TWI626036B - Behind ear temperature monitoring apparatus, system thereof and a method for monitoring temperature - Google Patents

Abstract

The ear back temperature sensing device, the system and the temperature monitoring method, the device body of the ear canal temperature sensing device has an ear hook portion fixed to the ear portion and a housing provided with the circuit unit, and the position of the earlobe corresponding to the ear portion in the housing is set a first magnetic component; the device includes a lug back portion connected to the device body by a bendable connection portion, wherein the second magnetic member is provided, and the first magnetic member and the second magnetic member are magnetically attracted to each other The ear back temperature sensing portion can be fixed to the other side of the earlobe, and the temperature sensing portion of the ear canal is provided with a temperature sensing module electrically connected to the micro control unit disposed in the casing of the device body via a line buried in the connecting portion. The body temperature of the measurement site of the back of the ear can be obtained.

Description

Ear temperature sensing device, system and temperature monitoring method

The invention relates to a device for temperature monitoring, in particular to an ear-back temperature sensing device for measuring the temperature of the ear, a device, a system and a monitoring method for realizing temperature monitoring by a near-end wireless communication technology.

Infrared is a band of invisible light in the electromagnetic spectrum. According to the fact that all objects themselves have infrared radiation characteristics, sensors for sensing relevant bands have been developed, especially for objects that generate heat, such as human body, infrared sensing. The device can receive signals from the infrared band radiated by the object, and the related sensing elements include a pyroelectric sensor (PIR), a thermopile, and a resistive thermal element (Bolometer). The sensing element will produce a change in charge based on the temperature difference from the temperature at which it is placed, thus producing a voltage change that can be obtained from the voltage change.

Conventional technologies have utilized infrared sensors as an important means of temperature sensing, and since the infrared sensor related circuits can be miniaturized, various home or portable temperature sensing devices have been developed.

Due to the development of portable electronic devices, the prior art has a small temperature sensing device that is matched with the application software in the portable electronic device. The application software controls the operation of the temperature sensing device, and the application software also provides various operating devices. User interface.

The related application of the conventional infrared sensor is still focused on body temperature sensing, and the user can obtain temperature information through the application software.

The invention relates to a back-ear temperature sensing device, a system and a monitoring method, in particular, the ear-back temperature sensing device is a device body having a fixed body on the ear, and a temperature-sensitive portion of the ear back fixed on the earlobe by a magnetic component. In this way, the temperature of the back of the ear can be obtained in a non-contact manner.

In an embodiment of the behind-the-ear temperature sensing device, the device includes a device body having an earloop portion fixed to the ear and a housing for providing a circuit unit of the behind-the-ear temperature sensing device, the position of the housing corresponding to the earlobe of the ear portion The first magnetic component is disposed; the device includes a lug back portion connected to the device body by a bendable connecting portion, wherein the second magnetic component is disposed, and the first magnetic component and the second magnetic component are magnetically attracted to each other. In this way, the intimal portion of the ear can be fixed to the other side of the earlobe.

A micro control unit is disposed in the main body of the device for performing operation of each circuit unit in the ear temperature sensing device; a communication module is provided, wherein the device can communicate with a computer device; and a power unit is provided for supplying the temperature of the ear The operating power of the sensing device includes a power switch and a charging interface.

The temperature sensing module is disposed in the inferior temperature sensing portion, and the temperature sensing module fixed on the earlobe is used for sensing through a micro control unit embedded in the flexible connecting portion of the wire in the flexible connecting device body. Measure the body temperature of the measured part of the ear.

The disclosure refers to an ear-back temperature monitoring system, including an ear-back temperature sensing device, having the device body as described above, including an ear-hook portion fixed to the ear, and a housing for arranging the circuit unit; the ear-back temperature sensing device includes The ear and back temperature sensing portion is connected to the device body with a bendable connecting portion. The first magnetic element in the main body of the device and the second magnetic element in the inferior temperature sensing portion can be magnetically attracted to each other such that the intimal portion of the ear is fixed to the earlobe, and the sensing interface is oriented toward the back of the ear to measure the temperature of the back of the ear. System includes There is a computer device that executes a monitoring software, and when the monitoring software is started, it is paired with the ear temperature sensing device, and then the user's body temperature can be monitored in real time.

