KR101593188B1 - Thermometer - Google Patents

Abstract

The thermometer of the present invention comprises: a main frame which comprises: a sensor for measuring body temperature; and, an ultraviolet light generating device inside; a filter mounting unit protruding on one side of the main frame; a probe cover placed on the outer circumferential surface of the filter to be detachable and to be inserted into the ear; and, an ultraviolet light emitting hole placed on the filter mounting unit to emit ultraviolet light generated by the ultraviolet light generating unit.

Description

Thermometer {THERMOMETER}

The present invention relates to an earphone type thermometer.

BACKGROUND ART [0002] Generally, a thermometer for measuring a temperature inside a body, i.e., a body temperature, is widely used as a means for checking whether a body is abnormal. There are various kinds of thermometers such as a mercury thermometer, an electronic thermometer, a patch type thermometer, or an infrared thermometer. Among them, an infrared thermometer that can measure a body temperature relatively easily in a short time is recently preferred. The infrared thermometer basically includes an infrared lamp and a sensor for sensing the infrared lamp. The infrared thermometer includes an ear thermometer and a forehead thermometer, depending on the part to be measured.

The ear thermometer is a kind of infrared ray thermometer that detects infrared rays radiated from the eardrum and its surroundings and converts the quantified value of the detected infrared ray into a predetermined electric signal to measure the body temperature. It is easy to use because it is possible to measure the temperature by placing a thermometer on your ear for a short time.

These ear thermometers are equipped with a disposable probe cover to wrap the probe inserted into the ear for problems caused by a special measurement area called the "ear", followed by temperature measurement. That is, the tip of the probe inserted into the ear is opened for the irradiation of infrared rays and the detection of the heat. When foreign matter such as ear wax or dust enters into the inside of the clinical thermometer through the opened distal end, the performance of the clinical thermometer deteriorates. Further, when a plurality of subjects share one ear thermometer, bacteria and the like may be transmitted to another person through a probe which is in contact with the body. Therefore, a disposable probe cover of a permeable material, which can prevent the foreign matter from entering the inside of the probe by blocking the open end of the probe and can be easily replaced due to maintenance reasons for maintenance and repair of the thermometer, Is used. The background technology of the present application is disclosed in Korean Patent Registration No. 10-0322107 (published on February 6, 2002).

However, due to such hygiene reasons, it is inconvenient to replace the probe cover every time the disposable probe cover is used, and the disposable filter is used to incur a cost to the user, and cost and resources are consumed for manufacturing the disposable filter .

An object of the present invention is to provide an ultraviolet ray generating device capable of sterilizing a probe cover by ultraviolet rays by reflecting the generated ultraviolet ray on a probe cover, ≪ / RTI >

It is to be understood, however, that the technical scope of the present invention is not limited to the above-described technical problems, and other technical problems may exist.

According to an aspect of the present invention, there is provided a thermometer for ear thermometry according to an embodiment of the present invention, comprising: a body having a sensor for measuring body temperature and an ultraviolet ray generating element inside; A filter mounting part protruding from one side of the main body; A probe cover detachably attached to the outer circumferential surface of the filter mounting portion, the probe cover being insertable into the ear; And an ultraviolet ray outlet provided in the filter mounting part for emitting ultraviolet rays generated from the ultraviolet ray generating element.

According to an embodiment of the present invention, the ear clinical thermometer may further include a protective cover detachably attached to the main body, the protective cover having an inner surface that reflects ultraviolet rays emitted from the ultraviolet ray exit port to the probe cover.

According to one embodiment of the present invention, the inner surface of the protective cover may have a surface structure that diffusely reflects the ultraviolet rays.

According to an example of this embodiment, the ultraviolet ray generating element can automatically generate ultraviolet rays when the protective cover is attached to the main body.

According to one embodiment of the present invention, the protective cover and the main body include a coupling sensor for detecting whether or not the protective cover and the main body are coupled to each other, and the ultraviolet ray generating element includes an ultraviolet Can be generated.

According to an embodiment of the present invention, the ultraviolet ray may have a wavelength of at least one of the wavelength bands of 250 nm to 255 nm.

According to an embodiment of the present invention, the ear thermometer may further include an optical fiber provided in the main body and transmitting the ultraviolet ray generated from the ultraviolet ray generating element to the ultraviolet ray emitting port.

According to one embodiment of the present invention, the main body may be provided with a switch for turning on / off the operation of the ultraviolet ray generating element.

