KR20240008623A - black body - Google Patents

Abstract

The present invention relates to a black body installed outdoors to calibrate temperature measurement of a thermal imaging camera, comprising: a heating plate that emits radiant heat detected by the thermal imaging camera; a heating element formed behind the heating plate to provide heat to the heat sink; a temperature sensor formed on one side of the heating element to measure the heat of the heating plate; a control board that controls the heating element and the temperature sensor; a main body portion including a housing that makes the heating plate visible in the front and accommodates the heating element, the temperature sensor, and the control board therein; a cover formed outside the main body to seal the main body so that it is not affected by outdoor weather; a pan-tilt portion formed at a lower portion of the housing portion to adjust the direction of the main body portion so that the heating plate faces the thermal imaging camera; A wireless communication module formed inside the main body to be connected to the control board to wirelessly control the main body.

Description

black body

The present invention relates to a black body that corrects the temperature measurement of a thermal imaging camera, and more specifically, to a black body that is installed outdoors, is not affected by climate, has an adjustable direction, and is controlled wirelessly.

Generally, non-contact temperature measuring devices include infrared thermometers and thermal imaging cameras.

A thermal imaging camera is a device that tracks and detects heat and displays it at a glance on a screen. While the human eye or general cameras detect visible light, thermal imaging cameras detect radiant heat (mainly infrared) emitted by hot objects and display it on the screen. Thanks to this, thermal imaging cameras can see objects regardless of the presence or absence of lighting, and unlike visible light, the long-wave infrared rays used by thermal imaging cameras can easily penetrate smoke, etc., so they can also see objects behind various obstacles that cannot be seen with the naked eye. there is.

Therefore, thermal imaging cameras are widely used in screening for febrile infectious diseases. If the accuracy of temperature measurement is low, a person suspected of having a fever may be judged as normal or the opposite may be obtained. Therefore, in order to accurately measure body temperature, thermal imaging is required. The temperature measurement on the camera must be calibrated to a temperature reference point.

At this time, the optical reference point that provides the temperature reference point to the thermal imaging camera is a black body.

Technology for black bodies is disclosed in Republic of Korea Patent Publication No. 10-2395419.

According to the above technology, a conventional black body is installed next to the inspection object or in front of the thermal imaging camera so that the thermal imaging camera can always maintain a calibrated state. The black body provides a reference temperature point in the field of view of the thermal imaging camera during body temperature measurement. It played a role in lowering the possibility of measurement errors occurring.

However, the conventional black body did not have any major problems when installed indoors with a thermal imaging camera, but caused the following problems when installed outdoors.

First, conventional black bodies are vulnerable to outdoor weather conditions such as temperature, humidity, and rain, so they cannot provide an accurate reference temperature point to a thermal imaging camera.

In addition, there are cases where the conventional black body is turned outdoors by strong wind and does not look toward the thermal imaging camera. There was the inconvenience of having to move to a blackbody installed outdoors and adjust the direction of the conventional blackbody so that it faces the thermal imaging camera.

In addition, since the conventional black body is controlled by being connected to the manager PC with a thermal imaging camera by wire, when the conventional black body is outdoors and far away from the manager PC, a long wire is required, resulting in high installation costs and a long wire. There was also a risk of injury if one stepped on it.

Republic of Korea Patent Publication No. 10-2395419

The present invention is intended to solve the above-described problems, and aims to provide a black body that is not affected by the weather outdoors and can be wirelessly connected to and controlled by an administrator PC.

In order to achieve the above object, the present invention is a black body installed outdoors to calibrate the temperature measurement of a thermal imaging camera, comprising a heating plate that emits radiant heat detected by the thermal imaging camera, and a heating plate formed behind the heating plate to A heating element that provides heat to the heat sink, a temperature sensor formed on one side of the heating plate to measure the temperature of the heating plate, a control board that controls the heating element and the temperature sensor, and the heating plate being open to the front, , a main body portion including a housing accommodating the heating element, the temperature sensor, and the control board therein, respectively; a cover formed outside the main body to seal the main body so that it is not affected by outdoor weather; a pan-tilt portion formed at a lower portion of the cover portion to adjust the direction of the main body portion so that the heating plate faces the thermal imaging camera; A wireless communication module is formed inside the main body and connected to the control board to wirelessly control the main body and the pan/tilt unit.

Additionally, in the present invention, the cover part. a body accommodating the main body portion therein; a glass formed in front of the body to allow the temperature measuring device to transmit and measure radiant heat emitted from the heating plate; It may include a cover formed at the rear of the body to open and close the interior of the body.

Additionally, in the present invention, the glass may include one formed of a germanium material.

Additionally, in the present invention, the pan/tilt portion includes a holder portion formed to be fixed to the lower portion of the housing; a mounting portion formed to rotatably support both sides of the holder portion and rotating the holder portion in an upward and downward direction by a first rotation means; a support portion formed to rotatably support the lower portion of the mounting portion and rotating the mounting portion in the left and right directions by a second rotation means; It may include a switch unit formed at a lower part of the support unit to control the first rotation means and the second rotation means and to be connected to the control board.

