KR20210001844A - Device for sensing a body temperature and system thereof - Google Patents

Abstract

The present invention relates to a device for measuring body temperature and a system therefor. More specifically, the present invention accurately measures body temperature of an object and determines a health state of the object in real-time by using the measured body temperature. To achieve the purpose, according to the present invention, the device for measuring body temperature comprises: a sensing module outputting an electrical signal by corresponding to the sensed temperature; an ADC converting the electrical signal outputted from the sensing module into measurement data; a control unit receiving and transmitting a driving signal to the sensing module to enable the sensing module to output the electrical signal corresponding to the temperature and receiving the measurement data from the ADC; and a battery supplying power to the sensing module and the control unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention Device for sensing a body temperature and system thereof

The present invention relates to a body temperature measuring device and a body temperature measuring system, and more particularly, a body temperature measuring device and body temperature capable of accurately measuring the body temperature of an individual and determining the health status of an individual in real time using the measured body temperature. It relates to a measurement system.

Body temperature is generally measured using a portable thermometer. Therefore, whenever a body temperature is measured, a person must contact a portable thermometer with a specific part of the body, such as an armpit or an ear. In particular, in the case of the hospitalization room of a hospital, the nurse must periodically visit the hospital room at a set time and measure the temperature of each patient. It is difficult to measure a patient's body temperature frequently because a single nurse has to manage multiple patients and there are many other things besides measuring body temperature. Because the cycle in which the nurse measures body temperature is quite long, it is difficult for the nurse to notice that the patient's body temperature changes rapidly outside of the periodic measurement time. In addition, some wearable thermometers have been developed in the past, but it is difficult to accurately measure body temperature as the body temperature measured varies depending on the attachment site of the wearable thermometer, the adhesion between the wearable thermometer and the skin, and changes in the external environment.

Therefore, the problem to be solved by the present invention is to solve the above-described problem, and a body temperature measuring device and a body temperature measuring system capable of accurately measuring body temperature and determining the health status of an individual in real time using the measured body temperature. To provide.

A body temperature measuring apparatus according to the present invention for achieving the above object comprises: a sensing module for outputting an electrical signal corresponding to the sensed temperature; An ADC that converts an electrical signal output from the sensing module into measurement data; A control unit for transmitting a driving signal to the sensing module so that the sensing module outputs an electric signal corresponding to temperature, and receiving measurement data from the ADC; And a battery supplying power to the sensing module and the controller.

The body temperature measuring apparatus and the body temperature measuring system according to the present invention can accurately measure body temperature, and have an effect of determining the health status of an individual in real time using the measured body temperature.

1 is a block diagram showing the configuration of a body temperature measuring apparatus according to an embodiment of the present invention.
2 is a cross-sectional view showing a sensing module of a body temperature measuring device according to an embodiment of the present invention.
3 is a cross-sectional view showing a sensing module of a body temperature measuring device according to another embodiment of the present invention.
4 is a block diagram showing the structure of a body temperature measuring apparatus according to an embodiment of the present invention.
5 is a block diagram showing a structure of a power supply in a body temperature measuring apparatus according to another embodiment of the present invention.
6 is a block diagram showing the structure of a body temperature measuring apparatus according to another embodiment of the present invention.
7 is a block diagram showing a structure for connecting each circuit board in a body temperature measuring apparatus according to another embodiment of the present invention.
8 is a block diagram showing the structure of a body temperature measuring apparatus according to another embodiment of the present invention.

The terms used in the present invention are used only to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this specification, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or a combination thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance.

In addition, in the present specification, the term "on or above" means to be positioned above or below the target portion, and does not necessarily mean to be positioned above or below the direction of gravity. In addition, when a part such as a region, plate, etc. is said to be "on or on" another part, it is not only in contact with or spaced apart from the other part "directly on or on", as well as another part in the middle. This includes cases where there is.

In addition, in the present specification, when one component is referred to as "connected" or "connected" to another component, the one component may be directly connected or directly connected to the other component, but specially It should be understood that as long as there is no opposing substrate, it may be connected or may be connected via another component in the middle.

In addition, in the present specification, terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are used only for the purpose of distinguishing one component from another component.

Hereinafter, preferred embodiments, advantages and features of the present invention will be described in detail with reference to the accompanying drawings.

Composition of body temperature measuring device

1 is a block diagram showing the configuration of a body temperature measuring apparatus according to an embodiment of the present invention.