According to an embodiment of the present invention, a plurality of the ultraviolet ray generating elements and the ultraviolet ray emitting ports may be provided, respectively, and the plurality of ultraviolet ray emitting ports may be provided in a circular shape while maintaining the same interval in the filter mounting portions.

According to one example of this embodiment, the ear thermometer may further include an ultraviolet ray heat sink for discharging heat generated when ultraviolet rays are generated from the ultraviolet ray generating element to the outside.

According to an embodiment of the present invention, the ultraviolet ray heat sink includes an internal heat sink provided in the main body and coupled with the ultraviolet ray generating element, a protective cover for reflecting the ultraviolet ray emitted from the ultraviolet ray exit port to the probe cover, And an outer heatsink coupled to the inner heat sink and surrounding the inner heat sink.

According to an example of this embodiment, the ear clinical thermometer may further include a sensor heat sink provided inside the filter mounting part and for intercepting external heat acting on the sensor.

According to an aspect of the present invention, there is provided a thermometer for ear thermometry according to an embodiment of the present invention, comprising: a body having a sensor for measuring body temperature and an ultraviolet ray generating element inside; A probe protruding from one side of the main body and formed of a transparent material, the probe being insertable into the ear; An ultraviolet ray outlet provided in the probe for emitting ultraviolet rays generated from the ultraviolet ray generating element; And a protective cover detachably attached to the main body and having an inner surface reflecting the ultraviolet rays emitted from the ultraviolet ray exit port to the probe.

According to one embodiment of the present invention, the inner surface of the protective cover may have a surface structure that diffusely reflects the ultraviolet rays.

According to one example of this embodiment, the ear thermometer may further include an ultraviolet ray heat sink for discharging heat generated when ultraviolet rays are generated from the ultraviolet ray generating element to the outside.

According to an embodiment of the present invention, the ear thermometer may further include an optical fiber provided in the main body and transmitting the ultraviolet ray generated from the ultraviolet ray generating element to the ultraviolet ray emitting port.

According to an embodiment of the present invention, the ultraviolet ray may have a wavelength of at least one of the wavelength bands of 250 nm to 255 nm.

The above-described task solution is merely exemplary and should not be construed as limiting the present invention. In addition to the exemplary embodiments described above, there may be additional embodiments described in the drawings and the detailed description of the invention.

According to any one of the above-mentioned objects of the present invention, ultraviolet rays generated from the ultraviolet ray generating element can be reflected by a probe cover insertable in the ear, sterilizing the probe cover, and using the ear thermometer hygienically without replacing the probe cover have.

According to any one of the above-mentioned objects of the present invention, ultraviolet rays generated from the ultraviolet ray generating element are reflected by a probe cover insertable in the ear, thereby sterilizing the probe cover, thereby reducing the number of times of using the disposable probe cover, The purchase cost and replacement cost of the cover can be reduced.

According to any one of the above-mentioned objects of the present invention, ultraviolet rays generated from the ultraviolet ray generating element are reflected by a probe cover insertable in the ear, thereby sterilizing the probe cover, thereby reducing the manufacturing cost and resource consumption of the disposable probe cover have.

1 is a perspective view of an ear clinical thermometer according to an embodiment of the present invention.
2 is a perspective view of a ear thermometer in which a protective cover is removed according to an embodiment of the present invention.
3 is a front view of an ear thermometer with a protective cover removed according to an embodiment of the present invention.
4 is a perspective view of a protective cover of the ear thermometer according to an embodiment of the present invention.
5 is an exploded view of an ear clinical thermometer according to an embodiment of the present invention.
6 is a perspective view of a ear thermometer in which a protective cover is removed according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. It should be understood, however, that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, the same reference numbers are used throughout the specification to refer to the same or like parts.

Throughout this specification, when a part is referred to as being "connected" to another part, it is not limited to a case where it is "directly connected" but also includes the case where it is "electrically connected" do.

Throughout this specification, when a member is " on " another member, it includes not only when the member is in contact with the other member, but also when there is another member between the two members.

Throughout this specification, when an element is referred to as "including " an element, it is understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise. The terms "about "," substantially ", etc. used to the extent that they are used throughout the specification are intended to be taken to mean the approximation of the manufacturing and material tolerances inherent in the stated sense, Accurate or absolute numbers are used to help prevent unauthorized exploitation by unauthorized intruders of the referenced disclosure. The word " step (or step) "or" step "used to the extent that it is used throughout the specification does not mean" step for.