Additionally, in the present invention, the first rotation means may include a first drive motor that is fixed to one side of the mounting portion and rotates one side of the holder portion.

Additionally, in the present invention, the second rotation means may include a second drive motor that is fixed to the upper part of the support part and rotates the lower part of the mounting part.

Additionally, in the present invention, the wireless communication module unit may include a Wi-Fi module or a Bluetooth module.

Additionally, in the present invention, the heating plate may be formed of a copper material, and may include a black pigment applied to the surface.

Through the above configuration, the black body according to an embodiment of the present invention can provide an accurate reference temperature point to the thermal imaging camera through the cover part without being affected by climate such as temperature, humidity, and rain outdoors.

Additionally, if the black body is not facing the thermal imaging camera and its direction is deviated, the direction of the black body can be easily adjusted through the pan-tilt unit.

In addition, since the black body is wirelessly connected to the manager PC through a wireless communication module, it is easy to control the black body.

1 is a diagram showing the installation state of a black body according to an embodiment of the present invention.
Figure 2 is a diagram showing the main body of a black body according to an embodiment of the present invention.
Figure 3 is a diagram showing a cover portion of a black body according to an embodiment of the present invention.
Figure 4 is a diagram showing a pan-tilt portion of a black body according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the black body according to the present invention will be described in more detail based on the attached drawings.

Here, in all the drawings below, components having the same function are given the same reference numerals, and repeated descriptions are omitted. In addition, the terms described below are defined in consideration of the functions in the present invention, and this is a unique commonly used term. It must be interpreted with meaning. Additionally, in describing the present invention below, if a detailed description of a related known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Additionally, when a part is said to 'include' a certain component, this does not mean that other components are excluded, but that it can further include other components, unless specifically stated to the contrary.

Figure 1 is a diagram showing the installation state of a black body according to an embodiment of the present invention, Figure 2 is a diagram showing the main body of a black body according to an embodiment of the present invention, and Figure 3 is an embodiment of the present invention. This is a diagram showing the cover part of a black body according to , and Figure 4 is a diagram showing a pan-tilt part of a black body according to an embodiment of the present invention.

As shown in the drawing, the present invention is a black body 1000 installed outdoors to calibrate temperature measurement of a thermal imaging camera (C), and its composition includes a main body 100, a cover 200, and It is roughly divided into a pan/tilt unit (300) and a wireless communication module (400).

Referring to FIG. 2, the main body 100 is a component responsible for temperature measurement calibration of a thermal imaging camera, and includes a heating plate 110, a heating element 120, a temperature sensor 130, and a control board 140. ) and a housing 150.

The heating plate 110 has a square shape, is located in front of the housing 150, and is made of copper material to emit radiant heat detected by the thermal imaging camera (C), and black pigment is applied to the surface. .

As an example, the heating plate 110 is made of copper, but it can be made of other materials as long as it can emit radiant heat detected by the thermal imaging camera P.

The heating element 120 is accommodated inside the housing 150, is attached to the rear of the heating plate 110, provides heat to the heat sink 110, and is controlled by the control board 140. ,

The heating element 120 is preferably formed of a Peltier element that generates heat at the joint portion according to the direction of the current when two different types of metal are joined and an electric current passes through them.

The temperature sensor 130 is accommodated inside the housing 150 and is formed on one side of the heating plate 110 to measure the temperature of the heating plate 110 and provide the temperature to the control board 140.

The control board 140 is accommodated inside the housing 150, reads the temperature of the temperature sensor 130 in real time in analog form, and is configured to control the temperature of the heating element 120 with a PWM signal.

The housing 150 has a rectangular box shape, and the front is formed to be open so that the heating plate 110 is positioned and fixed. Inside, the heating element 120, the temperature sensor 130, and the control board 140 are included. A space is formed where the is accommodated and fixed.

Accordingly, the main body 100 provides a temperature reference point to the thermal imaging camera C through the operation of the heating plate 110, the heating element 120, the temperature sensor 130, and the control board 140, The temperature measurement of the thermal imaging camera (P) can be calibrated.

Referring to FIG. 3, the cover part 200 is composed of a body 210, a glass 220, and a cover 230 to seal the main body 100 from being affected by outdoor weather.

The body 210 is formed in a square box shape to correspond to the shape of the main body 100, and a space for accommodating the main body 100 is formed inside.

The internal space of the body 210 is sized so that the main body 100 can be inserted or taken out, and the main body 100 can be fixed so that it does not move when the main body 100 is inserted.

The glass 220 is formed to be fixed to the front of the body 210 so that the thermal imaging camera P can transmit and measure the radiant heat emitted from the heating plate 110.

