KR101953878B1 - An infrared flame detector with analog and digital sensors - Google Patents

Abstract

The present invention relates to an analog and digital sensor hybrid type infrared ray flame sensor. More specifically, the flame sensor simultaneously includes an analog infrared ray sensor and a digital infrared ray sensor. The analog infrared ray sensor having a sensing area which is relatively wide and long effectively senses fires within the sensing area, and at the same time, the digital infrared ray sensor having excellent sensing accuracy accurately senses infrared rays generated near the flame sensor to minimize malfunction factors of the flame sensor and sense explosive fires following strong flash which is beyond sensing level of the analog infrared ray sensor. Therefore, it is possible to have wide sensing area and high sensing accuracy and effectively sense super sever flame including explosive flame to increase reliability for flame sensing by combining an analog infrared ray sensor and a digital infrared ray sensor which have different characteristics.

Description

[0001] The present invention relates to an infrared flame detector,

The present invention relates to an analog and digital sensor hybrid infrared flame sensor, and more particularly, to a flame sensor having a plurality of infrared sensors having different sensing areas, and having a relatively wide and long sensing area, It is equipped with an analog infrared sensor that can distinguish between fire and non-fire factors, and a digital infrared sensor that is easy to detect close to the flame sensor and has high detection accuracy. By constructing the sensor part of the detector, it is possible to detect effectively the fire inside the sensing area through the analog infrared sensor having a relatively wide sensing area and to accurately detect the infrared ray generated near the flame sensor through the digital infrared sensor, To detect By combining the analog infrared sensor and the digital infrared sensor with different characteristics, it is possible to detect explosion fire accompanied by a strong flash that goes beyond the detection level of the analog infrared sensor while minimizing the malfunction of the flame detector. And more particularly, to an analog and digital sensor hybrid infrared flame detector capable of effectively detecting an ultra-strong flame such as an explosive flame and enhancing reliability of fire detection.

Generally, in large buildings, factories, power plants or other fire-sensitive areas, automatic flame detectors are installed to prevent fire.

The flame detector detects a specific wavelength range of ultraviolet (UV) emitted from a flame generated at the time of a fire or infrared rays (IR) through a sensor and detects a flame generation at the beginning of the fire It is a type of fire detector with fast response time.

In other words, such a flame detector comprises an ultraviolet ray sensor for detecting an ultraviolet ray emitted from a flame or an infrared ray sensor for detecting infrared ray emitted from a flame. In recent years, both the ultraviolet ray sensor and the infrared ray sensor Or a plurality of infrared sensors having different wavelength detection bands are provided to constitute the flame sensor, so that flame detection efficiency can be increased when a fire occurs.

Japanese Unexamined Patent Application Publication No. 2003-263688 discloses an infrared ray sensor having three infrared ray sensors for detecting infrared rays of different wavelengths as an example of the above flame detector technology. Korean Patent No. 1,604,571 Discloses a flame sensor having three infrared sensors for detecting infrared rays of different wavelengths and an ultraviolet sensor for detecting ultraviolet rays.

In the flame sensor according to the related art as described above, an analog infrared ray sensor capable of detecting a relatively long distance and easy to adjust the detection level is used. The infrared ray is effectively used to distinguish the infrared ray radiated from a temporary flame generated in a heating device, a lighter flame, a lamp or the like or a strong flash generated by welding or the like.

However, the conventional flame detector includes three infrared sensors having different wavelength bands, and detects the occurrence of a fire by detecting infrared rays from fires occurring in the vicinity of the flame sensor or at a remote place, , Welding, infrared rays emitted from a lamp or human body to distinguish between fire and non-fire factors. However, fire accompanied by strong flashes accompanied by super-strong flames such as explosive fire is generated close to the flame detector The detection level of the infrared sensor of the analog type is exceeded and the clear determination of the occurrence of the fire is not performed properly. Accordingly, the explosion fire can not be detected immediately after the fire occurs, As a result of delayed response to fire, it can lead to a large loss. , Whereby there is poor reliability of the flame detector problems.