1 is a perspective view of an ear clinical thermometer according to an embodiment of the present invention. 2 is a perspective view of a ear thermometer in which a protective cover is removed according to an embodiment of the present invention. 3 is a front view of the ear thermometer with the protective cover removed according to an embodiment of the present invention. 4 is a perspective view of a protective cover of the ear thermometer according to an embodiment of the present invention. 5 is an exploded view of the ear clinical thermometer according to an embodiment of the present invention. Hereinafter, the ear thermometer according to one embodiment of the present invention will be described with reference to FIGS. 1 to 5. FIG.

The ear clinical thermometer 100 according to an embodiment of the present invention includes a main body 105 and a protective cover 110 having an inner surface that is detachable to the main body 105 and reflects ultraviolet rays emitted from the ultraviolet emitting port 125 ).

The body 105 is coupled to two or more detachable cases to constitute the outer shape of the ear thermometer 100. A sensor 155 for measuring body temperature and an ultraviolet ray generating element An ultraviolet ray heat sink 137 that emits heat generated from the ultraviolet ray generating element 140, a substrate to which the respective elements are connected, a controller for controlling the entire operation of the ear thermometer 100 For example, a microcontroller (MCU) using a microprocessor), and a power supply means may be provided.

A switch 165 for detaching and attaching the probe cover 120, a switch 170 for measuring the temperature of the body, a switch 175 for reading and displaying the body temperature measurement record recorded in the internal memory, And a switch 180 for turning on / off the operation of the ultraviolet ray generating element 140 may be provided. In addition, a display unit 185 for displaying data of body temperature measurement may be provided on one side of the main body 105. A window 190 may be provided on one side of the main body 105 to indicate whether the UV generating element is operating. For example, when the ultraviolet rays are irradiated and the disinfection is in progress, the lamp is turned on the window 190, so that the user can be safe.

As shown in FIG. 2, a filter mounting portion 115, which is inserted into the ear, may protrude from one side of the body 105 of the ear clinical thermometer 100. In addition, the probe cover 120, which can be inserted into the ear, can be detached from the outer circumferential surface of the filter mounting portion 115. 5, a concave / convex portion 117 for fixing the probe cover 120 is provided on the surface of the filter mounting portion 115, and the probe cover 120 is fixed to the filter mounting portion 115 Can be combined.

3 and 5, when the probe cover 120 is coupled to the filter mounting part 115, the operation block 127 installed inside the filter mounting part 115 is pressed, The actuating block 127 pushes the probe cover switch 128 located behind it. The probe cover switch 128 sends a signal to the control unit MCU so that the controller MCU can recognize that the probe cover 120 is coupled to the filter mounting unit 115.

For example, the probe cover 120 may be manufactured by injection molding a resin material. Preferably, the stem region of the probe cover 120 is inserted into the ear, so that the probe cover 120 may be made of a soft and transparent material, The region where the vinyl or rubber material is used and which is in contact with and in contact with the filter mounting portion 115 can be manufactured using a material that is somewhat harder than the above-mentioned portion, for example, a polyvinyl chloride (PVC) material.

When the probe cover 120 is mounted on the filter mounting portion 115, the open end of the filter mounting portion 115 is blocked by the probe cover 120. Therefore, the irradiation of infrared rays and the detection of heat generated in the skin around the eardrum and the eardrum are performed through the probe cover 120. Therefore, the probe cover 120 is made of a transparent material having transparency to infrared rays.

3 and 5, the filter mounting part 115 may be provided with an ultraviolet ray outlet 125 for emitting ultraviolet rays generated from the ultraviolet ray generating element 140. The ultraviolet ray generating element 140 may be inserted and positioned inside the ultraviolet ray outlet 125. For example, the ultraviolet ray generating element 140 may include an ultraviolet LED, an ultraviolet ray diode, or the like. In addition, the ultraviolet rays generated by the ultraviolet ray generating element 140 may have a wavelength in a wavelength band with high sterilizing power. For example, the ultraviolet light may have a wavelength of at least one of the wavelength bands of 250 nm to 255 nm.

