WO2021215623A1

WO2021215623A1 - Smart earphone cover capable of measuring body temperature, and method for measuring body temperature using same

Info

Publication number: WO2021215623A1
Application number: PCT/KR2021/000460
Authority: WO
Inventors: 최재현; 김중원; 문유성
Original assignee: 유니텔전자(주)
Priority date: 2020-04-21
Filing date: 2021-01-13
Publication date: 2021-10-28
Also published as: KR102286970B1

Abstract

The present invention is characterized by comprising: an earphone cover which is attachable to and detachable from an earphone head connected to an earphone lead wire, and to which is attached a temperature sensor (referring to a body temperature sensor) capable of measuring the body temperature of an earphone user; a body temperature measurement control system which is provided inside the earphone cover and electrically connected to the temperature sensor to measure body temperature; a display unit which causes a fluorescent part of the earphone cover to change color by means of the light from a light emitting diode that turns on according to a control operation of the body temperature measurement control system, thus allowing the earphone user to directly check the user's own body temperature measurement result; and a mobile terminal to which the body temperature measurement result from the body temperature measurement control system is transmitted through a wireless communication unit of the body temperature measurement control system to allow the user or a third party to check the result from a remote location.

Description

Smart earphone cover capable of measuring body temperature and method of measuring body temperature using the same

The present invention relates to a smart earphone cover capable of measuring body temperature and a method for measuring body temperature using the same, and more particularly, by measuring the body temperature of an earphone user in real time while wearing an earphone, virus infection due to fever (eg, Corona 19 virus) Infection), it is possible to measure body temperature quickly and accurately by checking whether there are any symptoms or not, or by allowing people of all ages to check directly or remotely without limiting themselves to remote medical examinations for men and women of all ages.

In general, it is common for the person or a medical practitioner to measure body temperature through a thermometer to check health or not. These thermometers have an indirect measuring thermometer to measure the body temperature near the forehead or ear, or put it in the armpit or mouth to measure the body temperature. Direct measurement thermometers have been widely used.

When it is necessary to check the health of such a thermometer, it is necessary to measure and check the body temperature through a thermometer provided at a certain place. Difficulty in measuring body temperature using a general thermometer is pointed out, especially when face-to-face contact is not possible due to the spread of the virus.

Accordingly, the present inventor can measure the user's body temperature more easily in real time if the user's body temperature can be measured on earphones used regardless of gender This led to the creation of a smart earphone cover that can measure body temperature.

Considering this point, looking at the prior art Patent No. 10-1167912, when the temperature sensor installed in the earphone head detects that the body temperature of the earphone wearer is 35℃ or higher, earphones that normally operate the speaker unit are introduced, but the shape It is difficult to change the structure of the existing earphone head because it is necessary to install a energizing structure by memory alloy, so it is impossible to measure body temperature with an earphone used in the past. do.

The present invention makes it possible to measure the body temperature of the earphone wearer in real time by using a removable earphone cover on the existing earphone head.

The present invention is a technical problem to enable the person to directly check or quickly check from a remote location when the body temperature corresponding to health abnormality or lower is measured as a result of body temperature measurement by a temperature sensor attached to the earphone cover mounted on the earphone head take it as

The present invention makes it a technical task to re-measure the body temperature by the temperature sensor out of the measurement range, or to make accurate body temperature measurement by comparing the measured temperature difference in real time.

The present invention makes it a technical task to make a free power supply by applying a small power supply means suitable for an earphone cover.

