TWI822404B - Intelligent monitoring glove device and method of using the same - Google Patents

Abstract

The present invention is an intelligent monitoring glove device, which can be sleeved on a palm of a person to be tested. The intelligent monitoring glove device uses a plurality of temperature detection modules to detect the temperature of each finger respectively. Use a heart rhythm and blood oxygen sensing module to detect a heart rhythm state and a blood oxygen state of the person to be tested. A communication module is used to transmit all the finger temperature, the heart rhythm state and the blood oxygen state to a servo device. Through peripheral data sensing and remote monitoring, long-term medical monitoring can be achieved and doctors can be assisted in remote judgment.

Description

Intelligent monitoring glove device and method of use

The present invention relates to an intelligent glove device, and in particular to an intelligent monitoring glove device for monitoring peripheral nerve circulation.

With the advancement of science and technology, human life span has been extended, and society has gradually entered an advanced age. More and more elderly people live alone at home due to their own health and physical decline, or because their children have left due to work or marriage. , leading to many inconveniences in life; the current direction of elderly welfare policies in various countries around the world is tending to the line of "aging in place, aging at home". It is believed that the best lifestyle for the elderly is to age naturally in the community where they live, and try their best to maintain their Autonomy, self-esteem, and through the establishment of a mechanism to coordinate the operation of related resources will be instant and convenient.

However, factors such as vascular degeneration in the elderly cause problems such as poor peripheral blood circulation, which may lead to cold hands, feet, and numbness in the limbs. Not only the elderly, but also in the industrial and commercial society, everyone works diligently and long at their jobs, especially those who sit at desks all day long and have little time to move their muscles and sit down for eight hours. , not only the blood circulation is poor, but also the muscles are lack of exercise, which can easily cause fatigue. For some specific people, if their heart rate exceeds a certain value and their blood oxygen falls below a certain value, it may cause danger.

Many human diseases are related to peripheral circulatory disorders. The reason lies in the microcirculation of the human body. Many people think that microcirculation is only related to the extremities of the limbs. In fact, the microcirculation of the human body is mainly the circulation of tiny blood vessels connecting arterioles and venules. Through the tiny blood vessels distributed throughout the body, the body's microcirculation It carries oxygen, nutrients, metabolic waste and carbon dioxide to exchange to maintain cell activity and normal function of tissues. All organs and tissues are affected by microvessels. Once there is poor microcirculation, discomfort, soreness, and stiffness are usually the symptoms. , numbness, or physical weakness and other symptoms first appear. Clinically, patients with poor microcirculation often have cold hands and feet or numbness in the limbs. Especially during cold spells and low temperatures, the symptoms will be more obvious. Modern medicine has proven that the aging of the human body, high blood pressure, Diabetes, cardiovascular and cerebrovascular diseases, or long-term sub-health conditions are all closely related to microcirculation.

In response to the above problems, the most effective management method for monitoring peripheral circulatory disorders is to monitor the limbs. Figure 1 shows the three-dimensional structural diagram of the Xinzhi smart glove device. However, most of the Xinzhi smart gloves on the market are used in remote areas. In terms of surgery and rehabilitation, a mechanical structure 1 is placed on the back of the patient's hand and sleeved on the fingers, thereby driving the patient's fingers to perform the required activities to achieve the rehabilitation effect, but the patient needs to go to a medical institution. And it is carried out under the instructions and assistance of medical staff. Since the effects of rehabilitation often require multiple courses of treatment to be apparent, if the patient gives up midway due to inconvenience in time or distance, all previous efforts and medical resources will be wasted.

The above summarizes various problems caused by poor peripheral circulation. Based on the concept of preventing poor peripheral blood circulation, we use gloves as our improvement project to detect cardiovascular disease through various sensing elements and blood pressure measurement. and peripheral circulation status to help doctors determine the patient’s condition and provide more effective treatment.