Referring to FIG. 1, the body temperature measuring apparatus 100 includes a circuit board 110 and a sensing module 120 disposed on the circuit board 110, a control unit 140, a memory 150, a display 160, and a communication unit. Including 170 and a battery 180.

The sensing module 120 senses body temperature by contacting the skin of an object (person or animal), and outputs an electrical signal corresponding to the sensed temperature.

The controller 140 controls the sensing module 120, the memory 150, the display 160 and the communication unit 170. For example, the controller 140 transmits a driving signal to the sensing module 120 so that the sensing module 120 transmits an electrical signal corresponding to body temperature. Alternatively, the controller 140 controls the display 160 to output the detected body temperature or a specific message. The body temperature measuring apparatus 100 may further include an analog-digital converter (ADC) (not shown) that converts an electrical signal output from the sensing module 120 into digital data (hereinafter referred to as “measurement data”). . The ADC may be included in the sensing module 120 or may be manufactured integrally with the temperature sensor in the sensing module 120. Alternatively, the ADC may be disposed on the circuit board 110 as a separate electronic device or may be manufactured integrally with the control unit 140. The control unit 140 may periodically or aperiodically drive the sensing module 120, and the body temperature measuring apparatus 100 may further include a timer in order to periodically drive it. The period in which the controller 140 drives the sensing module 120 may be determined by a user or may be determined by the controller 140 according to a preset reference.

In addition, the control unit 140 periodically or aperiodically stores the measurement data in the memory 150. When measurement data is periodically stored in the memory 150, a period in which the sensing module 120 is driven and a period in which the measurement data is stored in the memory 150 may be different. For example, a period of driving the sensing module 120 may be 5 seconds, and a period of storing measurement data in the memory 150 may be 10 minutes. Here, the period in which the controller 140 stores the measurement data in the memory 150 may be determined by a user or may be determined by the controller 140 according to a preset criterion. In addition, the control unit 140 may aperiodically store the measurement data in the memory. For example, when the measurement data is within a preset threshold range, the control unit 140 stores the measurement data in the memory regardless of the storage period. I can. Here, the range of the threshold value may be determined by the user or may be determined by the controller 140 according to a preset criterion. Alternatively, the range of the threshold value may be determined by a control signal received from an external specific terminal to the body temperature measuring apparatus 100. In addition, the controller 140 may store only measurement data for a specific time period in the memory 150. For example, the memory 150 may store only measurement data for 30 minutes before and after the time when measurement data enters the threshold range. ).

In addition, the controller 140 may transmit measurement data to an external terminal (not shown) or receive information or a control signal from an external terminal using the communication unit 170. The information received from the terminal is information necessary to control the body temperature measurement device, such as the period of driving the sensing module 120, the period of storing the measurement data in the memory, the period of transmitting the measurement data to the terminal, the range of the threshold, etc. Includes numbers, characters or images displayed on the display of the measuring device. Terminals are desktop computers, smart phones, notebook computers, tablet PCs, smart TVs, mobile phones, PDAs (personal digital assistants), portable multimedia players (PMPs), global positioning system (GPS) devices, e-book terminals, and set It may be a top box (STB), a terminal for digital broadcasting, a navigation system, and other mobile or non-mobile computing devices, but is not limited thereto. In addition, the terminal may be a wearable terminal in the form of a watch, glasses, band, ring, etc. having a communication function and a data processing function. The body temperature measuring apparatus 100 may transmit and receive data and control signals to and from a terminal using wired or wireless communication technology. At this time, communication technologies include GSM (Global System for Mobile communication), CDMA (Code Division Multi Access), LTE (Long Term Evolution), 5G, WLAN (Wireless LAN), Wi-Fi (Wireless-Fidelity), Bluetooth™ RFID (Radio Frequency Identification), Infrared Data Association (IrDA), ZigBee, NFC (Near Field Communication), MST (Magnetic Secure Transmission), etc. When the body temperature measuring device 100 and the terminal communicate wirelessly The communication unit 170 of the body temperature measuring apparatus 100 may further include an antenna (not shown) for transmitting and receiving a signal. The body temperature measuring apparatus 100 periodically or aperiodically transmits the measurement data to the terminal. When the measurement device 100 periodically transmits measurement data to the terminal, the transmission period may be determined separately from a period in which the sensing module 120 is driven or a period in which measurement data is stored in a memory.