1. A " flame detector " of Japanese Patent Laid-Open Publication No. 2003-263688 (published on September 19, 2003) 2. "Three-wave decorative infrared flame detector with ultraviolet sensor" of Korean Registered Patent No. 1,604,571 (Registered on Feb. 31, 2016)

SUMMARY OF THE INVENTION The present invention is conceived to solve the problems described above, and it is an object of the present invention to provide a flame sensor having a plurality of infrared sensors having different sensing areas, having a relatively wide and long sensing area, It is equipped with an analog type infrared sensor that can distinguish non-fire factors, a digital infrared sensor that is easy to detect near the flame sensor and has high detection accuracy and high accuracy of detection, By using the analog infrared sensor having a relatively wide sensing area, it is possible to detect effectively the fire in the sensing area, and the infrared ray sensor can accurately detect the infrared ray generated near the flame sensor through the digital infrared sensor having high detection accuracy, Malfunction of The combination of an analog infrared sensor and a digital infrared sensor with different characteristics makes it possible to detect an explosive fire accompanied by a strong flash that goes beyond the detection level of the analog infrared sensor while being extinguished. And an object of the present invention is to provide an analog and digital sensor hybrid infrared flame detector which can effectively detect an ultra-strong flame such as an explosive flame and enhance the reliability of fire detection.

According to an aspect of the present invention, there is provided an infrared flame detector comprising: a main body having an infrared sensor; A plurality of infrared sensors provided in the main body and sensing a flame through an incident infrared ray; And a controller for determining whether a fire has occurred based on a sensing signal sensed by the plurality of infrared sensors, wherein the plurality of infrared sensors include one digital infrared sensor and two analog infrared sensors And the two analog infrared sensors each have a different flame detection area.

An analog and digital sensor hybrid infrared flame sensor according to the present invention includes an analog infrared sensor and a digital infrared sensor at the same time as a flame sensor and effectively detects a fire in a detection area through an analog infrared sensor having a relatively wide and long detection area At the same time, the digital infrared sensor that has excellent detection accuracy accurately detects the infrared ray coming close to the flame sensor, minimizing the malfunction of the flame sensor, and the explosive fire accompanied by the strong flash that goes beyond the detection level of the analog infrared sensor By combining the analog infrared and digital infrared sensors with different characteristics, it has a wide detection range and high detection accuracy, and it can effectively detect super-strong flames such as explosive flames, It is possible to improve the reliability.

Further, the flame sensor further includes an image camera and a thermal image camera to provide a photographed image of the detection area of the flame sensor through the image camera, and to provide thermal image data of the detection area through the thermal camera In addition, it is possible to quickly detect even a small fire when a fire occurs through heat tracing, thereby further enhancing the reliability of fire detection.

1 is an exploded perspective view showing the entire structure of an analog and digital sensor hybrid infrared flame sensor according to an embodiment of the present invention;
FIG. 2 is a perspective view of the combined infrared flame sensor of FIG.
3 is a view showing a flame detection area of each of the first to third infrared sensors in an embodiment of the present invention;
4 and 5 are diagrams showing a detection signal of an analog infrared sensor according to an infrared ray detection in an embodiment of the present invention
6 is a diagram showing a detection signal of a digital infrared sensor according to an infrared ray detection in an embodiment of the present invention
7 is a view showing a structure in which an image camera and a thermal imaging camera are additionally provided in an analog and digital sensor hybrid infrared flame detector according to an embodiment of the present invention

Hereinafter, the embodiments of the present invention will be described in detail, but the present invention is not limited to the following embodiments unless they depart from the gist of the present invention.

FIG. 1 is an exploded perspective view showing an overall structure of an analog and digital sensor hybrid type infrared flame sensor according to an embodiment of the present invention, FIG. 2 is an assembled perspective view of the hybrid infrared flame sensor according to FIG. 1, In one embodiment, the flame detection region of each of the first to third infrared sensors is shown.