The object of the present invention is to provide an intelligent monitoring glove device and a method of using the same. Various sensing elements are located on the glove device to detect the status of cardiovascular and peripheral circulation, as well as blood pressure measurement, so as to achieve remote control. It assists doctors to judge the patient’s condition and provide more effective treatments.

The object of the present invention is to provide an intelligent monitoring glove device and a method of using the same. By installing a solar panel for charging, the glove device can extend the frequency of use and the time of use.

The purpose of the present invention is to provide an intelligent monitoring glove device and its use method, which analyzes the current user status in three axes, adds data abnormality reminders, and enables long-term physiological data analysis to provide the user with appropriate exercise recommendations and analysis.

The purpose of the present invention is to provide an intelligent monitoring glove device and its use method, which can prevent future cardiovascular diseases and physical discomfort by using it in long-term medical monitoring, through data sensing of peripheral parts, and through remote monitoring. reflect.

In order to achieve the above objectives, the present invention provides an intelligent monitoring glove device that can be placed on a palm of a person to be tested. The intelligent monitoring glove device includes: a glove body, a power module, a first energy conversion unit, and a A second energy conversion unit, a plurality of temperature detection modules, a heart rate and blood oxygen sensing module, a communication module, a comparison module and a prompt module. The glove body has a palm cover and a plurality of finger covers, and the finger covers are connected to the palm cover. The power module is located in the palm cover. The first energy conversion unit is located on the palm cover and is electrically connected to the power module to convert a city power supply into electrical energy and store it in the power module. The second energy conversion unit is located on the palm cover and is electrically connected to the power module to convert light energy into electrical energy and store it in the power module. A plurality of temperature detection modules are respectively located on the finger cuff and are electrically connected to the power module. The temperature detection module is adjacent to a finger body of the palm and can detect the temperature of the finger body. The heart rate and blood oxygen sensing module is located on the finger cuff and is electrically connected to the power module. The heart rate and blood oxygen sensing module can detect a heart rhythm state and a blood oxygen state of the person to be measured. the summons The module is respectively connected to the power module, a plurality of the temperature detection modules and the heart rhythm and blood oxygen sensing module via telecommunications. The communication module transmits all the temperatures of the finger body, the heart rhythm status and the blood oxygen status to on a servo device. The comparison module is electrically connected to the communication module, and the comparison module stores a standard temperature range value, a standard heart rate value and a standard blood oxygen value. The prompt module is electrically connected to the comparison module, and the prompt module can provide a warning message. Among them, when the average temperature of all the fingers is not within the standard temperature range value, the prompt module is used to provide the warning message; when the heart rhythm state is higher than the standard heart rhythm value, the prompt module is used to provide the warning message ; When the blood oxygen status is lower than the standard blood oxygen value, the warning module is used to provide the warning message.

In a preferred embodiment of the present invention, the smart monitoring glove device further includes a data transfer module. The data transfer module is electrically connected to the communication module and can connect to a blood pressure device and receive the blood pressure device. A blood pressure state of the person to be measured is measured.

In a preferred embodiment of the present invention, the glove body further has a cuff, and the cuff is located on one side of the palm cuff.

In a preferred embodiment of the present invention, the power module is a rechargeable battery, and the rechargeable battery is one of a nickel-metal hydride battery and a lithium-ion battery.

In a preferred embodiment of the present invention, the first energy conversion unit is an AC voltage to DC voltage transformer, and the second energy conversion unit is a solar panel.

In a preferred embodiment of the present invention, the standard temperature range value is 34 degrees Celsius to 37.2 degrees Celsius, the standard heart rate value is 130 Bpm (Beat per minute), and the standard blood oxygen value is 90% of blood oxygen concentration .

In a preferred embodiment of the present invention, the servo device is electrically connected to a portable electronic device, and the portable electronic device is provided for use by the person to be tested.