Smart earphone cover according to the present invention

an earphone cover 20 attached to and detachable from the earphone head 10 connected to the earphone lead wire 11 and provided with a temperature sensor 31 capable of measuring the body temperature of the earphone user;

a body temperature measurement control system 30 to which a temperature sensor 31 is electrically connected to the inside of the earphone cover 20 to measure body temperature;

The fluorescent part 20A of the earphone cover 20 is discolored by the light of the lighting part 32 composed of a light emitting diode which is turned on according to the control operation of the body temperature measurement control system 30, so that the earphone user can directly control his or her body temperature. a fluorescent display unit 20-1 for confirming the measurement result;

a mobile terminal 40 that transmits the body temperature measurement result of the body temperature measurement control system 30 through the wireless communication unit 33 of the body temperature measurement control system 30 and confirms it by the person or a third party;

The body temperature measurement data transmitted to the mobile terminal 40 is transmitted to the management server 60 through the communication network 50 so that the body temperature measurement result can be checked at a remote location, the lighting unit 32, The control unit 33, the timer 35, and the wireless communication unit 37 are mounted on a circuit board 30A mounted inside the earphone cover 200, and the circuit board 30A is powered through a power supply means 36. It is characterized in that the supply is configured to be made.

In the present invention, the temperature sensor 31 is a temperature sensor 31 at the upper end of the inner hollow portion of the heat collecting cover member 31A capable of collecting heat installed by inserting it into the fitting hole 20 ′ drilled at one end of the earphone cover 20 . The insulation cover 31B is sandwiched between the outer left and right perimeters of the temperature sensor 31 and the inner left and right periphery of the heat collecting cover member 31A, and the heat collecting cover member 31A Insert the circular circular knit 31A-1 around the lower periphery of the earphone cover 20 into the lower perimeter fitting recess of the fitting hole 20' to be fixedly installed, and the upper end of the temperature sensor 31 and the heat collecting cover member ( 31A), the heat collecting part 31A-2 of the heat collecting cover member 31A may be elastically interviewed on the inner surface of the user's ear so that the body temperature is measured.

In the present invention, the body temperature measurement control system 30 includes a control unit 33 composed of a microprocessor unit for controlling and processing the body temperature sensed by the temperature sensor 31; a timer 35 providing a temperature measurement time; a lighting unit 32 composed of a light emitting diode that is turned on when the body temperature measured by the temperature sensor 31 is above normal; and a wireless communication unit 37 that transmits the control signal controlled and processed by the control unit 33 to the mobile terminal 40, and transmits the body temperature measurement data transmitted to the mobile terminal 40 to the communication network 50 It may be configured to transmit to the management server 60 through

In the present invention, the control unit 34 may further include a lookup table 34 that compares the resistance values sensed by the temperature sensor 31 and performs control processing by the control unit 34 .

In the present invention, the timer 35 constituting the body temperature measurement control system 30 measures body temperature in real time, but is set to measure the primary and secondary body temperatures with a time difference, and the primary and secondary measurements If there is a difference of 2℃ ~ 5℃ or more, the body temperature is measured again. also good

In the present invention, the average resistance value corresponding to the temperature of the look-up table 34 in a data format that is generated in advance and can be corrected in response to the resistance value of the temperature sensor 31 for measuring body temperature and the average resistance value measured by the temperature sensor 31 When the temperature measured by comparing the actual temperature deviates from the resistance value corresponding to the temperature of the lookup table 34 , the body temperature may be re-measured by the temperature sensor 31 .

In the present invention, the power supply means 36 is a small piezoelectric element 36-1 or a wireless charging module that converts the vibration generated from the earphone speaker unit 12 installed inside the earphone head 10 into an electrical signal. (36-3) and; and a lithium ion polymer battery 36-2 for charging an electrical signal from the small piezoelectric element 36-1 or the wireless charging module 36-3; but, in the center of the circuit board 30A, an earphone speaker Sound generated from the earphone speaker unit 12 in the center of the small piezoelectric element 36-1 or the wireless charging module 36-3 by drilling and forming the sound discharge hole 30A-1 generated from the unit 12 The discharge hole 36-1A may be drilled and formed to form.

In the present invention, a color display unit for displaying a color such as red, which is configured by inserting a thin thin plate LED module (L1) or EPD (E1) into a fitting hole (20'") formed by drilling on one side of the earphone cover 20 (LE) or a numerical display unit (LE) such as Celsius temperature or Fahrenheit temperature may be provided.

