CN107167932B - Body temperature monitoring method based on sunglasses and sunglasses - Google Patents

Abstract

The invention discloses sunglasses which are provided with an infrared temperature sensor and a buzzer, wherein the infrared temperature sensor is used for detecting the body temperature of a sunglasses wearer, and the buzzer is triggered when the infrared temperature sensor detects that the body temperature of the sunglasses wearer is greater than or equal to a preset temperature threshold value. The invention also discloses a body temperature monitoring method based on the sunglasses. According to the invention, the infrared temperature sensor and the buzzer are arranged on the sunglasses, so that people can monitor the body temperature at any time and any place without carrying a thermometer or body temperature detection equipment, and the technical problems that the body temperature of people is difficult to monitor in real time and the heatstroke phenomenon is easy to occur when people are in outdoor activity places in the prior art are solved.

Description

Body temperature monitoring method based on sunglasses and sunglasses

Technical Field

The invention relates to the technical field of multifunctional glasses, in particular to a body temperature monitoring method based on sunglasses and the sunglasses.

Background

In the sunlight, the light flux is usually adjusted by adjusting the size of the pupil, and when the light intensity exceeds the adjusting capacity of the eyes, the eyes are injured. Therefore, in outdoor activity, especially in summer, sunglasses are required to block sunlight to reduce fatigue caused by eye accommodation or damage caused by strong light stimulation.

Meanwhile, in outdoor activity places, if the people receive direct sunlight for a long time, the body temperature is easy to rise, and then heatstroke occurs, so that when people do outdoor activities, the people need to pay attention to the change of the body temperature at any time to prevent the heatstroke, but the existing thermometer or body temperature detection equipment is difficult to carry about, and the requirement of monitoring the body temperature in real time is difficult to realize.

Disclosure of Invention

The invention mainly aims to provide a body temperature monitoring method based on sunglasses and sunglasses, and aims to solve the technical problems that in the prior art, when people are in outdoor activity places, the body temperature of people is difficult to monitor in real time, and a heatstroke phenomenon is easy to occur.

In order to achieve the above object, the present invention provides sunglasses, which are provided with an infrared temperature sensor and a buzzer, wherein the infrared temperature sensor is used for detecting the body temperature of a sunglasses wearer, and when the infrared temperature sensor detects that the body temperature of the sunglasses wearer is greater than or equal to a preset temperature threshold, the buzzer is triggered.

Preferably, the sunglasses are provided with a display screen, and the infrared temperature sensor outputs the detected body temperature to the display screen after detecting the body temperature of the sunglasses wearer.

Preferably, the infrared temperature sensor is arranged on a temple of the sunglasses, or on a joint of the temple of the sunglasses and a frame, or on a bridge of the sunglasses.

Preferably, the sunglasses are provided with a pulse sensor for detecting the pulse frequency of the sunglasses wearer and outputting the detected pulse frequency to the display screen.

Preferably, the sunglasses are provided with a memory and a wireless communication module, the memory is used for recording body temperature change data and/or pulse frequency change data of a sunglasses wearer in a set time period, and the wireless communication module is used for sending the body temperature change data and/or the pulse frequency change data recorded by the memory to a client corresponding to the sunglasses wearer.

In addition, in order to achieve the above object, the present invention further provides a body temperature monitoring method based on sunglasses, wherein the sunglasses are provided with an infrared temperature sensor and a buzzer, and the body temperature monitoring method based on sunglasses comprises:

detecting the body temperature of a sunglasses wearer through the infrared temperature sensor;

and when the body temperature of the sunglasses wearer detected by the infrared temperature sensor is greater than or equal to a preset temperature threshold value, triggering the buzzer.

Preferably, the sunglasses are provided with a display screen, and the step of detecting the body temperature of the sunglasses wearer by the infrared temperature sensor further includes:

and outputting the body temperature detected by the infrared temperature sensor to the display screen.

Preferably, the infrared temperature sensor is arranged on a temple of the sunglasses, or on a joint of the temple and a frame of the sunglasses, or on a bridge of the sunglasses.