In order to achieve the above objectives, the present invention provides a method of using an intelligent monitoring glove device, which includes the following steps:

Step (a): Provide an intelligent monitoring glove device, which includes: a glove body, a power module, a plurality of temperature detection modules, a heart rate and blood oxygen sensing module, and a communication module , a comparison module and a prompt module, the glove body has a palm cover and a plurality of finger covers, the power module is located in the palm cover, and a plurality of temperature detection modules are respectively located on the finger covers, the The heart rate and blood oxygen sensing module, the communication module, the comparison module and the prompt module are electrically connected to each other, and are electrically connected to the power module respectively.

Step (b): Place the glove body on a palm of a person to be tested, and use the temperature detection module to detect the temperature of a finger of the palm adjacent to the finger.

Step (c): Use the comparison module to average the temperatures of all the fingers and compare them with a standard temperature range. When the average temperature of all the fingers is not within the standard temperature range, the prompt will be displayed. The module provides a warning message; when the average temperature of all the fingers is within the standard temperature range, the following step (d) is performed.

Step (d): The heart rhythm and blood oxygen sensing module detects a heart rhythm state and a blood oxygen state of the person to be measured.

Step (e): Use the comparison module to compare the heart rhythm state with a first standard heart rhythm value. When the heart rhythm state is lower than the first standard heart rhythm value, repeat the execution after a first interval. Step (d).

Step (f): When the heart rhythm state is higher than the first standard heart rhythm value, the comparison module compares the heart rhythm state with a second standard heart rhythm value. When the heart rhythm state is lower than the second standard heart rhythm value, value When, after a second interval, step (d) is repeated; when the heart rhythm state is higher than the second standard heart rhythm value, the prompt module provides a warning message.

Step (g): Use the comparison module to compare the blood oxygen status with a standard blood oxygen value. When the blood oxygen status is lower than the standard blood oxygen value, the prompt module provides a warning message; When the blood oxygen status is higher than the standard blood oxygen value, step (d) is performed.

In a preferred embodiment of the present invention, the following steps are further included after step (a): (a1) Detect whether the power module reaches a predetermined power. When the power module does not reach the predetermined power, then An energy conversion unit is provided to be connected to the power module; when the power module reaches the predetermined power, the following step (b) is performed.

In a preferred embodiment of the present invention, the step (d) further includes the following steps: (d1) using the communication module to transmit the temperature of the finger body, the heart rhythm status and the blood oxygen status to a on the servo.

1: Mechanical structure

2: Intelligent monitoring glove device

20:Data transfer module

201: tourniquet

21: Glove body

211: Palm cover

212:Finger cot

22:Power module

23: First energy conversion unit

24: Second energy conversion unit

25:Temperature detection module

26:Heart rhythm and blood oxygen sensing module

27:Messaging module

28:Comparison module

29: Prompt module

3: Palm

31:Finger body

4:Servo device

5: Portable electronic devices

6: Blood pressure device

S91-S97: Steps

In order to make the above and other objects, features, advantages and embodiments of the present invention easier to understand, the accompanying drawings are described as follows: Figure 1 is a schematic three-dimensional structural diagram of a conventional smart glove device.

Figure 2 is a schematic diagram of the use status of the preferred embodiment of the intelligent monitoring glove device of the present invention.

Figure 3 is a schematic three-dimensional structural diagram of the outer surface of the smart monitoring glove device according to a preferred embodiment of the present invention.

Figure 4 is a schematic block structure diagram of a preferred embodiment of the intelligent monitoring glove device of the present invention.

Figure 5 is a schematic diagram of a preferred embodiment of the servo device displaying the first time state of the present invention.

Figure 6 is a schematic diagram of a preferred embodiment of the servo device displaying the second time state of the present invention.

Figure 7 is a schematic diagram of a preferred embodiment of the physiological value display state of the servo device according to the present invention.

Figure 8 is a flow block diagram of a preferred embodiment of the method of using the smart monitoring glove device of the present invention.