The body temperature measurement method according to the present invention is a body temperature measurement method using the body temperature measurement control system 30,

a first step (ST1) of measuring body temperature by the initialized temperature sensor 31 while the earphone cover 20 mounted on the earphone head 10 is inserted into the earphone user's ear; a second step (ST2) of operating the timer 35; The first body temperature measurement temperature according to the program of the controller 33 with a real-time and/or time difference (eg, within 1 to 5 minutes or more after the first body temperature measurement) by the timer operation of the second step ST and a third step (ST3) of measuring the secondary body temperature measurement temperature; A fourth step of comparing the primary body temperature measurement temperature and the secondary body temperature measurement temperature measured in the third step (ST3) and comparing whether the temperature difference is 2°C to 5°C or more by the program of the control unit 33 ( ST4) and; a fifth step (ST5) of re-measuring the body temperature measurement temperature by the controller 33 if the temperature difference is 2°C to 5°C or more in the fourth step (ST4); a sixth step (ST6) of calculating an average value of the measured temperature by the program of the control unit 33 if the temperature difference is 2°C to 5°C or less in the fourth step (ST4); If the average value of the measured temperature by the sixth step (ST6) is above the normal temperature, the fluorescent display unit 20-1 or the color display unit LE for displaying the color lighting, or the numerical display unit LE such as Celsius temperature or Fahrenheit temperature, etc. a seventh step (ST7) of operating to check whether the measured body temperature is normal; an eighth step (ST8) of transmitting the average value data of the measured temperature to the mobile terminal 40 through the wireless communication unit 37 by the controller 33 to confirm the measured temperature in the mobile terminal 40; and transmits the measured temperature data transmitted to the mobile terminal 40 in the eighth step (ST8) to the remote management server 60 through the communication network 50 to check the body temperature of the earphone wearer at a remote location in real time. A ninth step (ST9); characterized in that it further comprises.

In the present invention, in the first stage ST1 system for measuring the body temperature by the temperature sensor 31, the temperature measured by the temperature sensor 31 is compared with the lookup table 34 so that the measured temperature is 33° C. to 42 Including step 1-1 (ST1-1) of determining whether the temperature is between ℃ or not, if the measured temperature is in the range of 33 ℃ ~ 42 ℃, the timer 35 is operated to measure the body temperature, and the measured temperature is 33 ℃ It is characterized in that it is re-measured when it is out of the range of ℃ ~ 42℃.

The present invention enables the body temperature measurement of the earphone wearer by using a removable earphone cover on the existing earphone head. It is possible, and by sterilizing the earphone cover removed from the earphone head, it is possible to measure body temperature by replacing each subject to be measured. Of course, since the temperature sensor installed on one end of the earphone cover made of a soft silicone material is closely attached to the inner surface of the user's ear, it is possible to measure body temperature, so it has the effect of accurately measuring body temperature.

According to the present invention, when the body temperature corresponding to health abnormality or lower is measured as a result of body temperature measurement by a temperature sensor attached to the earphone cover mounted on the earphone head, a fluorescent part constituting the display part of the earphone cover or an LED or electric By displaying it through the Yeongdong Display (hereinafter referred to as EPD), the person or a third party can directly check whether the measured body temperature is normal, or through a terminal connected through the wireless communication unit, the user can quickly check whether the body temperature is normal at a remote location. As well as convenient use, if a person infected with the virus is in self-quarantine, it is possible to quickly check the temperature change of the self-isolated person at a remote location in real time, so it can have the effect of contributing to the prevention of the spread of the virus.

The present invention improves the reliability of body temperature measurement by enabling high-precision and accurate body temperature measurement by allowing the temperature sensor to measure body temperature again when it is out of the measurement range or by comparing the measured temperature difference in real time. has the effect of making

The present invention is a compact device that drives a body temperature measurement control system by charging a lithium-ion polymer battery through a small piezoelectric element or a wireless charging module that converts vibrations generated from an earphone speaker unit installed inside the earphone cover into an electrical signal. By applying a power supply means, it is possible to provide a small earphone cover capable of measuring body temperature.