As shown in FIGS. 1 to 3, the analog and digital sensor hybrid infrared flame detector according to an embodiment of the present invention includes a main body 110 installed in a space for fire monitoring; A plurality of infrared sensors (121, 122, 123) provided in the main body (110) and sensing a flame through an incident infrared ray; And a controller 130 for determining whether a fire has occurred based on a sensing signal sensed by the plurality of infrared sensors 121, 122, and 123.

Here, the plurality of infrared sensors 121, 122, and 123 may include one digital infrared sensor 123 and two analog infrared sensors 121 and 122, and the two analog infrared sensors may have different flame detection areas .

That is, the analog and digital sensor hybrid infrared flame sensor according to an embodiment of the present invention configured as described above includes a plurality of infrared sensors having different sensing areas to form a flame sensor, and has a relatively wide and long sensing area Analog type infrared sensor that distinguishes fire occurrence and non-fire cause through detection level setting, and digital infrared sensor which is easy to detect close to the flame sensor and has high detection accuracy because of high sensitivity of detection signal. By constructing the sensor part of the flame detector simultaneously, it is possible to effectively detect the fire in the detection area through the analog infrared sensor having a relatively wide detection area, and to be close to the flame sensor through the digital infrared sensor having high detection accuracy To be precisely infrared It is possible to detect explosive fire accompanied by a strong flash that goes beyond the detection level of the analog infrared sensor while minimizing the malfunction of the flame detector. By combining the analog infrared sensor and the digital infrared sensor with different characteristics , A wide sensing area and a high detection accuracy, and an ultra-strong flame such as an explosive flame is effectively sensed, thereby enhancing the reliability of fire detection.

In the following embodiments, the structure of an analog and digital sensor hybrid infrared flame sensor according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

Prior to the description, the flame sensor having a structure in which three infrared sensors having different sensing regions are described will be described in detail. However, the present invention is not necessarily limited thereto. In the flame sensor, It is needless to say that two or more infrared sensors other than two or four or more may be applied.

The main body 110 constitutes an appearance of the flame detector and is fixed to a ceiling, a wall, or the like of a space for fire monitoring.

1 and 2, the main body 110 may include a base body 111 fixed to a ceiling or a wall, and a cover 112 covering the base body 111, The infrared sensor 121, the second infrared sensor 121, the second infrared sensor 121, the second infrared sensor 121, and the controller (not shown) can be protected from the external environment by incorporating the first through third infrared sensors 121, .

The cover surface of the cover 112 corresponding to the first to third infrared sensors 121, 122 and 123 is formed as a transparent window so that the front and the side of the sensor can be detected through the infrared sensors 121, So that it can be effectively detected.

The first to third infrared sensors 121, 122, and 123 provided in the flame sensor have different sensing areas and can detect the occurrence of fire by detecting infrared rays emitted from the flame when a fire occurs.

In this case, in the case of the three infrared sensors 121, 122 and 123 included in the flame sensor of the present embodiment, the two infrared sensors 121 and 122 are composed of an analog infrared sensor capable of sensing a wide area effectively, And the other infrared sensor 123 may be a digital infrared sensor capable of accurately detecting infrared rays generated in the area around the flame sensor because of its excellent detection accuracy.

Here, in the case of the infrared sensor of the analog type, it is possible to detect a relatively long distance and adjust the sensing level relatively more than the infrared sensor of the digital type, and it is usually applied to the flame sensor, Depending on the distance or surrounding environment, the sensing signal generated by the sensor is affected by noise.

In addition, in the case of a digital infrared sensor, there is a disadvantage in that the sensing distance is relatively shorter than that of an analog infrared sensor, but there is an advantage in that the accuracy of the sensing result is high due to excellent sharpness of the sensing signal.

