KR20210041210A - Combined Fire Detector - Google Patents

Abstract

The present invention relates to a combined fire detector and, more specifically, to a combined fire detector capable of integrating different-types of fire detection sensors into one single fire detector to reduce costs more than an existing flame sensing-type fire detector, and enable fire detection quicker and more accurately than a heat or smoke sensing-type fire detector. In other words, the present invention comprises: a housing; a first sensor part installed in the housing to perform sensing through a method excluding a flame sensing method; a second sensor part installed in the housing to sense flames; a filter part installed in a front part of the second sensor part to pass a specific wavelength of light to the second sensor part; and a control part performing control such that a preparatory fire warning is issued when a measurement value sensed through the first sensor part is set to be lower than a reference value of a predetermined fire warning of the first sensor part or exceeds a random operation value, and, in a state in which the preparatory fire warning is generated, a regular fire warning is issued depending on whether the second sensor part senses flames. Therefore, the present invention is capable of significantly reducing product costs and improving the accuracy of fire detection.

Description

Combined Fire Detector

The present invention relates to a composite fire detector, and more specifically, by integrating different fire detection sensors into a single fire detector, it is possible to reduce cost compared to a fire detector of a conventional flame detection method, and to reduce heat or smoke. It relates to a composite fire detector that enables faster and more accurate fire detection than a fire detector of a detection method.

In general, fire detectors must be installed in buildings of a certain size or larger according to the Building Act. Types of fire detectors include a heat detector that can detect the temperature that rises in the event of a fire, a smoke detector that can detect smoke from a fire, and a flame detector that detects smoke or flames when a fire occurs.

Compared in terms of the speed at which these fire detectors detect the occurrence of fire, in the case of a temperature detector, it takes a certain time for the heat raised from the fire source to reach the temperature detector through convection or radiation of air. In the case of the case, there is a problem that it takes a certain time for the smoke generated from the fire source to reach the smoke detector through the flow of air, whereas in the case of the flame detector, the flame detector and the principle of detecting the wavelength of the flame caused by the fire. As another method, it is a CCTV flame detector that determines whether or not there is a flame by analyzing the color of the flame generated from the flame with a CCTV camera. It has the advantage of having a faster and more accurate response than other types of fire detectors.

As such, the flame detector shows a better detection response speed than other types of fire detectors, but the distribution actually applied is not large. For that reason, the price of a flame detector that detects the wavelength of a flame caused by fire is less expensive than smoke or heat. It is relatively expensive than the sensor of the type that detects the light, and it is cheaper than the CCTV type, but the number of distribution is low because it is expensive. The CCTV flame detector that determines whether there is a fire by taking an image with a CCTV camera is visible on the camera. A high-performance central processing unit is indispensable to judge as a spark with only video. This high-performance central processing unit is usually placed in the central server unit room, and Internet facilities to connect with CCTV cameras are required. And the burden of internet installation cost is on the side.

In addition, the detector in the heat detection method, which detects as heat, is transmitted to the detector through radiant heat or air convection due to indoor air flow in the event of a real fire.If a fire occurs at a distance from the detector, the heat is transmitted to the detector after the fire occurs. When the fire alarm occurs because the time to reach this is too long, there are many cases that the fire has already progressed too far. The smoke detector that detects smoke has a slower detection speed than the flame detector, but it is good because the detection speed is faster than the heat detector. B. Since it is easy to operate even with dust or water vapor generated in the kitchen, there is a problem in referring to it as an accurate and no malfunction detector because there are many non-fire reports.

As a related prior art, Patent No. 10-1796054 (a smart fire detection system using an IP network) includes a fire detection sensor having an IP address; A relay hub to which a fire detection sensor is connected; And an IP-type network fire receiver for receiving a fire detection signal from the fire detection sensor, wherein the IP-type network fire receiver includes a data transmission/reception unit for receiving a fire detection signal; A monitor for outputting sensor information of a location where a fire detection signal is transmitted; Fire extinguishing equipment control unit for controlling the fire extinguishing equipment; A fire detection computer for monitoring fire detection; A/C power supply for receiving external power and providing power; And a UPS emergency power supply unit that provides emergency power when external power is cut off, wherein the IP address is managed in response to location information including a lot number and a block.

However, the prior art requires a relay hub to connect each fire detection sensor and, at the same time, requires a new installation of an IP-type network fire receiver. There is a problem of not being able to apply 1:1 replacement to the type detection system. In addition, in order to apply the above-described prior art, it is difficult to apply other than a new building because the facility needs to be newly constructed and related network wiring must be newly constructed.