In accordance with common practice, the various features and components in the figures are not drawn to actual scale, but are drawn in a manner intended to best present the specific features and components relevant to the present invention. In addition, the same or similar element symbols are used to refer to similar elements and components between different drawings.

The following disclosure provides different embodiments or examples to achieve different features of the provided subject matter. The specific examples of components and arrangements described below are for simplifying the present disclosure and are not intended to be limiting; the size and shape of the components are not limited by the disclosed range or numerical value, but may depend on the process conditions of the components or the required requirements. characteristic. For example, cross-sectional views are used to describe the technical features of the present invention, and these cross-sectional views are schematic diagrams of idealized embodiments. Therefore, variations in the shapes shown in the illustrations due to manufacturing processes and/or tolerances are to be expected and should not be limited thereby.

Furthermore, spatially relative terms such as "below", "below", "below", "above" and "above" are used to easily describe what is in the diagram. The relationship between elements or features in a diagram; in addition, spatially relative terms include, in addition to the direction depicted in a diagram, the different orientations of components in use or operation.

Please refer to Figures 2 to 7 together, which show the usage status of the intelligent monitoring glove device of the present invention, the three-dimensional structure of the outer surface of the glove device, the block structure of the intelligent monitoring glove device, the servo device displaying the first time state and the second time state, and the servo A schematic diagram of a preferred embodiment of a device storing physiological values and displaying status. The smart monitoring glove device 2 of the present invention can be placed on a palm 3 of a person to be tested (not shown in the figure). The smart monitoring glove device 2 includes: a glove body 21, a power module 22, a first Energy conversion unit 23, a second energy conversion unit 24, a plurality of temperature detection modules 25, a heart rate and blood oxygen sensing module 26, and a communication module 27, a comparison module 28 and a prompt module 29. The glove body 21 has a palm cover 211 and a plurality of finger covers 212, and the finger covers 212 are connected to the palm cover 211.

The power module 22 is located in the palm cover 211 . In a preferred embodiment of the present invention, the power module 22 is a rechargeable battery, and the rechargeable battery is one of a nickel-metal hydride battery and a lithium-ion battery. The first energy conversion unit 23 is located on the palm cover 211 and is electrically connected to the power module 22 to convert a commercial power source into electrical energy and store it in the power module 22 . In a preferred embodiment of the present invention, the first energy conversion unit 23 is an AC voltage conversion to DC voltage transformer. The second energy conversion unit 24 is located on the palm cover 211 and is electrically connected to the power module 22 to convert light energy into electrical energy and store it in the power module 22 . In a preferred embodiment of the present invention, the second energy conversion unit 24 is a solar panel, which is charged by the solar panel, so that the smart monitoring glove device 2 of the present invention can extend the frequency and time of use.

A plurality of temperature detection modules 25 are respectively located on the finger cuff 212 and are electrically connected to the power module 22. Each temperature detection module 25 is adjacent to a finger body 31 of the palm 3, that is, located on the finger cuff. The inner surface of 212 can detect the temperature of the finger body 31 . In the preferred embodiment of the present invention, there are two temperature detection modules 25 at the little finger. The one adjacent to the outer surface is used to measure room temperature or normal temperature environment.

The heart rate and blood oxygen sensing module 26 is located on the finger cuff 212 and is electrically connected to the power module 22. The heart rate and blood oxygen sensing module 26 can detect a heart rhythm state and a blood oxygen state of the person to be measured. . The communication module 27 is respectively electrically connected to the power module 22, a plurality of the temperature detection modules 25 and the heart rhythm and blood oxygen sensing module 26. The communication module 27 transmits all the temperatures of the finger body and the heart rhythm status. And the blood oxygen status is transmitted to a servo device 4. In a preferred embodiment of the present invention, the servo device 4 is electrically connected to a portable electronic device 5, and the portable electronic device 5 is provided for use by the person to be tested.