The display 160 may be configured with various means capable of displaying numbers, characters, or images, such as a Light Emitting Diode (LED), a Liquid Crystal Display (LCD), and an Organic Light Emitting Diode (OLED). The controller 140 may change a color displayed on the display 160 or display a specific image or image on the display 160 when the measurement data is within the threshold range. Alternatively, when power is supplied or cut off from the battery 180 by a user's manipulation, the controller 140 may display a preset image on the display 160.

The battery 180 supplies power to the sensing module 120, the controller 140, the memory 150, the display 160, and the communication unit 170. The body temperature measuring apparatus 100 may further include a power switch 100 that can supply or cut off power supplied to each component from the battery 180 according to a user's manipulation.

In order to prevent heat transferred from the skin to the sensing module 120 from being transferred to the interior of the body temperature measuring device, the body temperature measuring device 100 blocks heat to block heat between the sensing module 120 and the remaining components. It may further include a unit 130. The heat shield 130 may be an insulating material disposed between the sensor module 120 and the remaining components, or a hole formed in the circuit board 110 to form an air layer between the sensor module 120 and the remaining components.

2 is a cross-sectional view illustrating a sensing module of a body temperature measuring apparatus according to an embodiment of the present invention. 3 is a cross-sectional view illustrating a sensing module of an apparatus for measuring body temperature according to another embodiment of the present invention.

Referring to FIG. 2, the sensing module 120 includes a circuit board 210, a temperature sensor 220, a skin contact unit 230, and a heat transfer unit 240. The skin contact part 230 is a part that contacts the skin and prevents the temperature sensor 220 from being damaged and blocks the temperature sensor 220 from moisture. The skin contact part 230 is made of a metal having high thermal conductivity in order to transmit the temperature of the skin as it is, and may be made of, for example, gold, stainless steel, copper, or the like. When the skin contact part 230 is made of stainless steel or copper, the skin contact part 230 may be coated with gold to improve thermal conductivity. The skin contact part 230 is manufactured in the shape of a cup surrounding the temperature sensor 220. When the skin contact unit 230 directly contacts the temperature sensor 220, an impact is applied to the temperature sensor 220, and thus the skin contact unit 230 and the temperature sensor 220 are separated at regular intervals to prevent this. The heat transfer unit 240 transfers heat transferred from the skin contact unit 230 between the skin contact unit 230 and the temperature sensor 220 to the temperature sensor 220. The heat transfer unit 240 is made of a thermally conductive and soft material such as a thermally conductive polymer resin, fiber, and paper. In order to prevent the heat transferred from the skin contact part 230 to the temperature sensor 220 from escaping out of the circuit board 210, an insulating material 250 attached to the circuit board 210 may be further included.

Referring to FIG. 3, a sensing module 300 according to another embodiment of the present invention includes a circuit board 310, a temperature sensor 320, a skin contact part 330, and a heat transfer part 340. In FIG. 3, the skin contacting part 330 of the sensing module 300 is spaced apart from the temperature sensor 320 by a certain distance to surround the temperature sensor 320 so as to bring it closer to the skin, and together with the circuit board 310, the temperature sensor It is formed in a hemispherical shape that blocks 320 from the outside. In addition, the heat transfer part 340 is disposed between the circuit board 310 and the skin contact part 330, and corresponds to the shape of the space formed by the circuit board 310, the temperature sensor 320, and the skin contact part 330. The shape is transformed and manufactured. For example, the heat transfer unit 340 may be at least one of a thermally conductive sponge, fiber, and paper whose shape is easily deformed. In addition, the heat transfer unit 340 may further include a thermally conductive sponge, fiber, or thermally conductive fiber 345 surrounding the paper. For example, if the heat transfer unit 340 is made of a thermally conductive sponge whose shape is easily deformed, production cost can be reduced and manufacturing can be made easier.

How to save battery

When the body temperature measuring device communicates wirelessly with the terminal, in order to minimize the power consumed when the body temperature measuring device transmits, the control unit changes the period of transmitting the measured data to the terminal according to the size of the measured data or the amount of change in the measured data. I can. When the measurement data is within a certain range, for example, body temperature varies from person to person, but it is normal to be between 35.9℃ and 37.6℃. If the measurement data is between 35.9℃ and 37.6℃, the measurement data There is no need to send it frequently. Therefore, when the measurement data is within the normal range and there is no significant change, the control unit may not transmit the measurement data or lengthen the transmission period. However, when the measurement data is out of the normal range or changes rapidly, the control unit can frequently transmit the measurement data to the terminal by changing the transmission period to be short. For example, when the measurement data is within the normal range, the transmission period may be 30 minutes, and when the measurement data is out of the normal range or changes rapidly, the transmission period may be changed to 5 seconds. That is, the control unit changes the period for transmitting the measurement data according to whether the measurement data is within the range of the threshold value and the amount of change in the measurement data.