1 is a cross-sectional configuration diagram of a smart earphone cover according to an embodiment of the present invention.

2 is a cross-sectional view of a state in which the smart earphone cover of an embodiment according to the present invention is detached from the existing earphone head.

3 is a cross-sectional configuration diagram of a smart earphone cover according to another embodiment according to the present invention.

4 is a circuit block diagram of a body temperature measurement control system mounted inside a smart earphone cover according to an embodiment of the present invention.

5 is a circuit block diagram of a body temperature measurement control system mounted inside a smart earphone cover according to another embodiment of the present invention.

6 is a flowchart illustrating a body temperature measurement method using a body temperature measurement control system of a smart earphone cover according to an embodiment of the present invention.

7 is an exemplary view of a lookup table for accurately measuring the temperature sensor of the smart earphone cover of the embodiment according to the present invention.

1 is a cross-sectional configuration view of a smart earphone cover of an embodiment according to the present invention, and FIG. 2 is a cross-sectional view of a smart earphone cover of an embodiment according to the present invention detached from the existing earphone head, the earphone lead wire 11 a silicone earphone cover 20 attached to and detachable from the earphone head 10 connected to a temperature sensor 31 capable of measuring the body temperature of the earphone user; a body temperature measurement control system 30 to which a temperature sensor 31 is electrically connected to the inside of the earphone cover 20 to measure body temperature; The fluorescent part 20A of the earphone cover 20 is discolored by the light of the lighting part 32 composed of a light emitting diode which is turned on according to the control operation of the body temperature measurement control system 30, so that the earphone user can directly control his or her body temperature. a fluorescent display unit 20-1 for confirming the measurement result; and a mobile terminal 40 that transmits the body temperature measurement result of the body temperature measurement control system 30 through the wireless communication unit 33 of the body temperature measurement control system 30 and confirms it by the person or a third party. , The temperature sensor 31 is inserted into the fitting hole 20' drilled in one end of the earphone cover 20 made of silicone and installed at the upper end of the inner hollow portion of the heat collecting cover member 31A made of a thin stainless material that can collect heat. The temperature sensor 31 is elastically inserted and installed, and the insulating cover 31B is sandwiched between the outer left and right perimeters of the temperature sensor 31 and the inner left and right perimeters of the heat collecting cover member 31A. A circular circular knit (31A-1) around the lower periphery of the heat collecting cover member (31A) is fitted into the lower perimeter fitting recess of the fitting hole (20') of the earphone cover (20) to be fixedly installed, and the temperature sensor (31) By making the upper end and the inner end of the upper end of the heat collecting cover member 31A face-to-face, the heat collecting section 31A-2 of the heat collecting cover member 31A is elastically interviewed on the inner surface of the user's ear to measure body temperature, and the insulation The cover 31B is formed of a polyimide material, and is fitted to the circumferential surface of the fitting hole 20' drilled in one end of the earphone cover 20 while wrapping the outer left, right, and lower circumferences of the temperature sensor 31 to be fixedly installed. can

The temperature sensor 31 installed in this way blocks changes in the ambient temperature around the outer left, right, and lower circumferences of the temperature sensor 31 by the insulating cover 31B, and the heat collecting part 31A-2 of the heat collecting cover member 31A. ) to measure body temperature without error, and the temperature sensor 31 can be protected by the heat collecting cover member 31A, thereby preventing damage and leakage of the temperature sensor 31, Since the earphone cover 20 is made of a silicone material, when the heat collecting part 31A-2 of the heat collecting cover member 31A is interviewed on the inner side of the user's ear, it is elastically pressed and a strong surface contact is generated, so that the contact body temperature is more accurately The lead wire connected to the temperature sensor 31 is electrically connected to the control unit 33 constituting the body temperature measurement control system 30 to be described later through the lower portion of the insulating cover 31B.