Preferably, the sunglasses are provided with a pulse sensor, and the sunglasses-based body temperature monitoring method further includes:

through the pulse sensor, detect the current pulse frequency of sunglasses wearer to the pulse frequency that detects with the pulse sensor is exported to the display screen.

Preferably, the sunglasses are provided with a memory and a wireless communication module, and the body temperature monitoring method based on the sunglasses further comprises:

the body temperature change data and/or the pulse frequency change data of the sunglasses wearer in a set time period are recorded through the memory, and the body temperature change data and/or the pulse frequency change data recorded by the memory are sent to the client corresponding to the sunglasses wearer through the wireless communication module.

The sunglasses are provided with the infrared temperature sensor and the buzzer, the infrared temperature sensor can be used for detecting the body temperature of a sunglasses wearer, and when the body temperature of the sunglasses wearer is detected to be greater than or equal to a preset temperature threshold value, the buzzer is triggered to remind the sunglasses wearer of preventing heatstroke and reducing temperature so as to avoid heatstroke; according to the invention, the infrared temperature sensor and the buzzer are arranged on the sunglasses, so that people can monitor the body temperature at any time and any place without carrying a thermometer or body temperature detection equipment, and the technical problems that the body temperature of people is difficult to monitor in real time and the heatstroke phenomenon is easy to occur in outdoor activity places in the prior art are solved.

Drawings

FIG. 1 is a schematic structural view of a first embodiment of a sunglass of the present invention;

FIG. 2 is a schematic structural diagram of a second embodiment of the sunglasses of the present invention;

FIG. 3 is a schematic structural diagram of a third embodiment of the sunglasses of the present invention;

FIG. 4 is a schematic structural diagram of a fourth embodiment of the sunglasses of the present invention;

fig. 5 is a schematic flow chart of a body temperature monitoring method based on sunglasses according to a first embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings of the specification, it being understood that the preferred embodiments described herein are merely for illustrating and explaining the present invention, and are not intended to limit the present invention, and that the embodiments and features of the embodiments in the present invention may be combined with each other without conflict.

The invention provides sunglasses which are provided with an infrared temperature sensor and a buzzer, wherein the infrared temperature sensor is used for detecting the body temperature of a sunglasses wearer, and when the body temperature of the sunglasses wearer is detected to be greater than or equal to a preset temperature threshold value, the buzzer is triggered to remind the sunglasses wearer of preventing heatstroke and avoiding heatstroke.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a first embodiment of sunglasses according to the present invention, in this embodiment, the sunglasses are provided with an infrared temperature sensor 10 and a buzzer 20, the infrared temperature sensor 10 is used for detecting a body temperature of a sunglasses wearer, and when the infrared temperature sensor 10 detects that the body temperature of the sunglasses wearer is greater than or equal to a preset temperature threshold, the buzzer 20 is triggered.

In nature, when the temperature of an object is higher than absolute zero, electromagnetic waves are continuously radiated to the periphery due to the internal thermal motion of the object, and infrared rays with the wave band of 0.75-100 mu m are contained in the electromagnetic waves. Infrared is a light that is invisible to the human eye, but in fact, like any other light, it is an objectively present substance.

The physical nature of infrared radiation is thermal radiation, and the higher the temperature of an object, the more infrared rays are radiated, and the stronger the energy of the infrared radiation is. The thermal effects of the various monochromatic lights of the solar spectrum increase progressively from violet to red and the greatest thermal effects occur in the frequency range of infrared radiation, which is therefore also referred to as thermal radiation or heat rays.

The infrared temperature sensor 10 can detect the body temperature of the sunglasses wearer by using the heat radiation effect.

In addition, the infrared temperature sensor 10 is used as a detection element, the temperature measurement process is simple, the manufacturing process is simple, the wood yield is low, the human body to be measured does not need to be contacted during temperature measurement, and the infrared temperature sensor has the advantages of short response time, no interference to the temperature field to be measured, long service life, controllable error at plus or minus 0.2 ℃, convenience in operation and the like.