As another prior art, in Korean Patent Publication No. 10-2017-0065217 (combined fire detector and fire monitoring system including the same), a composite fire detector is a temperature sensor that detects temperature and transmits a temperature detection signal, and a flame by detecting a flame. A sensor unit including a flame sensor that transmits a detection signal and a smoke sensor that detects smoke and transmits a smoke detection signal, and a combination of the detection signals transmitted by the sensors constituting the sensor unit to determine whether a fire has occurred. Disclosed is a configuration including a control unit and a communication unit that communicates with the outside under control of the control unit.

However, since the prior art simply combines various types of fire detection sensors and judges them with the detected information, accurate discrimination in the determination of fire detection is poor, and fires are detected using various types of sensors and fired with a camera. It is a structure that shoots video and transmits a fire occurrence signal in a wireless manner through the communication unit. Due to the excessive power required per fire detector, it is not possible to use 1:1 replacement with the existing P-type or R-type fire detection system, and new facilities have to be equipped. There is a problem.

The present invention has been devised to solve the above problems, and allows the first sensor unit and the second sensor unit to detect and alarm fire through mutual complementation in different detection methods, than a conventional three-wavelength flame detector. The purpose of this is to provide a composite fire detector that can significantly reduce the cost, thereby reducing the cost burden, and to reduce non-fire reports by improving the accuracy of fire detection compared to conventional heat or smoke detectors.

In addition, the present invention does not require complex algorithms and control configurations for distinguishing between actual fireworks and non-fire similar fireworks (arc welding, sunlight, halogen lamps, fluorescent lamps, various colored lamps, etc.). Another object is to provide a composite fire detector that is easy to apply to an existing fire detection system because the fire is judged only by detection, so that the systemic load and power consumption are small.

The present invention includes a housing, a first sensor unit installed in the housing to detect in a manner other than a flame detection method, a second sensor unit installed in the housing to detect flame, and a front surface of the second sensor unit A filter unit that is installed and transmits a specific wavelength of light to the second sensor unit, and the measured value detected by the first sensor unit is set lower than the reference value of the prescribed fire alarm of the first sensor unit or exceeds an arbitrary operation value. And a control unit for issuing a preliminary fire alarm when the preliminary fire alarm is generated, and controlling an official fire alarm to be issued according to whether or not the second sensor unit detects a flame in a state in which the preliminary fire alarm is generated.

In addition, the first sensor unit is characterized in that applied as a smoke or heat sensor type sensor.

In addition, the operation value of the first sensor unit is set within a temperature range of 50 to 85°C, or a smoke concentration within a range of 7.5 to 50%.

In addition, the filter unit includes a first area passing through a 4.2 μm to 4.7 μm area corresponding to the wavelength of carbon dioxide generated from the flame of a flame, a second area passing through the 4.7 μm to 4.8 μm area corresponding to the wavelength of carbon monoxide, and an ultraviolet wavelength. A third region passing through a region corresponding to 180 nm to 260 nm; It characterized in that it consists of any one of.

The composite fire detector of the present invention has the following effects.

First, it is possible to significantly reduce the cost of the product than a flame detector having a conventional three-wavelength sensor.

Second, it is possible to improve the accuracy of fire detection compared to a conventional heat or smoke detector, and a fire alarm can be made quickly.

Third, since the algorithm according to the fire judgment is not complicated, the system load is reduced, the power consumption is low, and the conventional R-type and P-type fire detection systems can be replaced and applied.

1 is a block diagram showing a composite fire detector of the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

Conventional heat or smoke detectors are a problem in everyday life to determine whether an alarm is caused by a real fire or an incorrect malfunction when an alarm is issued, and the reliability of fire detection is degraded. By turning off the alarm switch, human injury occurred in the end.

The present invention solves these problems and improves detection accuracy to reduce non-fire alarms, and by detecting faster than the detection speed of conventional heat or smoke detectors, a detector and fire at a lower price instead of the IR3 type detection method using three sensors. Can be detected early.

As shown in FIG. 1, the composite fire detector of the present invention includes a housing 100, a first sensor unit 200 installed in the housing 100 to detect in a manner other than a flame detection method, and the The second sensor unit 300 is installed in the housing 100 to detect a flame, and the second sensor unit 300 is installed on the front side of the second sensor unit 300 to pass a specific wavelength of light and transmit it to the second sensor unit 300 When the measured value detected through the filter unit 400 and the first sensor unit 200 is set lower than the reference value of the prescribed fire alarm of the first sensor unit 200 or exceeds a predetermined operation value, a preliminary It is characterized by consisting of; a control unit 500 for issuing a fire alarm and controlling a formal fire alarm to be issued according to whether the second sensor unit 300 detects a flame in a state in which the preliminary fire alarm is generated.

The housing 100 is a configuration constituting the external shape of a fire detector, and a space is provided in the interior so that various electronic components necessary for fire detection can be installed. Since the housing 100 may have various shapes, the present invention is not limited thereto.