The glass 220 is preferably made of germanium material with high infrared transmittance.

The cover 230 is located at the rear of the body and is formed to open and close the interior of the body 210. In one embodiment, the cover 220 is made of a rubber material and can be formed to be press-fitted to the rear of the body 210 and separated.

Therefore, the cover part 200 accommodates the main body part 100 inside and seals it, so that the main body part 100 of the black body 1000 is not affected by outdoor weather such as temperature, humidity, and rain, and is not affected by the glass ( 220), an accurate reference temperature point can be provided to the thermal imaging camera (P).

Referring to FIG. 4, the pan-tilt part 300 is located at the lower part of the cover part 200, and the main body part 100 is oriented so that the heating plate 110 faces the thermal imaging camera (P). In order to adjust, it consists of a holder part 310, a mounting part 320, a support part 330, and a switch part 340.

The holder part 310 is formed to be fixed to the lower part of the cover part 200 using a fixing means. The fixing means may be a fastening bolt or bulk tape.

The mounting portion 320 is formed to rotatably support both sides of the holder portion 310, and is formed to rotate the holder portion 310 in the up and down direction by the first rotation means 350.

The support portion 330 is formed to rotatably support the lower portion of the mounting portion 320, and is formed to rotate the mounting portion 320 in the left and right directions by the second rotation means 360.

The switch unit 340 is formed at the lower part of the support unit 330 and is connected to the control board 140 to control the first rotation means 350 and the second rotation means 360.

The first rotation means 350 is fixed to one side of the mounting portion 320 and is formed as a first driving motor that rotates one side of the holder portion 310, and the second rotation means 360 is connected to the support portion. It is preferable that the second drive motor is fixed to the upper part of 330 and rotates the lower part of the mounting part 320.

Therefore, when the black body 100 is turned away from facing the thermal imaging camera (P), the main body 100 faces the thermal imaging camera (P) through the pan-tilt unit 300. The direction of (100) can be easily adjusted.

The wireless communication module 400 is formed inside the main body 100 to be connected to the control board 140 in order to wirelessly control the main body 100 and the pan/tilt unit 300.

The wireless communication module unit 400 is formed as a Wi-Fi module that transmits and receives signals to and from a router connected wired and wirelessly to the administrator PC (A), or a Bluetooth module that transmits and receives signals to the administrator PC (A).

Therefore, as the main body 100 and the pan-tilt part 300 of the black body 1000 are wirelessly connected to the manager PC (A) through the wireless communication module 400, control of the black body 1000 is easy. .

1000: black body
100: main body
110: heating plate
120: Heating element
130: temperature sensor
140: control board
150: housing
200: Cover part
210: body
220: Glass
230: cover
300: Pan tilt unit
310: Holder part
320: Holder
330: support part
340: switch part
350: first rotation means
360: second rotation means
400: Wireless communication module

Claims (8)

A black body installed outdoors to calibrate the temperature measurement of a thermal imaging camera,
a heating plate that emits radiant heat detected by the thermal imaging camera;
a heating element formed behind the heating plate to provide heat to the heat sink;
a temperature sensor formed on one side of the heating plate to measure the temperature of the heating plate;
a control board that controls the heating element and the temperature sensor;
a main body portion including a housing that makes the heating plate visible in the front and accommodates the heating element, the temperature sensor, and the control board therein;
a cover formed outside the main body to seal the main body so that it is not affected by outdoor weather;
a pan-tilt portion formed at a lower portion of the cover portion to adjust the direction of the main body portion so that the heating plate faces the thermal imaging camera;
A wireless communication module formed inside the main body and connected to the control board to wirelessly control the main body and the pan/tilt unit.
According to claim 1,
The cover part,
a body accommodating the main body portion therein;
a glass formed in front of the body to allow the temperature measuring device to transmit and measure radiant heat emitted from the heating plate;
A black body including; a cover formed at the rear of the body to open and close the interior of the body.
According to claim 2,
The glass is a black body including one formed of a germanium material.
According to claim 1,
The pan and tilt unit,
a holder part formed to be fixed to the lower part of the cover part;
a mounting portion formed to rotatably support both sides of the holder portion and rotating the holder portion in an upward and downward direction by a first rotation means;
a support portion formed to rotatably support the lower portion of the mounting portion and rotating the mounting portion in the left and right directions by a second rotation means;
A switch unit formed at a lower part of the support unit to control the first rotation means and the second rotation means and to be connected to the control board.
According to claim 4,
The first rotating means is,
A black body including a first drive motor that is fixed to one side of the mounting portion and rotates one side of the holder portion.
According to claim 4,
The second rotating means is,
A black body including a second drive motor fixed to the upper part of the support part and rotating the lower part of the mounting part.
According to claim 1,
The wireless communication module portion is a black body including a Wi-Fi module or a Bluetooth module.
According to claim 1,
The heating plate is formed of a copper material, and a black body including a black pigment applied to the surface.

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