The related temperature monitoring method includes a preset ear temperature sensing device for detecting the body temperature of the measurement portion of the back of the ear, generating a temperature signal, and synchronizing the computer device, and forming a monitoring signal according to the detected temperature signal.

In order to further understand the technology, method and effect of the present invention in order to achieve the intended purpose, reference should be made to the detailed description and drawings of the present invention. The drawings and the annexed drawings are intended to be illustrative and not to limit the invention.

101‧‧‧Micro Control Unit

103‧‧‧Temperature Sensing Module

105‧‧‧Power indicator unit

107‧‧‧Power switch

109‧‧‧Communication module

111‧‧‧Temperature Sensing Interface

113‧‧‧ memory unit

201‧‧‧Micro Control Unit

23‧‧‧Temperature Sensing Module

231‧‧‧Infrared sensor

233‧‧‧ preamplifier

235‧‧‧Signal Converter

205‧‧‧Power indicator unit

207‧‧‧Power switch

209‧‧‧Wireless communication module

211‧‧‧Temperature Sensing Interface

213‧‧‧ memory unit

215‧‧‧Power unit

217‧‧‧Charging unit

30‧‧‧After temperature sensing device

301‧‧‧Micro Control Unit

303‧‧‧Temperature Sensing Module

305‧‧‧Power indicator unit

313‧‧‧Power indication interface

307‧‧‧Power unit

315‧‧‧Power switch

317‧‧‧Charging interface

309‧‧‧Wireless communication module

311‧‧‧ ear hook

312‧‧‧ device body

321‧‧‧After the ear

319‧‧‧Connecting Department

331‧‧‧First magnetic component

332‧‧‧Second magnetic component

302‧‧‧ lines

40‧‧‧ ear back temperature sensing device

401‧‧‧ device body

402‧‧‧Connecting Department

403‧‧‧After the ear

4‧‧‧ Ears

405‧‧‧After measurement site

42‧‧‧ computer equipment

422‧‧‧Monitoring software

Step S501~S513‧‧‧ Temperature monitoring process

Step S601~S603‧‧‧ Temperature monitoring process

1 is a view showing an embodiment of a circuit module of the ear-back temperature sensing device of the present invention; FIG. 2 is a view showing another embodiment of a circuit module of the ear-back temperature sensing device of the present invention; and FIG. 3 is a view showing the temperature sensing of the ear of the present invention. FIG. 4 is a schematic diagram showing an embodiment of an ear-back temperature monitoring system of the present invention; FIG. 5 is a flow chart showing an embodiment of the ear-back temperature monitoring method of the present invention; Figure two.

The present disclosure describes a device for temperature monitoring and sensing, in particular a temperature sensing device designed as a portable type, which can measure the temperature of the back of the ear. In one embodiment, combined with the communication function of a mobile device, it can be a proximal end. The wireless communication technology obtains the temperature information generated by the temperature sensing device and can clearly indicate the temperature information through the user interface.

The circuit module of the ear-back temperature sensing device can be referred to the embodiment diagram described in FIG.

The portable type of behind-the-ear temperature sensing device is provided with a circuit inside the processing device The unit is operated by the micro-control unit 101. The micro-control unit 101 is further configured to process the temperature information sensed by the temperature sensing module 103 via the temperature sensing interface 111 and control the transmission through the communication module 109. In particular, the temperature sensing interface 111 is, in one embodiment, a sensing window facing the back of the ear such that the behind-the-ear temperature sensing device can obtain the temperature of the back of the ear in a non-contact manner and perform body temperature monitoring.

According to a preferred embodiment, the temperature sensing module 103, such as an infrared temperature sensor, is provided with a temperature sensing interface 111, and the temperature sensing interface 111 is an ear temperature sensing device as described in the present disclosure. The sensing window on the housing, in particular fixed to the earlobe, and the sensing window facing the back of the ear, thereby obtaining the temperature of the back of the ear.

For example, the infrared type temperature sensing module 103 senses changes in external infrared signals through the temperature sensing interface 111, and these changes reflect the temperature information. For example, a measuring infrared temperature sensor can be a passive infrared sensor, and a sensing component such as a pyroelectric component, also called PIR, senses an infrared signal of a thermal reaction generated by the human body. After the infrared signal is converted into a voltage signal, it can be converted into a digital signal to provide external device for monitoring.