The first sensor unit 200 is a configuration applied as a fire detection sensor of a method other than a flame detection method. Therefore, it is preferable that the first sensor unit 200 be applied as a smoke or heat sensing type sensor.

In addition, the second sensor unit 300 is installed in the housing 100 to detect a flame, and the second sensor unit 300 itself does not have a function of selectively collecting light of a specific wavelength. You will receive the help of (400). The filter unit 400 is installed on the front side of the second sensor unit 300 to pass a specific wavelength of light and transmit it to the second sensor unit 300. Here, the specific wavelength corresponds to the wavelength to recognize the actual flame.

A sensor applied to a conventional flame detector (IR3 detector) is composed of each infrared sensor that detects three types of wavelengths. The second sensor unit 300 of the present invention detects a flame and generates a fire signal, but because it is mutually complementary with the first sensor unit 200, it does not satisfy the multiple sensor condition applied to the conventional flame detector. It has the advantage that fire detection can be achieved with minimal flame detection.

A feature of the present invention lies in the cooperative operation of the first sensor unit 200 and the second sensor unit 300. That is, according to the type of the first sensor unit 200, the operation value of the first sensor unit 200 is set lower than the fire alarm reference value prescribed by law or according to the situation, and the first sensor unit 200 When the detected measured value first reaches and exceeds the operating value, a preliminary fire alarm is generated. In this way, when a flame is detected through the second sensor unit 300 in the state in which the preliminary fire alarm is generated, a formal fire alarm is issued.

Therefore, since the present invention operates with an operation value set lower than the fire alarm reference value or arbitrarily set, when installed in a place where there is a risk of malfunction, it is possible to accurately determine the fire than a conventional fire detector of heat or smoke detection method. It has the effect of preventing non-fire alarms because official fire alarms are issued through detection.

Since the reference value of the first sensor unit 200 is subject to change due to the revision of the fire fighting law, the reference value is not specifically limited in the present invention, and the operation value of the first sensor unit 200 is in a lower range. It can be made within. In a preferred embodiment, the operating value is preferably set within the range of 50°C to 85°C, or 7.5% to 50% of the smoke concentration.

In addition, the filter unit 400 of the present invention has a first area passing through a 4.2 μm to 4.7 μm area corresponding to the wavelength of carbon dioxide generated from the flame of the flame, and a 4.7 μm to 4.8 μm area corresponding to the wavelength of carbon monoxide. A second region, a third region passing through a region of 180 nm to 260 nm corresponding to an ultraviolet wavelength; It is characterized by consisting of any one of the areas. The first and second regions correspond to infrared wavelengths.

Since the filter unit 400 of the present invention detects a flame with only one type of wavelength, the cost is significantly lower than that of a conventional three-wavelength flame detector (IR3 detector) to reduce the economic cost burden, and the actual flame generated in the event of a fire. No need for complex algorithms and control configurations to distinguish between fire and fire, but similar flames (arc welding, sunlight, halogen lamps, fluorescent lamps, and various colored lamps, etc.) It can be.

In the above, the present invention has been described with reference to the above embodiments, but it is of course possible to implement various modifications within the scope of the technical idea of the present invention.

100: housing
200: first sensor unit
300: second sensor unit
400: filter unit
500: control unit

Claims (4)

The housing 100,
A first sensor unit 200 installed in the housing 100 to detect in a manner other than a flame detection method,
A second sensor unit 300 installed in the housing 100 to detect a flame,
A filter unit 400 installed on the front side of the second sensor unit 300 to pass a specific wavelength of light and transmit it to the second sensor unit 300,
When the measured value detected by the first sensor unit 200 is set lower than the reference value of the prescribed fire alarm of the first sensor unit 200 or exceeds an arbitrary operation value, a preliminary fire alarm is issued, and the preliminary fire alarm is issued. In the state in which the fire alarm is generated, a control unit 500 that controls to issue a formal fire alarm according to whether or not the second sensor unit 300 detects a flame; a combined fire detector comprising:
The method of claim 1,
The first sensor unit 200 is a composite fire detector, characterized in that applied as a smoke or heat sensor type sensor
The method of claim 2,
The operation value of the first sensor unit 200 is set within a temperature range of 50 to 85°C, or a smoke concentration within a range of 7.5 to 50%.
The method of claim 1,
The filter unit 400 includes a first area passing through a 4.2 μm to 4.7 μm area corresponding to a wavelength of carbon dioxide generated from a flame of a flame, and a second area passing through a 4.7 μm to 4.8 μm area corresponding to a wavelength of carbon monoxide. , A third region passing through a region of 180 nm to 260 nm corresponding to an ultraviolet wavelength; Complex fire detector, characterized in that consisting of any one of

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