As shown in FIG. 4, the body temperature measurement control system 30 includes a control unit 33 composed of a microprocessor unit for controlling and processing the body temperature sensed by the temperature sensor 31; a lookup table 34 that compares the resistance values sensed by the temperature sensor 31 and controls and processes by the controller 34 and a timer 35 that provides a time for body temperature measurement; When the body temperature measured by the temperature sensor 31 is normal (eg, 37.5° C. or less) or higher, the lighting unit 32 composed of a light emitting diode that is turned on and a control signal controlled by the control unit 33 are transmitted to the mobile terminal 40 It is preferable to include; and a wireless communication unit 37 composed of Bluetooth or Zigbee to transmit to, and the control unit 33 is configured to supply power through a power supply means 36, and the power supply means (36) is a small piezoelectric element (36-1) for converting the vibration generated from the earphone speaker unit 12 installed inside the earphone head 10 into an electrical signal; and a lithium ion polymer battery 36-2 that charges an electrical signal from the small piezoelectric element 36-1, and receives the current charged in the lithium ion polymer battery 36-2 The circuit board 30A is equipped with a lighting unit 32 composed of a light emitting diode, a control unit 33, a timer 35, and a wireless communication unit 37, and the earphone speaker unit 12 is located in the center of the circuit board 30A. The earphone speaker is formed by drilling a sound exhaust hole 30A-1 generated from the The sound generated from the unit 12 can be freely discharged through these sound discharge holes 30A-1 and 36-1A and the sound discharge hole 20" of the earphone cover 20.

In addition, the circuit board 30A, the small piezoelectric element 36-1, and the lithium ion polymer battery 36-2 are integrated annular storage recesses S1, S2, and S3 formed inside the earphone cover 20. ), and the fluorescent part 20A of the earphone cover 20 represents the earphone cover itself molded by mixing a fluorescent material with a silicone material, and the body temperature measured by the temperature sensor 31 is When the temperature is higher than normal (eg, 37.5° C. or lower), the light of the lighting unit 32 composed of a light emitting diode that is turned on illuminates the fluorescent unit 20A so that the color of the fluorescent unit 20A is discolored to red, etc. After the earphone cover 20 is inserted, the earphone head 10 is detached so that the user can directly check his or her body temperature with the naked eye, or the measured body temperature is transferred to the mobile terminal 40 through the wireless communication unit 37 ), it is possible to check whether the measured body temperature is normal through the screen of the mobile terminal 40, and the measured body temperature data transmitted to the mobile terminal 40 is transmitted through the communication network 50 such as the Internet. Alternatively, it can be transmitted to the management server 60 such as a hospital or public health center so that it can be checked at a remote location, and the temperature measurement time is the operation control time of the timer 35 (eg, every 8 hours, every 12 hours, or every 24 hours). temperature check can be performed in real time according to the check) By operating the mobile terminal 40 in the form of a remote control using the Even if the earphone is worn without operation), it is possible to quickly check the temperature change of the self-isolated person at a remote location in real time by checking the body temperature of the self-isolated person who is at risk of infection such as the corona virus. It may contribute to prevention.

13 in the drawing is a circuit board for driving earphones installed inside the earphone head.

On the other hand, the timer 35 constituting the body temperature measurement control system 30 of the present invention can measure the primary and secondary body temperature with a time difference (eg, within 1 to 5 minutes or more after the first body temperature measurement). If the difference between the primary and secondary temperature is more than 2°C to 5°C, the body temperature is re-measured. By setting the average value as the actual measured body temperature, more accurate and reliable body temperature measurement can be made. When the measured temperature is out of the resistance value corresponding to the temperature of the exemplary lookup table 34 of FIG. 7 by comparing the average resistance value corresponding to the temperature of -1) with the actual temperature measured by the temperature sensor 31, the temperature sensor By re-measuring the body temperature by 31, accurate body temperature measurement can be made regardless of gender, and if described by way of example, the resistance stored in the look-up table 34 as in the example of the look-up table shown in FIG. 7 . When a value other than the value of 33℃ ~ 42℃ is measured, the temperature is re-measured while repeating the calibration process to restore normal body temperature. It can be applied to the body temperature measurement between 36 ° C and 38 ° C, which is the body temperature to check the presence, and the lookup table 34 of FIG. 7 exemplified above is exemplary data generated by subdividing the measured temperature and resistance value, If the measured resistance value is other than the look-up table 34 according to the environmental condition (eg, young and old while listening to music), it can be initialized and re-measured.