The infrared temperature sensor 10 can be mainly classified into a contact infrared temperature sensor and a non-contact infrared temperature sensor, and the contact infrared temperature sensor can measure accurate body temperature by contacting with the ear of a human body. The non-contact infrared temperature sensor can remotely realize the measurement of the human body temperature in the air. The probe is only required to be aligned with the skin of the tested human body, and the measurement data can be obtained within only a few seconds.

Further, the infrared temperature sensor 10 is disposed on a temple of the sunglasses, or on a joint of the temple and the frame of the sunglasses, or on a bridge of the sunglasses.

When the infrared temperature sensor 10 is a contact infrared temperature sensor, the infrared temperature sensor 10 may be disposed at a contact portion between a temple of the sunglasses and an ear of a sunglasses wearer; when the infrared temperature sensor 10 is a non-contact infrared temperature sensor, the infrared temperature sensor 10 may be disposed at a joint of a temple of the sunglasses and a frame of the sunglasses, or at a bridge of the sunglasses.

When the infrared temperature sensor 10 detects that the body temperature of the sunglasses wearer is greater than or equal to a preset temperature threshold (for example, 37.5 ℃), the buzzer 20 is triggered to remind the sunglasses wearer of preventing heatstroke.

In this embodiment, a vibrator may be further disposed in the sunglasses, and when the infrared temperature sensor 10 detects that the body temperature of the sunglasses wearer is greater than or equal to the preset temperature threshold, the vibrator is triggered to remind the sunglasses wearer of heatstroke prevention and cooling, so as to avoid heatstroke.

The sunglasses are provided with the infrared temperature sensor and the buzzer, the infrared temperature sensor can be used for detecting the body temperature of a sunglasses wearer, and when the body temperature of the sunglasses wearer is detected to be greater than or equal to a preset temperature threshold value, the buzzer is triggered to remind the sunglasses wearer of preventing heatstroke; this embodiment is through setting up infrared temperature sensor and bee calling organ at sunglasses, and people can be without hand-carrying clinical thermometer or body temperature check out test set, can monitor self body temperature anytime and anywhere to solved among the prior art people when outdoor activity place, be difficult to real time monitoring self body temperature, the technical problem of easy occurrence heatstroke phenomenon.

Further, referring to fig. 2, fig. 2 is a schematic structural diagram of a second embodiment of the sunglasses of the present invention, based on the first embodiment described in fig. 1, the sunglasses in the second embodiment of the sunglasses of the present invention are provided with a display screen 30, and the infrared temperature sensor 10 outputs the detected body temperature to the display screen 30 after detecting the body temperature of the sunglasses wearer.

The display 30 may be disposed outside the temple of the sunglasses.

The Display screen 30 may be an LCD (Liquid Crystal Display) or an LED (Light Emitting Diode) Display, wherein the LCD Display screen has a thin body, occupies a small area, has small radiation, can be arranged on the temple of the sunglasses in an embedded manner, and does not increase the area of the temple of the sunglasses, thereby ensuring the user experience of the sunglasses wearer. The LCD works according to the principle that: inside the display, there are many liquid crystal particles, which are regularly arranged in a certain shape, and the color of each side of them is divided into: red, green, blue. The three primary colors can be restored to any other colors, and when the display receives the display data of a computer, each liquid crystal particle is controlled to rotate to a surface with different colors so as to combine different colors and images. The LED display screen is a display screen for displaying various information such as text, graphics, images, animation, market conditions, video, and video signals by controlling the display mode of the semiconductor light emitting diode.

The sunglasses are also provided with a battery for supplying power to the infrared temperature sensor 10, the buzzer 20, and the display screen 30. And the battery adopts a detachable lithium battery, or can adopt a battery assembly charged in a wired and/or wireless way.

The sunglasses described in this embodiment are provided with a display screen, and through this display screen, the sunglasses wearer can look up the current body temperature of himself at any time and know the current physical condition of himself, so that the heatstroke condition can be avoided.

Further, referring to fig. 3, fig. 3 is a schematic structural diagram of a third embodiment of the sunglasses of the present invention, and based on the first embodiment described in fig. 1 and the second embodiment described in fig. 2, in the third embodiment of the sunglasses of the present invention, the sunglasses are provided with a pulse sensor 40 for detecting a pulse frequency of a sunglasses wearer and outputting the detected pulse frequency to the display screen 30.