Although not shown, an optical fiber for transmitting ultraviolet rays generated from the ultraviolet ray generating element 140 to the ultraviolet ray outlet 125 may be provided in the body 105 of the ear thermometer 100. The thickness and / or length of the optical fiber may vary depending on the magnitude, intensity, and the like of the wavelength of the ultraviolet ray generated by the ultraviolet ray generating device 140 in order to efficiently transmit the ultraviolet ray.

As shown in FIGS. 3 and 5, a plurality of ultraviolet ray emitting ports 125 and ultraviolet ray generating elements 140 may be provided. The number of the ultraviolet ray emitting ports 125 and the ultraviolet ray generating element 140 may be appropriately selected to increase the sterilizing effect of the probe cover 120. For example,

The plurality of ultraviolet emission ports 125 may be provided at equal intervals in the filter mounting portion 115. For example, the plurality of ultraviolet emitting ports 125 may be provided in a circular shape while maintaining the same spacing in the filter mounting portion 115. As described above, since the plurality of ultraviolet ray emitting ports 125 and the ultraviolet ray generating element 140 are arranged at equal intervals in the filter mounting portion 115, the entire area of the probe cover 120 can be balancedly sterilized.

According to an embodiment of the present invention, the plurality of ultraviolet ray generating elements 140 alternately generate ultraviolet rays alternately, thereby sterilizing the entire area of the probe cover 120 uniformly while minimizing the amount of ultraviolet rays . According to another embodiment, each of the plurality of ultraviolet generating elements 140 may generate ultraviolet rays having different wavelengths. For example, the sterilizing effect may vary depending on the wavelength of ultraviolet light. Furthermore, a plurality of ultraviolet ray generating elements 140 generating ultraviolet rays having wavelengths of different sizes can alternately generate and irradiate ultraviolet rays alternately. As described above, by irradiating ultraviolet rays of wavelengths of different sizes, the sterilizing effect can be enhanced.

1 to 3 and 5, the ear clinical thermometer 100 according to an embodiment of the present invention includes an ultraviolet ray generator 140 for generating ultraviolet rays from an ultraviolet ray generating element 140, And may include heat sinks 135 and 137. More specifically, the ultraviolet heat sinks 135 and 137 include an internal heat sink 137 provided inside the body 105 and coupled to the ultraviolet generating element 140, And an external heat sink 135 coupled to the filter mounting portion 105 and the filter mounting portion 115 and having a shape to surround the internal heat sink 135. [ As shown in FIG. 5, the external heat sink 135 may be coupled to the case of the main body 105 by fastening means 160.

When the heat generated when ultraviolet rays are generated from the ultraviolet ray generating element 140 affects the adjacent body temperature measuring sensor 155, the accuracy of body temperature measurement is lowered. Therefore, the heat generated from the ultraviolet ray generating element 140 It is necessary to quickly discharge it to the outside. Accordingly, the ultraviolet ray heat sinks 135 and 137 may be made of a metal material having high thermal conductivity.

The ear clinical thermometer 100 according to an embodiment of the present invention may include an ultraviolet protection cover 110. 1 and 5, the protective cover 110 may be detachably coupled to at least one of the main body 105, the external heat sink 135, and the filter mounting portion 115. For example, the protective cover 110 has a silicone pad 112 and can be pressed onto the body 105 and the external heat sink 135. [

The protective cover 110 may have an inner surface that reflects ultraviolet rays emitted from the ultraviolet ray outlet 125 to the probe cover 120. For example, as shown in FIG. 4, the inner surface of the protective cover 110 may have a surface structure 130 that refracts ultraviolet light. In another example, the inner surface of the protective cover 110 may be designed to have a surface structure capable of focusing and reflecting ultraviolet rays to a specific region of the probe cover 120. [

According to an embodiment of the present invention, when the user presses the ultraviolet on / off switch 180 provided on the main body 105 after the protective cover 110 is fastened to the main body 105, 140 generate ultraviolet rays, and the generated ultraviolet rays pass through the ultraviolet ray outlet 125 and are irradiated to the inner surface 130 of the protective cover 110. The irradiated ultraviolet ray is reflected by the surface structure of the inner side surface 130 of the protective cover 110 and reaches the surface of the probe cover 120 mounted on the filter mounting portion 115, It can be disinfected. Therefore, even if the probe cover 120 is not replaced, the probe cover 120 can be reused in a hygienic manner.