3 is a cross-sectional configuration view of a smart earphone cover according to another embodiment according to the present invention, and the body temperature measurement control is performed by charging the lithium ion polymer battery 36-2 through the wireless charging module 36-3. It can be configured by applying the power supply means 36 to drive the system 30, and the wireless charging module 36-3 is composed of a current receiving unit having a built-in receiving coil, and when performing wireless charging A wireless transmission coil not shown may correspond to a built-in current transmission unit to enable wireless charging, and may be formed by drilling a sound discharge hole 36-3A in the center of the wireless charging module 36-3, 3 and 5, a color lighting display such as red, which is configured by inserting a thin thin-plate LED module (L1) or EPD (E1) into a fitting hole (20 '") formed by drilling on one side of the earphone cover 20 as shown in FIGS. It can be provided by installing a color display unit or a numeric display unit (LE) such as Celsius temperature or Fahrenheit temperature for (W), but inserting the outer peripheral surface of the circuit board (P) into the fitting guide groove (20'"-1) formed inside the fitting hole 20'" of the earphone cover 20, Fixing the circuit board (P) by fitting the fixing protrusion (20'"-2) protruding into the fitting guide groove (20'"-1) into the fixing hole formed by drilling the outer peripheral surface of the circuit board (P). Thus, it is possible to prevent separation of the thin and thin LED module (L1) or EPD (E1) during use.

6 is a flowchart for explaining a body temperature measurement method according to the present invention. Body temperature by the initialized temperature sensor 31 in a state in which the earphone cover 20 mounted on the earphone head 10 is inserted into the earphone user's ear. a first step (ST1) of measuring a second step (ST2) of operating the timer 35; In the second step (ST), in real time (eg, every 8 hours, etc.) and/or time difference (eg, within 1 to 5 minutes or more after the first body temperature measurement) by the timer operation of the control unit 33 a third step (ST3) of measuring the first body temperature measurement temperature and the second body temperature measurement temperature by a program; A fourth step of comparing the primary body temperature measurement temperature and the secondary body temperature measurement temperature measured in the third step (ST3) and comparing whether the temperature difference is 2°C to 5°C or more by the program of the control unit 33 ( ST4) and; a fifth step (ST5) of re-measuring the body temperature measurement temperature by the controller 33 if the temperature difference is 2°C to 5°C or more in the fourth step (ST4); a sixth step (ST6) of calculating an average value of the measured temperature by the program of the control unit 33 if the temperature difference is 2°C to 5°C or less in the fourth step (ST4); If the average value of the measured temperature by the sixth step (ST6) is above the normal temperature, the fluorescent display unit 20-1 or the color display unit LE for displaying the color lighting, or the numerical display unit LE such as Celsius temperature or Fahrenheit temperature, etc. a seventh step (ST7) of operating to check whether the measured body temperature is normal; an eighth step (ST8) of transmitting the average value data of the measured temperature to the mobile terminal 40 through the wireless communication unit 37 by the controller 33 to confirm the measured temperature in the mobile terminal 40; and transmits the measured temperature data transmitted to the mobile terminal 40 in the eighth step (ST8) to the remote management server 60 through the communication network 50 to check the body temperature of the earphone wearer at a remote location in real time. The ninth step (ST9) is to be included.

In the first stage ST1 system for measuring body temperature by the temperature sensor 31, the temperature measured by the temperature sensor 31 is compared with the lookup table 34 to determine whether the measured temperature is between 33°C and 42°C Step 1-1 (ST1-1) of determining If it is out of range, it can be re-measured so that accurate body temperature measurement can be made.