Accordingly, in the present invention, the sensor structure of the flame sensor is constituted by the combination of the two analog infrared sensors and the one digital infrared sensor, so that the two analog infrared sensors can detect a wide flame from the flame sensor to the middle / One digital infrared sensor with a short detection range but high detection accuracy can detect the infrared rays generated around the flame sensor accurately and detect the malfunction factor of the flame sensor And it is possible to effectively detect an explosive fire or the like. Accordingly, it is possible to effectively detect a wider range by using three infrared sensors having different sensing areas.

3, among the first to third infrared sensors 121, 122 and 123 (see FIG. 2) provided in the flame sensor, the first infrared sensor 121 (see FIG. 2 May have a sensing area S1 including front and front sides of the flame sensor and may be formed to have a sensing area S1 that radiates in a heart or fan shape from the front of the flame sensor as a whole.

At this time, the sensing area S1 of the first infrared sensor may be formed as a sensing area ranging from about 30m to 35m from the flame sensor.

The second infrared sensor 122 (see FIG. 2) of the analog system senses the front of the flame sensor and is configured to have a sensing area S2 having a longer distance than the sensing area S1 of the first infrared sensor, The infrared ray can be detected at a distance farther than the first infrared ray sensor 121 (see FIG. 2), but the width of the detection region is formed to be narrower than the detection region S1 of the first infrared ray sensor.

Here, the sensing area S2 of the second infrared sensor may be formed as a sensing area in a range of about 50 m to 60 m from the flame sensor.

In addition, the digital third infrared sensor 123 has a sensing area S3 for sensing the periphery of the flame sensor, and a sensing area of about 5m to 10m from the flame sensor may be formed as the sensing area.

3, the first to third infrared sensors 121, 122 and 123 included in the flame sensor according to the present embodiment are arranged such that the first infrared sensor 121 (see FIG. 2) And the second infrared ray sensor 122 (see FIG. 2) can easily detect the front of the flame detector to a long distance, And the third infrared sensor 123 (see FIG. 2) has a sensing area S3 for sensing near the periphery of the flame sensor. Thus, 3 infrared sensors 121, 122, 123 (see FIG. 2), it is possible to effectively detect the occurrence of fire in a wider range.

In addition, the flame sensor according to the present embodiment effectively detects infrared rays emitted from the flame at the time of fire occurrence by adjusting the detection levels of the first and second infrared sensors 121 and 122, And the infrared ray emitted from a strong flash generated by welding or the like can be distinguished as a non-fire factor.

In addition, in the case of the third infrared sensor 123, which is made of a digital system having a high definition of the detection signal, the infrared sensor 123 detects the infrared rays generated in proximity to the flame sensor for sensing the surroundings of the flame sensor. For example, Effectively detects infrared rays emitted from a person or infrared rays emitted from nearby hot objects, and transmits a detection signal to a control unit (not shown), thereby effectively preventing a malfunction of the flame detector due to infrared rays generated outside the flame around the flame sensor .

Particularly, such a third infrared sensor 123 can effectively detect an ultra-strong flame such as an explosive fire generated in the vicinity of the flame sensor.

That is, although the first and second infrared sensors 121 and 122, which are configured in an analog manner, detect the occurrence of fire by detecting infrared rays from fires occurring in the vicinity of the flame sensor or at a remote place, When a fire accompanied by a strong flash such as a fire occurs, the infrared ray emitted from a strong flash beyond the detection level can not be recognized. Therefore, a third type infrared infrared sensor 123 having a high detection sensitivity and high detection accuracy ) To detect explosive fires in the vicinity of the flame detector.

In other words, when a fire accompanied by strong strobe light occurs in the vicinity of the flame sensor, the third infrared sensor 123, which is configured in a digital manner, outputs a digital sensor value according to infrared ray detection and transmits the digital sensor value to a control unit Accordingly, the control unit (not shown) can analyze explosion fire by analyzing the change pattern of the digital sensor value.