In this embodiment, a pulse sensor 40 may be disposed at a contact portion between the temple of the sunglasses and the ear of the sunglasses wearer to detect a pulse frequency of the sunglasses wearer and output the detected pulse frequency to the display 30, so that the sunglasses wearer can view the pulse frequency of the sunglasses wearer at any time.

Wherein, the pulse frequency is the pulse beating times per minute of the sunglasses wearer.

Wherein, the pulse sensor is divided into: infrared pulse sensors, micro-pressure pulse sensors, heart rate pulse sensors, photoelectric pulse sensors, wrist pulse sensors, digital pulse sensors, heart sound pulse sensors, integrated pulse sensors, and the like. The preferable little pressure pulse sensor of this embodiment, little pressure pulse sensor is a little pressure sensor, and this sensor hugs closely behind the measuring point skin, can convert the pressure process that the pulse is beated into signal output, can detect sunglasses wearer's pulse frequency through analyzing this signal.

The sunglasses described in this embodiment are provided with a pulse sensor, and through this pulse sensor, the sunglasses wearer can look up the current pulse frequency of himself at any time and know the current physical condition of himself, thereby avoiding the occurrence of heatstroke.

Further, referring to fig. 4, fig. 4 is a schematic structural diagram of a fourth embodiment of sunglasses according to the present invention, based on the first embodiment described in fig. 1, the second embodiment described in fig. 2, and the third embodiment described in fig. 3, in the fourth embodiment of sunglasses according to the present invention, the sunglasses are provided with a memory 50 and a wireless communication module 60, the memory 50 is used for recording body temperature change data and/or pulse frequency change data of a sunglasses wearer within a set time period, and the wireless communication module 60 is used for sending the body temperature change data and/or pulse frequency change data recorded by the memory to a client corresponding to the sunglasses wearer.

The memory 50 and the wireless communication module 60 may be disposed in the temple of the sunglasses, and the sunglasses may transmit the body temperature change data and/or the pulse frequency change data recorded in the memory 50 to the client corresponding to the sunglasses wearer through the wireless communication module 60.

The wireless communication module 60 may be a bluetooth communication module.

The client corresponding to the sunglasses wearer comprises a mobile terminal, a tablet computer, a notebook computer, intelligent wearable equipment and the like which are held by the sunglasses wearer.

The wireless communication module 60 may also be a remote communication module, and a "one-key alarm device" and a positioning device are provided in the sunglasses, so that when the "one-key alarm device" in the sunglasses is triggered, the current body temperature and pulse frequency of the sunglasses wearer and the current positioning information of the sunglasses wearer are automatically sent to the medical alarm system.

The sunglasses are provided with the memory and the wireless communication module, the memory can record body temperature change data and/or pulse frequency change data of a sunglasses wearer in a set time period, and the wireless communication module can send the body temperature change data and/or the pulse frequency change data recorded by the memory to the client corresponding to the sunglasses wearer, so that the sunglasses wearer can analyze the body temperature change condition and/or the pulse frequency change condition of the sunglasses wearer in any time period through the corresponding client, and possible body diseases are prevented.

The invention also provides a body temperature monitoring method based on the sunglasses, in the method, the sunglasses are provided with the infrared temperature sensor and the buzzer, wherein the body temperature of the sunglasses wearer is detected by the infrared temperature sensor, and when the body temperature of the sunglasses wearer is detected to be greater than or equal to a preset temperature threshold value, the buzzer is triggered to remind the sunglasses wearer of preventing heatstroke and avoiding heatstroke.

Referring to fig. 5, fig. 5 is a schematic flow chart of a first embodiment of a body temperature monitoring method based on sunglasses according to the present invention, in this embodiment, the sunglasses are provided with an infrared temperature sensor and a buzzer, and the body temperature monitoring method based on sunglasses includes:

step S10, detecting the body temperature of the sunglasses wearer through the infrared temperature sensor;

and step S20, when the body temperature of the sunglasses wearer detected by the infrared temperature sensor is greater than or equal to a preset temperature threshold value, triggering the buzzer.