The comparison module 28 is electrically connected to the communication module 27. The comparison module 28 stores a standard temperature range value, a standard heart rate value and a standard blood oxygen value. In a preferred embodiment of the invention, the The standard temperature range is 34 degrees Celsius to 37.2 degrees Celsius, the standard heart rate value is 130Bpm (Beat per minute), and the standard blood oxygen value is 90% of the blood oxygen concentration.

The prompt module 29 is electrically connected to the comparison module 28, and the prompt module 29 can provide a warning message. The reminder module 29 can be an OLED panel for displaying reminders and warning messages.

Among them, when the average temperature of all the finger bodies 31 is not within the standard temperature range, it is judged that when the temperature is higher than 37.2 degrees Celsius, there will be fever or heat stroke, and when the temperature is lower than 34 degrees Celsius, there will be a fever or heat stroke. The warning message is provided by the prompt module 29 due to the risk of hypothermia or amputation. When the heart rhythm state is higher than the standard heart rhythm value, the warning module 29 is used to provide the warning message to remind the person to be tested that his or her life is in danger. When the blood oxygen status is lower than the standard blood oxygen value, the warning module 29 is used to provide the warning message to remind the person to be tested that his or her life is in danger.

In a preferred embodiment of the present invention, the glove body 2 further has a cuff 201 , and the cuff 201 is located on one side of the palm cuff 211 . The smart monitoring glove device 2 further includes a data transfer module 20. The data transfer module 20 is electrically connected to the communication module 27 and can be connected to a blood pressure device 6 and receive the data to be measured by the blood pressure device 6. Measure the blood pressure status of the person.

After measuring the person to be measured through the intelligent monitoring glove device 2 of the present invention, the servo device 4 can display the measurement schematic diagram of the first time state in Figure 5 and the second time state schematic diagram of Figure 6 . The picture shows the real-time status of the person to be tested's heart rhythm, blood oxygen, temperature (room temperature), finger temperature, systolic blood pressure and diastolic blood pressure. Figure 7 is a schematic diagram of the display status of stored physiological values for long-term monitoring of the terminal nerves of the person to be tested. Status, the graph simultaneously displays the status of the person to be tested's heart rate, blood oxygen, temperature (room temperature) and finger temperature in a line chart.

Please refer to FIG. 8 , which is a flow block diagram of a preferred embodiment of the method of using the smart monitoring glove device of the present invention. The invention provides a method for using an intelligent monitoring glove device, which includes the following steps:

Step S91: Provide an intelligent monitoring glove device. The intelligent monitoring glove device includes: a glove body, a power module, a plurality of temperature detection modules, a heart rate and blood oxygen sensing module, a communication module, and a Comparing the module and a prompt module, the glove body has a palm cover and a plurality of finger covers, the power module is located in the palm cover, a plurality of temperature detection modules are respectively located on the finger covers, and the heart rate blood test module is located in the palm cover. The oxygen sensing module, the communication module, the comparison module and the prompt module are electrically connected to each other and electrically connected to the power module respectively.

Step S911: Detect whether the power module reaches a predetermined power. When the power module does not reach the predetermined power, perform step S912: Provide an energy conversion unit to connect to the power module. When the power module reaches the predetermined power, the following step S92 is executed.

Step S92: Place the glove body on a palm of a person to be tested, and use the temperature detection module to detect the temperature of a finger of the palm adjacent to the finger.

Step S93: Use the comparison module to average the temperatures of all the fingers, and compare them with a standard temperature range value of 34 degrees Celsius to 37.2 degrees Celsius. Generally speaking, when the temperature is higher than 37.2 degrees Celsius, When the temperature is 37.2 degrees Celsius, there will be fever or heat stroke, and when the temperature is lower than 34 degrees Celsius, there is a risk of hypothermia or amputation. When the average temperature of all the fingers is not within the standard temperature range, step S931 is executed: the prompt module provides a warning message. When the average temperature of all the fingers is within the standard temperature range, the following step S94 is performed.