4 and 5 are views showing a detection signal of an analog infrared sensor according to an infrared ray detection according to an embodiment of the present invention. FIG. 6 is a diagram illustrating a detection signal of a digital infrared ray sensor according to an embodiment of the present invention. FIG.

When an infrared ray is detected, an analog infrared ray sensor generates a detection signal of a waveform. As shown in FIG. 4, a wavelength of a sensing signal is generated between a maximum sensing level and a minimum sensing level, The control unit determines that a fire has occurred.

5 (a), when the wavelength of the sensing signal is lower than the minimum sensing level, the control unit regards the infrared rays emitted from relatively weak flashes generated in a heating device, a lighter, a lamp, As shown in FIG. 5 (b), when the sensing signal is saturated at a level higher than the maximum sensing level, it is regarded as an infrared ray emitted from a strong flash generated by welding or the like. .

That is, as shown in FIG. 5 (b), when a temporary flash caused by welding or the like is generated within the sensing area of the analog infrared sensor, the signal sensed by the analog infrared sensor is saturated When a saturation state of the sensing signal is generated, it is regarded as an infrared ray emitted from a strong flash generated by welding or the like and is treated as a non-fire factor.

However, even in the case of a strong explosive fire caused by an explosive in the vicinity of the flame detector, a strong flash is generated as in the case of welding. At this time, the analog infrared sensor also reaches a saturated state of the detection signal. An error is generated that is treated as a non-fire factor.

In contrast, as shown in FIG. 6, the digital infrared sensor outputs a digital sensor value according to the infrared ray detection and transmits the digital sensor value to the controller, thereby analyzing the change pattern of the digital sensor value through the controller, It is possible to effectively detect an ultra-strong flame such as an explosive fire which can not be detected by an analog type infrared sensor as well as a malfunction of the flame detector.

That is, when an analog infrared ray sensor and a digital infrared ray sensor are used together as in the present invention, even when the detection signal saturation due to flashing occurs in the analog infrared ray sensor, analysis of the sensed digital sensor value through the digital infrared ray sensor It is possible to make an accurate judgment of the occurrence of fire accordingly.

As described above, according to the present invention, the analog type infrared sensor and the digital type infrared ray sensor are provided at the same time, and the presence or absence of a fire in the detection area is effectively detected through the analog infrared ray sensor having a relatively wide detection area, The digital infrared sensor with excellent detection accuracy accurately detects the infrared rays coming close to the flame detector, minimizes the malfunction of the flame detector, and effectively detects the explosive fire accompanied by the strong flash that goes beyond the detection level of the analog infrared sensor So that the reliability of fire detection can be enhanced.

On the other hand, the control unit (not shown) determines whether a fire or a fire has occurred based on the detection signals transmitted through the first to third infrared sensors 121, 122 and 123. The control unit includes at least one circuit board, And controls the first through third infrared sensors 121, 122 and 123 based on the fire detection algorithm and detects the fire and the non-fire based on the detection signals transmitted from the first through third infrared sensors 121, 122 and 123, And a microprocessor (not shown) for determining whether or not the microcomputer 10 is operating.

 1, the first to third infrared sensors 121, 122 and 123 are provided at the front end of a circuit board (not shown) of the control unit (not shown) exposed to the outside, and at the front end of the circuit board exposed to the outside, And an LED (light emitting diode) 140 for visually displaying status information of the LED 140.

For example, at least one LED 140 may be provided to emit light of different colors according to a monitored state and a fire detection state, so that the external person can easily recognize the fire monitoring state by checking the flame sensor .

In addition, the flame detector thus constructed is connected to a monitoring system for monitoring a fire situation via wired / wireless communication, and when a fire occurs, it can be detected and notified to a manager through a monitoring system.

Meanwhile, the flame sensor configured as described above may further include an image camera and a thermal image camera.