In an embodiment, the ear-back temperature sensing device may be provided with a power indicating unit 105 electrically connected to the micro-control unit 101, which may be a light-emitting device that indicates the operating state of the temperature sensing device by a light. For example, when the device obtained by the micro control unit 101 is operated when the power is normal, the specific lamp number may indicate the state; when the power of the device is insufficient, the signal may be additionally indicated; when the temperature sensing device is transmitting the signal, the signal may be different. The light sign indicates. The above representations are for illustrative purposes only and are not intended to limit the embodiments of the invention.

The ear canal temperature sensing device can be provided with a power switch 107. In this embodiment, the power switch 107 can be a finger or button switch provided on the device casing, and does not exclude other ways of controlling the power switch, such as a touch mode. The power switch 107 is electrically connected to the micro control unit 101, and the generated switching signal controls the power of the entire device to be turned on and off via the micro control unit 101.

According to one of the embodiments, the temperature signal generated by the ear-back temperature sensing device can be Instantly transmitted to the external computer device via the communication module 109. In an operation mode, the temperature sensing device may be provided with a memory unit 113 for temporarily storing the signal generated by the temperature sensing device; The temperature sensing device can store the sensed signal in the memory unit 113 without immediately connecting the external device, and then connect the sensed temperature signal to the computer device after being connected to the computer device.

2 is a view showing another embodiment of the circuit module of the behind-the-ear temperature sensing device of the present invention.

The main component of the illustrated back-earth temperature sensing device has a temperature sensing module 23, which has an infrared sensor 231, and is structurally disposed in an accommodating space of the inferior temperature sensing portion fixed on the earlobe. The interface 211 faces the back of the ear. The infrared sensor 231 senses the infrared temperature information of the ear back position through the temperature sensing interface 211, and the related electromagnetic wave signal is converted into a voltage signal. In an embodiment, the signal can be amplified by the preamplifier 233. Or the related processing, after which the infrared signal sensed by the infrared sensor 231 is converted into a temperature signal by the signal converter 235 of the temperature sensing module 23. In one embodiment, the signal converter 235, such as an analog-to-digital converter (ADC), converts the associated electrical (voltage) signal into a digital signal. The signal formed by the conversion by the signal converter 235 is transmitted to the micro control unit 201.

The micro-control unit 201 is electrically connected to the temperature sensing module 23 for receiving the temperature signal generated by the temperature sensing module 23, and can be processed to become a signal for controlling other circuit components. The temperature sensing device is provided with a power indicating unit 205, which is also electrically connected to the micro control unit 201, and receives the signal generated by the micro control unit 201, thereby obtaining power information of the operation of the ear tip temperature sensing device, and transmitting the power indicating unit 205. The indication message is generated. For example, the illumination device can be represented by a light signal or other means, so that the user can obtain the operation status of the device in this way. The power indicating unit 205 includes a light-emitting diode (LED) related module disposed on the casing, and the operating state of the device indicated by the power indicating unit 205 includes device startup (such as lighting) and power charging. Insufficient or insufficient (such as the color of the light), the device is performing a sensing signal (such as flashing), the device is transmitting a signal (such as flashing or color). However, the manner and content of the present invention indicated by the power indicating unit 205 are not limited to the above examples.

A power switch 207 for providing a switch ear-behind temperature sensing device may be disposed on the casing of the device. In this example, the power switch 207 is electrically connected to the micro-control unit 201, and the micro-control unit 201 can be directly controlled to be directly activated. Or turn off the temperature sensing device. In another embodiment, a power unit 215 for providing power supply of the device is further provided, and the power switch 207 is directly connected to the power unit 215, so that the user can turn on or off the power of the temperature sensing device by a switch provided on the housing. That is, directly controlling the opening or closing of the power unit 215 that supplies power to the operation of the device.

The device is further provided with a charging unit 217, which can charge the rechargeable power unit 215. The charging method includes a charging interface on the casing of the device to connect the power source, and the other method does not exclude wireless charging. The charging is performed in a manner that the in-device charging unit 217 is a charging induction coil, so that the external charging device can be wirelessly charged.

The ear canal temperature sensing device can be provided with a memory unit 213 electrically connected to the micro control unit 201. The function of the memory unit 213 can be used as an in-device register or can be used to store the temperature signal generated by the micro control unit 201. In an embodiment, the temperature sensing device may first store the temperature signal obtained at a timed or irregular time until it is connected to the computer device, and then transmitted to the computer device in a synchronous manner.