In nature, when the temperature of an object is higher than absolute zero, electromagnetic waves are continuously radiated to the periphery due to the internal thermal motion of the object, and infrared rays with the wave band of 0.75-100 mu m are contained in the electromagnetic waves. Infrared is a light that is invisible to the human eye, but in fact, like any other light, it is an objectively present substance.

The physical nature of infrared radiation is thermal radiation, and the higher the temperature of an object, the more infrared rays are radiated, and the stronger the energy of the infrared radiation is. The thermal effects of the various monochromatic lights of the solar spectrum increase progressively from violet to red and the greatest thermal effects occur in the frequency range of infrared radiation, which is therefore also referred to as thermal radiation or heat rays.

The infrared temperature sensor can detect the body temperature of a sunglasses wearer by utilizing the heat radiation effect.

In addition, the infrared temperature sensor is used as a detection element, the temperature measurement process is simple, the manufacturing process is simple, the wood yield is low, the human body to be measured does not need to be contacted during temperature measurement, and the infrared temperature sensor has the advantages of short response time, no interference to a temperature field to be measured, long service life, controllable error of plus or minus 0.2 ℃, convenience in operation and the like.

The infrared temperature sensor can be mainly divided into a contact infrared temperature sensor and a non-contact infrared temperature sensor, and the contact infrared temperature sensor can be contacted with the ear of a human body to measure accurate body temperature. The non-contact infrared temperature sensor can remotely realize the measurement of the human body temperature in the air. The probe is only required to be aligned with the skin of the tested human body, and the measurement data can be obtained within only a few seconds.

Furthermore, the infrared temperature sensor is arranged on a temple of the sunglasses, or on a joint of the temple and the frame of the sunglasses, or on a bridge of the sunglasses.

When the infrared temperature sensor is a contact infrared temperature sensor, the infrared temperature sensor can be arranged at the contact part of the temple of the sunglasses and the ear of the sunglasses wearer; when the infrared temperature sensor adopts a non-contact infrared temperature sensor, the infrared temperature sensor can be arranged at the joint of the sunglasses legs and the sunglasses frame or at the bridge of the sunglasses nose.

When the infrared temperature sensor detects that the body temperature of the sunglasses wearer is greater than or equal to a preset temperature threshold (such as 37.5 ℃), the buzzer is triggered to remind the sunglasses wearer of preventing heatstroke and cooling so as to avoid heatstroke.

In this embodiment, a vibrator may be further disposed in the sunglasses, and when the infrared temperature sensor detects that the body temperature of the sunglasses wearer is greater than or equal to the preset temperature threshold, the vibrator is triggered to remind the sunglasses wearer of heatstroke prevention and cooling, so as to avoid heatstroke.

According to the body temperature monitoring method based on the sunglasses, the infrared temperature sensor and the buzzer are arranged on the sunglasses, the infrared temperature sensor can be used for detecting the body temperature of a sunglasses wearer, and when the body temperature of the sunglasses wearer is detected to be larger than or equal to a preset temperature threshold value, the buzzer is triggered to remind the sunglasses wearer of preventing heatstroke so as to avoid heatstroke; this embodiment is through setting up infrared temperature sensor and bee calling organ at sunglasses, and people can be without hand-carrying clinical thermometer or body temperature check out test set, can monitor self body temperature anytime and anywhere to solved among the prior art people when outdoor activity place, be difficult to real time monitoring self body temperature, the technical problem of easy occurrence heatstroke phenomenon.

Further, based on the first embodiment described in fig. 5, in a second embodiment of the method for monitoring body temperature based on sunglasses according to the present invention, the sunglasses are provided with a display screen, and after the step of detecting the body temperature of the sunglasses wearer by the infrared temperature sensor in step S10, the method further includes:

and outputting the body temperature detected by the infrared temperature sensor to the display screen.

Wherein, the display screen can be arranged at the outer side of the sunglasses legs.