Step S94: The heart rate and blood oxygen sensing module detects a heart rhythm state and a blood oxygen state of the person to be tested.

Step S941: Use the communication module to transmit all the temperature of the finger, the heart rhythm state, and the blood oxygenation state to a servo device.

Step S95: Use the comparison module to compare the heart rhythm state with a first standard heart rhythm value. The first standard heart rhythm value is 100Bpm (Beat per minute) to determine whether the person to be tested is in an exercise state. When the heart rhythm state is lower than the first standard heart rhythm value, it is determined that the person to be tested is not in an exercise state. Then perform step S951: after a first interval time, the first interval time is 60 seconds, repeat step S94. It is not necessary to detect the heart rhythm state and the blood oxygenation state of the person to be tested too frequently.

Step S96: When the heart rhythm state is higher than the first standard heart rhythm value, it is determined that the person to be tested is in an exercise state, and step S961 is executed: the comparison module compares the heart rhythm state with a second standard heart rhythm value. The second standard heart rhythm value is 130Bpm (Beat per minute). When the heart rhythm state is lower than the second standard heart rhythm value, step S962 is executed: after a second interval time, the second interval time is 5 seconds, the execution is repeated. In step S94, the heart rhythm state and blood oxygenation state of the person to be tested must be frequently detected. When the heart rhythm state is higher than the second standard heart rhythm value, it is determined that the person to be tested is in a dangerous state, and step S931 is executed: the prompt module provides a warning message.

Step S97: Use the comparison module to compare the blood oxygen status with a standard blood oxygen value. The standard blood oxygen value is 90% of the blood oxygen concentration. When the blood oxygen status is lower than the standard blood oxygen value, it is determined that the person to be tested is in a dangerous state, and step S931 is executed: the prompt module provides a warning message. When the blood oxygen status is higher than the standard blood oxygen value, step S94 is executed.

The above embodiments are only used to illustrate the technical solutions of the present invention and are not limiting. Although the present invention has been described in detail with reference to the preferred embodiments, those of ordinary skill in the art should understand that the technical solutions of the present invention can be modified or equivalently replaced. without departing from the spirit and scope of the technical solution of the present invention.

20:Data transfer module

211: Palm cover

212:Finger cot

22:Power module

25:Temperature detection module

26:Heart rhythm and blood oxygen sensing module

27:Messaging module

28:Comparison module

29: Prompt module

4:Servo device

5: Portable electronic devices

6: Blood pressure device

Claims (10)