Alternatively, before the temperature measuring device is attached to the skin, there is a difference between the temperature of the body temperature measuring device and the temperature of the skin. Therefore, when the body temperature measuring device is attached to the skin, a time is required for the temperature of the sensing module and the temperature of the skin to be in an equilibrium state. In general, since the temperature of the sensing module is lower than the temperature of the skin, the sensing module is heated by the heat radiated from the skin after the body temperature measuring device is attached to the skin. The control unit shortens the period of transmitting the measurement data from the time the body temperature measurement device is attached to the skin until the sensing module is heated and in an equilibrium state. You can change the transmission period longer when it becomes smaller or the measurement data enters the normal range.

Black box function

The control unit may store the measurement data in a memory or transmit it to the terminal using a communication unit. Whether to transmit the measurement data to the terminal may be determined by a control signal received from the terminal. That is, the control unit starts or stops transmission of the measurement data according to the control signal received from the terminal. When a control signal to start transmission is received from the terminal, the control unit transmits the measurement data to the terminal at regular intervals. If the connection with the terminal is disconnected without receiving a control signal to stop transmission from the terminal, the controller stores the measured data in the memory until the body temperature measuring device and the terminal are reconnected. When the body temperature measuring device and the terminal are reconnected, the control unit transmits the stored measurement data to the terminal from the time when the connection between the body temperature measuring device and the terminal is disconnected and reconnected.

Calibration of the measured temperature

There is an error between the actual body temperature and the measured temperature for various reasons. One of them is the measurement error of the temperature sensor. The measurement error of the temperature sensor is different for each temperature sensor. Therefore, in order to correct the measurement error of the temperature sensor, a correction value corresponding to the measurement error of the temperature sensor constituting each body temperature measurement device is previously stored in the memory of the corresponding body temperature measurement device. The control unit corrects the measured data using the correction value stored in the memory, and stores the corrected data in the memory or transmits the corrected data to the terminal.

Temperature of the sensor Normal judgment

The controller may determine whether or not the temperature sensor operates normally by using the change in the measured data. For example, if the measured data changes abnormally and suddenly or a specific change in the measured data is repeated, the controller determines that the temperature sensor is not normal and displays the state of the temperature sensor on the display or transmits it to the terminal.

The structure of the body temperature measuring device ( Patch type )

4 is a block diagram showing the configuration of a body temperature measuring apparatus according to an embodiment of the present invention. 5 is a block diagram showing the structure of a power supply unit in a body temperature measuring apparatus according to another embodiment of the present invention.

Referring to FIG. 4, the body temperature measuring apparatus includes a circuit board, a sensing module, an electronic component, and a battery.

The circuit board may be a printed circuit board (PCB) or a flexible printed circuit board (FPCB). A part of the circuit board may be composed of a PCB and the other part may be composed of an FPCB. For example, only a part where electronic components are placed may be composed of a PCB, and the rest may be composed of an FPCB. In addition, when the circuit board is composed of an FPCB, in order to protect the electronic component, a reinforcing material may be attached to a surface opposite to the surface on which the electronic component is disposed on the circuit board. The reinforcement is attached only to the part where the electronic component is placed.

Electronic components include microprocessors, memory, displays, antennas, and power switches. Here, the display may be composed of various means capable of displaying numbers, characters, or images, such as a Light Emitting Diode (LED), a Liquid Crystal Display (LCD), and an Organic Light Emitting Diode (OLED).

The battery can be replaced or charged by supplying power to a sensing module or electronic component in a circuit board. In the case of the replacement type, an insertion hole for inserting the battery may be formed on one side of the case of the body temperature measuring device, and a small hole for removing the battery may be formed on the opposite surface of the insertion hole. The battery can be pushed out through a small hole with a thin, hard object such as a toothpick or needle. In order to make the body temperature measuring device as thin as possible, the structure of the case should be simple. However, since it becomes complicated when the case is opened and closed, the structure of the case can be made as simple as possible with a battery insertion port and a small hole. In addition, referring to FIG. 5, a battery support may be formed on a circuit board to fix a battery inserted into the body temperature measuring device. At this time, the battery support is arranged according to the size and shape of the battery, and can be made of resistance.