According to an embodiment of the present invention, although not shown, the protective cover 110 and the main body 105 may be provided with a coupling sensor for detecting whether the protective cover 110 and the main body 105 are engaged. For example, a magnet sensor may be embedded in the protective cover 110 and the body 105 at positions corresponding to each other. When the protective cover 110 and the main body 105 are properly engaged, a signal can be generated from the corresponding magnet sensors and transmitted to the control unit (MCU) in the main body 105. Further, the ultraviolet ray heat sink 135 coupled to the protective cover 110 may be provided with a push sensor. When the protective cover 110 is properly fastened to the ultraviolet ray heat sink 135, a signal is generated from the push sensor inside the ultraviolet ray heat sink 135 and can be transmitted to the control unit (MCU) in the main body 105. The control unit MCU instructs the ultraviolet ray generating element 140 to generate ultraviolet rays when it judges that the protective cover 110 has been securely attached to the main body 105 and the ultraviolet ray heat sink 135 based on a signal received from each sensor Lt; / RTI > Therefore, according to one embodiment of the present invention, when the protective cover 110 is attached to the main body 105, the ultraviolet ray generating element 140 can automatically generate ultraviolet rays without the user's input.

As shown in FIG. 5, a sensor 155 for measuring body temperature and a sensor heat sink 150 for blocking external heat acting on the sensor 155 may be provided in the ear thermometer 100. 5, the sensor heat sink 150 includes a first sensor heat sink 151 and a second sensor heat sink 152 that can be inserted into the first sensor heat sink 151 . Therefore, external heat acting on the sensor 155 can be blocked more efficiently.

The sensor 155 and the sensor heat sink 150 may be provided inside the filter mounting portion 115. 5, the sensor 155 and the sensor heat sink 150 for measuring body temperature, the ultraviolet ray generating element 140 for generating ultraviolet rays, and the ultraviolet ray heat sinks 135 and 137 are connected to the filter mounting portion 115 And may be separately arranged inside and outside the filter mounting portion 115 as a boundary. Therefore, the influence of the heat generated from the ultraviolet ray generating element 140 on the sensor 155 for measuring the body temperature can be minimized, and the accuracy of body temperature measurement can be improved.

According to one embodiment of the present invention, the sensor 155 corresponds to a thermopile type infrared ray sensor for detecting infrared rays radiated from the deep hole of the ear canal, and a detection signal from the infrared ray sensor, that is, And an analog-to-digital conversion circuit (A / D converter) for converting the analog signal to the digital signal, and supplying the digital signal as a digital body temperature signal to the control unit (MCU). The infrared sensor may comprise a thermopile made up of a series-connected battery and a resistor, and a thermistor for temperature compensation.

In addition, the sensor 155 may include a temperature sensor that acquires an output (an analog signal) corresponding to the ambient temperature. The output generated by the temperature sensor can be converted into a digital signal by the A / D converter and supplied to the control unit (MCU). Based on the digital signals input from the infrared sensor and the temperature sensor, the controller (MCU) can perform a predetermined operation process and an appropriate temperature correction process to determine the body temperature.

As described above, according to the ear thermometer 100 according to the embodiment of the present invention, the ultraviolet rays generated from the ultraviolet ray generating element 140 are reflected by the probe cover 120, which can be inserted into the ear, By sterilizing the ear thermometer 100, the ear thermometer 100 can be used hygienically without replacing the probe cover 120. By sterilizing the probe cover 120 using ultraviolet rays, it is possible to reduce the number of times of using the disposable probe cover, thereby reducing the cost of purchasing the probe cover for the user and reducing the manufacturing cost and resource consumption of the disposable probe cover have.

6 is a perspective view of a ear thermometer in which a protective cover is removed according to another embodiment of the present invention.

According to the ear thermometer 600 according to another embodiment of the present invention, a body temperature can be measured using a probe of a transparent material without using a probe cover. 6, according to another embodiment of the present invention, the ear clinical thermometer 600 includes a body 605 having a sensor for measuring body temperature and an ultraviolet ray generating element, A probe 615 which is formed of a transparent material and can be inserted into the ear, and an ultraviolet ray outlet 625 provided in the probe 615 and emits ultraviolet rays generated from the ultraviolet ray generating element. 6, the ear thermometer 600 can be detachably attached to the main body 605 and has an inner surface that reflects ultraviolet rays so that ultraviolet rays emitted from the ultraviolet ray outlet port 625 are reflected by the probe 615 The protective cover may further comprise a protective cover. For example, the probe 615 may be made of a transparent plastic material or a transparent polycarbonate material.