The way to transmit signals to a computer device can be wired (such as USB) or wireless. Temperature sensing means measuring ear may have a wireless communication protocol for performing a local wireless communication module 209, a protocol such as Bluetooth (Bluetooth ^TM), Wireless LAN (WiFi ^TM) and the like. The wireless communication module 209 is electrically connected to the micro control unit 201. Before the operation, the temperature sensing device and the computer device are connected through a pairing and connection program to convert the temperature signal processed by the micro control unit 201 into a communication signal. And used to perform the transmission of communication signals to external computer devices.

The design of the ear-back temperature sensing device is mainly in two parts. Refer to Figure 3 or 4, comprising a device body attached to the auricle of the outer ear, which can be fixed by an ear hook; the other end is a temperature sensitive portion of the ear back fixed to the earlobe, and can be attracted and fixed to each other by magnetic attraction, wherein The temperature sensing interface faces the direction of the behind ear and the temperature of the back of the ear can be measured.

3 is a schematic view showing an embodiment of the ear-back temperature sensing device of the present invention. The schematic view shows that the ear-back temperature sensing device 30 can be as a wireless earphone, and the end body 312 can be fixed on the auricle with the structure of an ear-hanging portion 311. The other end is the behind-the-ear temperature sensing portion 321 fixed to the earlobe portion, wherein the sensing interface facing the outer window is used to measure the temperature of the back of the ear in a non-contact manner.

The device body 312 has a housing portion 311 fixed to the ear portion and a housing unit for providing the circuit unit of the behind-the-ear temperature sensing device 30. The relevant main circuit unit such as the micro control unit 301 and the micro control unit 301 serve as the ear-back temperature sensing device. The control circuit of the 30 is used to process the signal generated by each circuit unit, such as an integrated circuit for controlling the operation of each circuit unit in the ear-back temperature sensing device 30, and the remaining circuit components are electrically connected to the micro-control unit 301.

The main circuit includes a communication module for communicating with a computer device. The communication method does not exclude the wired or wireless mode, preferably the wireless communication module 309 is used. The device includes a power unit 307 for supplying the temperature of the ear. The operating power of the measuring device 30 can be, for example, a rechargeable battery, can be charged through the charging interface 317, and can be provided with a power switch 315 that provides a user to press the switching device.

Other circuits, such as the power indicating unit 305, disposed in the housing of the device body 312 can obtain the operation signal of the ear-back temperature sensing device 30 by the micro-control unit 301, for example, whether the device performs temperature sensing, the power state of the device, and whether the device is in The wired computer device transmits a signal or the like, and the operating state of the device is indicated by a light signal or other means as described above. The power indicating interface 313 coupled to the power indicating unit 305 is a light signal or other indication provided on the housing. interface.

The ear-back temperature sensing device 30 includes an in-ear temperature sensing portion 321 separated from the device body 312, and is coupled to the device body 312. The coupling manner can be a flexible connecting portion. 319 connects the device body 312 and the behind-the-ear temperature sensing portion 321. A first magnetic member 331 is disposed in the housing of the device body 312 corresponding to the earlobe of the ear, that is, the earloop portion 311 of the device body 312 can be attached to fix the entire device on the auricle, and the portion of the housing It may extend to the position of the earlobe, where a magnetic element 331 is disposed in the housing; and a second magnetic element 332 is disposed in the housing of the in-the-ear temperature sensing portion 321 so as to be magnetically attracted to the first magnetic element 331 The way is fixed to the other side of the earlobe. By the characteristic that the first magnetic element 331 and the second magnetic element 332 are mutually attracted, the ear-back temperature sensing part 321 can be attached to the earlobe, so that the external sensing window of the temperature sensing module 303 can be directed toward the back of the ear. Sensing part. Reference may be made to the behind-the-ear measurement portion 405 of FIG.

The temperature sensing module 303 is disposed in the ear-back temperature sensing portion 321 for sensing the body temperature of an ear-back measuring portion (FIG. 4, 405). In an embodiment, the wire is buried in the connecting portion 319. The micro-control unit 301 in the main body 312 of the electrical connection device 301 is configured to transmit the temperature signal sensed by the temperature sensing module 303 to the micro-control unit 301; and the connection between the device body 312 and the in-ear temperature sensing portion may be excluded. 321, such as wireless transmission.