Specifically, the above-mentioned Display screen can adopt LCD (Liquid Crystal Display), or adopt LED (Light Emitting Diode) Display, wherein, the LCD Display screen fuselage is thin, and occupation of land is little, and the radiation is little, and the inlaid mode of accessible sets up in the sunglasses mirror leg to can not lead to sunglasses mirror leg area to increase, thereby guaranteed sunglasses wearer's user experience. The LCD works according to the principle that: inside the display, there are many liquid crystal particles, which are regularly arranged in a certain shape, and the color of each side of them is divided into: red, green, blue. The three primary colors can be restored to any other colors, and when the display receives the display data of a computer, each liquid crystal particle is controlled to rotate to a surface with different colors so as to combine different colors and images. The LED display screen is a display screen for displaying various information such as text, graphics, images, animation, market conditions, video, and video signals by controlling the display mode of the semiconductor light emitting diode.

In addition, the sunglasses are also provided with a battery which is used for supplying power to the infrared temperature sensor, the buzzer and the display screen. And the battery adopts a detachable lithium battery, or can adopt a battery assembly charged in a wired and/or wireless way.

According to the body temperature monitoring method based on the sunglasses, the display screen is arranged in the sunglasses, and a sunglasses wearer can check the current body temperature of the sunglasses at any time and know the current physical condition of the sunglasses, so that the heatstroke condition is avoided.

Further, based on the first embodiment described in fig. 5 and the second embodiment of the sunglasses-based body temperature monitoring method according to the present invention, in a third embodiment of the sunglasses-based body temperature monitoring method according to the present invention, the sunglasses are provided with a pulse sensor, and the sunglasses-based body temperature monitoring method further includes:

the current pulse frequency of the sunglasses wearer is detected through the pulse sensor, and the pulse frequency detected by the vibration sensor is output to the display screen.

In this embodiment, a pulse sensor may be disposed at a contact portion between the temple of the sunglasses and the ear of the sunglasses wearer to detect a pulse frequency of the sunglasses wearer and output the detected pulse frequency to the display screen, so that the sunglasses wearer can view the pulse frequency of the sunglasses wearer at any time.

Wherein, the pulse frequency is the pulse beating times per minute of the sunglasses wearer.

Wherein, the pulse sensor is divided into: infrared pulse sensors, micro-pressure pulse sensors, heart rate pulse sensors, photoelectric pulse sensors, wrist pulse sensors, digital pulse sensors, heart sound pulse sensors, integrated pulse sensors, and the like. The preferable little pressure pulse sensor of this embodiment, little pressure pulse sensor is a little pressure sensor, and this sensor hugs closely behind the measuring point skin, can convert the pressure process that the pulse is beated into signal output, can detect sunglasses wearer's pulse frequency through analyzing this signal.

According to the body temperature monitoring method based on the sunglasses, the pulse sensor is arranged in the sunglasses, and a sunglasses wearer can check the current pulse frequency of the sunglasses at any time and know the current physical condition of the sunglasses at any time through the pulse sensor, so that the heatstroke condition is avoided.

Further, based on the first embodiment described in fig. 5, the second embodiment and the third embodiment of the body temperature monitoring method based on sunglasses according to the present invention, in a fourth embodiment of the body temperature monitoring method based on sunglasses according to the present invention, the sunglasses are provided with a memory and a wireless communication module, and the body temperature monitoring method based on sunglasses further includes:

the body temperature change data and/or the pulse frequency change data of the sunglasses wearer in a set time period are recorded through the memory, and the body temperature change data and/or the pulse frequency change data recorded by the memory are sent to the client corresponding to the sunglasses wearer through the wireless communication module.

The memory and the wireless communication module can be arranged in the sunglasses legs, and the sunglasses can transmit the body temperature change data and/or the pulse frequency change data recorded in the memory to the client corresponding to the sunglasses wearer through the wireless communication module.

Wherein, the wireless communication module can adopt a Bluetooth communication module.

The client corresponding to the sunglasses wearer comprises a mobile terminal, a tablet computer, a notebook computer, intelligent wearable equipment and the like which are held by the sunglasses wearer.

