted to the device via the connector of the circuit board.