The circuit in the temperature sensing module 303 may include an infrared sensor for sensing the body temperature of the measurement portion of the back of the ear in a non-contact manner, and a signal converter capable of sensing the infrared sensor. The infrared signal is converted into a temperature signal. The temperature sensing module 303 starts or ends the sensing temperature according to the signal generated by the micro control unit 301, including continuous sensing and generating temperature signals, timing sensing, or single activation according to user control. After sensing the temperature. The micro control unit 301 obtains the temperature signal generated by the temperature sensing module 303, and is temporarily stored or stored in the memory (not shown), that is, transmitted to the external computer device through the wireless communication module 309.

The power indicating unit 305 obtains the operation signal of the ear-back temperature sensing device 30 by the micro-control unit 301, including whether the device performs temperature sensing, the power state of the device, whether the device is in a wired computer device, or the like, and can be utilized as described above. Light number or The other manners indicate the operating state of the device. The power indicating interface 313 coupled to the power indicating unit 305 is a light signal or other indicating interface provided on the housing.

The power unit 307 of the device is a source of power supply, such as a rechargeable battery, electrically connected to the micro control unit 301, and supplies power to the device through the power pin of the micro control unit 301, and is coupled to the power switch 315 outside the device housing, and can be charged. The interface 317 charges the power unit 307 in a wired or wireless manner.

The other circuit disposed in the behind-the-ear temperature sensing device 30 has a memory unit (such as 213 in FIG. 2), which is electrically connected to the micro control unit 301, and can be used to store or temporarily store the temperature signal to be connected to the external computer device. With sync data.

For an implementation of the computer device, reference may be made to the schematic diagram of an embodiment of the temperature monitoring system of the present invention shown in FIG.

In this example, the ear canal temperature sensing device 40 is attached to the ear, and the device body 401 of the ear canal temperature sensing device 40 is partially fixed to the outer ear portion through an ear hook portion, and the ear back temperature sensing portion 403 is as shown in FIG. 3. In the embodiment shown, the second magnetic element and the first magnetic element in the device body 401 are magnetically coupled to each other and fixed to the earlobe of the ear portion 4, the first magnetic element and the second magnetic element. They are components that can attract each other, such as magnets, ferromagnetic materials, and the like.

In this embodiment, the device body 401 of the behind-the-ear temperature sensing device 40 and the behind-the-ear temperature sensing portion 403 are connected to each other by a flexible and flexible connecting portion 402, wherein the circuit can be buried, but the embodiment does not exclude other connecting methods. For example, it can be connected by wireless communication to transmit signals.

The ear-back temperature sensing device 40 senses the temperature of the earlobe and the ear-back position on the face of the person with the non-contact sensing element by the temperature sensing module on the ear-back temperature sensing portion 403, which is labeled as the amount of the back of the ear. At the measuring portion 405, when the behind-the-ear temperature sensing device 40 is placed on the ear portion 4, the temperature of the ear-back measuring portion 405 can be obtained in a timed, continuous manner or the like.

The ear-back temperature sensing device 40 is provided with a communication module, which can connect and transmit data with the external computer device 42. The embodiment can be connected and connected by a near-end wireless communication protocol. The line program connects the behind-the-ear temperature sensing device 40 to the computer device 42.

When the power of the ear-back temperature sensing device 40 is turned on, it indicates that the micro-control unit is activated, and can be connected to the computer device 42 in a working mode, for example, pairing and connecting data transmission by using Bluetooth communication technology, the computer The device 42 can also be a personal computer, wherein the monitoring software 422 is installed and executed, and the temperature information transmitted by the ear-back temperature sensing device 40 can be continuously obtained in the connected state, and can be periodically performed within a preset time. Infrared temperature measurement, through the chart can achieve the purpose of temperature monitoring.

In another working mode, the ear-back temperature sensing device 40 can work independently, record the temperature sensed continuously periodically in the internal memory, and then connect with the computer device 42 and synchronize the data. On the computer device 42, Monitoring is performed based on temperature data accumulated over a period of time.