Although the embodiment has been described above, it is only an example and does not limit the present invention, and those of ordinary skill in the art to which the present invention pertains are not exemplified above in a range that does not depart from the essential characteristics of the present embodiment. It can be seen that various variations and applications are possible. In addition, differences related to such modifications and applications should be construed as being included in the scope of the present invention defined in the appended claims.

Claims

an earphone cover 20 attached to and detachable from the earphone head 10 connected to the earphone lead wire 11 and provided with a temperature sensor 31 capable of measuring the body temperature of the earphone user;

a body temperature measurement control system 30 to which a temperature sensor 31 is electrically connected to the inside of the earphone cover 20 to measure body temperature;

The fluorescent part 20A of the earphone cover 20 is discolored by the light of the lighting part 32 composed of a light emitting diode which is turned on according to the control operation of the body temperature measurement control system 30, so that the earphone user can directly control his or her body temperature. a fluorescent display unit 20-1 for confirming the measurement result;

a mobile terminal 40 that transmits the body temperature measurement result of the body temperature measurement control system 30 through the wireless communication unit 33 of the body temperature measurement control system 30 and confirms it by the person or a third party;

The body temperature measurement data transmitted to the mobile terminal 40 is transmitted to the management server 60 through the communication network 50 so that the body temperature measurement result can be checked at a remote location, the lighting unit 32, The control unit 33, the timer 35, and the wireless communication unit 37 are mounted on a circuit board 30A mounted inside the earphone cover 200, and the circuit board 30A is powered through a power supply means 36. A smart earphone cover capable of measuring body temperature, characterized in that the supply is made.
According to claim 1, wherein the temperature sensor (31) is a temperature sensor (31) at the upper end of the inner hollow portion of the heat collecting cover member (31A) that is installed by being inserted into the fitting hole (20') drilled in one end of the earphone cover (20) ) elastically sandwiched between the outer left and right perimeters of the temperature sensor 31 and the inner left and right periphery of the heat collecting cover member 31A, and installed by sandwiching the insulating cover 31B, the heat collecting cover member ( 31A) to the lower periphery of the circular circular piece (31A-1) is fitted into the lower perimeter fitting recess of the fitting hole (20') of the earphone cover (20) to be fixedly installed, and the upper end of the temperature sensor (31) and the heat collecting cover Body temperature measurement, characterized in that the heat collecting part 31A-2 of the heat collecting cover member 31A is elastically interviewed on the inner surface of the user's ear by making the upper inner end of the member 31A face-to-face to measure body temperature Smart earphone cover available.
The body temperature measurement control system according to claim 1, wherein the body temperature measurement control system (30) comprises: a control unit (33) composed of a microprocessor unit for controlling and processing the body temperature sensed by the temperature sensor (31); a timer 35 providing a temperature measurement time; a lighting unit 32 composed of a light emitting diode that is turned on when the body temperature measured by the temperature sensor 31 is above normal; and a wireless communication unit 37 that transmits the control signal controlled and processed by the control unit 33 to the mobile terminal 40, and transmits the body temperature measurement data transmitted to the mobile terminal 40 to the communication network 50 A smart earphone cover capable of measuring body temperature, characterized in that it is configured to be transmitted to the management server 60 through the .
The smart earphone capable of measuring body temperature according to claim 3, further comprising a look-up table (34) for comparing the resistance values sensed by the temperature sensor (31) and controlling the processing by the controller (34). cover.
The method according to claim 1, wherein the timer (35) constituting the body temperature measurement control system (30) measures body temperature in real time, but is set to measure the primary and secondary body temperature with a time difference, and sets the primary temperature and 2 If there is a difference of 2℃ ~ 5℃ or more in the primary measurement temperature, the body temperature is measured again. A smart earphone cover that can measure body temperature, characterized in that it is configured to be long.