7 is a view showing a structure in which an image camera and a thermal camera are additionally provided in an analog and digital sensor hybrid infrared flame detector according to an embodiment of the present invention.

As shown in FIG. 7, the flame sensor according to the present embodiment may be provided with an infrared camera 121, a infrared camera 121, and an infrared camera 160, in addition to the infrared camera 121,

That is, the sensing area of the flame sensor may be photographed through the image camera 150 and the photographed image may be stored in the memory, or the photographed image data may be transmitted to the external manager through the communication module provided in the flame sensor.

In addition, the thermal imaging camera 160 is configured to supplement fire detection by the infrared sensors 121, 122, and 123, and traces the heat through the thermal imaging camera 160 to quickly detect a small fire when a fire occurs The thermal image data photographed through the thermal imaging camera 160 may be stored in a memory or transmitted to an external manager.

As described above, the analog and digital sensor hybrid infrared flame sensor according to the present invention includes an analog infrared sensor and a digital infrared sensor at the same time as the flame sensor, and is provided with an analog infrared sensor having a relatively wide and long detection area, The sensor detects the fire inside the flame sensor, and at the same time, it detects the infrared ray near to the flame sensor through the digital infrared sensor with excellent detection accuracy, minimizes the malfunction of the flame sensor, By detecting the explosive fire accompanied by a combination of analog infrared and digital infrared sensors with different characteristics, it has a wide detection range and high detection accuracy, and it is effective for super strong flames such as explosive flames To detect it is possible to improve the reliability of fire detection.

Further, the flame sensor further includes an image camera and a thermal image camera to provide a photographed image of the detection area of the flame sensor through the image camera, and to provide thermal image data of the detection area through the thermal camera In addition, it is possible to quickly detect even a small fire when a fire occurs through heat tracing, thereby further enhancing the reliability of fire detection.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. .

110: main body 111: base body
112: cover 121: first infrared sensor
122: second infrared sensor 123: third infrared sensor
140: LED 150: Imaging camera
160: infrared camera S1: detection area of the first infrared sensor
S2: detection area of the second infrared sensor S3: detection area of the third infrared sensor

Claims (8)

In an infrared flame detector,
A main body having an infrared sensor;
A plurality of infrared sensors provided in the main body and sensing a flame through an incident infrared ray; And
A controller for determining whether a fire has occurred based on a sensing signal sensed by the plurality of infrared sensors;
, ≪ / RTI >
The plurality of infrared sensors include:
It consists of one digital infrared sensor and two analog infrared sensors,
Wherein each of the two analog infrared sensors has a different flame detection area.
The method according to claim 1,
The two analog infrared sensors include:
A first infrared sensor having a sensing region including front and front sides of the flame sensor and having a sensing region radiating in a heart or a fan shape from the front of the flame sensor as a whole,
And a second infrared sensor for sensing the front of the flame sensor and having a sensing area for sensing a longer distance with a relatively narrower width than the sensing area of the first infrared sensor.
3. The method of claim 2,
Wherein the first infrared sensor comprises:
Detects sparks in the range of 30m to 35m from the flame detector,
Wherein the second infrared sensor comprises:
It detects fireworks ranging from 50m to 60m from the flame detector,
The digital infrared sensor includes:
Wherein the flame detector is configured to detect flames ranging from 5 m to 10 m from the flame detector.
The method according to claim 1,
Wherein,
Wherein the plurality of infrared sensors and the cover front corresponding to the plurality of infrared sensors are formed as transparent windows.
The method according to claim 1,
Wherein,
And at least one circuit board provided in the main body part.
The method according to claim 1,
In the flame sensor,
And an LED for visually displaying an operating state of the flame detector and whether or not the fire is monitored.
The method according to claim 1,
In the flame sensor,
And an image camera for photographing a detection area of the flame detector is further provided.
The method according to claim 1,
In the flame sensor,
And an infrared camera for photographing a thermal image of the detection area of the flame sensor is additionally provided.

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