An intelligent monitoring glove device that can be placed on the palm of a person to be tested. The intelligent monitoring glove device includes: A glove body has a palm cover and a plurality of finger covers, and the finger covers are connected to the palm cover; A power module is located in the palm cover; A first energy conversion unit is located on the palm cover and is electrically connected to the power module to convert a city power supply into electrical energy and store it in the power module; A second energy conversion unit, located on the palm cover and electrically connected to the power module, converts light energy into electrical energy and stores it in the power module; A plurality of temperature detection modules are respectively located on the finger cuff and are electrically connected to the power module. The temperature detection module is adjacent to a finger of the palm and can detect the temperature of the finger; A heart rate and blood oxygen sensing module is located on the finger cuff and is electrically connected to the power module. The heart rate and blood oxygen sensing module can detect a heart rhythm state and a blood oxygen state of the person to be measured; A communication module is respectively electrically connected to the power module, a plurality of the temperature detection modules and the heart rate and blood oxygen sensing modules. The communication module transmits all the temperature of the finger body, the heart rhythm status and the blood oxygen level. The status is passed to a servo device; A comparison module is electrically connected to the communication module, and the comparison module stores a standard temperature range value, a standard heart rate value and a standard blood oxygen value; a prompt module, electrically connected to the comparison module, and the prompt module can provide a warning message; Among them, when the average temperature of all the fingers is not within the standard temperature range value, the prompt module is used to provide the warning message; when the heart rhythm state is higher than the standard heart rhythm value, the prompt module is used to provide the warning message ; When the blood oxygen status is lower than the standard blood oxygen value, the warning module is used to provide the warning message. The smart monitoring glove device as described in claim 1, wherein the smart monitoring glove device further includes a data transfer module, the data transfer module is electrically connected to the communication module, can connect to a blood pressure device, and receives The blood pressure device measures a blood pressure state of the person to be measured. The intelligent monitoring glove device as claimed in claim 1, wherein the glove body further has a tourniquet, and the tourniquet is located on one side of the palm cover. The smart monitoring glove device according to claim 1, wherein the power module is a rechargeable battery, and the rechargeable battery is one of a nickel metal hydride battery and a lithium ion battery. The smart monitoring glove device according to claim 1, wherein the first energy conversion unit is an AC voltage conversion DC voltage transformer, and the second energy conversion unit is a solar panel. The smart monitoring glove device as described in claim 1, wherein the standard temperature range value is 34 degrees Celsius to 37.2 degrees Celsius, the standard heart rate value is 130 Bpm (Beat per minute), and the standard blood oxygen value is the blood oxygen concentration. 90/90. The smart monitoring glove device as claimed in claim 1, wherein the servo device is electrically connected to a portable electronic device, and the portable electronic device is provided for use by the person to be tested. A method of using an intelligent monitoring glove device, which includes the following steps: (a) Provide an intelligent monitoring glove device. The intelligent monitoring glove device includes: a glove body, a power module, a plurality of temperature detection modules, a heart rate and blood oxygen sensing module, a communication module, and a Comparing the module and a prompt module, the glove body has a palm cover and a plurality of finger covers, the power module is located in the palm cover, a plurality of temperature detection modules are respectively located on the finger covers, and the heart rate blood test module is located in the palm cover. The oxygen sensing module, the communication module, the comparison module and the prompt module are electrically connected to each other, and are electrically connected to the power module respectively; (b) Place the glove body on a palm of a person to be tested, and use the temperature detection module to detect the temperature of a finger adjacent to the palm; (c) Use the comparison module to average the temperatures of all the fingers and compare them with a standard temperature range. When the average temperature of all the fingers is not within the standard temperature range, the prompt module Provide a warning message; when the average temperature of all the fingers is within the standard temperature range, perform the following step (d); (d) The heart rhythm and blood oxygen sensing module detects a heart rhythm state and a blood oxygen state of the person to be measured; (e) Use the comparison module to compare the heart rhythm state with a first standard heart rhythm value. When the heart rhythm state is lower than the first standard heart rhythm value, repeat the steps ((e) after a first interval). d); (f) When the heart rhythm state is higher than the first standard heart rhythm value, the comparison module compares the heart rhythm state with a second standard heart rhythm value, and when the heart rhythm state is lower than the second standard heart rhythm value , after a second interval, repeat step (d); when the heart rhythm state is higher than the second standard heart rhythm value, the prompt module provides a warning message; (g) Use the comparison module to compare the blood oxygen status with a standard blood oxygen value. When the blood oxygen status is lower than the standard blood oxygen value, the prompt module provides a warning message; when the blood oxygen status is lower than the standard blood oxygen value, the prompt module provides a warning message; When the blood oxygen status is higher than the standard blood oxygen value, step (d) is performed. The method of using the smart monitoring glove device as described in claim 8, wherein step (a) further includes the following steps: (a1) Detect whether the power module reaches a predetermined power. When the power module does not reach the predetermined power, provide an energy conversion unit connected to the power module; when the power module reaches the predetermined power, Then perform the following step (b). The method of using the smart monitoring glove device as described in claim 8, wherein step (d) further includes the following steps: (d1) Use the communication module to transmit all the temperature of the finger, the heart rhythm state, and the blood oxygenation state to a servo device.

Images