In order to prevent heat transmitted from the skin to the sensing module from being transmitted to the interior of the body temperature measuring device, a heat shielding portion formed between the sensing module and the remaining components may be further included. The heat shield may be an insulating material disposed between the sensor module and the remaining components, or a hole formed in the circuit board to form an air layer between the sensor module and the remaining components.

The sensing module includes a skin contact part, a heat transfer part, and a temperature sensor. The skin contact part is the part that comes into contact with the skin and prevents damage to the temperature sensor and blocks the temperature sensor from moisture. The skin contact portion is made of a metal having high thermal conductivity in order to transmit the temperature of the skin as it is, and may be made of, for example, stainless steel or copper. In order to improve thermal conductivity, the skin contact portion may be coated with gold. The skin contact part is made in the shape of a cup surrounding the temperature sensor. When the skin contact part directly contacts the temperature sensor, an impact is applied to the temperature sensor. To prevent this, the skin contact part and the temperature sensor are separated at regular intervals. The heat transfer unit transfers heat transferred from the skin contact unit to the temperature sensor between the skin contact unit and the temperature sensor. The heat transfer unit is made of a thermally conductive and soft material such as a thermally conductive polymer resin, fiber, and paper.

The body temperature measuring apparatus further includes a circuit board, a sensing module, an electronic component, and a case for protecting a battery. The case may be made of a hard plastic case or made of silicone that softly surrounds a circuit board and electronic parts. In addition, an adhesive pad may be further included to attach the body temperature measuring device to the skin, wherein the adhesive pad is made of a medical material. The adhesive pad may be made of a porous material in order to prevent the skin from being blocked from air at the part where the body temperature measuring device is attached.

Structure of body temperature measuring device (small)

6 is a block diagram showing the structure of a body temperature measuring apparatus according to another embodiment of the present invention. 7 is a block diagram showing a structure for connecting each circuit board in a body temperature measuring apparatus according to another embodiment of the present invention.

In order to make the body temperature measuring device smaller, the circuit board can be composed of multiple layers. For example, the sensing module, the battery, and the electronic component may be disposed on different layers. Referring to FIG. 6, the body temperature measuring apparatus is composed of three layers, an electronic component is disposed on a first circuit board, a battery is disposed on a second circuit board, and a temperature sensor is disposed on a third circuit board. In order to electrically connect the first, second and third circuit boards, electrodes for transmitting and receiving signals or supplying power are formed on each circuit board. The electrodes of each circuit board are connected to the electrodes of other circuit boards by wires or FPCBs. Referring to FIG. 7, electrodes are formed on the left and right sides of each circuit board. Signals are transmitted and received through the electrodes on the left, and power is supplied through the electrodes on the right. An insulating material may be disposed between the third circuit board and the second circuit board to block heat transferred from the skin from being transferred to the battery or electronic component.

Structure of body temperature measuring device (earphone type)

8 is a block diagram showing the structure of a body temperature measuring device according to another embodiment of the present invention.

Referring to FIG. 8, the body temperature measuring device may be manufactured in the form of an earphone that can be inserted into an ear. In this case, the body temperature may be measured by a contact type or non-contact type temperature sensor. For example, the non-contact type temperature sensor may be an infrared sensor.

Body temperature analysis method

The body temperature measuring system according to the present invention includes a body temperature measuring device and a terminal. Here, the terminal includes various computing devices such as a smartphone, a smart pad, a smart watch, a PC, and a notebook. The body temperature measuring device and the terminal communicate by wire or wirelessly, and the wireless communication may be Bluetooth, Wi-Fi, Radio Frequency Identification (RFID), Near Field Communication (NFC), Magnetic Secure Transmission (MST), etc. . The body temperature measuring device may periodically or aperiodically transmit the measured data attached to the skin to the terminal, and the terminal may provide various information to the user using the measured data received from the body temperature measuring device.