1 to 5, except that the ear thermometer 600 according to another embodiment of the present invention is provided with a probe 615 made of a transparent material so that the body temperature can be measured without using the probe cover separately. The configuration of the ear thermometer 100 according to one embodiment of the present invention described above is the same as that of the ear thermometer 600 according to another embodiment of the present invention.

It will be understood by those of ordinary skill in the art that the foregoing description of the embodiments is for illustrative purposes and that those skilled in the art can easily modify the invention without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

100, 600: Ear thermometer 105, 605:
110: protective cover 115, 615: filter mounting part
120: probe cover 125, 625: ultraviolet radiation outlet
127: operating block 128: cover switch
135, 137: ultraviolet ray heat sink 140: ultraviolet ray generating element
150, 151, 152: sensor heat sink 160: fastening means

Claims (17)

A body having a sensor for measuring body temperature inside thereof and an ultraviolet ray generating element;
A filter mounting part protruding from one side of the main body;
A probe cover detachably attached to the outer circumferential surface of the filter mounting portion, the probe cover being insertable into the ear; And
An ultraviolet ray outlet provided in the filter mounting portion for emitting ultraviolet rays generated from the ultraviolet ray generating element,
. The method according to claim 1,
A protective cover detachably attached to the main body and having an inner surface for reflecting ultraviolet rays emitted from the ultraviolet ray exit port to the probe cover,
Further comprising an ear thermometer. 3. The method of claim 2,
Wherein the inner surface of the protective cover has a surface structure that irregularly reflects the ultraviolet light. 3. The method of claim 2,
Wherein the ultraviolet ray generating element automatically generates ultraviolet rays when the protective cover is attached to the main body. 3. The method of claim 2,
Wherein the protective cover and the main body have a coupling sensor for detecting whether or not the protective cover and the main body are engaged,
Wherein the ultraviolet ray generating element generates ultraviolet rays when the protective cover is attached to the main body. The method according to claim 1,
Wherein the ultraviolet light has a wavelength of at least one of a wavelength band of 250 nm to 255 nm. The method according to claim 1,
An optical fiber provided in the main body and transmitting ultraviolet rays generated from the ultraviolet ray generating element to the ultraviolet ray emitting port,
Further comprising an ear thermometer. The method according to claim 1,
Wherein the main body is provided with a switch for turning on / off the operation of the ultraviolet ray generating element. The method according to claim 1,
The plurality of ultraviolet ray generating elements and the ultraviolet ray emitting ports are provided,
Wherein the plurality of ultraviolet ray emitting ports are provided in a circular shape while maintaining equal intervals in the filter mounting portion. The method according to claim 1,
An ultraviolet ray heat sink for discharging heat generated when ultraviolet rays are generated from the ultraviolet ray generating element to the outside,
Further comprising an ear thermometer. 11. The method of claim 10,
The ultraviolet ray heat sink
An internal heat sink provided in the main body and coupled with the ultraviolet ray generating element; And
A protective cover that reflects the ultraviolet rays emitted from the ultraviolet ray exit port to the probe cover, and an external heat sink coupled to the body and surrounding the internal heat sink,
. The method according to claim 1,
A sensor heat sink provided inside the filter mounting part for blocking external heat acting on the sensor,
Further comprising an ear thermometer. A body having a sensor for measuring body temperature inside thereof and an ultraviolet ray generating element;
A probe protruding from one side of the main body and formed of a transparent material, the probe being insertable into the ear;
An ultraviolet ray outlet provided in the probe for emitting ultraviolet rays generated from the ultraviolet ray generating element; And
A protective cover detachably attached to the main body and having an inner surface for reflecting ultraviolet rays emitted from the ultraviolet ray exit port to the probe,
. 14. The method of claim 13,
Wherein the inner surface of the protective cover has a surface structure that irregularly reflects the ultraviolet light. 14. The method of claim 13,
An ultraviolet ray heat sink for discharging heat generated when ultraviolet rays are generated from the ultraviolet ray generating element to the outside,
Further comprising an ear thermometer. 14. The method of claim 13,
An optical fiber provided in the main body and transmitting ultraviolet rays generated from the ultraviolet ray generating element to the ultraviolet ray emitting port,
Further comprising an ear thermometer. 14. The method of claim 13,
Wherein the ultraviolet light has a wavelength of at least one of a wavelength band of 250 nm to 255 nm.

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