The wireless communication module can also adopt a remote communication module, a one-key alarm device and a positioning device are arranged in the sunglasses, and when the fact that the one-key alarm device in the sunglasses is triggered is detected, the current body temperature and pulse frequency of a sunglasses wearer and the current positioning information of the sunglasses wearer are automatically sent to a medical alarm system.

According to the body temperature monitoring method based on the sunglasses, the memory and the wireless communication module are arranged in the sunglasses, the memory can record body temperature change data and/or pulse frequency change data of a sunglasses wearer in a set time period, and the wireless communication module can send the body temperature change data and/or the pulse frequency change data recorded by the memory to the client corresponding to the sunglasses wearer, so that the sunglasses wearer can analyze body temperature change conditions and/or pulse frequency change conditions of the sunglasses wearer in any time period through the corresponding client, and possible body diseases can be prevented.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on this understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a terminal device to execute the methods according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. The sunglasses are characterized by being provided with an infrared temperature sensor and a buzzer, wherein the infrared temperature sensor is used for detecting the body temperature of a sunglasses wearer, and when the infrared temperature sensor detects that the body temperature of the sunglasses wearer is greater than or equal to a preset temperature threshold value, the buzzer is triggered;

the sunglasses are provided with a display screen, and the infrared temperature sensor outputs the detected body temperature to the display screen after detecting the body temperature of a sunglasses wearer;

the sunglasses are provided with a memory and a wireless communication module, the memory is used for recording body temperature change data and/or pulse frequency change data of a sunglasses wearer in a set time period, and the wireless communication module is used for sending the body temperature change data and/or the pulse frequency change data recorded by the memory to a client corresponding to the sunglasses wearer;

the sunglasses are provided with a one-key alarm device and a positioning device, and the wireless communication module is further used for sending the current body temperature and pulse frequency of the sunglasses wearer and the current positioning information of the sunglasses wearer to the medical alarm system after the one-key alarm device in the sunglasses is triggered.

2. The sunglasses according to claim 1, wherein said infrared temperature sensor is provided at a temple of said sunglasses, or at a junction of said temple and a frame, or at a bridge of said sunglasses.

3. Sunglasses according to any of claims 1-2, characterized in that the sunglasses are provided with a pulse sensor for detecting the pulse frequency of the sunglasses wearer and outputting the detected pulse frequency to the display screen.

4. The body temperature monitoring method based on the sunglasses is characterized in that the sunglasses are provided with an infrared temperature sensor, a buzzer and a display screen, and the body temperature monitoring method based on the sunglasses comprises the following steps:

the body temperature of a sunglasses wearer is detected through the infrared temperature sensor, and the body temperature detected by the infrared temperature sensor is output to the display screen;

when the body temperature of the sunglasses wearer detected by the infrared temperature sensor is greater than or equal to a preset temperature threshold value, triggering the buzzer;

the sunglasses are provided with a memory, a wireless communication module, a one-key alarm device and a positioning device, and the body temperature monitoring method based on the sunglasses further comprises the following steps:

the body temperature change data and/or the pulse frequency change data of the sunglasses wearer in a set time period are recorded through the memory, and the body temperature change data and/or the pulse frequency change data recorded by the memory are sent to the client corresponding to the sunglasses wearer through the wireless communication module;

when the fact that the one-key alarm device in the sunglasses is triggered is detected, the current body temperature and the pulse frequency of the sunglasses wearer and the current positioning information of the sunglasses wearer are sent to the medical alarm system through the wireless communication module.

5. The sunglass-based body temperature monitoring method of claim 4, wherein the infrared temperature sensor is disposed on a temple of the sunglasses, or on a joint of the temple and a frame of the sunglasses, or on a bridge of the sunglasses.

6. A sunglass-based body temperature monitoring method according to any of claims 4 to 5, in which the sunglasses are provided with a pulse sensor, the sunglass-based body temperature monitoring method further comprising:

through the pulse sensor, detect the current pulse frequency of sunglasses wearer to the pulse frequency that detects with the pulse sensor is exported to the display screen.

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