The terminal displays the measurement data received from the body temperature measuring device on the screen in real time, and may determine the health status using a range of a threshold value set by the user. If the measurement data received from the body temperature measuring device is within the threshold range, the terminal displays to the user that it is not in a normal state on the screen of the terminal. You can use vibration or sound together to warn. Here, the range of the threshold value may be determined by the terminal. For example, the range of normal body temperature depends on a person's age or where it is attached. In general, the body temperature is within the range of 35.9℃~37.6℃, but the normal body temperature range for the ear is 35.8℃~37.8℃, the normal body temperature range in the mouth is 35.5℃~37.5℃, and the normal body temperature range for the armpit is 35.3℃~37.3℃. , And the normal body temperature range of the anus is 36.6℃~37.9℃. In addition, for infants, the normal body temperature range for 3 months or less is 35.8℃~37.4℃, the normal body temperature range for 3 months to 36 months is 35.4℃~37.6℃, and the normal body temperature range for 36 months or more is 35.4℃~37.7℃. The terminal may determine the range of the threshold value using the age of the person to which the body temperature measuring device is attached and the position at which the body temperature measurement device is attached, where the age of the person and the location to which it is attached are input by the user.

In addition, the terminal may determine a health condition using measurement data received from the body temperature measuring device, and guide the administration of a drug such as an antipyretic agent if it is determined that the individual to which the body temperature measuring device is attached is not normal. In this case, the terminal may calculate and guide whether or not to administer the drug according to the size of the measurement data received from the body temperature measuring device. Alternatively, the terminal may guide a hospital or a pharmacy using information on the current location when it is determined that the object to which the body temperature measuring device is attached is not normal. Information on the current location can be collected using GPS or the like.

In addition, the terminal periodically or aperiodically displays the measurement data received from the body temperature measuring device on the screen of the terminal. In the case of displaying it periodically, the terminal may determine a period in which the measurement data is displayed on the screen. At this time, the period to be displayed on the screen is determined by the terminal or by the user's input.

In addition, the terminal is equipped with an emergency button, so when the user presses the emergency button, it can be immediately connected to 119.

In addition, the terminal may transmit measurement data received from the body temperature measuring device to a specific server. For example, the terminal may be connected to a server of a healthcare system. The server of the healthcare system may store measurement data received from the terminal and produce or provide corresponding information for the measurement data.

In the above, preferred embodiments of the present invention have been described and illustrated using specific terms, but such terms are only for clarifying the present invention, and embodiments of the present invention and terms described are the technical spirit and scope of the following claims. It is obvious that various changes and changes can be made without departing from.

These modified embodiments should not be individually understood from the spirit and scope of the present invention, but should be said to fall within the scope of the claims of the present invention.

Claims (7)

A sensing module for outputting an electrical signal corresponding to the sensed temperature;
An ADC that converts an electrical signal output from the sensing module into measurement data;
A control unit for transmitting a driving signal to the sensing module so that the sensing module outputs an electric signal corresponding to temperature, and receiving measurement data from the ADC; And
Body temperature measuring device comprising a battery supplying power to the sensing module and the control unit.
The method of claim 1,
The sensing module,
Circuit Board,
A nonwoven fabric attached to one side of the circuit board,
A temperature sensor attached to the other surface of the circuit board,
A hemispherical skin contact part that is spaced apart from the temperature sensor and surrounds the temperature sensor, and blocks the temperature sensor from the outside together with the circuit board, and
Arranged between the circuit board and the skin contact part, the shape is deformed according to the shape of the space formed by the circuit board, the temperature sensor, and the skin contact part, and heat is transferred between the skin contact part and the temperature sensor. Comprising a heat transfer unit
Body temperature measuring device, characterized in that.
The method of claim 1,
The heat transfer unit includes at least one of a thermally conductive sponge, fiber, and paper
Body temperature measuring device, characterized in that.
The method of claim 3,
The heat transfer unit further comprises a thermally conductive fiber surrounding the thermally conductive sponge, fiber or paper
Body temperature measuring device, characterized in that.
The method of claim 1,
Further comprising a heat shield forming an air layer between the sensing module and the control unit and the battery
Body temperature measuring device, characterized in that.
The method of claim 1,
Further comprising a communication unit for communicating with an external terminal,
The control unit periodically transmits measurement data to the terminal using the communication unit, but changes the transmission period according to the size or variation of the measurement data
Body temperature measuring device, characterized in that.
A body temperature measuring device attached to the skin of an individual to measure a temperature, and to transmit measurement data according to the measured temperature; And
Including; a terminal for receiving the measurement data from the body temperature measuring device, and determining the health status of the individual using the measurement data,
The terminal determines a range of a threshold value for determining the health status of the individual by using any one of the age, height, weight of the individual, and a portion to which the body temperature measuring device is attached.
Body temperature measurement system, characterized in that.

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