The monitoring software 422 executed in the computer device 42 can be a specific package software or an application (such as an APP) installed in the mobile device. The user can control the temperature sensing device to perform temperature sensing and obtain data through the monitoring software 422. Open and close with electricity. Moreover, the connection manner between the computer device 42 and the temperature sensing device 40 is not limited to the wireless communication means, and may be connected in a wired manner in the specific embodiment.

The above-mentioned ear-back temperature sensing device 40 is combined with the computer device 42 to form a temperature monitoring system. The computer device 42 can simultaneously connect multiple temperature sensing devices under the permission of the communication protocol, and simultaneously perform temperature monitoring work of multiple objects, that is, the monitoring software 422 The temperature data associated with the record can be identified for a plurality of temperature sensing devices.

For the foregoing temperature monitoring method performed by the monitoring software in the computer system, refer to the process embodiment diagram shown in FIG. 5.

Beginning in step S501, the ear-back temperature sensing device is activated first. At this time, the internal temperature sensing module is driven by the internal micro-control unit to start timing detection of temperature, as in step S503, simultaneously or after, the micro control unit The wireless communication module of the drive unit is connected to the computer device. Will the internal firmware check whether the connection with the computer device is completed? Or in an embodiment may be added to confirm the authorization of use with the computer device Steps, such as step S505.

For example, the computer device shown in FIG. 4, which carries the monitoring software, can perform active or passive connection with the ear temperature sensing device after executing the software, when the computer device and the ear back temperature sensing After the device is paired, the monitoring software can start an interface for authorization confirmation, requesting user identity authentication, and does not exclude various possible authentication methods such as password, account number, biometric identification, etc., and the authorization is completed after successful authentication.

In step S507 of the embodiment, when the ear-back temperature sensing device detects the temperature periodically by the temperature sensing module, the wireless communication module can confirm whether the connection with the computer device is successful. Or add to determine whether the authorization is successful?

If the connection fails (No), that is, in step S509, the micro control unit controls the memory unit to store the temperature signal first, and can be synchronized to the computer device in the future (can be deleted after the synchronization is completed), and the process proceeds to step S503 to continue detecting the temperature. To form a monitoring message.

If the connection is successful (Yes), in step S511, the temperature signal may be temporarily stored in the memory unit, and then the temperature signal is converted into a communication signal, and then transmitted to the computer device. At this time, in a specific implementation manner, the temporary storage may be performed. The data in the memory unit is deleted, as in step S513.

According to the above embodiment, when the connection between the ear-back temperature sensing device and the computer device fails, the temperature signal may be first stored in the internal memory of the device, and then connected to the computer device after completion, and then transmitted to the computer in a synchronous manner. The device, or the transmission of the temperature signal according to the user's operation, one of its main purposes is to form a monitoring message for the individual through the time-recorded temperature information. The temperature signal detected by the ear-side temperature sensing device and the computer device can be immediately transmitted to the computer device instead of being stored in the memory unit of the ear-back temperature sensing device, and the temperature signal obtained by continuous timing can also be monitored. message.

The method described above may be configured by the monitoring software to continuously receive the signal sent by the temperature sensing device for immediate transmission; or may be set to accumulate the signal to the computer device by the temperature sensing device after the accumulation period.

Here, an example of an embodiment transmitted in a synchronous manner will be described, with reference to the flowchart of the embodiment shown in FIG. 6.

The magnetic element of the ear-behind temperature sensing device through the ear-hanging portion and the in-ear temperature sensing portion is a portable device that can be worn on the ear for a long time, and preferably has a battery therein, wherein the wireless communication module can be It is turned on when the pairing and synchronization information is executed, the ear temperature is detected according to the set timing, and the data is stored in the memory of the ear-back temperature sensing device. Until the connection with the external computer system is connected, as shown in step S601 of FIG. 6, and after the monitoring software is started, a request signal for obtaining the temperature message is generated, and the temperature monitoring data can be synchronized to form a monitoring message on the monitoring software, as shown in step S603 of FIG. 6. This mode of operation can be applied to patients, caregivers, children, athletes, etc., without carrying a computer device.

Therefore, the embodiment of the present disclosure provides an ear-back temperature sensing device, the type of which is mainly that the housing of the device has an ear-hanging portion fixed to the ear portion, and the temperature sensing interface is disposed on the ear-back portion fixed to the earlobe portion. The temperature sensing part can then obtain the temperature information of the ear back in a non-contact manner by infrared sensing in a timed, single or continuous manner, form a digital signal through signal conversion, and transmit it to an external computer device to perform a recording to achieve the purpose of monitoring.

However, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Therefore, equivalent structural changes that are made by using the specification and the contents of the present invention are equally included in the present invention. Within the scope, it is combined with Chen Ming.

Claims (8)

An ear-back temperature sensing device comprising: a device body having an ear-hook portion fixed to the ear, and a housing for providing a circuit unit of the behind-the-ear temperature sensing device, the earlobe corresponding to the ear portion in the housing a first magnetic component is disposed in the device; wherein the device body is provided with: a micro control unit for controlling the operation of each circuit unit in the ear back temperature sensing device; and a communication module electrically connected to the micro control a unit for communicating with a computer device; a power unit electrically connected to the micro control unit for supplying operating power of the behind-the-ear temperature sensing device, providing a power switch and a charging interface; and an ear back temperature sensing portion The ear back temperature sensing portion is separated from the device body and coupled to the device body through a bendable connecting portion. The ear back temperature sensing portion is provided with a second magnetic component, and the first magnetic component of the device body is The second magnetic element of the intimal portion of the ear is fixed to the other side of the earlobe by magnetically attracting each other; wherein the inferior temperature sensing portion is provided with a temperature sensing module. The sensing module is electrically connected to the micro control unit via a line buried in the connecting portion. The temperature sensing module is provided with an infrared sensor and has a sensing window for the person directly behind the earlobe An ear back measuring portion of the side face senses the body temperature of the measured portion of the back of the ear in a non-contact manner. The ear canal temperature sensing device of claim 1, wherein the device body further comprises a power indicating unit for indicating the operation of the ear canal temperature sensing device. The ear-behind temperature sensing device of claim 1, wherein the temperature sensing module is provided with a signal converter, and the infrared signal sensed by the infrared sensor is converted into a temperature signal. The ear-back temperature sensing device of claim 1, further comprising a memory unit electrically connected to the micro-control unit for storing the temperature signal. The in-ear temperature sensing device of any one of claims 1 to 4, wherein the communication module implements a near-end wireless communication protocol, and the ear-back temperature sensing device and the computer device are coupled via a pairing and connection procedure. An ear-back temperature monitoring system comprising: an ear-back temperature sensing device, comprising a device body having an ear-hook portion fixed to the ear, and a housing for providing a circuit unit of the ear-back temperature sensing device, the housing a first magnetic component is disposed at a position corresponding to the earlobe of the ear; wherein the device body is provided with: a micro control unit for performing operation of each circuit unit in the ear temperature sensing device; and a communication module Electrically connecting the micro control unit for communicating with a computer device; a power unit electrically connected to the micro control unit for supplying operating power of the behind-the-ear temperature sensing device, and providing a power switch and a charging interface And an ear-back temperature sensing portion of the ear-back temperature sensing device, the ear-back temperature sensing portion is separated from the device body and connected to the device body through a bendable connecting portion, and the ear-back temperature sensing portion is provided with a second magnetic component And being fixed to the other side of the earlobe by magnetically attracting the first magnetic element of the device body and the second magnetic element of the behind-the-ear temperature sensing portion; The temperature sensory part of the ear is provided with a temperature sensing module electrically connected to the micro control unit via a line buried in the connecting portion. The temperature sensing module is provided with an infrared sensor and has a sensing window. Oriented An ear back measuring portion on the side of the person directly behind the earlobe senses the body temperature of the measuring portion of the back of the ear in a non-contact manner; a computer device that executes a monitoring software, and when the monitoring software is activated, the temperature of the ear is back The sensing device performs pairing connection; after the computer device is paired with the ear-back temperature sensing device, the monitoring software generates a request signal for obtaining a temperature message, and the ear-back temperature sensing device transmits or synchronizes immediately The way to transmit the communication signal to the computer device. A temperature monitoring method for the ear-back temperature sensing device according to claim 1, comprising: preparing the ear-back temperature sensing device for detecting a body temperature of the ear-back measuring portion, generating a temperature signal; and synchronizing the computer device , forming a monitoring signal according to the detected temperature signal. The temperature monitoring method of claim 7, wherein the method is stored in a memory unit of the ear-back temperature sensing device before being synchronized to the computer device.