According to claim 1, wherein the average resistance value corresponding to the temperature of the look-up table (34) in a data format that is generated in advance corresponding to the resistance value of the temperature sensor (31) for measuring body temperature and can be corrected by the temperature sensor (31) Smart earphone capable of body temperature measurement, characterized in that the temperature measured by comparing the measured actual temperature is configured to re-measure the body temperature by the temperature sensor 31 when the measured temperature deviates from the resistance value corresponding to the temperature of the look-up table 34 cover.
According to claim 1, wherein the power supply means (36) is a small piezoelectric element (36-1) or a wireless device that converts the vibration generated from the earphone speaker unit (12) installed inside the earphone head (10) into an electrical signal. a charging module 36-3; and a lithium ion polymer battery 36-2 for charging an electrical signal from the small piezoelectric element 36-1 or the wireless charging module 36-3; but, in the center of the circuit board 30A, an earphone speaker Sound generated from the earphone speaker unit 12 in the center of the small piezoelectric element 36-1 or the wireless charging module 36-3 by drilling and forming the sound discharge hole 30A-1 generated from the unit 12 A smart earphone cover capable of measuring body temperature, characterized in that it is formed by drilling an exhaust hole (36-1A).
The method according to claim 1, wherein the LED module (L1) of the thin plate or the EPD (E1) is inserted into the fitting hole (20'") formed by drilling on one side of the earphone cover 20. A smart earphone cover capable of measuring body temperature, characterized in that it is configured by installing a color display unit (LE) or a numeric display unit (LE) such as Celsius or Fahrenheit temperature.
As a body temperature measurement method using the body temperature measurement control system 30, the body temperature is measured by the initialized temperature sensor 31 while the earphone cover 20 mounted on the earphone head 10 is inserted into the earphone user's ear. a first step (ST1); a second step (ST2) of operating the timer 35; The first body temperature measurement temperature according to the program of the controller 33 with a real-time and/or time difference (eg, within 1 to 5 minutes or more after the first body temperature measurement) by the timer operation of the second step ST and a third step (ST3) of measuring the secondary body temperature measurement temperature; A fourth step of comparing the primary body temperature measurement temperature and the secondary body temperature measurement temperature measured in the third step (ST3) and comparing whether the temperature difference is 2°C to 5°C or more by the program of the control unit 33 ( ST4) and; a fifth step (ST5) of re-measuring the body temperature measurement temperature by the controller 33 if the temperature difference is 2°C to 5°C or more in the fourth step (ST4); a sixth step (ST6) of calculating an average value of the measured temperature by the program of the control unit 33 if the temperature difference is 2°C to 5°C or less in the fourth step (ST4); If the average value of the measured temperature by the sixth step (ST6) is above the normal temperature, the fluorescent display unit 20-1 or the color display unit LE for displaying the color lighting, or the numerical display unit LE such as Celsius temperature or Fahrenheit temperature, etc. a seventh step (ST7) of operating to check whether the measured body temperature is normal; an eighth step (ST8) of transmitting the average value data of the measured temperature to the mobile terminal 40 through the wireless communication unit 37 by the controller 33 to confirm the measured temperature in the mobile terminal 40; And by transmitting the measured temperature data transmitted to the mobile terminal 40 in the eighth step (ST8) to the management server 60 at a remote location through the communication network 50, it is possible to check the body temperature of the earphone wearer at a remote location in real time. A method of measuring body temperature using a smart earphone cover capable of measuring body temperature, characterized in that it further comprises a ninth step (ST9).
The method according to claim 9, wherein, in the first stage (ST1) system for measuring body temperature by the temperature sensor (31), the temperature measured by the temperature sensor (31) is compared with the lookup table (34) so that the measured temperature is 33°C Step 1-1 (ST1-1) of determining whether the temperature is between ~ 42°C is further included, and if the measured temperature is in the range of 33°C to 42°C, the timer 35 is operated to measure the body temperature, and the temperature measurement is performed. A method of measuring body temperature using a smart earphone cover capable of measuring body temperature, characterized in that it is re-measured when it is out of the range of 33 ℃ ~ 42 ℃.